39 - Transport, packaging, storage and travel services
Goods & Services
Aeronautical radio navigation services; Air traffic control services; Air transport; Air transportation; GPS navigation services; Hazardous waste transportation services; Management of vehicular traffic flow through advanced communications network and technology; Rescue services; Vehicle routing by computer on data networks
2.
SYSTEM AND METHOD FOR COLLECTING AND PROCESSING DATA AND FOR UTILIZING ROBOTIC AND/OR HUMAN RESOURCES
A roaming sensor system is described herein. The system can have one or more robots. The system can collect and process data efficiently and utilize robotic and/or human resources effectively by scheduling priorities of robot and/ or human tasks, allocating the use of robot and/ or human resources, and optimizing robot and/or human routes across the infrastructure of an organization.
G05B 19/18 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form
Devices and methods for a low latency data telecommunication system and method for video, audio control data and other data for use with one or more robots and remote controls are disclosed. The data transmission can be digital. The data telecommunication system can enable the use of multiple robots and multiple remote controls in the same location with encrypted data transmission.
To improve efficient use of robots in human-centric environments, robots have to overcome a number of challenges, including mobility challenges, physical interface challenges, self-maintenance challenges, security challenges, and safety challenges. These challenges can be overcome either by adding technology to a robot or by adding infrastructure to a robot's environment.
A robotic system that can have a body and four flippers is described. Any or all of the flippers can be rotated. The flippers can have self-cleaning tracks. The tracks can be driven or passive. The robotic system can be controlled by, and send audio and/or video to and/or from, a remote operator control module. The methods of using and making the robotic system are also described.
Devices communicate with one another over a wireless channel according to a signal strength of a signal transmitted over the wireless channel. Digital data captured at a source is transmitted over the wireless channel at a first quality if the signal strength or latency is above a threshold and at a second quality if the signal strength or latency is below the threshold. In addition, noise can be inserted into the transmitted digital data as a way to alert the recipient of the signal of signal strength degradation at a finer granularity.
A robotic arm for use with a robotic system and methods for making and using the same are described. The arm can have multiple joints and can have one or more articulating end effectors. The arm and end effectors can have safety releases to prevent over-rotation. The arm can have individual cooling.
G05B 19/06 - Programme control other than numerical control, i.e. in sequence controllers or logic controllers using cams, discs, rods, drums or the like
A power monitor system and method are disclosed. The system can enable a self-regulating power supply to be used high current applications, but may be applicable to controlling any power supply. The power monitor system can include a power supply output sensor, a switching controller, and a reset circuit. The power monitor system can also include a charge storage device. A method of controlling a power supply can include the steps of monitoring the power supplied from the power supply, resetting the power supply, and maintaining power to the power supply monitor while the power supply resets.
G05F 1/569 - Regulating voltage or current wherein the variable actually regulated by the final control device is DC using semiconductor devices in series with the load as final control devices sensing a condition of the system or its load in addition to means responsive to deviations in the output of the system, e.g. current, voltage, power factor for protection
A robotic system that can have a body and four flippers is described. Any or all of the flippers can be rotated. The flippers can have self-cleaning tracks. The tracks can be driven or passive. The robotic system can be controlled by, and send audio and/or video to and/or from, a remote operator control module. The methods of using and making the robotic system are also described.
B60S 9/21 - Power driven manoeuvring fittings, e.g. reciprocably driven steppers or rotatably driven cams comprising a rotatably driven auxiliary wheel or endless track, e.g. driven by a ground wheel
