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9015 results about "Roboty" patented technology

ROBOTY (Arabic: روبوتي‎) is a differential wheeled robot with self-balancing, motion, speech and Object recognition capabilities. ROBOTY is also the first autonomous robot in Yemen, all of which will be primarily controlled by voice commands. The final goal of this research project is to build a robot capable of playing chess.

Robotically-driven surgical instrument with e-beam driver

A surgical severing and stapling instrument, suitable for laparoscopic and endoscopic clinical procedures, clamps tissue within an end effector of an elongate channel pivotally opposed by an anvil. Various embodiments are configured to be operably attached to a robotic system to receive actuation / control motions therefrom.
Owner:CILAG GMBH INT

Shiftable drive interface for robotically-controlled surgical tool

ActiveUS20120132450A1Quickly and conveniently selectSurgical furnitureDiagnosticsRobotic systemsReciprocating motion
A surgical instrument including an end effector that has a selectively reciprocatable implement movably supported therein. The implement is selectively advanceable in a distal direction upon application of a rotary actuation motion thereto and retractable in a proximal direction upon application of a rotary retraction motion thereto. An elongate shaft assembly is coupled to the end effector and is configured to transmit the rotary actuation motion and rotary retraction motion to the reciprocatable implement from a robotic system that is configured to generate the rotary actuation motion and said rotary retraction motion.
Owner:CILAG GMBH INT

Camera-based tracking and position determination for sporting events

Position information of equipment at an event, such as a ball, one or more players, or other items in a game or sporting event, is used in selecting camera, camera shot type, camera angle, audio signals, and / or other output data for providing a multimedia presentation of the event to a viewer. The position information is used to determine the desired viewer perspective. A network of feedback robotically controlled Pan-Tilt-Zoom (PTZ), manually controlled cameras and stationary cameras work together with interpolation techniques to create a 2D video signal. The position information may also be used to access gaming rules and assist officiating of the event. The position information may be obtained through a transceiver(s), accelerometer(s), transponder(s), and / or RADAR detectable element(s) fitted into the ball, apparel or equipment of players, the players themselves, or other playing equipment associated with the game or sporting event. Other positioning methods that can be used include infrared video-based tracking systems, SONAR positioning system(s), LIDAR positioning systems, and digital signal processing (DSP) image processing techniques such as triangulation.
Owner:CURRY GERALD

System and method for piece-picking or put-away with a mobile manipulation robot

A method and system for piece-picking or piece put-away within a logistics facility. The system includes a central server and at least one mobile manipulation robot. The central server is configured to communicate with the robots to send and receive piece-picking data which includes a unique identification for each piece to be picked, a location within the logistics facility of the pieces to be picked, and a route for the robot to take within the logistics facility. The robots can then autonomously navigate and position themselves within the logistics facility by recognition of landmarks by at least one of a plurality of sensors. The sensors also provide signals related to detection, identification, and location of a piece to be picked or put-away, and processors on the robots analyze the sensor information to generate movements of a unique articulated arm and end effector on the robot to pick or put-away the piece.
Owner:IAM ROBOTICS

Position sensor system for substrate transfer robot

A substrate processing apparatus comprises a substrate handling chamber, a pair of position sensors, and a substrate transfer robot. Each of the sensors comprises an emitter configured to emit a beam of light, and a receiver configured to receive the light beam. The substrate transfer robot comprises an end effector and a robot actuator. The end effector is configured to hold a substrate such that the substrate has a same expected position with respect to the end effector every time the substrate is held. The robot actuator is configured to move the end effector within the handling chamber to transfer substrates among a plurality of substrate stations. An edge of a substrate held in the expected position by the end effector can partially block a light beam of one of the position sensors, while another end of the end effector partially blocks a light beam of the other position sensor.
Owner:ASM JAPAN

Gentle touch surgical instrument and method of using same

A surgical grasper is provided. The grasper comprises a handle, two jaws operably connected to the handle, which jaws can be actuated by the handle, and a sensor. A surgical grasper for use in robotic surgery is also provided. The grasper comprises a shaft, two jaws at a distal end of the shaft, which jaws can be actuated in response to a robot command, and a sensor. A method for measuring an amount of force being applied by a jaw of a grasper is also provided. The method comprises the steps of: providing a grasper comprising a handle and two jaws operably connected to the handle, which jaws can be actuated by the handle; providing a sensor on the grasper; and, providing for measuring an amount of force being applied to the sensor. A method for measuring an amount of force being applied by a jaw of a grasper for use in robotic surgery is also provided. The method comprises the steps of: providing a grasper for use in robotic surgery, the grasper comprising a shaft and two jaws at a distal end of the shaft, which jaws can be actuated responsive to a robot command; providing a sensor; and, providing for measuring an amount of force being applied to the sensor.
Owner:TELESURGIX

Substation intelligent robot inspection system and inspection method

ActiveCN102280826AInspection path optimizationIn place detection time is fastCircuit arrangementsSustainable buildingsSmart substationTransformer
The invention discloses an intelligent robot inspection system and an intelligent robot inspection method for transformer station. The intelligent robot inspection system comprises a monitoring centre, which is connected to at least one station robot intelligent inspection system of a transformer station, and each station robot intelligent inspection system comprises at least one base station. At the same time, the transformer station is also provided with an environment acquisition subsystem inside and fixed point monitoring subsystems disposed at devices needed to be monitored in the transformer station. The intelligent inspection robot is provided with an intelligent inspection robot lower computer connected to a detection unit, the detection unit includes an infrared detection unit and an ultraviolet detection unit, and the ultraviolet detection unit includes an ultraviolet video server and an ultraviolet detection device. The intelligent robot inspection system and the intelligent robot inspection method have the advantages of optimized inspection path, excellent safety protection, high intelligent degree, all-time fault detection and seamless video monitor, thus providing brand new technology detection means and all-round safety guarantee for an intelligent transformer station.
Owner:STATE GRID INTELLIGENCE TECH CO LTD

Method for establishing a desired area of confinement for an autonomous robot and autonomous robot implementing a control system for executing the same

A method of establishing an area of confinement and an autonomous robot for performing a task within the area of confinement. In one aspect, the invention can be a method of defining an area of confinement for an autonomous robot comprising: a) positioning the autonomous robot at a first location point P1, the autonomous robot comprising a location tracking unit, and recording the first location point P1 within a memory device; b) moving the autonomous robot from the first location point P1 to a plurality of location points P2-N and recording each of the plurality of location points P2-N within the memory device; and c) defining, with a central processing unit, a first closed-geometry comprising the first location point P1 and the plurality of location points P2-N as a perimeter of the area of confinement within the memory device.
Owner:FUTUREGEN TECH INC +1

Robots, systems, and methods for hazard evaluation and visualization

A robot includes a hazard sensor, a locomotor, and a system controller. The robot senses a hazard intensity at a location of the robot, moves to a new location in response to the hazard intensity, and autonomously repeats the sensing and moving to determine multiple hazard levels at multiple locations. The robot may also include a communicator to communicate the multiple hazard levels to a remote controller. The remote controller includes a communicator for sending user commands to the robot and receiving the hazard levels from the robot. A graphical user interface displays an environment map of the environment proximate the robot and a scale for indicating a hazard intensity. A hazard indicator corresponds to a robot position in the environment map and graphically indicates the hazard intensity at the robot position relative to the scale.
Owner:HUMATICS CORP +1

System and method for seamless task-directed autonomy for robots

Systems, methods, and user interfaces are used for controlling a robot. An environment map and a robot designator are presented to a user. The user may place, move, and modify task designators on the environment map. The task designators indicate a position in the environment map and indicate a task for the robot to achieve. A control intermediary links task designators with robot instructions issued to the robot. The control intermediary analyzes a relative position between the task designators and the robot. The control intermediary uses the analysis to determine a task-oriented autonomy level for the robot and communicates target achievement information to the robot. The target achievement information may include instructions for directly guiding the robot if the autonomy level indicates low robot initiative and may include instructions for directing the robot to determine a robot plan for achieving the task if the autonomy level indicates high robot initiative.
Owner:BATTELLE ENERGY ALLIANCE LLC +1

Method and apparatus for site management

A method and apparatus for monitoring and maintenance of unattended robot liquid storage and dispensing sites, including a site controller and site monitor. The site monitor continuously appends text strings received from the site controller to HTML text log files and HTLM text report files and simultaneously compares the stored text strings representing site events to be monitored with evaluation messages. Each evaluation message is linked to an alert code, which in response to an evaluation message text string match initiates a particular set of responses, including sending notice of site failures and other remote site information to a home office via fax, pager and / or email. The site monitor also collects the information gathered from the site controller, the tank monitor, alarm system and any other site devices and stores the information in a one or more HTML text files, which information then takes the form of a web page with hypertext links to images related to the stored information.
Owner:RAWLS & WINSTEAD

Companion robot for personal interaction

A mobile robot guest for interacting with a human resident performs a room-traversing search procedure prior to interacting with the resident, and may verbally query whether the resident being sought is present. Upon finding the resident, the mobile robot may facilitate a teleconferencing session with a remote third party, or interact with the resident in a number of ways. For example, the robot may carry on a dialogue with the resident, reinforce compliance with medication or other schedules, etc. In addition, the robot incorporates safety features for preventing collisions with the resident; and the robot may audibly announce and / or visibly indicate its presence in order to avoid becoming a dangerous obstacle. Furthermore, the mobile robot behaves in accordance with an integral privacy policy, such that any sensor recording or transmission must be approved by the resident.
Owner:AVA ROBOTICS INC

Real time remotely controlled robot

A robot system including a robot, an operator control center and having a communication system connecting the robot and control center wherein an operator in the control center responds with natural movements to stimulus signals from the robot environment by issuing commands that control the robot. In one embodiment, the operator occupies a command chair with an exoskeletal arm that is secured to the "shoulder" (backrest) of the chair. The operator slides his hand into a glove of the invention attached to the end of the exoskeletal arm. He views the robot environment through a video screen and exerts control in response to views presented on the screen. The communication system sends signals to the operator glove in response to conditions at the robot site prompting the operator to take appropriate action.
Owner:FANU AMERICA CORP

Software architecture for high-speed traversal of prescribed routes

Systems, methods, and apparatuses for high-speed navigation. The present invention preferably encompasses systems, methods, and apparatuses that provide for autonomous high-speed navigation of terrain by an un-manned robot. By preferably employing a pre-planned route, path, and speed; extensive sensor-based information collection about the local environment; and information about vehicle pose, the robots of the present invention evaluate the relative cost of various potential paths and thus arrive at a path to traverse the environment. The information collection about the local environment allows the robot to evaluate terrain and to identify any obstacles that may be encountered. The robots of the present invention thus employ map-based data fusion in which sensor information is incorporated into a cost map, which is preferably a rectilinear grid aligned with the world coordinate system and is centered on the vehicle. The cost map is a specific map type that represents the traversability of a particular environmental area using a numeric value. The planned path and route provide information that further allows the robot to orient sensors to preferentially scan the areas of the environment where the robot will likely travel, thereby reducing the computational load placed onto the system. The computational ability of the system is further improved by using map-based syntax between various data processing modules of the present invention. By using a common set of carefully defined data types as syntax for communication, it is possible to identify new features for either path or map processing quickly and efficiently.
Owner:CARNEGIE MELLON UNIV

System and methods for adaptive control of robotic devices

Methods for operating robotic devices (i.e., “robots”) that employ adaptive behavior relative to neighboring robots and external (e.g., environmental) conditions. Each robot is capable of receiving, processing, and acting on one or more multi-device primitive commands that describe a task the robot will perform in response to other robots and the external conditions. The commands facilitate a distributed command and control structure, relieving a central apparatus or operator from the need to monitor the progress of each robot. This virtually eliminates the corresponding constraint on the maximum number of robots that can be deployed to perform a task (e.g., data collection, mapping, searching). By increasing the number of robots, the efficiency in completing the task is also increased.
Owner:FLIR DETECTION

Palletizing systems and methods

InactiveUS20080131255A1Increase order filling efficiencyImprove filling efficiencyLoadersPackagingCustomer orderAutomatic guidance
Palletizing systems and methods increasing the efficiency at which pallets of mixed products are built. The systems and methods include a pallet building module for receiving customer orders and generating pallet building instructions for arranging the products on the pallets, among other functions. The pallet building module is in communication with a number of robot cells that include source products and pallet building robots for building pallets based upon instructions generated by the pallet building module. The system includes other modules for system control including conveyor controllers, forklift controllers, and automatic guided vehicle controllers, among other controllers. Methods for building pallets of mixed product from source products within more than one robot cell.
Owner:TRANSBOTICS CORPORATION

System and method for bot detection

Exemplary systems and methods for detecting a communication channel of a bot. In exemplary embodiments, presence of a communication channel between a first network device and a second network device is detected. Data from the communication channel is scanned and used to determine if a suspected bot communication exists. If a bot communication is detected, then a recovery process may be initiated.
Owner:FIREEYE SECURITY HLDG US LLC

Robot cleaner system and a method for returning to external recharging apparatus

A robot cleaner system and a method for the robot cleaner to return to an external recharging apparatus. The robot cleaner system has an external recharging apparatus including a charging stand having a charging terminal, and a plurality of transmission parts for sending signals having different codes and strengths; a robot cleaner including a rechargeable battery, a connection terminal for connection with the charging terminal to supply power to the rechargeable battery, a receiving part for receiving signals from the plurality of transmission parts, and a control part for controlling a movement of the robot cleaner using the signals received by the receiving part, so that the connection terminal is connected to the charging terminal.
Owner:SAMSUNG GWANGJU ELECTRONICS CO LTD

Autonomous mobile robot for handling job assignments in a physical environment inhabited by stationary and non-stationary obstacles

ActiveUS20140350725A1Avoiding potential collisionBenefit in of utilityProgramme-controlled manipulatorComputer controlSimulationReal-time computing
An intelligent mobile robot having a robot base controller and an onboard navigation system that, in response to receiving a job assignment specifying a job location that is associated with one or more job operations, activates the onboard navigation system to automatically determine a path the mobile robot should use to drive to the job location, automatically determines that using an initially-selected path could cause the mobile robot to run into stationary or non-stationary obstacles, such as people or other mobile robots, in the physical environment, automatically determines a new path to avoid the stationary and non-stationary obstacles, and automatically drives the mobile robot to the job location using the new path, thereby avoiding contact or collisions with those obstacles. After the mobile robot arrives at the job location, it automatically performs said one or more job operations associated with that job location.
Owner:OMRON CORP

Robot vac with retractable power cord

A robot cleaning system uses a robot cleaner and a unit. The unit is connected to power the robot cleaner by a power cord. The robot cleaner can move around a room while being powered by the unit. In one embodiment, the unit is connected to a power socket by another power cord.
Owner:THE SHARPER IMAGE

Navigational control system for a robotic device

A navigational control system for altering movement activity of a robotic device operating in a defined working area, comprising a transmitting subsystem integrated in combination with the robotic device, the transmitting subsystem comprising means for emitting a number of directed beams, each directed beam having a predetermined emission pattern, and a receiving subsystem functioning as a base station that includes a navigation control algorithm that defines a predetermined triggering event for the navigational control system and a set of detection units positioned within the defined working area in a known spaced-apart relationship, the set of detection units being configured and operative to detect one or more of the directed beams emitted by the transmitting system; and wherein the receiving subsystem is configured and operative to process the one or more detected directed beams under the control of the navigational control algorithm to determine whether the predetermined triggering event has occurred, and, if the predetermined triggering event has occurred transmit a control signal to the robotic device, wherein reception of the control signal by the robotic device causes the robotic device to implement a prescribed conduct that alters the movement activity of the robotic device.
Owner:IROBOT CORP

Method and apparatus for recognizing and determining a position and robot including such an apparatus

A method for recognizing and determining the position of at least one teat of a milking animal, including the steps: moving a scanning head including a light source to a region containing the teat or teats, capturing at least one image formed by said light, evaluating the image or images so as to determine if each image describes said teat or teats. The scanning head (1) is moved to a fixed initial position (A) in the room which is under the animal and clearly in front of an udder and thereby the teats of all known relevant animals, thereafter the scanning head is moved in determined steps (A-J) under the animal: upwards towards the animal, downwards, backwards towards the udder, upwards, downwards etc., while carrying out the scanning procedure. The invention also concerns an apparatus carrying out the process and a milking robot including such an apparatus.
Owner:DELAVAL HLDG AB

Apparatus and method for the painting of hulls of boats or the like

Apparatus for painting hulls of boats includes at least an anthropomorphic robot having paint dispensing elements, at least a supporting body which defines a chamber for containing the robot and which includes at least an opening for applying paint on a reference surface, handling elements of the body along at least a direction of moving close to / away from the surface, air suction elements to form a suction stream substantially along the entire surrounding edge of the opening, according to a preset suctionable air flow, command and control elements operatively connected to the handling elements to control movement of the body along the moving direction, sensor elements associated with the body to detect the distance of the surrounding edge from the reference surface and operatively connected to the command and control elements, the latter being programmed to adjust the distance of the surrounding edge of the opening from the reference surface.
Owner:RINA VINCENZO

Surgical Cockpit Comprising Multisensory and Multimodal Interfaces for Robotic Surgery and Methods Related Thereto

Local surgical cockpits comprising local surgical consoles that can communicate with any desired remote surgical module (surgical robot), for example via a shared Transmission Control Protocol / Internet Protocol (TCP / IP) or other unified open source communication protocol or other suitable communication system. The systems and methods, etc., herein can also comprise a modular approach wherein multiple surgical consoles can network supporting collaborative surgery regardless of the physical location of the surgeons relative to each other and / or relative to the surgical site. Thus, for example, an operator operating a local surgical cockpit can teleoperate using a remote surgical module on a patient in the same room as the surgeon, or surgeons located in multiple safe locations can telemanipulate remote multiple surgical robots on a patient in or close to a war zone.
Owner:SPI SURGICAL

Methods and systems for obstacle detection using structured light

An obstacle detector for a mobile robot while the robot is in motion is disclosed. The detector preferably includes at least one light source configured to project pulsed light in the path of the robot; a visual sensor for capturing a plurality of images of light reflected from the path of the robot; a processing unit configured to extract the reflections from the images; and an obstacle detection unit configured to detect an obstacle in the path of the robot based on the extracted reflections. In the preferred embodiment, the reflections of the projected light are extracted by subtracting pairs of images in which each pair includes a first image captured with the at least one light source on and a second image captured with the at least one light source off, and then combining images of two or more extracted reflections to suppress the background.
Owner:IROBOT CORP

Mobile robot platform

A mobile articulated robot platform is provided where the platform comprises a payload base hip section for attaching a torso, the platform having two opposing sides, where the platform includes a right leg assembly and a left leg assembly, with each leg assembly having an upper leg and a lower leg section, where the right and left leg assemblies each comprise a right upper leg being pivotally coupled on one side of said payload base hip section and a left upper leg being pivotally coupled to the other side of the payload base hip section, and a right lower leg being independently and pivotally connected to the right upper leg, and a left lower leg being independently and pivotally connected to the left upper leg, allowing rotation of each of the lower legs about each of the upper legs.
Owner:VECNA

Transfer of knowledge from a human skilled worker to an expert machine - the learning process

A learning environment and method which is a first milestone to an expert machine that implements the master-slave robotic concept. The present invention is of a learning environment and method for teaching the master expert machine by a skilled worker that transfers his professional knowledge to the master expert machine in the form of elementary motions and subdivided tasks. The present invention further provides a stand alone learning environment, where a human wearing one or two innovative gloves equipped with 3D feeling sensors transfers a task performing knowledge to a robot in a different learning process than the Master-Slave learning concept. The 3D force\torque, displacement, velocity\acceleration and joint forces are recorded during the knowledge transfer in the learning environment by a computerized processing unit that prepares the acquired data for mathematical transformations for transmitting commands to the motors of a robot. The objective of the new robotic learning method is a learning process that will pave the way to a robot with a “human-like” tactile sensitivity, to be applied to material handling, or man / machine interaction.
Owner:TAIROB

Mobile videoconferencing robot system with network adaptive driving

A remote control station that controls a robot through a network. The remote control station transmits a robot control command that includes information to move the robot. The remote control station monitors at least one network parameter and scales the robot control command as a function of the network parameter. For example, the remote control station can monitor network latency and scale the robot control command to slow down the robot with an increase in the latency of the network. Such an approach can reduce the amount of overshoot or overcorrection by a user driving the robot.
Owner:TELADOC HEALTH INC +1
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