Abstract

Disclosed are systems and methods for operator monitoring and fatigue detection. Disclosed systems and methods may be used to monitor operators in real-time in order to identify and/or prevent any possible cause for a potential hazard by alerting the operator and/or taking preventive measures in the event of receiving a failed response from the operator. In some embodiments, operators may be monitored by a wearable device including a plurality of sensors. In some embodiments, a system for operator monitoring may include an operator monitoring device configured to determine operator positional data, a vehicle base station configured to determine vehicle positional data, apply a machine learning based algorithm to determine if the operator is in a state of reduced alertness, and perform a corrective measure responsive to determining that the operator is in a state of reduced alertness, and a server system configured to train the machine learning based algorithm.

IPC Classes  ?

• B60W 40/08 - Estimation or calculation of driving parameters for road vehicle drive control systems not related to the control of a particular sub-unit related to drivers or passengers
• H04W 4/02 - Services making use of location information

Abstract

Systems and methods for controlling devices through gestures sensed via an earbud. The earbud can include a set of electrodes configured to contact particular anatomic locations on an individual's ear. Based on electrophysiologic signals sensed via the electrode assembly, the system can identify gestures being performed by the user and control the external device accordingly.

IPC Classes  ?

• A61B 5/25 - Bioelectric electrodes therefor
• A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb
• A61B 5/279 - Bioelectric electrodes therefor specially adapted for particular uses
• A61B 5/316 - Modalities, i.e. specific diagnostic methods

Abstract

Systems and methods for controlling devices through gestures sensed via an earbud. The earbud can include a set of electrodes configured to contact particular anatomic locations on an individual's ear. Based on electrophysiologic signals sensed via the electrode assembly, the system can identify gestures being performed by the user and control the external device accordingly.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• A61B 5/00 - Measuring for diagnostic purposes ; Identification of persons
• A61B 5/256 - Wearable electrodes, e.g. having straps or bands

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's EEG or movements, translate the EEG or movements into directional intentions, transmit the directional intentions to a secondary device, receive a command for one or more actions from the secondary device based on the transmitted directional intentions and output at least one control signal to the non-tactile device based on the received command for one or more actions. The non-tactile device may receive signals corresponding to a user's EEG or movements using a gestural sensor and/or an EEG sensor.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• G01C 19/58 - Turn-sensitive devices without moving masses
• G06F 3/0346 - Pointing devices displaced or positioned by the user; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's EEG or movements, translate the EEG or movements into directional intentions, transmit the directional intentions to a secondary device, receive a command for one or more actions from the secondary device based on the transmitted directional intentions and output at least one control signal to the non-tactile device based on the received command for one or more actions. The non-tactile device may receive signals corresponding to a user's EEG or movements using a gestural sensor and/or an EEG sensor.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• G01C 19/58 - Turn-sensitive devices without moving masses
• G06F 3/0346 - Pointing devices displaced or positioned by the user; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors

Goods & Services

Dishwashers and washing machines that are wirelessly operated with headsets and earbuds. Headsets and earbuds that contain electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; headsets and earbuds that contain biological sensors and controllers to monitor the physical position and physiological status of users for non-medical purposes; headsets and earbuds that contain biological sensors and controllers for operating information processing equipment; computer input devices consisting of biological sensors and controllers embedded in headsets and earbuds; headsets and earbuds that employ biological sensors to operate and communicate with central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (loT) devices; headsets and ear buds containing biological sensors that enable elderly and disabled individuals to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (loT) devices; headsets and ear buds that enable elderly and disabled individuals to receive information and data from central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (loT) devices; headsets and ear buds that contain biological sensors and controllers; phones, smart phones, smart watches, and two-way radios that are operated with biological sensors in headsets and earbuds; augmented reality (AR) and virtual reality (VR) games (softwares), displays, video monitors, audio-visual entertainment systems that are operated with biological information collected by headsets and earbuds; video game softwares and computer game programs that are operated by headsets and earbuds that contain biological sensors; televisions, home theatres, audio receivers and amplifiers and speakers operated with biological information collected by headsets and earbuds; electronic payment terminals and smart phone payment applications that are operated using biological information collected by headsets and earbuds; headsets and earbuds that operate information processing devices using biological information; smart home automation hubs that are operated using headsets and earbuds that contain biological sensors; headsets and earbuds that contain biological sensors and controllers that are used to operate industrial robotic equipment and household appliances; headsets and earbuds that contain biological sensors and controllers; wearable sensors that enable disabled and elderly users to operate telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, by inputting commands with facial microgestures and electrical activity of the brain; headsets and ear buds used by elderly and disabled individuals to operate telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, whereby the commands are input with facial microgestures and electrical activity of the brain; thermostats and environmental controls that are operated using headsets and earbuds that translate facial microgestures and electrical activity of the brain into commands; wearable biological sensors that are used to operate and control wheelchairs and scooters by translating facial microgestures and electrical activity of the brain into commands. Wearable electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users; headsets and ear buds that incorporate electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users; wearable sensors that enable disabled and elderly users to operate prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment by inputting commands with facial microgestures and electrical activity of the brain; headsets and ear buds used by elderly and disabled individuals to operate prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment whereby the commands are input with facial microgestures and electrical activity of the brain; electronic systems that remotely monitor the health and alertness of individuals operating vehicles, vessels, trains, and heavy equipment. Ovens, microwave ovens, refrigerators, and clothing washers and dryers that are operated using biological sensors that enable the user to input commands with facial microgestures or electrical activity of the brain; air conditioners, furnaces, heat pumps, radiators, fans, exhaust fans, air impellers, water heaters, humidifiers, and dehumidifiers that are operated using headsets and earbuds that translate facial microgestures and electrical activity of the brain into commands. Wheelchairs and motor scooters that are operated using headsets and earbuds containing biological sensors that translate facial microgestures and electrical activity of the brain into commands; unmanned aircraft and drones that are operated using headsets and earbuds containing biological sensors that translate facial microgestures and electrical activity of the brain into commands. Adjustable beds, adjustable sofas, adjustable couches, and adjustable chairs for elderly and disabled individuals that are operated using wearable biological sensors that translate facial microgestures and electrical activity of the brain into commands; adjustable beds, adjustable sofas, adjustable couches, and adjustable chairs that are operated using wearable biological sensors that translate facial microgestures and electrical activity of the brain into commands. Smart clothing that contain electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; smart clothing that contain biological sensors and controllers to monitor the physical position and physiological status of users for non-medical purposes; smart clothing that contain biological sensors and controllers for operating information processing equipment; computer input devices consisting of biological sensors and controllers embedded smart clothing; smart clothing that employ biological sensors to operate and communicate with central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (loT) devices; smart clothing containing biological sensors that enable elderly and disabled individuals to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (loT) devices; smart clothing that enable elderly and disabled individuals to receive information and data from central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (loT) devices. Video game equipment operated with biological information collected by headsets and earbuds. Database management services for processing and managing data gathered from individuals with biological sensors. Providing online non-downloadable software for processing and managing data gathered from individuals with biological sensors; software as a service (SaaS) in the field of processing and managing data gathered from individuals with biological sensors; platform as a service (PAAS) featuring computer software and database management platforms for processing and managing data gathered from individuals with biological sensors; providing online non-downloadable software and database management services for controlling and managing Internet of Things (loT) devices by processing data gathered from individuals with biological sensors; software as a service (SaaS) provider in the field of controlling and managing Internet of Things (loT) devices by processing data gathered from individuals with biological sensors; platform as a service (PAAS) featuring computer software and database management platforms for controlling and managing Internet of Things (loT) devices by processing commands gathered from individuals with biological sensors; providing online non-downloadable software and database management services for the purpose of monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment; software as a service (SaaS) provider for the purpose of monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment; Platform as a service (PAAS) featuring computer software and database management platforms for the purpose of monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment.

Abstract

Disclosed are systems and methods for operator monitoring and fatigue detection. Disclosed systems and methods may be used to monitor operators in real-time in order to identify and/or prevent any possible cause for a potential hazard by alerting the operator and/or taking preventive measures in the event of receiving a failed response from the operator. In some embodiments, operators may be monitored by a wearable device including a plurality of sensors. In some embodiments, a system for operator monitoring may include an operator monitoring device configured to determine operator positional data, a vehicle base station configured to determine vehicle positional data, apply a machine learning based algorithm to determine if the operator is in a state of reduced alertness, and perform a corrective measure responsive to determining that the operator is in a state of reduced alertness, and a server system configured to train the machine learning based algorithm.

IPC Classes  ?

• G08B 21/06 - Alarms for ensuring the safety of persons indicating a condition of sleep, e.g. anti-dozing alarms
• A61B 5/18 - Devices for psychotechnics; Testing reaction times for vehicle drivers
• B60K 28/02 - Safety devices for propulsion-unit control, specially adapted for, or arranged in, vehicles, e.g. preventing fuel supply or ignition in the event of potentially dangerous conditions responsive to conditions relating to the driver
• B61L 25/02 - Indicating or recording positions or identities of vehicles or vehicle trains
• A61B 5/24 - Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
• H04W 4/48 - Services specially adapted for particular environments, situations or purposes for vehicles, e.g. vehicle-to-pedestrians [V2P] for in-vehicle communication

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's brain waves or movements, the brain waves or movements corresponding to a series of directional intentions, the intentions defining at least one line pattern, a processor configured to process the at least one line pattern, each of said at least one line patterns associated with an action of the device, and output a control signal to the non-tactile device related to the action.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb
• A61B 5/245 - Detecting biomagnetic fields, e.g. magnetic fields produced by bioelectric currents specially adapted for magnetoencephalographic [MEG] signals
• A61B 5/316 - Modalities, i.e. specific diagnostic methods
• A61B 5/369 - Electroencephalography [EEG]
• G06F 16/435 - Filtering based on additional data, e.g. user or group profiles
• G06F 16/635 - Filtering based on additional data, e.g. user or group profiles

Goods & Services

Household and commercial cleaning and washing appliances that are operated by users via biosignal-controlled headsets and earbuds, namely, dishwashers and washing machines; industrial robotic equipment, namely, industrial robotic floor cleaners, industrial robotic lawn mowers, industrial robotic vacuum cleaners, industrial robots for cleaning floors, industrial robots for welding, robotic arms for assembling, robotic arms for automated painting, robotic arms for handling thermal spray guns, robotic arms for packaging, robotic exoskeleton suits other than for medical purposes and robotic sanders, that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds; household robotic equipment, namely, household robotic floor cleaners, household robotic lawn mowers, household robotic vacuum cleaners, household cleaning and laundry robots, electric food processors, housekeeping robots for household cleaning tasks, ironing robots, robots and robotic arms for dishwashing, robots and robotic arms for cleaning and drying clothing and robotic ovens, that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds Wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner earpressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes; headsets and ear buds that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to utilize biosignals to generate information and commands for input into other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that enable users to operate central processing units (CPUs), microprocessors, and machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment attached to users that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look?free basis; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice?free, and look-free basis; headsets and ear buds that enable disabled and elderly users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; smart headsets and smart ear buds; telecommunication devices, namely, mobile phones, smart phones, smart watches, and two-way radios, that are operated on a hands-free, look-free, and voice-free basis by users via biosignal-controlled headsets and earbuds; biosignal-controlled Augmented reality (AR) and virtual reality (VR) devices and systems operated via biosignal-controlled headsets and ear buds, namely, central processing units (CPUs), microprocessors, machine controllers and peripheral equipment to enable game play, video monitoring, audio-visual entertainment, and sport simulation; downloadable and recorded video game and computer game software that is operated via biosignal-controlled headsets and earbuds; entertainment equipment and systems, namely, central processing units (CPUs), microprocessors, machine controllers, and peripheral equipment, that are operated via biosignal-controlled headsets and earbuds for playing music, videos, films, shows and performances, and for downloading and streaming music, videos, films, shows and performances from the Internet; payment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, electronic payment terminals and downloadable and recorded software for smart phones, namely, software for making and receiving payments; biosignal-controlled information and processing devices and systems that manage storage, retrieval, and processing of data via biosignal-controlled headsets and earbuds; smart home systems for integrating and managing home lighting, temperature, and entertainment devices, which are all operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds; processing and control equipment that operates and manages smart city functions and infrastructure, namely, traffic control, bridges, tunnels, power generation and distribution, water supplies, wastewater collection, waste collection and disposal, crime detection and law enforcement, computer networks andtelecommunication systems with commands and information generated by biosignals, namely, traffic control, bridges, tunnels, systems, power plants, water supply networks, waste collection and disposal, crime detection, and wireless phone and computer networks; wearable computerized electronic devices in the nature of central processing units (CPUs), microprocessors, machine controllers and peripheral equipment for monitoring operator vigilance, namely, monitoring and assessing the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured using biosignal sensors; HVAC systems and apparatus that are operated via biosignal-controlled headsets and earbuds, namely, thermostats and HVAC environmental controls Wearable computerized electronic devices in the nature of wearable body monitors used to detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users for medical purposes; headsets and ear bud monitors used to detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users for medical purposes; wearable biosignal-controlled devices that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis; wearable headsets and ear bud monitors used to enable disabled and elderly users to operate and control prosthetics on a hands-free, look-free, and voice-free basis; medical devices, namely, wearable walking exoskeleton robots for medical purposes and robotic blood pressure measuring devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds Household and commercial appliances that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds, namely, cooking ovens, microwave ovens, refrigerators, and clothes dryers; HVAC units that are operated via biosignal-controlled headsets and earbuds, namely, air conditioners, furnaces, heat pumps, radiators, fans for HVAC units, exhaust fans, air impellers for ventilation, water heaters, humidifiers, and dehumidifiers Wheelchairs and motor scooters that are operated hands-free by users via biosignal-controlled headsets and earbuds; unmanned aircraft and drones that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds Adjustable beds and adjustable furniture that are operated hands-free, voice-free, and look-free by users via biosignal-controlled headsets and earbuds Providing online non-downloadable software for use in database management and processing and managing data and commands gathered from individuals with biosignal sensors; software as a service (SaaS) services featuring software for processing and managing data and commands gathered from individuals with biosignal sensors; platform as a service (PAAS) featuring computer software platforms for use in database management and processing and managing data and commands gathered from individuals with biosignal sensors; providing online non-downloadable software for use in database management and controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors; software as a service (SaaS) services featuring software for controlling and managing Internet of Things (IoT) devices by processing and disseminating commands and data received from individuals with biosignal sensors; platform as a service (PAAS) featuring computer software platforms for database management and controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors; providing online non-downloadable software for database management and operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors; software as a service (SaaS) services featuring software for operator vigilance, namely, monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured via biosignal sensors; platform as a service (PAAS) featuring computer software platforms for use in database management and operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors

Goods & Services

Household and commercial cleaning and washing appliances that are operated by users via biosignal-controlled headsets and earbuds, namely, dishwashers and washing machines; industrial robotic equipment, namely, industrial robotic floor cleaners, industrial robotic lawn mowers, industrial robotic vacuum cleaners, industrial robots for cleaning floors, industrial robots for welding, robotic arms for assembling, robotic arms for automated painting, robotic arms for handling thermal spray guns, robotic arms for packaging, robotic exoskeleton suits other than for medical purposes and robotic sanders, that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds; household robotic equipment, namely, household robotic floor cleaners, household robotic lawn mowers, household robotic vacuum cleaners, household cleaning and laundry robots, electric food processors, housekeeping robots for household cleaning tasks, ironing robots, robots and robotic arms for dishwashing, robots and robotic arms for cleaning and drying clothing and robotic ovens, that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds Wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes; headsets and ear buds that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to utilize biosignals to generate information and commands for input into other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that enable users to operate central processing units (CPUs), microprocessors, and machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment attached to users that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look?free basis; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice?free, and look-free basis; headsets and ear buds that enable disabled and elderly users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; smart headsets and smart ear buds; telecommunication devices, namely, mobile phones, smart phones, smart watches, and two-way radios, that are operated on a hands-free, look-free, and voice-free basis by users via biosignal-controlled headsets and earbuds; biosignal-controlled Augmented reality (AR) and virtual reality (VR) devices and systems operated via biosignal-controlled headsets and ear buds, namely, central processing units (CPUs), microprocessors, machine controllers and peripheral equipment to enable game play, video monitoring, audio-visual entertainment, and sport simulation; downloadable and recorded video game and computer game software that is operated via biosignal-controlled headsets and earbuds; entertainment equipment and systems, namely, central processing units (CPUs), microprocessors, machine controllers, and peripheral equipment, that are operated via biosignal-controlled headsets and earbuds for playing music, videos, films, shows and performances, and for downloading and streaming music, videos, films, shows and performances from the Internet; payment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, electronic payment terminals and downloadable and recorded software for smart phones, namely, software for making and receiving payments; biosignal-controlled information and processing devices and systems that manage storage, retrieval, and processing of data via biosignal-controlled headsets and earbuds; smart home systems for integrating and managing home lighting, temperature, and entertainment devices, which are all operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds; processing and control equipment that operates and manages smart city functions and infrastructure, namely, traffic control, bridges, tunnels, power generation and distribution, water supplies, wastewater collection, waste collection and disposal, crime detection and law enforcement, computer networks andtelecommunication systems with commands and information generated by biosignals, namely, traffic control, bridges, tunnels, systems, power plants, water supply networks, waste collection and disposal, crime detection, and wireless phone and computer networks; wearable computerized electronic devices in the nature of central processing units (CPUs), microprocessors, machine controllers and peripheral equipment for monitoring operator vigilance, namely, monitoring and assessing the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured using biosignal sensors; HVAC systems and apparatus that are operated via biosignal-controlled headsets and earbuds, namely, thermostats and HVAC environmental controls Wearable computerized electronic devices in the nature of wearable body monitors used to detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users for medical purposes; headsets and ear bud monitors used to detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users for medical purposes; wearable biosignal-controlled devices that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis; wearable headsets and ear bud monitors used to enable disabled and elderly users to operate and control prosthetics on a hands-free, look-free, and voice-free basis; medical devices, namely, wearable walking exoskeleton robots for medical purposes and robotic blood pressure measuring devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds Household and commercial appliances that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds, namely, cooking ovens, microwave ovens, refrigerators, and clothes dryers; HVAC units that are operated via biosignal-controlled headsets and earbuds, namely, air conditioners, furnaces, heat pumps, radiators, fans for HVAC units, exhaust fans, air impellers for ventilation, water heaters, humidifiers, and dehumidifiers Wheelchairs and motor scooters that are operated hands-free by users via biosignal-controlled headsets and earbuds; unmanned aircraft and drones that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds Adjustable beds and adjustable furniture that are operated hands-free, voice-free, and look-free by users via biosignal-controlled headsets and earbuds Providing online non-downloadable software for use in database management and processing and managing data and commands gathered from individuals with biosignal sensors; software as a service (SaaS) services featuring software for processing and managing data and commands gathered from individuals with biosignal sensors; platform as a service (PAAS) featuring computer software platforms for use in database management and processing and managing data and commands gathered from individuals with biosignal sensors; providing online non-downloadable software for use in database management and controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors; software as a service (SaaS) services featuring software for controlling and managing Internet of Things (IoT) devices by processing and disseminating commands and data received from individuals with biosignal sensors; platform as a service (PAAS) featuring computer software platforms for database management and controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors; providing online non-downloadable software for database management and operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors; software as a service (SaaS) services featuring software for operator vigilance, namely, monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured via biosignal sensors; platform as a service (PAAS) featuring computer software platforms for use in database management and operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors

Goods & Services

Household and commercial cleaning and washing appliances that are operated by users via biosignal-controlled headsets and earbuds, namely, dishwashers and washing machines; industrial robotic equipment, namely, industrial robotic floor cleaners, industrial robotic lawn mowers, industrial robotic vacuum cleaners, industrial robots for cleaning floors, industrial robots for welding, robotic arms for assembling, robotic arms for automated painting, robotic arms for handling thermal spray guns, robotic arms for packaging, robotic exoskeleton suits other than for medical purposes and robotic sanders, that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds; household robotic equipment, namely, household robotic floor cleaners, household robotic lawn mowers, household robotic vacuum cleaners, household cleaning and laundry robots, electric food processors, housekeeping robots for household cleaning tasks, ironing robots, robots and robotic arms for dishwashing, robots and robotic arms for cleaning and drying clothing and robotic ovens, that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds Wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner earpressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes; headsets and ear buds that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to utilize biosignals to generate information and commands for input into other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that enable users to operate central processing units (CPUs), microprocessors, and machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment attached to users that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look?free basis; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice?free, and look-free basis; headsets and ear buds that enable disabled and elderly users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; smart headsets and smart ear buds; telecommunication devices, namely, mobile phones, smart phones, smart watches, and two-way radios, that are operated on a hands-free, look-free, and voice-free basis by users via biosignal-controlled headsets and earbuds; biosignal-controlled Augmented reality (AR) and virtual reality (VR) devices and systems operated via biosignal-controlled headsets and ear buds, namely, central processing units (CPUs), microprocessors, machine controllers and peripheral equipment to enable game play, video monitoring, audio-visual entertainment, and sport simulation; downloadable and recorded video game and computer game software that is operated via biosignal-controlled headsets and earbuds; entertainment equipment and systems, namely, central processing units (CPUs), microprocessors, machine controllers, and peripheral equipment, that are operated via biosignal-controlled headsets and earbuds for playing music, videos, films, shows and performances, and for downloading and streaming music, videos, films, shows and performances from the Internet; payment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, electronic payment terminals and downloadable and recorded software for smart phones, namely, software for making and receiving payments; biosignal-controlled information and processing devices and systems that manage storage, retrieval, and processing of data via biosignal-controlled headsets and earbuds; smart home systems for integrating and managing home lighting, temperature, and entertainment devices, which are all operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds; processing and control equipment that operates and manages smart city functions and infrastructure, namely, traffic control, bridges, tunnels, power generation and distribution, water supplies, wastewater collection, waste collection and disposal, crime detection and law enforcement, computer networks andtelecommunication systems with commands and information generated by biosignals, namely, traffic control, bridges, tunnels, systems, power plants, water supply networks, waste collection and disposal, crime detection, and wireless phone and computer networks; wearable computerized electronic devices in the nature of central processing units (CPUs), microprocessors, machine controllers and peripheral equipment for monitoring operator vigilance, namely, monitoring and assessing the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured using biosignal sensors; HVAC systems and apparatus that are operated via biosignal-controlled headsets and earbuds, namely, thermostats and HVAC environmental controls Wearable computerized electronic devices in the nature of wearable body monitors used to detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users for medical purposes; headsets and ear bud monitors used to detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users for medical purposes; wearable biosignal-controlled devices that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis; wearable headsets and ear bud monitors used to enable disabled and elderly users to operate and control prosthetics on a hands-free, look-free, and voice-free basis; medical devices, namely, wearable walking exoskeleton robots for medical purposes and robotic blood pressure measuring devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds Household and commercial appliances that are operated hands-free, look-free, and voice-free by users via biosignal-controlledheadsets and earbuds, namely, cooking ovens, microwave ovens, refrigerators, and clothes dryers; HVAC units that are operated via biosignal-controlled headsets and earbuds, namely, air conditioners, furnaces, heat pumps, radiators, fans for HVAC units, exhaust fans, air impellers for ventilation, water heaters, humidifiers, and dehumidifiers Wheelchairs and motor scooters that are operated hands-free by users via biosignal-controlled headsets and earbuds; unmanned aircraft and drones that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds Adjustable beds and adjustable furniture that are operated hands-free, voice-free, and look-free by users via biosignal-controlled headsets and earbuds Providing online non-downloadable software for use in database management and processing and managing data and commands gathered from individuals with biosignal sensors; software as a service (SaaS) services featuring software for processing and managing data and commands gathered from individuals with biosignal sensors; platform as a service (PAAS) featuring computer software platforms for use in database management and processing and managing data and commands gathered from individuals with biosignal sensors; providing online non-downloadable software for use in database management and controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors; software as a service (SaaS) services featuring software for controlling and managing Internet of Things (IoT) devices by processing and disseminating commands and data received from individuals with biosignal sensors; platform as a service (PAAS) featuring computer software platforms for database management and controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors; providing online non-downloadable software for database management and operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors; software as a service (SaaS) services featuring software for operator vigilance, namely, monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured via biosignal sensors; platform as a service (PAAS) featuring computer software platforms for use in database management and operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors

Goods & Services

Household and commercial cleaning and washing appliances that are operated by users via biosignal-controlled headsets and earbuds, namely, dishwashers and washing machines; industrial robotic equipment, namely, industrial robotic floor cleaners, industrial robotic lawn mowers, industrial robotic vacuum cleaners, industrial robots for cleaning floors, industrial robots for welding, robotic arms for assembling, robotic arms for automated painting, robotic arms for handling thermal spray guns, robotic arms for packaging, robotic exoskeleton suits other than for medical purposes and robotic sanders, that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds; household robotic equipment, namely, household robotic floor cleaners, household robotic lawn mowers, household robotic vacuum cleaners, household cleaning and laundry robots, electric food processors, housekeeping robots for household cleaning tasks, ironing robots, robots and robotic arms for dishwashing, robots and robotic arms for cleaning and drying clothing and robotic ovens, that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds Wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes; headsets and ear buds that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to utilize biosignals to generate information and commands for input into other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices; headsets and ear buds that enable users to operate central processing units (CPUs), microprocessors, and machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment attached to users that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; wearable computerized electronic devices in the nature of wearable central processing units (CPUs), microprocessors, machine controllers and peripheral equipment that enable users to operate other central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; headsets and ear buds that enable disabled and elderly users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis; smart headsets and smart ear buds; telecommunication devices, namely mobile phones, smart phones, smart watches, and two-way radios, that are operated on a hands-free, look-free, and voice-free basis by users via biosignal-controlled headsets and earbuds; biosignal-controlled Augmented reality (AR) and virtual reality (VR) devices and systems operated via biosignal-controlled headsets and ear buds, namely, central processing units (CPUs), microprocessors, machine controllers and peripheral equipment to enable game play, video monitoring, audio-visual entertainment, and sport simulation; downloadable and recorded video game and computer game software that is operated via biosignal-controlled headsets and earbuds; entertainment equipment and systems, namely central processing units (CPUs), microprocessors, machine controllers, and peripheral equipment, that are operated via biosignal-controlled headsets and earbuds for playing music, videos, films, shows and performances, and for downloading and streaming music, videos, films, shows and performances from the Internet; payment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, electronic payment terminals and downloadable and recorded software for smart phones, namely software for making and receiving payments; biosignal-controlled information and processing devices and systems that manage storage, retrieval, and processing of data via biosignal-controlled headsets and earbuds; smart home systems for integrating and managing home lighting, temperature, and entertainment devices, which are all operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds; processing and control equipment that operates and manages smart city functions and infrastructure namely, traffic control, bridges, tunnels, power generation and distribution, water supplies, wastewater collection, waste collection and disposal, crime detection and law enforcement, computer networks andtelecommunication systems with commands and information generated by biosignals, namely, traffic control, bridges, tunnels, systems, power plants, water supply networks, waste collection and disposal, crime detection, and wireless phone and computer networks; wearable computerized electronic devices in the nature of central processing units (CPUs), microprocessors, machine controllers and peripheral equipment for monitoring operator vigilance, namely monitoring and assessing the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured using biosignal sensors; HVAC systems and apparatus that are operated via biosignal-controlled headsets and earbuds, namely, thermostats and HVAC environmental controls Wearable computerized electronic devices in the nature of wearable body monitors used to detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users for medical purposes; headsets and ear bud monitors used to detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users for medical purposes; wearable biosignal-controlled devices that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis; wearable headsets and ear bud monitors used to enable disabled and elderly users to operate and control prosthetics on a hands-free, look-free, and voice-free basis; medical devices, namely, wearable walking exoskeleton robots for medical purposes and robotic blood pressure measuring devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds Household and commercial appliances that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds, namely, cooking ovens, microwave ovens, refrigerators, and clothes dryers; HVAC units that are operated via biosignal-controlled headsets and earbuds, namely, air conditioners, furnaces, heat pumps, radiators, fans for HVAC units, exhaust fans, air impellers for ventilation, water heaters, humidifiers, and dehumidifiers Wheelchairs and motor scooters that are operated hands-free by users via biosignal-controlled headsets and earbuds; unmanned aircraft and drones that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds Adjustable beds and adjustable furniture that are operated hands-free, voice-free, and look-free by users via biosignal-controlled headsets and earbuds Providing online non-downloadable software for use in database management and processing and managing data and commands gathered from individuals with biosignal sensors; software as a service (SaaS) services featuring software for processing and managing data and commands gathered from individuals with biosignal sensors; platform as a service (PAAS) featuring computer software platforms for use in database management and processing and managing data and commands gathered from individuals with biosignal sensors; providing online non-downloadable software for use in database management and controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors; software as a service (SaaS) services featuring software for controlling and managing Internet of Things (IoT) devices by processing and disseminating commands and data received from individuals with biosignal sensors; platform as a service (PAAS) featuring computer software platforms for database management and controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors; providing online non-downloadable software for database management and operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors; software as a service (SaaS) services featuring software for operator vigilance, namely, monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured via biosignal sensors; platform as a service (PAAS) featuring computer software platforms for use in database management and operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors

Goods & Services

(1) Household and commercial cleaning and washing appliances that are operated by users via biosignal-controlled headsets and earbuds, namely, dishwashers and washing machines. Industrial and household robotic equipment that is operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds. (2) Wearable computerized electronic devices that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes. Headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes. Wearable computerized electronic devices that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes. Headsets and ear buds that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes. Wearable computerized electronic devices that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Wearable computerized electronic devices that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Wearable computerized electronic devices that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that enable users to operate central processing units (CPUs), microprocessors, and machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Computerized electronic devices attached to users that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Wearable computerized electronic devices that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Headsets and ear buds that enable disabled and elderly users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Smart headsets and smart ear buds. Telecommunication devices, namely phones, smart phones, smart watches, and two-way radios, that are operated on a hands-free, look-free, and voice-free basis by users via biosignal-controlled headsets and earbuds. Biosignal-controlled Augmented reality (AR) and virtual reality (VR) devices and systems operated via biosignal-controlled headsets and ear buds, namely games, displays, video monitors, audio-visual entertainment systems, and sport simulation. Video game and computer game systems that are operated via biosignal-controlled headsets and earbuds. Entertainment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, systems and equipment for playing music, videos, films, shows and performances, and for downloading and streaming music, videos, films, shows and performances from the Internet. Payment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, electronic payment terminals and smart phone payment applications. Biosignal-controlled information and processing devices and systems that manage storage, retrieval, and processing of data via biosignal-controlled headsets and earbuds. Smart home systems for integrating and managing home lighting, temperature, and entertainment devices, which are all operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. Processing and control equipment that operates and manages smart city functions and infrastructure with commands and information generated by biosignals, namely, traffic control, bridges, tunnels, systems, power plants, water supply networks, waste collection and disposal, crime detection, and wireless phone and computer networks. Wearable computerized electronic devices for monitoring operator vigilance, namely monitoring and assessing the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured using biosignal sensors. (3) Wearable computerized electronic devices that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users. Headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users. Wearable biosignal-controlled devices that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Headsets and ear buds that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Medical devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. Headsets and ear buds that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Medical devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. (4) Household and commercial appliances that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds, namely, ovens, microwave ovens, refrigerators, and clothes dryers. HVAC systems and apparatus and that are operated via biosignal-controlled headsets and earbuds, namely, air conditioners, furnaces, thermostats, heat pumps, radiators, fans, exhaust fans, air impellers, water heaters, environmental controls, humidifiers, and dehumidifiers. (5) Wearable biosignal-controlled devices that enable users to operate and control wheelchairs and scooters on a hands-free, voice-free, and look-free basis. Wheelchairs and motor scooters that are operated hands-free by users via biosignal-controlled headsets and earbuds. Unmanned aircraft and drones that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds. (6) Wearable biosignal-controlled devices that enable disabled and elderly users to operate and control, adjustable beds, and adjustable sofas, couches and chairs on a hands-free, voice-free, and look-free basis. Adjustable beds and adjustable furniture that are operated hands-free, voice-free, and look-free by users via biosignal-controlled headsets and earbuds, namely, ovens, microwave ovens, refrigerators, and clothes dryers. (1) Providing online non-downloadable software and database management services for processing and managing data and commands gathered from individuals with biosignal sensors. Software as a service (SaaS) provider in the field of processing and managing data and commands gathered from individuals with biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms for processing and managing data and commands gathered from individuals with biosignal sensors. Providing online non-downloadable software and database management services for controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors. Software as a service (SaaS) provider in the field of controlling and managing Internet of Things (IoT) devices by processing and disseminating commands and data received from individuals with biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms for controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors. Providing online non-downloadable software and database management services in the field of operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors. Software as a service (SaaS) provider in the field of operator vigilance, namely, monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured via biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms in the field of operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors.

Goods & Services

(1) Household and commercial cleaning and washing appliances that are operated by users via biosignal-controlled headsets and earbuds, namely, dishwashers and washing machines. Industrial and household robotic equipment that is operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds. (2) Wearable computerized electronic devices that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes. Headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes. Wearable computerized electronic devices that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes. Headsets and ear buds that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes. Wearable computerized electronic devices that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Wearable computerized electronic devices that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Wearable computerized electronic devices that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that enable users to operate central processing units (CPUs), microprocessors, and machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Computerized electronic devices attached to users that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Wearable computerized electronic devices that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Headsets and ear buds that enable disabled and elderly users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Smart headsets and smart ear buds. Telecommunication devices, namely phones, smart phones, smart watches, and two-way radios, that are operated on a hands-free, look-free, and voice-free basis by users via biosignal-controlled headsets and earbuds. Biosignal-controlled Augmented reality (AR) and virtual reality (VR) devices and systems operated via biosignal-controlled headsets and ear buds, namely games, displays, video monitors, audio-visual entertainment systems, and sport simulation. Video game and computer game systems that are operated via biosignal-controlled headsets and earbuds. Entertainment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, systems and equipment for playing music, videos, films, shows and performances, and for downloading and streaming music, videos, films, shows and performances from the Internet. Payment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, electronic payment terminals and smart phone payment applications. Biosignal-controlled information and processing devices and systems that manage storage, retrieval, and processing of data via biosignal-controlled headsets and earbuds. Smart home systems for integrating and managing home lighting, temperature, and entertainment devices, which are all operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. Processing and control equipment that operates and manages smart city functions and infrastructure with commands and information generated by biosignals, namely, traffic control, bridges, tunnels, systems, power plants, water supply networks, waste collection and disposal, crime detection, and wireless phone and computer networks. Wearable computerized electronic devices for monitoring operator vigilance, namely monitoring and assessing the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured using biosignal sensors. (3) Wearable computerized electronic devices that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users. Headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users. Wearable biosignal-controlled devices that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Headsets and ear buds that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Medical devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. (4) Household and commercial appliances that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds, namely, ovens, microwave ovens, refrigerators, and clothes dryers. HVAC systems and apparatus and that are operated via biosignal-controlled headsets and earbuds, namely, air conditioners, furnaces, thermostats, heat pumps, radiators, fans, exhaust fans, air impellers, water heaters, environmental controls, humidifiers, and dehumidifiers. (5) Wearable biosignal-controlled devices that enable users to operate and control wheelchairs and scooters on a hands-free, voice-free, and look-free basis. Wheelchairs and motor scooters that are operated hands-free by users via biosignal-controlled headsets and earbuds. Unmanned aircraft and drones that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds. (6) Wearable biosignal-controlled devices that enable disabled and elderly users to operate and control, adjustable beds, and adjustable sofas, couches and chairs on a hands-free, voice-free, and look-free basis. Adjustable beds and adjustable furniture that are operated hands-free, voice-free, and look-free by users via biosignal-controlled headsets and earbuds, namely, ovens, microwave ovens, refrigerators, and clothes dryers. (1) Providing online non-downloadable software and database management services for processing and managing data and commands gathered from individuals with biosignal sensors. Software as a service (SaaS) provider in the field of processing and managing data and commands gathered from individuals with biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms for processing and managing data and commands gathered from individuals with biosignal sensors. Providing online non-downloadable software and database management services for controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors. Software as a service (SaaS) provider in the field of controlling and managing Internet of Things (IoT) devices by processing and disseminating commands and data received from individuals with biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms for controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors. Providing online non-downloadable software and database management services in the field of operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors. Software as a service (SaaS) provider in the field of operator vigilance, namely, monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured via biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms in the field of operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors.

Goods & Services

(1) Household and commercial cleaning and washing appliances that are operated by users via biosignal-controlled headsets and earbuds, namely, dishwashers and washing machines. Industrial and household robotic equipment that is operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds. (2) Wearable computerized electronic devices that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes. Headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes. Wearable computerized electronic devices that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes. Headsets and ear buds that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes. Wearable computerized electronic devices that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Wearable computerized electronic devices that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Wearable computerized electronic devices that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that enable users to operate central processing units (CPUs), microprocessors, and machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Computerized electronic devices attached to users that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Wearable computerized electronic devices that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Headsets and ear buds that enable disabled and elderly users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Smart headsets and smart ear buds. Telecommunication devices, namely phones, smart phones, smart watches, and two-way radios, that are operated on a hands-free, look-free, and voice-free basis by users via biosignal-controlled headsets and earbuds. Biosignal-controlled Augmented reality (AR) and virtual reality (VR) devices and systems operated via biosignal-controlled headsets and ear buds, namely games, displays, video monitors, audio-visual entertainment systems, and sport simulation. Video game and computer game systems that are operated via biosignal-controlled headsets and earbuds. Entertainment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, systems and equipment for playing music, videos, films, shows and performances, and for downloading and streaming music, videos, films, shows and performances from the Internet. Payment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, electronic payment terminals and smart phone payment applications. Biosignal-controlled information and processing devices and systems that manage storage, retrieval, and processing of data via biosignal-controlled headsets and earbuds. Smart home systems for integrating and managing home lighting, temperature, and entertainment devices, which are all operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. Processing and control equipment that operates and manages smart city functions and infrastructure with commands and information generated by biosignals, namely, traffic control, bridges, tunnels, systems, power plants, water supply networks, waste collection and disposal, crime detection, and wireless phone and computer networks. Wearable computerized electronic devices for monitoring operator vigilance, namely monitoring and assessing the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured using biosignal sensors. (3) Wearable computerized electronic devices that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users. Headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users. Wearable biosignal-controlled devices that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Headsets and ear buds that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Medical devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. (4) Household and commercial appliances that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds, namely, ovens, microwave ovens, refrigerators, and clothes dryers. HVAC systems and apparatus and that are operated via biosignal-controlled headsets and earbuds, namely, air conditioners, furnaces, thermostats, heat pumps, radiators, fans, exhaust fans, air impellers, water heaters, environmental controls, humidifiers, and dehumidifiers. (5) Wearable biosignal-controlled devices that enable users to operate and control wheelchairs and scooters on a hands-free, voice-free, and look-free basis. Wheelchairs and motor scooters that are operated hands-free by users via biosignal-controlled headsets and earbuds. Unmanned aircraft and drones that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds. (6) Wearable biosignal-controlled devices that enable disabled and elderly users to operate and control, adjustable beds, and adjustable sofas, couches and chairs on a hands-free, voice-free, and look-free basis. Adjustable beds and adjustable furniture that are operated hands-free, voice-free, and look-free by users via biosignal-controlled headsets and earbuds, namely, ovens, microwave ovens, refrigerators, and clothes dryers. (1) Providing online non-downloadable software and database management services for processing and managing data and commands gathered from individuals with biosignal sensors. Software as a service (SaaS) provider in the field of processing and managing data and commands gathered from individuals with biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms for processing and managing data and commands gathered from individuals with biosignal sensors. Providing online non-downloadable software and database management services for controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors. Software as a service (SaaS) provider in the field of controlling and managing Internet of Things (IoT) devices by processing and disseminating commands and data received from individuals with biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms for controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors. Providing online non-downloadable software and database management services in the field of operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors. Software as a service (SaaS) provider in the field of operator vigilance, namely, monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured via biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms in the field of operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors.

Goods & Services

(1) Household and commercial cleaning and washing appliances that are operated by users via biosignal-controlled headsets and earbuds, namely, dishwashers and washing machines. Industrial and household robotic equipment that is operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds. (2) Wearable computerized electronic devices that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes. Headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for non-medical purposes. Wearable computerized electronic devices that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes. Headsets and ear buds that convert biosignals into formats that enable remote monitoring of the physical position and physiological status of users for non-medical purposes. Wearable computerized electronic devices that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that convert biosignals into formats that enable users to transmit information and commands for input to central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Wearable computerized electronic devices that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that enable users to utilize biosignals to generate information and commands for input into central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Wearable computerized electronic devices that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices. Headsets and ear buds that enable users to operate central processing units (CPUs), microprocessors, and machine controllers, and Internet of Things (IoT) electronic devices by producing biosignals, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Computerized electronic devices attached to users that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Wearable computerized electronic devices that enable users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Headsets and ear buds that enable disabled and elderly users to operate central processing units (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, and to receive information and data from external (CPUs), microprocessors, machine controllers, and Internet of Things (IoT) electronic devices, all on a hands-free, voice-free, and look-free basis. Smart headsets and smart ear buds. Telecommunication devices, namely phones, smart phones, smart watches, and two-way radios, that are operated on a hands-free, look-free, and voice-free basis by users via biosignal-controlled headsets and earbuds. Biosignal-controlled Augmented reality (AR) and virtual reality (VR) devices and systems operated via biosignal-controlled headsets and ear buds, namely games, displays, video monitors, audio-visual entertainment systems, and sport simulation. Video game and computer game systems that are operated via biosignal-controlled headsets and earbuds. Entertainment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, systems and equipment for playing music, videos, films, shows and performances, and for downloading and streaming music, videos, films, shows and performances from the Internet. Payment equipment and systems that are operated via biosignal-controlled headsets and earbuds, namely, electronic payment terminals and smart phone payment applications. Biosignal-controlled information and processing devices and systems that manage storage, retrieval, and processing of data via biosignal-controlled headsets and earbuds. Smart home systems for integrating and managing home lighting, temperature, and entertainment devices, which are all operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. Processing and control equipment that operates and manages smart city functions and infrastructure with commands and information generated by biosignals, namely, traffic control, bridges, tunnels, systems, power plants, water supply networks, waste collection and disposal, crime detection, and wireless phone and computer networks. Wearable computerized electronic devices for monitoring operator vigilance, namely monitoring and assessing the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured using biosignal sensors. (3) Wearable computerized electronic devices that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users. Headsets and ear buds that detect, monitor, measure, gather, and process biosignals from humans or animals using electroencephalographic (EEG) sensors, electromyographic (EMG) sensors, inner ear pressure sensors, inner ear tactile pressure sensors, microgesture sensors, pressure sensors, gyroscopic sensors, accelerometer sensors, magnetic sensors, and global positioning (GPS) sensors for assessing and diagnosing the health and physiological condition of users. Wearable biosignal-controlled devices that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Headsets and ear buds that enable disabled and elderly users to operate and control prosthetics, adjustable beds, stairlifts, patient lifts, patient slings, patient transfer equipment, telephones, computers, entertainment equipment, lighting, security systems, automated room access and egress equipment, all on a hands-free, look-free, and voice-free basis. Medical devices that are operated hands-free, look-free, and voice-free via biosignal-controlled headsets and earbuds. (4) Household and commercial appliances that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds, namely, ovens, microwave ovens, refrigerators, and clothes dryers. HVAC systems and apparatus and that are operated via biosignal-controlled headsets and earbuds, namely, air conditioners, furnaces, thermostats, heat pumps, radiators, fans, exhaust fans, air impellers, water heaters, environmental controls, humidifiers, and dehumidifiers. (5) Wearable biosignal-controlled devices that enable users to operate and control wheelchairs and scooters on a hands-free, voice-free, and look-free basis. Wheelchairs and motor scooters that are operated hands-free by users via biosignal-controlled headsets and earbuds. Unmanned aircraft and drones that are operated hands-free, look-free, and voice-free by users via biosignal-controlled headsets and earbuds. (6) Wearable biosignal-controlled devices that enable disabled and elderly users to operate and control, adjustable beds, and adjustable sofas, couches and chairs on a hands-free, voice-free, and look-free basis. Adjustable beds and adjustable furniture that are operated hands-free, voice-free, and look-free by users via biosignal-controlled headsets and earbuds, namely, ovens, microwave ovens, refrigerators, and clothes dryers. (1) Providing online non-downloadable software and database management services for processing and managing data and commands gathered from individuals with biosignal sensors. Software as a service (SaaS) provider in the field of processing and managing data and commands gathered from individuals with biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms for processing and managing data and commands gathered from individuals with biosignal sensors. Providing online non-downloadable software and database management services for controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors. Software as a service (SaaS) provider in the field of controlling and managing Internet of Things (IoT) devices by processing and disseminating commands and data received from individuals with biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms for controlling and managing Internet of Things (IoT) devices by processing commands and data gathered from individuals with biosignal sensors. Providing online non-downloadable software and database management services in the field of operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors. Software as a service (SaaS) provider in the field of operator vigilance, namely, monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment measured via biosignal sensors. Platform as a service (PAAS) featuring computer software and database management platforms in the field of operator vigilance by monitoring the alertness, attention, diligence, and health condition of individuals operating vehicles, vessels, trains, and heavy equipment gathered with biosignal sensors.

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's EEG or movements, translate the EEG or movements into directional intentions, transmit the directional intentions to a secondary device, receive a command for one or more actions from the secondary device based on the transmitted directional intentions and output at least one control signal to the non-tactile device based on the received command for one or more actions. The non-tactile device may receive signals corresponding to a user's EEG or movements using a gestural sensor and/or an EEG sensor.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• G01C 19/58 - Turn-sensitive devices without moving masses
• G06F 3/0346 - Pointing devices displaced or positioned by the user; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's brain waves or movements, the brain waves or movements corresponding to a series of directional intentions, the intentions defining at least one line pattern, a processor configured to process the at least one line pattern, each of said at least one line patterns associated with an action of the device, and output a control signal to the non-tactile device related to the action.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• G06F 16/435 - Filtering based on additional data, e.g. user or group profiles
• G06F 16/635 - Filtering based on additional data, e.g. user or group profiles
• A61B 5/245 - Detecting biomagnetic fields, e.g. magnetic fields produced by bioelectric currents specially adapted for magnetoencephalographic [MEG] signals
• A61B 5/316 - Modalities, i.e. specific diagnostic methods
• A61B 5/369 - Electroencephalography [EEG]
• A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's EEG or movements, translate the EEG or movements into directional intentions, transmit the directional intentions to a secondary device, receive a command for one or more actions from the secondary device based on the transmitted directional intentions and output at least one control signal to the non-tactile device based on the received command for one or more actions. The non-tactile device may receive signals corresponding to a user's EEG or movements using a gestural sensor and/or an EEG sensor.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• G01C 19/58 - Turn-sensitive devices without moving masses
• G06F 3/0346 - Pointing devices displaced or positioned by the user; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's EEG or movements, translate the EEG or movements into directional intentions, transmit the directional intentions to a secondary device, receive a command for one or more actions from the secondary device based on the transmitted directional intentions and output at least one control signal to the non-tactile device based on the received command for one or more actions. The non-tactile device may receive signals corresponding to a user's EEG or movements using a gestural sensor and/or an EEG sensor.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• G01C 19/58 - Turn-sensitive devices without moving masses
• G06F 3/0346 - Pointing devices displaced or positioned by the user; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's brain waves or movements, the brain waves or movements corresponding to a series of directional intentions, the intentions defining at least one line pattern, a processor configured to process the at least one line pattern, each of said at least one line patterns associated with an action of the device, and output a control signal to the non-tactile device related to the action.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• A61B 5/04 - Measuring bioelectric signals of the body or parts thereof
• A61B 5/0476 - Electroencephalography
• G06F 16/435 - Filtering based on additional data, e.g. user or group profiles
• G06F 16/635 - Filtering based on additional data, e.g. user or group profiles
• A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's EEG or movements, translate the EEG or movements into directional intentions, transmit the directional intentions to a secondary device, receive a command for one or more actions from the secondary device based on the transmitted directional intentions and output at least one control signal to the non-tactile device based on the received command for one or more actions. The non-tactile device may receive signals corresponding to a user's EEG or movements using a gestural sensor and/or an EEG sensor.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• A61B 5/369 - Electroencephalography [EEG]
• A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's EEG or movements, translate the EEG or movements into directional intentions, transmit the directional intentions to a secondary device, receive a command for one or more actions from the secondary device based on the transmitted directional intentions and output at least one control signal to the non-tactile device based on the received command for one or more actions. The non-tactile device may receive signals corresponding to a user's EEG or movements using a gestural sensor and/or an EEG sensor.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• G01C 19/58 - Turn-sensitive devices without moving masses
• G06F 3/0346 - Pointing devices displaced or positioned by the user; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's brain waves or movements, the brain waves or movements corresponding to a series of directional intentions, the intentions defining at least one line pattern, a processor configured to process the at least one line pattern, each of said at least one line patterns associated with an action of the device, and output a control signal to the non-tactile device related to the action.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• G06F 17/30 - Information retrieval; Database structures therefor
• A61B 5/04 - Measuring bioelectric signals of the body or parts thereof
• A61B 5/0476 - Electroencephalography
• A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb

Abstract

A system and method for controlling a non-tactile device including a receiving device configured to receive signals corresponding to a user's brain waves or movements, the brain waves or movements corresponding to a series of directional intentions, the intentions defining at least one line pattern, a processor configured to process the at least one line pattern, each of said at least one line patterns associated with an action of the device, and output a control signal to the non-tactile device related to the action.

IPC Classes  ?

• G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
• A61B 5/04 - Measuring bioelectric signals of the body or parts thereof
• A61B 5/0476 - Electroencephalography