Class / Patent application number | Description | Number of patent applications / Date published |
700249000 | Plural processors | 16 |
20080312769 | FITTING APPARATUS - A fitting apparatus includes a robot arm having, at the forward end thereof, a gripper for holding a workpiece, a force detector for detecting a force and moment received by the workpiece held by the gripper, and a controller for controlling an operation of the robot arm. The controller includes a motion command generating unit for generating an operation command to fit two workpieces to each other, and an operation command correcting unit for correcting the operation command so as to correct the position of the gripper in a direction perpendicular to the fitting direction and the orientation of the gripper around an axis perpendicular to the fitting direction until the detected force and moment become less than or equal to a threshold value, based on either maximum values of the force and moment detected by the force detector while the two workpieces are in contact with each other or the force and moment detected by the force detector when the two workpieces first come into contact with each other. | 12-18-2008 |
20090055019 | Interactive systems employing robotic companions - An interactive system for interacting with a sentient being. The system includes a robotic companion of which the sentient being may be a user and an entity which employs the robot as a participant in an activity involving the user. The robotic companion responds to inputs from an environment that includes the user during the activity. The robotic companion is capable of social and affective behavior either under control of the entity or in response to the environment. The entity may provide an interface by which an operator may control the robotic companion. Example applications for the interactive system include as a system for communicating with patients that have difficulties communicating verbally, a system for teaching remotely-located students or students with communication difficulties, a system for facilitating social interaction between a remotely-located relative and a child, and systems in which the user and the robot interact with an entity such as a smart book. Also disclosed are control interfaces for the robotic companion, techniques for rendering the robotic companion sensitive to touch and responding to those touches, and techniques for providing quiet, back-drivable motion to components of the robotic companion. | 02-26-2009 |
20110184556 | MOBILE BRAIN-BASED DEVICE FOR USE IN A REAL WORLD ENVIRONMENT - A mobile brain-based device BBD includes a mobile base equipped with sensors and effectors (Neurally Organized Mobile Adaptive Device or NOMAD), which is guided by a simulated nervous system that is an analogue of cortical and sub-cortical areas of the brain required for visual processing, decision-making, reward, and motor responses. These simulated cortical and sub-cortical areas are reentrantly connected and each area contains neuronal units representing both the mean activity level and the relative timing of the activity of groups of neurons. The brain-based device BBD learns to discriminate among multiple objects with shared visual features, and associated “target” objects with innately preferred auditory cues. Globally distributed neuronal circuits that correspond to distinct objects in the visual field of NOMAD 10 are activated. These circuits, which are constrained by a reentrant neuroanatomy and modulated by behavior and synaptic plasticity, result in successful discrimination of objects. The brain-based device BBD is moveable, in a rich real-world environment involving continual changes in the size and location of visual stimuli due to self-generated or autonomous, movement, and shows that reentrant connectivity and dynamic synchronization provide an effective mechanism for binding the features of visual objects so as to reorganize object features such as color, shape and motion while distinguishing distinct objects in the environment. | 07-28-2011 |
20120173020 | MOBILE BRAIN-BASED DEVICE FOR USE IN A REAL WORLD ENVIRONMENT - A mobile brain-based device BBD includes a mobile base equipped with sensors and effectors (Neurally Organized Mobile Adaptive Device or NOMAD), which is guided by a simulated nervous system that is an analogue of cortical and sub-cortical areas of the brain required for visual processing, decision-making, reward, and motor responses. The brain-based device BBD learns to discriminate among multiple objects with shared visual features, and associated “target” objects with innately preferred auditory cues. The brain-based device BBD is moveable, in a rich real-world environment involving continual changes in the size and location of visual stimuli due to self-generated or autonomous, movement, and shows that reentrant connectivity and dynamic synchronization provide an effective mechanism for binding the features of visual objects so as to reorganize object features such as color, shape and motion while distinguishing distinct objects in the environment. | 07-05-2012 |
20130211588 | SWITCHING CONTROL OF AN INSTRUMENT TO AN INPUT DEVICE UPON THE INSTRUMENT ENTERING A DISPLAY AREA VIEWABLE BY AN OPERATOR OF THE INPUT DEVICE - An operator telerobotically controls instruments to perform a procedure on an object at a work site while viewing real-time images of the work site on a display screen. An assistant controls movement of another instrument towards or away from the work site to relieve the operator from such task. Control of the instrument is automatically switched from the assistant to the operator upon the working end of the instrument entering the view on the display screen. | 08-15-2013 |
20130274919 | MOBILE BRAIN-BASED DEVICE FOR USE IN A REAL WORLD ENVIRONMENT - A mobile brain-based device BBD includes a mobile base equipped with sensors and effectors (Neurally Organized Mobile Adaptive Device or NOMAD), which is guided by a simulated nervous system that is an analogue of cortical and sub-cortical areas of the brain required for visual processing, decision-making, reward, and motor responses. The brain-based device BBD learns to discriminate among multiple objects with shared visual features, and associated “target” objects with innately preferred auditory cues. The brain-based device BBD is moveable, in a rich real-world environment involving continual changes in the size and location of visual stimuli due to self-generated or autonomous, movement, and shows that reentrant connectivity and dynamic synchronization provide an effective mechanism for binding the features of visual objects so as to reorganize object features such as color, shape and motion while distinguishing distinct objects in the environment. | 10-17-2013 |
20130282176 | AUTOMATION EQUIPMENT CONTROL SYSTEM - A automation equipment control system comprises a general purpose computer with a general purpose operating system in electronic communication with a real-time computer subsystem. The general purpose computer includes a program execution module to selectively start and stop processing of a program of equipment instructions and to generate a plurality of move commands. The real-time computer subsystem includes a move command data buffer for storing the plurality of move commands, a move module linked to the data buffer for sequentially processing the moves and calculating a required position for a mechanical joint. The real-time computer subsystem also includes a dynamic control algorithm in software communication with the move module to repeatedly calculate a required actuator activation signal from a joint position feedback signal. | 10-24-2013 |
20130304257 | MEDICAL TELE-ROBOTIC SYSTEM WITH A MASTER REMOTE STATION WITH AN ARBITRATOR - A robotic system that includes a mobile robot linked to a plurality of remote stations. One of the remote stations includes an arbitrator that controls access to the robot. Each remote station may be assigned a priority that is used by the arbitrator to determine which station has access to the robot. The arbitrator may include notification and call back mechanisms for sending messages relating to an access request and a granting of access for a remote station. | 11-14-2013 |
20140156069 | MEDICAL TELE-ROBOTIC SYSTEM WITH A MASTER REMOTE STATION WITH AN ARBITRATOR - A robotic system that includes a mobile robot linked to a plurality of remote stations. One of the remote stations includes an arbitrator that controls access to the robot. Each remote station may be assigned a priority that is used by the arbitrator to determine which station has access to the robot. The arbitrator may include notification and call back mechanisms for sending messages relating to an access request and a granting of access for a remote station. | 06-05-2014 |
20140316565 | NUMERICAL CONTROLLER - A numerical controller includes a numerical control unit for executing a numerical control program, a robot control unit for executing a robot program, a multicore processor having a plurality of cores, and a peripheral control LSI. The numerical control unit is assigned to one of the cores of the multicore processor and the robot control unit is assigned to one of the others. The multicore processor is connected to an internal bus of the numerical controller via the peripheral control LSI. | 10-23-2014 |
20150343635 | SYSTEMS AND METHODS FOR INSTRUCTING ROBOTIC OPERATION - Example systems and methods may allow for use of a generic robot trajectory format to control a robotic process within a workcell. One example method includes receiving a digital representation of at least one digital robot actor, including at least one robot definition corresponding to the at least one digital robot actor and at least one sequence of robot operations for the at least one digital robot actor, determining a mapping between the at least one digital robot actor and at least one corresponding physical robot actor within a physical workcell, generating at least one robot-language-specific sequence of executable instructions for the at least one physical robot actor, and transmitting the at least one robot-language specific sequence of executable instructions to the at least one physical robot actor to execute in order to perform the at least sequence of robot operations within the physical workcell. | 12-03-2015 |
20150352724 | ROBOT CONTROL DEVICE PROVIDED WITH FUNCTION OF REFLECTING POINTS OF DIFFERENCE OF SETTING DATA COMPARED WITH - A robot control device which can exchange data with a plurality of robot control devices and with a storage medium which stores setting data of the robot control device, which robot control device can compare setting data which is set a specific robot control device and setting data which is set at another robot control device and setting data which is stored in the storage medium, at least two, for each item, display items with differences between the compared setting data, and reflect that selected setting data. | 12-10-2015 |
20160008985 | MINI INTEGRATED CONTROL DEVICE | 01-14-2016 |
20160089781 | ROBOT, CONTROL APPARATUS AND ROBOT SYSTEM - A robot includes a casing, a first arm unit and a second arm unit provided on the casing, a first board that outputs a current command signal, a second board that controls an actuator for driving the first arm unit based on the current command signal, and a third board that controls an actuator for driving the second arm unit based on the current command signal. The second board and the third board are provided inside of the casing. | 03-31-2016 |
20160193730 | Robot System And Wiring Method For Robot System | 07-07-2016 |
20170232612 | Systems and Methods for Robotic Device Authentication | 08-17-2017 |