Class / Patent application number | Description | Number of patent applications / Date published |
701519000 | Object tracking | 39 |
20120150442 | MOVING ROUTE PROCESSING DEVICE AND INFORMATION PROVIDING SYSTEM USING THIS MOVING ROUTE PROCESSING DEVICE - Disclosed is a moving route processing device provided with: a route data creating unit for adding date and time information showing a current date and time to position information showing a current position to create route data with timestamp; a route data recorder for recording the route data with timestamp created by the route data creating unit; a communication processing unit for acquiring predetermined data from a database connected to a network; a route comparing unit for comparing the predetermined data acquired by the communication processing unit with the route data with timestamp recorded in the route data recorder; and a display processing unit for, when it is determined from the comparison by the route comparing unit that a close contact state existed, creating and displaying a message showing that a close contact state existed. | 06-14-2012 |
20120316784 | HYBRID-APPROACH FOR LOCALIZATON OF AN AGENT - Methods and systems for determining the location of an agent within an environment using a hybrid approach are provided. The hybrid approach allows a potentially large physical space to be compressed in the form of a directed graph, in which edges are paths and nodes are locations. An image comparison produces observations for each location and path, which can be used to probabilistically locate the agent in the environment and to select a portion of the 3D point cloud for comparison. The agent can then be localized within the 3D point cloud, or metric-accurate map, using the same features utilized for image matching in the probabilistic location. | 12-13-2012 |
20130054142 | FLOW LINE DETECTION SYSTEM, FLOW LINE DETECTION METHOD, AND FLOW LINE DETECTION PROGRAM - A flow line detection system capable of accurately determining a position of a mobile object of each piece of identification information and detecting a flow line even when there are frequent cases where a position or identification information of a mobile object cannot be detected is provided. Flow line specification means | 02-28-2013 |
20130103310 | INFORMATION PROCESSING DEVICE, DISPLAY CONTROL METHOD, A PROGRAM, AND AN INFORMATION STORAGE MEDIUM - Provided is an information processing device that provides a user with a trajectory of positions calculated by positioning unit in a user-friendly way without displaying a map. The device includes a positioning section ( | 04-25-2013 |
20130116923 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD, PROGRAM, AND RECORDING MEDIUM - There is provided an information processing apparatus including, a track list generation unit that generates a track list that is a list of track groups including at least a movement trajectory track generated from movement trajectory information containing position information and time information corresponding to the position information, and a display control unit that causes a display device to display a list screen including the track list. | 05-09-2013 |
20140067263 | Hand-held marking apparatus with location tracking system and methods for logging geographic location of same - Marking apparatus and methods to mark ground, pavement or other surfaces to provide a visual indication of a presence or an absence of an underground utility in a dig area. An example marking tool has a hand-held housing, a marking dispenser coupled to the housing to dispense one or more markers in the dig area, and a triggering system to trigger the marking dispenser so as to dispense the marker(s). An example marking tool also may include a logging system to receive data associated with a marking event initiated by the triggering system, time tag the data, and store the time-tagged data in data storage in the marking tool. | 03-06-2014 |
20140142846 | ELECTRONIC DEVICE AND METHOD FOR DISPLAYING POSITION INFORMATION OF SET DEVICE - An electronic device and method for displaying position information of a set device are provided. The method of operating a first electronic device, which currently communicates with a second electronic device, includes receiving position tracking information from the second electronic device, analyzing the received position tracking information to determine whether an atmospheric pressure within a preset range is sensed, the preset range including an atmospheric pressure sensed by the second electronic device, and, when the atmospheric pressure in the preset range is sensed, comparing position information currently received and the received position tracking information to display position information about the second electronic device. | 05-22-2014 |
20140156184 | NAVIGATION MESSAGE PROVIDING SYSTEM AND METHOD THEREOF - A navigation message providing system and a method thereof are provided. A server searches, according to a planned moving path, for a location message corresponding to a target location, and when determining that a distance or a relative position of a position where the navigation terminal is currently located and the target location satisfies a predetermined condition or determining that preset time or a preset position is met, a navigation terminal displays the satisfied or met location message, so as to give a prompt to a user when close to the target location, and achieve the technical efficacy of proactively providing location message of the target location. | 06-05-2014 |
20140188384 | TELEMETRICS BASED LOCATION AND TRACKING - A population activity mapping method may include detecting a plurality of wireless mobile devices within a geographic region. Individual wireless mobile devices may include a processor, a user interface, a transmitter and a receiver. The detecting operation may be performed by use of a wireless access point, a GPS satellite, and/or a base station, and may be performed at at least two different points in time. Input data may be provided based upon the detecting operation. A distance and speed at which the mobile devices travel within the geographic region may be discerned dependent upon the input data. The discerning operation is performed by at least one processor of a computer network. A time and/or location at which salable output is to be made available and/or an amount of salable output to be made available may be determined dependent upon the discerning operation. | 07-03-2014 |
20140236480 | REAL-TIME MOVEMENT PATH ESTIMATION APPARATUS AND METHOD USING VISIBLE LIGHT COMMUNICATION - The present invention relates to a real-time movement path estimation apparatus using visible light communication. A server for performing communication with an agent for tracking a location of a client which is a target to be tracked includes an agent management unit for setting the agent and the client. A server communication unit receives management information of the agent at intervals of a preset monitoring period. A path prediction unit derives a predicted path for a movement path of the client, based on the location information of the client included in the management information and tracked by a location determination device including a visible light communication device or an image capturing device in the agent. | 08-21-2014 |
20140257692 | SYSTEMS AND METHODS FOR SMALL UNMANNED AIRCRAFT SYSTEMS (sUAS) TACTICAL TRACKING AND MISSION DATA ACQUISITION - A system and method are provided to support accommodating safe integration of small unmanned aircraft systems (sUASs) into the National Airspace Structure in the United States. A specifically-tailored service is provided to address a change of paradigm from aircraft-based avionics/capabilities to a ground-based solution centered on the sUAS control station that is typically employed to manage an sUAS mission and/or flight. Appropriate software, server and system components are integrated into an interactive, easy-to-use, web-based tool that provides interested parties with real-time, graphical flight-following information to acquire position information regarding an sUAS platform from the control console for the sUAS platform. The acquired position information is forwarded to a separate server that can augment and provide graphical display of the sUAS intended route of flight (flight planned route). The acquired position information for the sUAS is converted to a format commonly used by aviation and air traffic control systems. | 09-11-2014 |
20140278081 | Parking Information Based on Destination - In one embodiment, a mobile device includes position circuitry and routing algorithms for generating routing instructions from a current position of the mobile device to a destination. The destination is specified in a navigation request and may describe a point-of-interest. A database associates points-of-interest individually or by category with estimated parking durations. The mobile device accesses an estimated parking duration and selects a preferred parking location based on the estimated parking duration. Considerations for selecting the preferred parking location include cost, parking restrictions, and/or distance. For example, the preferred parking location may be the available parking spot that is the least expensive during the estimated parking duration and avoids no parking zones or other time constraints. | 09-18-2014 |
20140278082 | TRACKING TARGET OBJECTS ORBITING EARTH USING SATELLITE-BASED TELESCOPES - A system for tracking objects that are in earth orbit via a constellation or network of satellites having imaging devices is provided. An object tracking system includes a ground controller and, for each satellite in the constellation, an onboard controller. The ground controller receives ephemeris information for a target object and directs that ephemeris information be transmitted to the satellites. Each onboard controller receives ephemeris information for a target object, collects images of the target object based on the expected location of the target object at an expected time, identifies actual locations of the target object from the collected images, and identifies a next expected location at a next expected time based on the identified actual locations of the target object. The onboard controller processes the collected image to identify the actual location of the target object and transmits the actual location information to the ground controller. | 09-18-2014 |
20140324339 | METHOD AND APPARATUS FOR THE TRACKING OF MULTIPLE OBJECTS - Tracking systems using multi-object-tracking (MOT) combine data from a plurality of sensors ( | 10-30-2014 |
20140324340 | Information Processing Device, Processing Method, and Medium - While a user carrying a mobile terminal is aboard a vehicle, communication is available between on-vehicle equipment and the mobile terminal by near field communication, and therefore, the mobile terminal stands by and only the location information measured by the on-vehicle equipment is transmitted to a server. After the user gets off the vehicle, radio communication between the on-vehicle equipment and the mobile terminal is cut off, and therefore, the mobile terminal starts measuring the location etc. and only the location information measured by the mobile terminal is transmitted to the server. The server accumulates the location information sent from the on-vehicle equipment or the mobile terminal. Then, the server generates an inquiry image in which figures each representing the movement trajectory of the user are combined on a map based on the accumulated location information and transmits the inquiry image to the on-vehicle equipment. | 10-30-2014 |
20140350851 | NAVIGATION SYSTEMS AND METHODS FOR WHEELED OBJECTS - A navigation system uses a dead reckoning method to estimate an object's present position relative to one or more prior positions. In some embodiments, the dead reckoning method determines a change in position from the object's heading and speed during an elapsed time interval. In embodiments suitable for use with wheeled objects, the dead reckoning method determines the change in position by measuring the heading and the amount of wheel rotation. Some or all of the components of the navigation system may be disposed within a wheel, such as a wheel of a shopping cart. | 11-27-2014 |
20150019130 | Dual Function Focal Plane Array Seeker - A system and method of tracking an object is disclosed. Light is received from the object at a lens having an optical axis, a non-linear off-axis (peripheral) portion and an on-axis portion. The received light is directed onto a photodetector array via the non-linear peripheral portion of the lens. A direction of the object with respect to an optical axis of the lens is determined from a location of the light on the photodetector array. The determined direction is used to orient the optical axis of the lens toward object to track the object. The photodetector array and lens may be coupled to a projectile and the determined direction may be used to direct the projectile to hit a target. | 01-15-2015 |
20150025799 | POINT-OF-INTEREST LATENCY PREDICTION USING MOBILE DEVICE LOCATION HISTORY - A latency analysis system determines a latency period, such as a wait time, at a user destination. To determine the latency period, the latency analysis system receives location history from multiple user devices. With the location histories, the latency analysis system identifies points-of-interest that users have visited and determines the amount of time the user devices were at a point-of-interest. For example, the latency analysis system determines when a user device entered and exited a point-of-interest. Based on the elapsed time between entry and exit, the latency analysis system determines how long the user device was inside the point-of-interest. By averaging elapsed times for multiple user devices, the latency analysis system determines a latency period for the point-of-interest. The latency analysis system then uses the latency period to provide latency-based recommendations to a user. For example, the latency analysis system may determine a shopping route for a user. | 01-22-2015 |
20150046085 | Alternative routing determination - A computer implemented method, system and apparatus for routing a user from a starting location to a destination location. The method comprises routing the user towards the destination along an initial route, prompting the user that an alternative route to the destination is available and monitoring the location of the user to determine whether to provide routing directions for the initial route or for the alternative route. | 02-12-2015 |
20150046086 | REAL-TIME SPATIAL PATH COMPARISON - Methods for processing motion paths for physical entities. For each physical entity among several physical entities, several representations are received of positions of the physical entity. In response to detecting that a number of physical entities among the physical entities traverse a similar motion path, a path record is generated, which represents the motion path traversed by the number of physical entities. | 02-12-2015 |
20150057927 | SYSTEMS AND METHODS FOR VISUALIZING PATIENT AND TELEPRESENCE DEVICE STATISTICS IN A HEALTHCARE NETWORK - Disclosed herein are various embodiments of systems and methods for visualizing, analyzing, and managing telepresence devices operating in a telepresence network of healthcare facilities. A user may selectively view a global view of all telepresence devices, telepresence devices within a particular region, the details of a particular telepresence device, and/or the details of a particular healthcare facility. At one viewing level, a user may view a plan view map of a healthcare facility and visualize the navigational history of a telepresence device. At another viewing level, a user may view a plan view map of a healthcare facility and visualize telemetry data of a patient associated with a selected room. At another viewing level, a user may selectively view various graphical representations of telepresence device statistics and usage information with respect to health ratings for each of a plurality of patients. | 02-26-2015 |
20150149086 | SYSTEM AND METHOD TO CONFIRM PARTICIPATION IN A CAR POOL - A method and an apparatus for confirming that two or more individuals' participation in a carpool where acceleration datum is collected from the individuals' associated devices. The acceleration datum of the devices is compared to determine that a first individual that is associated with the first device and at least a second individual that is associated with a second device traveled together in one single vehicle for a period of time to satisfy a carpool requirement. At least one of the individuals receives a benefit or incentive of the carpool. | 05-28-2015 |
20150308838 | METHOD AND APPARATUS FOR VALIDATING POTENTIAL POINTS OF INTEREST USING USER AND DEVICE CHARACTERISTICS - An approach is provided for validating potential points of interest using device and user characteristics. The validation platform processes and/or facilitates a processing of location information associated with at least one device to determine one or more potential points of interest visited by the at least one device. Next, the validation platform causes, at least in part, a tagging of the one or more potential points of interest with one or more characteristics of the at least one device, one or more users of the at least one device, or a combination thereof. Then, the validation platform causes, at least on part, a validation of the one or more potential points of interest based, at least in part, on the one or more characteristics as captured by at least one other device, one or more other users of the at least one other device, or a combination thereof. | 10-29-2015 |
20150332525 | SYSTEM, METHOD AND APPARATUS FOR TRACKING PARKING BEHAVIOR OF A VEHICLE - A system, method, and apparatus for tracking, organizing, and displaying the parking behavior of a vehicle. In one aspect the invention can be an apparatus for tracking parking behavior of a vehicle comprising: a device comprising a processor, a movement detector for detecting whether the vehicle is in a parked state or a non-parked state, a location identifier for identifying a geographic location of the vehicle, and a transceiver operably coupled together; and wherein for each occurrence in which the movement detector detects that the vehicle has entered into the parked state, the processor is configured to: (1) measure a duration that the vehicle remains in the parked state; and (2) upon the duration exceeding a predetermined minimum time threshold without the vehicle transitioning into the non-parked state, store parking information data relating to the occurrence as a parking instance. | 11-19-2015 |
20150345976 | NAVIGATION PEEK AHEAD AND BEHIND - Some embodiments of the invention provide a navigation application that allows a user to peek ahead or behind during a turn-by-turn navigation presentation that the application provides while tracking a device (e.g., a mobile device, a vehicle, etc.) traversal of a physical route. As the device traverses along the physical route, the navigation application generates a navigation presentation that shows a representation of the device on a map traversing along a virtual route that represents the physical route on the map. While providing the navigation presentation, the navigation application can receive user input to look ahead or behind along the virtual route. Based on the user input, the navigation application moves the navigation presentation to show locations on the virtual route that are ahead or behind the displayed current location of the device on the virtual route. This movement can cause the device representation to no longer be visible in the navigation presentation. Also, the virtual route often includes several turns, and the peek ahead or behind movement of the navigation presentation passes the presentation through one or more of these turns. In some embodiments, the map can be defined presented as a two-dimensional (2D) or a three-dimensional (3D) scene. | 12-03-2015 |
20150377626 | MOBILITY OBSERVATION - Representative implementations provide devices and techniques for observing the movement of one or more objects over a duration of time. Collected locational data of the objects is grouped according to a plurality of sliding time intervals having a variable length. The data is converted to one or more geometric representations, which are representative of object movement during a time interval. Movement patterns of the objects may be determined based on the properties of the geometric representations. | 12-31-2015 |
20160003637 | ROUTE DETECTION IN A TRIP-ORIENTED MESSAGE DATA COMMUNICATIONS SYSTEM - In an embodiment, a data processing method provides an improvement in personal tracking and comprises, using a server computer, obtaining a plurality of personal calendar records, wherein each of the calendar records comprises a location value specifying a geographical location of an event, and a start time value specifying a start time of an event at the location; using the server computer, obtaining a plurality of present location updates, wherein each of the present location updates comprises a geo-location value indicating a then-current location of a computing device; using the server computer, creating and storing polygon data that defines a polygon in geographical space that contains a final set of the plurality of location values; using the server computer, determining a street address that is contained in the polygon; creating and storing a database record that associates a particular calendar record with the street address. | 01-07-2016 |
20160019497 | SWITCH NETWORK OF CONTAINERS AND TRAILERS FOR TRANSPORTATION, STORAGE, AND DISTRIBUTION OF PHYSICAL ITEMS - Some embodiments include a transportation system implementing a network for transporting, distributing, and/or storing one or more physical items in one or more cargo containers (herein may be referred to as the “transportation network” for short). The cargo containers and relay terminals may be identified via node addresses in a network address space. The no addresses enables the transportation system to track, route, and monitor the physical items as they propagate through the transportation network. The transportation network can mimic routing protocols of telecommunication systems can facilitate different private transportation, storage and distribution companies and fleets. The transportation network can enable dynamic routing to fulfill logistic requests without wasting transportation and storage resources. | 01-21-2016 |
20160052516 | METHOD AND APPARATUS FOR DETECTING A POOR DRIVING PATTERN WHILE TRACKING A LANE - The present inventive concept relates to a method and apparatus for detecting quickly and consistently a poor driving pattern for the change status of a lateral position of a vehicle and effectively warning a poor driving situation by applying a lane departure warning system assisting a driver of a vehicle by recognizing and tracking a lane. | 02-25-2016 |
20160069675 | POSITION CALCULATING SYSTEM AND HAULAGE VEHICLE - Disclosed is a position calculating system for a haulage vehicle including wheels and a body frame mounted on the wheels. The system includes an attitude detection sensor fixed on the body frame, a wheel rotational speed sensor, a loading status information acquiring unit, a correction amount setting unit, a velocity vector calculating unit, and a position calculating unit. The loading status information acquiring unit acquires loading status information indicating whether the body frame is in a loaded state or in an unloaded state . The correction amount setting unit calculates, based on the attitude information, a correction amount required for bringing detection axes in the loaded state into coincidence with corresponding detection axes in the unloaded state. The velocity vector calculating unit calculates the velocity vector of the haulage vehicle. The position calpulating unit calculates a position of the haulage vehicle by using the velocity vector. | 03-10-2016 |
20160069702 | NAVIGATION DEVICE - According to a navigation device of the invention, at the time of performing turning guidance for a user who drives a vehicle, it is possible to perform the guidance in a way easy-to-understand for the user. Namely, a presentation of a preceding vehicle is made using an actual image or a graphic image of a vehicle that is the same as the actually seen vehicle, so that the user who drives the vehicle in traveling will understand that he/she only has to follow the preceding vehicle actually traveling ahead. This results in such route guidance that does not cause misunderstanding of a turning point and is very easy-to-understand. | 03-10-2016 |
20160084656 | METHOD FOR ESTIMATING A TRAJECTORY ORIENTATION FOLLOWED BY A MOVEMENT SENSOR CARRIER, CORRESPONDING DEVICE AND COMPUTER PROGRAM - A method estimating orientation of a path followed by a carrier of a movement sensor includes: determining an orientation of the movement sensor with respect to the path; estimating an orientation of the movement sensor with respect to a fixed reference; estimating an orientation of the path with respect to the fixed reference by the determined orientation of the movement sensor and the estimated orientation of the movement sensor; detecting start and end of a phase of disorientation of the movement sensor with respect to the path; updating, after the detected end of the disorientation phase, determined orientation of the movement sensor with respect to the path by orientation of the path with respect to the fixed reference as estimated at the detected start of the disorientation phase and orientation of the movement sensor with respect to the fixed reference as estimated after the detected end of the disorientation phase. | 03-24-2016 |
20160092832 | OBJECT ASSOCIATION USING DYNAMIC OBJECT LOCATION CORRELATION - A method of object association is disclosed. The method includes receiving object location information for a first object, receiving object location information for a second object, determining an existence of a correlation between a varying position of the first object and a varying position of the second object over for a predetermined amount of time and dynamically associating the first object with the second object based on the correlation. | 03-31-2016 |
20160105769 | Adding Geo-Fences Based On Time - The method includes receiving, via the one or more input devices, a request to generate an alert when the device is near a location associated with a first identifier, wherein the first identifier is associated with a class of goods or services that is associated with a first type of location including one or more locations associated with the first identifier and a second type of location including one or more locations that are not associated with the first identifier, wherein the alert is restricted to a route constraint parameter. In response to receiving the request, (i) in accordance with a determination, based on a predicted route of the device, that the device is predicted to arrive at the first type of location within the route constraint parameter, preparing to trigger a first alert when the device is near a location associated with the first identifier, (ii) in accordance with a determination, based on the predicted route of the device, that the device is not predicted to arrive at the first type of location within the route constraint parameter, preparing to trigger a second alert when the device is near a location associated with the class of goods or services without regard to whether or not the location matches the first identifier. | 04-14-2016 |
20160107643 | OBJECT RECOGNITION APPARATUS - A sameness judgment unit of an object recognition apparatus sets a threshold value for a relative distance between the first object and the second object, for judging whether or not the first object and the second object are the same. If at least a portion of the first object exists on a travel path of a vehicle, and the second object exists outside of the travel path, the sameness judgment unit judges that the first object and the second object are different objects, even if the relative distance is less than or equal to the threshold value. | 04-21-2016 |
20160116291 | FACILITATING LOCATION DETERMINATION EMPLOYING VEHICLE MOTION DATA - Location determination is facilitated based on motion data accumulated at a vehicle in cases in which a beacon is not available. One method includes receiving, by a first device, first information about a vehicle indicative of a position and a direction of the vehicle. The position is measured by the vehicle based on a measured angular rotation rate and radius of a wheel of the vehicle and the direction of the vehicle is measured by the vehicle based on a measured amount of a turn radius of a steering wheel device of the vehicle. The method also includes determining a previously determined location of the vehicle. The method also includes generating second information about a location of the first device based on the previously determined location of the vehicle and the first information. Error estimates for the location and/or tuning bias for sensors at the vehicle can also be determined. | 04-28-2016 |
20160146615 | Systems and Methods for Driver and Vehicle Tracking - Systems and methods for driver and vehicle tracking in accordance with embodiments of the invention are disclosed. In one embodiment of the invention, a location tracking system includes a processor and a memory storing a location tracking application, wherein the location tracking application directs the processor to obtain vehicle location data, where the vehicle location data includes a set of vehicle location data points, obtain driver location data, where the driver location data includes a set of driver location data points, correlate the vehicle location data and the driver location data, and generate vehicle driver data based on the correlated vehicle location data and driver location data, where the generated vehicle driver data includes a set of drivers associated with a vehicle. | 05-26-2016 |
20160202078 | VEHICLE TRACKING SYSTEMS AND METHODS | 07-14-2016 |
20170234688 | Systems and Methods for Driver and Vehicle Tracking | 08-17-2017 |