Abstract: To identify important access roads for a geographic location, multiple previous requests for directions between a multiplicity of sources and one or more destinations identical, or proximate, to the geographic location are identified. Further, routes between the multiplicity of sources and the one or more destinations are determined. Still further, common road segments shared by at least some of the determined routes are identified, and a set of important access roads for the geographic location are selected from among the identified road segments based on how frequently the identified road segments are used.

Abstract: A traffic condition data providing method using a wireless communication device and a navigation device performing the method are disclosed. The navigation device includes a travelling path displaying unit that searches a travelling path to a destination set by a user and displays the travelling path on map data, a traffic condition data receiving unit that receives traffic condition data from a content managing server through a wireless communication device in response to a request of providing the traffic condition data over the travelling path, and a traffic condition data providing unit that provides the user with the received traffic condition data.

Abstract: A method and apparatus for recommending a route. The route recommending method includes obtaining user's current body information; obtaining geographic information from a current position to a destination; and determining a recommended route to the destination on the basis of the body information and the geographic information.

Abstract: A system and method provides a route and turn-by-turn directions based on estimates of current and future traffic along the route. A client device may request turn-by-turn directions between an initial and a final location. A server may identify a plurality of routes between the locations. Each route of the plurality of routes may be divided into route segments. For each route segment of a particular route, the server may estimate a travel time. The travel time may be based on estimated vehicle volume data generated from information received from other users vehicle Based on the estimated travel time for each route segment of a particular route, the server may estimate a total travel time for the particular route. The server may repeat this estimate for each of the plurality of routes between the locations and select the route with the lowest estimated travel time. Based on the selected route, the server may generate turn-by-turn directions and transmit the directions to the client device for display.

Abstract: Route setting systems, methods, and programs set a guide route from a departure location to a destination location, display the set guide route on a display superimposed on a map image, receive an operation by a user designating a location on the displayed map image, acquire a road status of a road in the vicinity of the designated location, and select a pass-through road on the basis of the acquired road status. The pass-through road is a road by which the guide route will pass from the road in the vicinity of the designated location. The systems methods, and programs change the set guide route to a route that leads from the departure location to the destination location by way of the selected pass-through road.

Abstract: An approach is provided for providing services via cloud based analytics. An analytics platform determines one or more data propagation policies associated with propagating user information from at least one device to one or more cloud components. The analytics platform also processes and/or facilitates a processing of the one or more data propagation policies to cause, at least in part, a propagation of the user information to the one or more cloud components, wherein the propagation causes, at least in part, the user information to be available to one or more applications, one or more services, or a combination thereof.

Abstract: A system and method for driver-aware notification that collects and analyzes contextual information about the driving environment to free a device owner from having to decide whether or not to answer an incoming message.

Abstract: An apparatus for providing standard real world to virtual world links may include a processing element configured to receive indications of an image including an object, determine whether the object corresponds to a particular object having a predefined association based on a recognition of the object, and execute a function corresponding to the predefined association in response to the object corresponding to the particular object.

Abstract: In one implementation, a computer-implemented method includes receiving a parameterless search request, which was provided to a mobile computing device, for information that is relevant to a user of the mobile computing device. The method also includes, in response to the received parameterless search request, identifying with a digital computer system one or more results that are determined to be relevant to the user of the mobile computing device based upon a current context of the mobile computing device. The method further includes providing the results for display to a user of the mobile computing device.

Abstract: A system and method provides a route and turn-by-turn directions based on estimates of current and future traffic along the route. A client device may request turn-by-turn directions between an initial and a final location. A server may identify a plurality of routes between the locations. Each route of the plurality of routes may be divided into route segments. For each route segment of a particular route, the server may estimate a travel time. The travel time may be based on estimated vehicle volume data generated from information received from other users vehicle Based on the estimated travel time for each route segment of a particular route, the server may estimate a total travel time for the particular route. The server may repeat this estimate for each of the plurality of routes between the locations and select the route with the lowest estimated travel time. Based on the selected route, the server may generate turn-by-turn directions and transmit the directions to the client device for display.

Abstract: A terminal and controlling method thereof are disclosed. The present invention includes detecting whether a message transmission command is inputted in the course of driving the vehicle, when the message transmission command is inputted, creating a message including at least one information provided by at least one application provided to the terminal, and transmitting the created message. Accordingly, a driver of a moving vehicle automatically creates and transmits a message including application and vehicle informations suitable for a predetermined format by a single manipulation, thereby facilitating the message to be transmit safely and conveniently in the course of driving the vehicle.

Abstract: Methods and apparatuses are provided which may be implemented in various devices to generate positioning assistance data and/or the like by mobile station with regard to at least one of a plurality of different indoor regions.

Abstract: A controller for an autonomous vehicle received audio streams from one or more microphones and one or more image streams from one or more cameras. The audio streams are processed to identify audio features that potentially correspond to a motorcycle. The video streams are likewise processed to identify image objects that have movement and/or visual attributes corresponding to a motorcycle. The audio features and image objects are correlated. If a correlation is identified among the audio features and image objects, then a potentially lane-splitting motorcycle may be determined to be proximate. Actions may be taken to avoid collision with the lane-splitting motorcycle, such as avoiding lane changes, signaling longer, or performing lane changes more slowly.

Abstract: A method and system for automatically detecting a control section using traffic information is disclosed. The automatic control section detection system may include an analyzer configured to analyze a primary control section that is a control section included in traffic control information; and a detector configured to detect an additional control section associated with the primary control section based on connectivity and directivity of roads connected to the primary control section.

Abstract: A system and method for determining adverse/dangerous road conditions based on sensor data received from a vehicle and generating alerts for other vehicles which may encounter the same condition. The system receives sensor data from a vehicle and evaluates the data to determine if the vehicle encountered a potentially dangerous road condition. The system may apply one or more thresholds to the data, where the thresholds are designed to detect various sudden movements of the vehicle. The system may monitor the location associated with the potentially dangerous road condition and evaluate sensor data from one or more other vehicles that drive near the same location to determine whether they encounter a similar condition. The system may generate one or more alerts and transmit those alerts to vehicles that are approaching the location of the dangerous condition using location data provided by the approaching vehicles.

Abstract: A vehicle-based computing apparatus includes a computer processor in communication with persistent and non-persistent memory. The apparatus also includes a local wireless transceiver in communication with the computer processor and configured to communicate wirelessly with a wireless device located at the vehicle. The processor is operable to receive, through the wireless transceiver, a connection request sent from a nomadic wireless device, the connection request including at least a name of an application seeking to communicate with the processor. The processor is further operable to receive at least one secondary communication from the nomadic device, once the connection request has been processed. The secondary communication is at least one of a speak alert command, a display text command, a create phrase command, and a prompt and listen command.

Abstract: A computing device obtains an incomplete semantic map of a predefined space. The incomplete semantic map includes static landmarks. The computing device receives a set of natural language instructions including a sequence of semantically directive clauses, processes the sequence of semantically directive clauses, decodes one of an action and a path in the set of natural language instructions using an optimization process and based on the incomplete semantic map. In response to the decoding, the computing device inserts a newly identified landmark into the incomplete semantic map.

Abstract: An electronic apparatus for acquiring a location, comprising: a location acquiring unit which acquires a current location of the electronic apparatus; a correction area setting unit which, based on a link attribute indicating an attribute of an adjacent area of a link in map data, sets a correction area within the adjacent area, the correction area being referred to correct the current location to a location on the link; and a location correcting unit which, in a case in which the current location acquired by the location acquiring unit belongs to the correction area set within the adjacent area, corrects the current location to a location on the link which corresponds to the correction area.

Abstract: An apparatus for automatically controlling a vehicle speed includes a first unit configured to drive data of a vehicle from electric control units (ECUs) to determine driver's habits, a second unit configured to receive the drive data from the ECUs and receive a driver's habit value from the first unit to control a speed of a smart cruise control apparatus, a third unit configured to guide the driver visually or audibly by using information about a result of controlling the smart cruise control apparatus by the second unit, the drive data and driver's habit information, and a fourth unit configured to monitor the result of controlling the smart cruise control apparatus or drive data generated while the smart cruise control apparatus is operated to transmit the controlling result or the generated drive data to the first unit.

Abstract: A method for updating a decentralized database, in particular a navigation database, that is subdivided into segments, by transmitting an updated segment from a central database subdivided into corresponding segments to the decentralized database, and by storing the updated segment in the decentralized database avoids inconsistencies in an only stepwise update in that the segments are modeled to a hierarchical model in the decentralized database, and in the updating of the segment the particular segments from which the segment depends are updated as well.

Abstract: A request is received to compute a route from a start point to an end point. The route is computed using map data that includes a plurality of map elements, and route data that includes rules associated with the map elements, each of the rules being triggered by a condition flag that specifies a condition according to which the rule should be applied. The route data is based inputs related to driver experience in a geographic area associated with the route, and the inputs are based on stored data and not real-time or near-real-time data.

Abstract: It is an object of the invention to provide a method of transmitting position information of a digital map which can enhance matching precision on a receiving side. The invention provides a method of transmitting position information of a digital map in which a transmitting side transmits a vector shape on the digital map and a receiving side specifies the vector shape on a self-digital map by map matching, wherein the transmitting side selects a portion in which a plurality of candidate points are generated with difficulty during the map matching as an endpoint of the vector shape and transmits the vector shape having the endpoint in the portion to the receiving side. Mismatching on the receiving side can be prevented and the position information on the digital map can be transmitted accurately.

Abstract: The present invention makes the user easily search the nearest point which is useful for the user without making the user perform a complicated operation. The present invention provides a navigation device that obtains a current position based on information from GPS satellites, and guides a travel path from the current position to the destination on a map image which includes a display unit that displays the map image, a search unit that searches a nearest point existing around a vehicle position on the map image, a search subject range determination unit that, when a search subject area setting frame in searching the nearest point is specified by a user, determines the search subject area setting frame as a search subject range in searching by the search unit.

Abstract: Systems, methods, and computer program products are provided for identifying a serviceable address that is associated with a street network connection point and an actual location point. For example, in one embodiment, the serviceable address may be associated with a street network connection point that is part of a digital map. The serviceable address may also be associated with an actual location point, such as a parcel drop-off point.

Abstract: A host application on a host computer system receives annotations made by drivers of respective navigation information displayed to the drivers by GPS devices in vehicles of the respective drivers. The host application saves the annotated navigation information for the respective drivers on a computer readable memory accessible by the host application. The host application receives a request from a first one of the drivers for annotated navigation information made by one or more of the other drivers. Responsive to the request, the host application selects one or more items of the saved annotated navigation information. The host application sends the selected one or more items of the saved annotated navigation information to the GPS device of the first one of the drivers.

Abstract: A method of inferring a user's direction by a computer, the method includes: recording a relative azimuth angle obtained from an output of a direction sensor included in a terminal apparatus carried by the user; identifying the user's direction at a first point at which the user's direction is capable of being identified; and inferring the user's direction at a second point by using a relative azimuth angle corresponding to the first point and a relative azimuth angle corresponding to the second point different from the first point, and the user's direction that has been identified at the first point.

Abstract: To provide remote services, including dynamic, interactive assistance to electric vehicle (EV) users, a central server is arranged for electronic communications with EVs (15) and with client devices (11). The server also communicates with at least one EV charging station network, which in turn communicate with individual charging stations (30). Remote services may include trip planning, locating charging stations, checking availability and suitability of charging stations, making reservations at charging stations, and updating plans en route. The server collects data from the EV and analyzes the data to determine various statistics. The system advises a user on readiness of the EV to complete a proposed trip before recharging the EV batteries. Client devices may include smart phones, computers, or a head unit in the EV. Application software programs are executable on the client devices to provide user interfaces for accessing the remote services and for communicating with the central server.

Abstract: A vehicle navigation method comprises determining a present location of a host vehicle, including a road on which the host vehicle is traveling, determining a navigation route based on a destination and the present location of the vehicle, and determining a next navigation maneuver based on the navigation route and the present location of the host vehicle. The method further comprises capturing road information pertaining to the road, determining a present lane of the road in which the host vehicle is traveling based on the captured road information, determining a traffic condition on the road, and operating a computer to modify the next navigation maneuver based on the navigation route, the present lane and the traffic condition.

Abstract: Operational efficiency and/or control systems and methods for vehicles are provided in order to improve fuel efficiency when traveling in a fuel powered vehicle from point A to point B. The systems and methods can determine the “best” or most efficient route to take based on one or more priorities, make driving recommendations to the operator, and/or automatically control one or more systems (e.g., engine, brakes, transmission, etc.) of the vehicle. The systems and methods can calculate the “best” route based on predefined trip requirements, including cost, schedule, route preferences, and/or risk of potential delays, etc.

Abstract: A method is disclosed for mitigating the risks associated with driving by assigning risk values to road segments and using those risk values to select less risky travel routes. Various approaches to helping users mitigate risk are presented. A computing device is configured to generate a database of risk values. That device may receive accident information, geographic information, vehicle information, and other information from one or more data sources and calculate a risk value for the associated road segment. Subsequently, the computing device may provide the associated risk value to other devices. Furthermore, a personal navigation device may receive travel route information and use that information to retrieve risk values for the road segments in the travel route. An insurance company may use this information to determine whether to adjust a quote or premium of an insurance policy.

Abstract: Ground-based devices are provided which each have a transceiver apparatus and a data memory. Route data are stored in the data memory. This route data can be transmitted in a wireless fashion from the ground-based device to motor vehicles so that information relating to such a route is made available in the motor vehicles which are located outside the sensing range of a sensing apparatus of the motor vehicle.

Abstract: An alert content reception apparatus comprises a communications interface (229) compatible with a data broadcast service and capable of receiving, when in use, a broadcast data message comprising reference data concerning alert content. The apparatus also comprises a processing resource (202) arranged to analyze, when in use, the broadcast data message and acquire the alert content associated with the reference data in response to determining that the alert content associated with the reference data has not previously been acquired. The communications interface (229) is compatible with a bidirectional data communications service, the processing resource (202) also being arranged to cooperate with the communications interface (229) in order to retrieve the alert content via the bidirectional data communications service.

Abstract: An approach is provided for determining one or more non-travel lanes in at least one route segment. The approach involves determining whether to include the at least one route segment in a navigation route based, at least in part, on a minimization of a risk of being blocked by the one or more non-travel lanes.

Abstract: Systems and methods are provided for inferring a user's intent to stop at a predefined location or breakpoint along a predetermined route, such as an exit along a highway, and to enable users to report back to systems maintaining exit or breakpoint POI data. An application executing on a user's mobile device may infer or query the user's intent upon detecting a deviation away from the route and to use this as a “check-in” at a predefined location corresponding to the point of deviation. Then further check-ins and ratings at amenities/locations associated with the exit can also be used to enhance the rating and popularity of the predefined location (e.g., highway exit) itself. The ratings and popularity of highway exits can then be exposed in applications to provide relevant content related to the highest rated or most popular breakpoints located along their route of travel.

Abstract: A method for determining vehicle priority settings (30) at an intersection (26) is provided comprising accumulating probe data (24) from a plurality of individual navigation units (20). An intersection within a digital map (14) is selected, and a plurality of probe traces (32) are selected. The probe traces (32) are processed in a method characterized by selecting a pair of probe traces (32) that enter the intersection (26) at the same time on different trajectories (34). It is determined which of the probe traces (32) proceeds through the intersection first and an intersection priority matrix (36) is updated accordingly. This intersection priority matrix (36) is utilized to formulate at least one derived intersection priority setting (38).

Abstract: Vehicle range projection is implemented by a host system having logic executable thereon. The logic identifies a starting location of a vehicle and identifies destination locations for the vehicle. The logic also builds routes from the starting location to the destination locations based on routing objectives and travel constraints. The logic further outputs at least a portion of at least one route and travel cost information associated with the at least a portion of at least one route.

Abstract: A method is disclosed for mitigating the risks associated with driving by assigning risk values to road segments and using those risk values to select less risky travel routes. Various approaches to helping users mitigate risk are presented. A computing device is configured to generate a database of risk values. That device may receive accident information, geographic information, vehicle information, and other information from one or more data sources and calculate a risk value for the associated road segment. Subsequently, the computing device may provide the associated risk value to other devices. Furthermore, a personal navigation device may receive travel route information and use that information to retrieve risk values for the road segments in the travel route. An insurance company may use this information to determine whether to adjust a quote or premium of an insurance policy.

Abstract: A navigation apparatus, including a map data acquiring means 11a, 11, 12, and 5 for acquiring map data including car pool lane data, a current position determining means 13, 14, 15, and 10 for determining a current position, and a display unit 2 for generating and displaying a map of an area in a neighborhood of the determined current position on the basis of the acquired map data, is provided with a road information receiving means 16 for receiving road information in real time from outside the apparatus, a control unit 10 for, when the road information received by the road information receiving means shows that a traffic congestion has occurred in a highway in a traveling direction, judging whether a car pool lane is also provided in the highway on the basis of the map data acquired by the map data acquiring means, and an output means 2 and 4 for outputting a message showing whether or not there exists a car pool lane according to the result of the judgment by the control unit.

Abstract: Method, computer program product, and apparatus for providing navigation guidance to vehicles are disclosed. The method may include receiving crowdsourcing data from a plurality of vehicles, determining information corresponding to a route of interest to at least one vehicle using the crowdsourcing data, and providing navigation guidance to the at least one vehicle using the information determined. The crowdsourcing data includes on board diagnostics data (OBD) correlated with time stamps and GPS locations of a vehicle, where the on board diagnostics data includes odometer information, speedometer information, fuel consumption information, steering information, and impact data.

Abstract: A mobile sensor receives a mobile sensor location and destination. The mobile sensor determines, from a repository of road segments, a plurality of routes having a first endpoint corresponding to the mobile sensor location, and a second endpoint corresponding to the destination. The mobile sensor receives transit data from a plurality of peer mobile sensors, wherein each transit data comprises a peer mobile sensor's velocity and a peer mobile sensor's location. The mobile sensor stores at least one transit data based on the peer mobile sensor's velocity and peer mobile sensor's location corresponding to at least one of the plurality of routes, thereby forming at least one stored transit data. The mobile sensor determines that a sampling period has expired. The mobile sensor reports a route corresponding to a stored transit route having best transit data or no transit data, wherein the route is among the plurality of routes.

Abstract: A traffic control system sets a target value related to a travel state based on a correlation between a vehicle travel speed and a traffic volume, and controls multiple vehicles (CS) on a road in accordance with the target value as a common target value. The target value can be set based on a predicted traffic volume at a region (103) that is ahead of, in a vehicle travel direction, the multiple vehicles on the road. For example, the traffic control system sets, as the target value, a target speed or a target value of a parameter related to an inter-vehicle distance.

Abstract: Systems and methods provide a route and turn-by-turn directions based on estimates of current and future traffic along the route. A client device may request turn-by-turn directions between an initial and a final location. A server may identify a plurality of routes between the locations. Each route of the plurality of routes may be divided into route segments. For each route segment of a particular route, the server may estimate a travel time. The travel time may be based on estimated vehicle volume data generated from information received from other vehicles. The server may estimate a total travel time for the particular route. The server may repeat this estimate for each of the plurality of routes between the locations and select the route with the lowest estimated travel time. Based on the selected route, the server may generate turn-by-turn directions and transmit the directions to the client device for display.

Abstract: A system for navigation along a desired route on a desired future date may include a map interface operable to display a traffic condition and a travel time received via a communication network, and an automobile navigation network communicatively coupled to the communication network. The automobile navigation network may estimate the traffic condition and the travel time for travel along the desired route on the desired future date based on historical travel information, current traffic information and current weather information. Information regarding the estimated travel conditions may be automatically communicated to the map interface. The traffic condition may include geographic location information and/or route information. The historical travel information may include historical traffic information.

Abstract: A server arranged to process GPS data to generate enhanced map data is disclosed. The enhanced map data includes a plurality of navigable segments representing segments of a navigable route in an area covered by a map. In at least one embodiment, the server is connected with a wireless telecommunications transceiver arranged to receive GPS fixes by wireless telecommunication from a plurality of navigation devices and send the received GPS fixes to the server, the server includes a processor arranged to generate at least one speed profile for each segment from the GPS fixes from at least two of the plurality of navigation devices, each speed profile comprising an expected speed of travel through the segment, and the server is arranged to subsequently cause the transceiver to send the speed profiles to the navigation devices.

Abstract: A mobile computing implemented platform is provided that enables the generation, and delivery of highly relevant content to the mobile device of a driver. The content is filtered based on the current location and direction of the driver, and content is generated and filtered based a crowd sourced model where a plurality of users who are driving within a similar locations are linked to one another via the platform for improved discovery of traffic conditions, and improved determination of user interest based on collective interest of the plurality of users. Various intelligent features are enabled by the platform.

Abstract: A battery electric vehicle (BEV) navigation routing system and routing methods are presented, in which a traveling route is determined from the current vehicle location to the destination location by preferentially selecting low speed routes over higher speed routes if the present state of charge of the vehicle battery is insufficient to reach the destination location using shortest time or shortest distance routes.

Abstract: Systems and associated methods for utilizing crowdsourcing probes to obtain traffic information are described. Such traffic information includes location, date, time, speed, and speed limit information. Embodiments allow for the determination of traffic intensity, or road congestion, through the calculation of a road speed capacity factor. Embodiments provide that the traffic information and traffic intensity information may be visualized through a user interface.

Abstract: A route comprises interconnected road segments that can be traveled to get from a location to a destination. Previously, routes are represented by display of the spatial arrangement of such road segments (e.g., a map). Here, a route is depicted as a linear shape, and portions of the linear shape represent portions of the route, regardless of their spatial arrangement. A scale is applied between a characteristic of the route and the linear shape. Information elements can be depicted at points on the linear shape that correspond, based on the scale, to locations on the route where such information applies. Portions of the linear shape can be colored or cross-hatched according to traffic congestion conditions. Incident reports can be represented by indicators along the linear shape. Alternate routes (detours) can be represented by respective separate linear shapes; lead lines can connect such linear shapes to points of the route linear shape where each such detour would be taken.

Abstract: Route search devices, methods, and programs acquire basic congestion information, the basic congestion information being congestion information for specific links. The systems, methods, and programs set a destination and search for a first travel route from a departure point to the set destination using the acquired basic congestion information. Based on the first travel route, the systems, methods, and programs determine, whether center traffic information is necessary to be acquired. Only when it is determined that the center traffic information is necessary, the systems, methods, and programs acquire the center traffic information, the center traffic information being congestion information of a link other than the specific links, and search for a second travel route from the departure point to the set destination using the acquired additional congestion information.

Abstract: Concepts and technologies are disclosed herein for providing navigation routes and/or providing navigation route updates. According to various embodiments of the concepts and technologies disclosed herein, a navigation application can be configured to obtain route data from a routing service. The routing service can be configured to use navigation data locally stored and/or obtained from a number of sources to generate navigation routes and/or to update navigation routes. The generated and/or updated navigation routes can be provided to the user device as route data that can be used to provide navigation directions to a user.