272 results about "Remote object" patented technology

A method and apparatus for determining the position and orientation of a remote object relative to a reference coordinate frame includes a plurality of field-generating elements for generating electromagnetic fields, a drive for applying, to the generating elements, signals that generate a plurality of electromagnetic fields that are distinguishable from one another, a remote sensor having one or more field-sensing elements for sensing the fields generated and a processor for processing the outputs of the sensing element(s) into remote object position and orientation relative to the generating element reference coordinate frame. The position and orientation solution is based on the exact formulation of the magnetic field coupling as opposed to approximations used elsewhere. The system can be used for locating the end of a catheter or endoscope, digitizing objects for computer databases, virtual reality and motion tracking. The methods presented here can also be applied to other magnetic tracking technologies as a final "polishing" stage to improve the accuracy of their P&O solution.

A system and method for determining a position of a remote object comprising inertial sensors and three axis magnetic sensor, together with a target sighting device aligned with the observation platform to determine a target line of sight and a target range finder to determine a distance to the target along the line of sight. A GPS receiver may be included for determining an observation platform position and orientation, The three axis magnetic sensor provides both magnetic north and vertical attitude information for improved rapid initialization and operation in motion. Magnetic anomaly information is detected by comparing IMU and magnetic navigation information and by other methods. Target identification may be determined by a human operator and/or by computer. The system may be integrated with a weapon system to use weapon system sights. The system may be networked to provide target location and/or location error information to another identical unit or a command information system.

An apparatus and process for controlling a remote robot responsive to the integrated sensory perceptions, natural body movements, inertia and gravitation of an operator/user who is himself responding to a three dimensional virtual world of visual and sensory conditions responsive to the environment at the remote site where the robot is operating. The user requires no training, special commands or devices to direct the robot because the user has the perception of actually being at the remote location, handling remote objects he sees and feels in his hands, walking, climbing, viewing and feeling the remote world.

A handheld image projecting device that modifies a visible image being projected based upon the position, orientation, and shape of remote surfaces, remote objects like a user's hand making a gesture, and/or images projected by other image projecting devices. The handheld projecting device utilizes at least one illuminated position indicator for 3D depth sensing of remote surfaces and optically indicating the location of its projected visible image. In some embodiments, a handheld projecting device enables a plurality of projected visible images to interact, often combining the visible images, reducing image distortion on multi-planar surfaces, and creating life-like graphic effects for a uniquely interactive, multimedia experience.

A system and method that provides remoting services in a distributed object system is provided. The system includes a remote object monitor and a remote object manipulator. The remote object monitor can provide a human readable reference to a remote object, where the human readable reference is a URL (Uniform Resource Locator) and can include protocol information, protocol data, an application name and an object URI (Uniform Resource Identifier). The remote object monitor can also provide metadata concerning a remote object, where the metadata can include information concerning interfaces implemented by a remote object, the type of a remote object, the class hierarchy of a remote object, methods implemented by a remote object, properties implemented by a remote object and attributes implemented by a remote object. The remote object monitor can also provide entry points and code interception for custom attribute based activation processing that can be performed before, after and/or substantially in parallel with non-attribute code associated with a remote object. The remote object monitor can also monitor and/or control the lifetime of a remote object, using, for example, a lease manager. The remote object manipulator can also update metadata concerning a remote object and can control the lifetime of a remote object via a lease manager, for example.

Methods and systems for detecting a temperature T_O of a remote object are provided. The method includes storing in memory, a lookup table relating an output voltage of an infrared sensor to a temperature sensed by the infrared sensor V(T_O, T_A), determining a temperature sensor voltage output corresponding to a temperature T_A proximate the infrared sensor, determining a first voltage as a function of the temperature T_A proximate the infrared sensor and a reference temperature T_REF, V(T_A,T_REF), determining a second voltage as a function of the temperature of the object T_O and the reference temperature T_REF, V(T_O,T_REF) by combining the determined temperature sensor voltage output and the first voltage, and determining a temperature of the object T_O from the lookup table using the second voltage.

The present invention discloses a system and method for non-holographic virtual teleportation of one or more remote objects to a designated three-dimensional space around a user in realtime. This is achieved by using a plurality of participating teleportation terminals, located at geographically diverse locations, that capture the RGB and depth data of their respective environments, extract RGB images of target objects from their corresponding environment, and transmit the alpha channeled object images via Internet for integration into a single composite scene in which layers of computer graphics are added in the foreground and in the background. The invention thus creates a virtual 3D space around a user in which almost anything imaginable can be virtually teleported for user interaction. This invention has application in intuitive computing, perceptual computing, entertainment, gaming, virtual meetings, conferencing, gesture based interfaces, advertising, ecommerce, social networking, virtual training, education, so on and so forth.

A method for at least apparently reducing the effects of network lag is provided. For a networked interactive game system including at least one local game system and at least one remote game system, distributed game play of an interactive game with at least an apparent reduction of network lag at the local game system is allowed. An input command which was generated by a local user of the local game system that controls a local object is intercepted. Furthermore, at least state data of a remote object that was determined in a network simulation of a previous game frame is retrieved. Interaction data of the local object for a local simulation of an immediately previous game frame may also be retrieved. A local simulation of the first game frame is generated based on the input command, the state data, and the interaction data.

The invention concerns a method of accessing information using a wireless mobile device (1) having a display (3), and video capturing unit, the method comprising: establishing a video call with a remote server (6) such that said remote server receives video images captured by said mobile device during the video call; performing image recognition to identify at least one first object (4) in said captured video; and generating a signal for transmission to said mobile device, said signal comprising information relating to said first object.

A volumetric sensor for mobile robot navigation to avoid obstacles in the robot's path includes a laser volumetric sensor on a platform with a laser and detector directed to a tiltable mirror in a cylinder that is rotatable through 360° by a motor, a rotatable cam in the cylinder tilts the mirror to provide a laser scan and distance measurements of obstacles near the robot. A stereo camera is held by the platform, that camera being rotatable by a motor to provide distance measurements to more remote objects.

A method, system and computer program product for creating a software product in an Integrated Development Environment (IDE). In one embodiment, remote object status data is received by a software development module which may be a source code editor or a program execution emulator. Responsive to the received data, the remote object status is rendered within a display medium of the software development module by decorating or otherwise distinguishing the remote OIDs in the IDE. In one embodiment in which the software development module is a source code editor, the method further includes detecting a remote object identifier in a source code file processed by the source code editor, and in response thereto, displaying the remote object status within the source code editor.

A system, method, and program product for enhancing keyword contribution to a code-completion facility used in association with an Integrated Development Environment source code editor. A code-completion facility supporting a source code editor includes a look-up module that retrieves keywords from a keyword compare pool responsive to a code-completion prompt. The code-completion facility further includes a contribution mechanism for contributing keywords derived from system artifacts to the keyword compare pool. The contribution mechanism includes a remote artifact contribution module for obtaining or deriving keywords from remote object interface definitions and contributing the same to the keyword compare pool. In a preferred embodiment, the remote artifact contribution module includes a keyword prediction module for accessing a remote object interface repository, predicting one or more remote object based keywords in accordance with remote object interface definition data, and contributing one or more of the predicted keywords to the code-completion facility.

A system for leasing a group membership in a distributed processing system is provided. In accordance with this system, a remote object requests from an activation group a membership in the activation group for a period of time. Responsive to this request, the activation group determines an appropriate lease period during which time the remote object becomes a member of the activation group and runs in the same address space as other objects of the activation group.

A architecture is provided to enable a client web browser to conduct and manage a multilevel search. The browser includes an application layer interface. The application layer interface is for coupling to network via a protocol stack. The browser also includes a markup language parser. The parser receives information from the application layer interface. The browser includes a graphical user interface for presenting information to a user and allowing the user to specify a set of multilevel search parameters. The browser also includes a multilevel object factory coupled to receive a first input relating to a target web page and a second input specifying a multilevel browser operation such as a multilevel search. The multilevel object factory specifies a remote object agent that orchestrates a multilevel browser operation based upon the first and second inputs. The remote object agent is exported from the web browser to execute on a network server.

The disclosed invention provides apparatus, systems, and methods for moving an object in an enclosed area using a magnetic dipole deployed in the enclosed area and thereafter applying an external rotating magnetic field for applying a rotational force to the dipole along one or more selected axis. The external magnetic field is moved to manipulate object in the desired direction(s) of movement.

Disclosed is a method and apparatus for determining the risk of an object collision. The method includes transmitting a signal and analyzing a received signal that is indicative of the presence of a remote object. The signal is then analyzed to determine an initial azimuth value and an initial range for the remote object. Subsequent received signals are continuously analyzed to continuously determine subsequent azimuth values, azimuth value velocities and accelerations, as well as subsequent range values, range value velocities and range value accelerations. The factors are then input into a predetermined formula to yield a risk assessment of collision P. The formulas for determining P can be adjusted to account for such factors as number and proximity of remote objects, as well as the speed and maneuverability of both the remote objects and the vehicle that is avoiding collisions with the remote object(s).

A system and method of inventorying multiple objects utilizing a multi-level or a chained radio frequency identification system. The system includes a master tag and a plurality of upper level tags and lower level tags associated with respective objects. The upper and lower level tags communicate with each other and the master tag so that reading of the master tag reveals the presence and absence of upper and lower level tags. In the chained RF system, the upper and lower level tags communicate locally with each other in a manner so that more remote tags that are out of range of some of the upper and lower level tags have their information relayed through adjacent tags to the master tag and thence to a controller.