A training simulator provides an immersive virtual training environment depicting an operator performing healthcare tasks to a patient. The simulator includes a head-mounted display unit (HMDU). The HMDU includes a camera, a speaker, a display, and a sensor providing visual and audio output to the operator. The simulator also includes one or more controllers, each having a sensor. The controller sensors and the HMDU sensor output signals representing spatial positioning, angular orientation and movement data of the controllers relative to the patient. The simulator includes a data processing system that models and renders the patient including a condition of the patient, the operator, used healthcare equipment and supplies, changes to the condition of the patient and the used healthcare equipment and supplies, and sensory guidance as to the operator's performance of the healthcare tasks to simulate the virtual training environment and to evaluate the operator's performance.
A training simulator provides an immersive virtual training environment depicting an operator performing healthcare tasks to a patient. The simulator includes a head-mounted display unit (HMDU). The HMDU includes a camera, a speaker, a display, and a sensor providing visual and audio output to the operator. The simulator also includes one or more controllers, each having a sensor. The controller sensors and the HMDU sensor output signals representing spatial positioning, angular orientation and movement data of the controllers relative to the patient. The simulator includes a data processing system that models and renders the patient including a condition of the patient, the operator, used healthcare equipment and supplies, changes to the condition of the patient and the used healthcare equipment and supplies, and sensory guidance as to the operator' s performance of the healthcare tasks to simulate the virtual training environment and to evaluate the operator's performance.
The present invention is a simulator for skill-oriented training. The simulator includes a work piece platform having a sensor, a head-mounted display unit (HMDU) including a camera, a speaker and a sensor providing visual and audio output to an operator, and a controller having a controller sensor. The simulator includes a processor that executes algorithms to simulate a virtual training environment depicting a work piece rendered on the work piece platform. The controller sensor, the HMDU sensor and the platform sensor output signals to the processor representing spatial positioning, angular orientation and movement data of the controller relative to the work piece to render a virtual powder coating spray pattern including a stream having particles charged and emitted from the controller and a powder coating coverage as applied to the work piece during one or more passes of a powder coating spray process performed by the operator.
G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
G06F 3/04817 - Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance using icons
09 - Scientific and electric apparatus and instruments
Goods & Services
Downloadable virtual reality training simulation software in the field of medical care teaching, medical care training, patient care teaching and patient care training
09 - Scientific and electric apparatus and instruments
Goods & Services
Downloadable virtual reality training simulation software in the field of medical care teaching, medical care training, patient care teaching and patient care training
09 - Scientific and electric apparatus and instruments
Goods & Services
Downloadable computer software that records and analyzes user achievement on virtual reality training software, provides user achievement reports to software users and their teachers or instructors through a website, and connects user logins on the connected virtual reality training product with users of the website
09 - Scientific and electric apparatus and instruments
Goods & Services
Downloadable computer software that records and analyzes user achievement on virtual reality training software, provides user achievement reports to software users and their teachers or instructors through a website, and connects user logins on the connected virtual reality training product with users of the website
The present invention is a simulator for skill-oriented training. The simulator includes a work piece platform having a sensor, a head-mounted display unit (HMDU) including a camera, a speaker and a sensor providing visual and audio output to an operator, and a controller having a controller sensor. The simulator includes a processor that executes algorithms to simulate a virtual training environment depicting a work piece rendered on the work piece platform. The controller sensor, the HMDU sensor and the platform sensor output signals to the processor representing spatial positioning, angular orientation and movement data of the controller relative to the work piece to render a virtual powder coating spray pattern including a stream having particles charged and emitted from the controller and a powder coating coverage as applied to the work piece during one or more passes of a powder coating spray process performed by the operator.
G06F 3/04817 - Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance using icons
09 - Scientific and electric apparatus and instruments
Goods & Services
Downloadable virtual reality software for training simulation, namely, simulation of all aspects of the construction, carpentry, plumbing, masonry, surveying, painting and electrical industries, for use in training workers in the construction, carpentry, plumbing, masonry, surveying, painting, electrical, coatings and blasting industries
09 - Scientific and electric apparatus and instruments
Goods & Services
Virtual reality software for training simulation, namely,
simulation of all aspects of the construction, carpentry,
plumbing, masonry, surveying, welding, painting and
electrical industries, for use in training workers in the
construction, carpentry, plumbing, masonry, surveying,
welding, painting, electrical, coatings and blasting
industries.
09 - Scientific and electric apparatus and instruments
Goods & Services
Downloadable virtual reality software for training simulation, namely, simulation of all aspects of the construction, carpentry, plumbing, masonry, surveying, welding, painting and electrical industries, for use in training workers in the construction, carpentry, plumbing, masonry, surveying, welding, painting, electrical, coatings and blasting industries
A skill-based training system includes a processing system having a processor, memory coupled to the processor with executable instructions stored therein, and an input-output controller coupled to the processor and to input and output devices. The memory includes lesson plans that outline skill-based tasks and activities, and predetermined performance criteria. The processor is configured by the instructions to present interfaces on the output devices simulating a virtual training environment. The processor is configured to receive input signals representative of performing the tasks and activities in the virtual environment, and to evaluate the performance by comparing the performed tasks and activities to the criteria, to determine a score and to present the score on the output devices. The system includes work orders categorized by the lesson plans and defining within an increasing progression of a degree of skill, knowledge, critical thinking and problem solving needed to complete the tasks and activities.
The present invention is a simulator for skill-oriented training. The simulator includes a work piece platform having a sensor and an immersive virtual training environment depicting a work piece rendered on the work piece platform. The simulator includes a head-mounted display unit (HMDU). The HMDU includes a camera, a speaker and a sensor providing visual and audio output to the operator. The simulator also includes a controller having a sensor. The controller sensor, the HMDU sensor and the platform sensor output signals representing spatial positioning, angular orientation and movement data of the controller relative to the work piece. The simulator includes a data processing system that executes algorithms for rendering the work piece, a virtual powder coating spray pattern including a coating stream having particles and a coating coverage. The data processing system provides sensory guidance as to performance of the operator.
The present invention is a simulator for skill-oriented training. The simulator includes a work piece platform having a sensor and an immersive virtual training environment depicting a work piece rendered on the work piece platform. The simulator includes a head-mounted display unit (HMDU). The HMDU includes a camera, a speaker and a sensor providing visual and audio output to the operator. The simulator also includes a controller having a sensor. The controller sensor, the HMDU sensor and the platform sensor output signals representing spatial positioning, angular orientation and movement data of the controller relative to the work piece. The simulator includes a data processing system that executes algorithms for rendering the work piece, a virtual powder coating spray pattern including a coating stream having particles and a coating coverage. The data processing system provides sensory guidance as to performance of the operator.
A skill-based training system includes a processing system having a processor, memory coupled to the processor with executable instructions stored therein, and an input-output controller coupled to the processor and to input and output devices. The memory includes lesson plans that outline skill-based tasks and activities, and predetermined performance criteria. The processor is configured by the instructions to present interfaces on the output devices simulating a virtual training environment. The processor is configured to receive input signals representative of performing the tasks and activities in the virtual environment, and to evaluate the performance by comparing the performed tasks and activities to the criteria, to determine a score and to present the score on the output devices. The system includes work orders categorized by the lesson plans and defining within an increasing progression of a degree of skill, knowledge, critical thinking and problem solving needed to complete the tasks and activities.
A skill-based training system includes a processing system having a processor, memory coupled to the processor, and an input-output controller coupled to the processor and to input and output devices. The memory includes a learning management system, a work order system and predetermined performance criteria. The processor is configured to present interfaces on the output devices simulating an immersive virtual training environment. The processor is configured to present an avatar, receive input signals representative of performing the activities in the immersive virtual environment, and to evaluate the performance by comparing the performed activities to the criteria. The system monitors and evaluates performance in term of progress toward predetermined performance criteria and generates a result as an indication of the user's activity in the system.
A skill-based training system includes a processing system (10) having a processor (12), memory (14) coupled to the processor with executable instructions (100A), and an input-output controller (16) coupled to the processor and to input and output devices (22, 24, 26). The memory includes lesson plans (83) that outline skill-based tasks and activities, and predetermined performance criteria (84). The processor is configured to present interfaces (30) on the output devices simulating a virtual training environment (100). The processor is configured to receive input signals representative of performing the activities in the virtual environment, and to evaluate the performance by comparing the performed activities to the criteria, to determine a score and to present the score. The system includes work orders categorized by the lesson plans and defining within an increasing progression of a degree of skill, knowledge, critical thinking and problem solving needed to complete the tasks and activities.
A skill-based training system includes a processing system (10) having a processor (12), memory (14) coupled to the processor with executable instructions (100A), and an input-output controller (16) coupled to the processor and to input and output devices (22, 24, 26). The memory includes lesson plans (83) that outline skill-based tasks and activities, and predetermined performance criteria (84). The processor is configured to present interfaces (30) on the output devices simulating a virtual training environment (100). The processor is configured to receive input signals representative of performing the activities in the virtual environment, and to evaluate the performance by comparing the performed activities to the criteria, to determine a score and to present the score. The system includes work orders categorized by the lesson plans and defining within an increasing progression of a degree of skill, knowledge, critical thinking and problem solving needed to complete the tasks and activities.
A simulator for skill-oriented training is presented. The simulator includes a platform having a sensor and provides an immersive virtual training environment. The simulator includes a display unit worn by the operator. The unit includes a camera, a speaker and a unit sensor. The camera and the speaker provide visual and audio output to the operator. The simulator includes a controller and a data processing system. The controller includes a sensor. The sensors cooperate to provide to the processing system signals representing spatial positioning, angular orientation and movement data of the controller relative to the platform and a work piece. In response, the processing system renders the work piece, a virtual coating spray pattern, a virtual coating as applied to the work piece and performance guidance in the training environment.
09 - Scientific and electric apparatus and instruments
Goods & Services
Virtual reality software for training simulation in the
construction, carpentry, plumbing, masonry, surveying,
welding, painting, and electrical industries.
09 - Scientific and electric apparatus and instruments
Goods & Services
Virtual reality software for training simulation, namely, simulation of all aspects of the construction, carpentry, plumbing, masonry, surveying, welding, painting and electrical industries, for use in training workers in the construction, carpentry, plumbing, masonry, surveying, welding, painting, and electrical industries
A simulator (20) for skill-oriented training is presented. The simulator includes a platform (80) having a sensor (82) and provides an immersive virtual training environment (100). The simulator includes a display unit (40) worn by the operator. The unit includes a camera (42), a speaker (48) and a unit sensor (44). The camera and the speaker provide visual and audio output to the operator. The simulator includes a controller (60) and a data processing system (50). The controller includes a sensor (62). The sensors (44, 62, 82) cooperate to provide to the processing system signals representing spatial positioning, angular orientation and movement data of the controller relative to the platform and a work piece (30). In response, the processing system renders the work piece, a virtual coating spray pattern (70), a virtual coating (72) as applied to the work piece and performance guidance in the training environment.
A simulator (20) for skill-oriented training is presented. The simulator includes a platform (80) having a sensor (82) and provides an immersive virtual training environment (100). The simulator includes a display unit (40) worn by the operator. The unit includes a camera (42), a speaker (48) and a unit sensor (44). The camera and the speaker provide visual and audio output to the operator. The simulator includes a controller (60) and a data processing system (50). The controller includes a sensor (62). The sensors (44, 62, 82) cooperate to provide to the processing system signals representing spatial positioning, angular orientation and movement data of the controller relative to the platform and a work piece (30). In response, the processing system renders the work piece, a virtual coating spray pattern (70), a virtual coating (72) as applied to the work piece and performance guidance in the training environment.
G09G 5/02 - Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators characterised by the way in which colour is displayed
A simulator for skill-oriented training is presented. The simulator includes a platform having a platform sensor and provides a training environment depicting a work piece rendered on the platform. The simulator includes a display unit worn by a person operating the simulator. The unit includes a camera, a speaker and a unit sensor. The camera and the speaker provide visual and audio output to the person depicting the training environment. The simulator includes a controller and a data processing system. The controller is operated by the person and includes a controller sensor. The sensors cooperate to provide to the processing system signals representing spatial positioning, angular orientation and movement data of the controller relative to the platform. In response, the processing system renders the work piece, a virtual coating spray pattern, a virtual coating as applied to the work piece and performance guidance in the training environment.
G09G 5/02 - Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators characterised by the way in which colour is displayed
