Abstract: In a first illustrative embodiment, a computer implemented method includes obtaining the identities of one or more vehicle occupants. The method also includes obtaining data relating to a current vehicle environment. The method further includes selecting an advertisement for delivery based at least in part on data retrieved respective to identified occupants and data relating to the vehicle environment. Also, the illustrative method includes evaluating a driver cognitive load. The method additionally includes providing the selected advertisement for delivery based on the driver cognitive load being below a suitable threshold.

Abstract: A route-determination method includes gathering road-related data in a vehicle navigation system (VNS) for a plurality of routes between two locations. This may include weighting two or more of the possible routes in the VNS based at least on the road-related data. Also, this may include adjusting the weighting in the VNS for each weighted route based on projected fuel consumption and determining an optimal fuel usage route in the VNS based on the adjusted weighting. Further, this may include outputting at least one optimal fuel usage route.

Abstract: A computer-implemented authentication method includes receiving a request to access one or more features of a vehicle computing system (VCS) from an application running on a wireless device in communication with the VCS. The method further includes preparing a secure access rights request to a remote server including one or more characteristics associated with the application and sending the secure request from the VCS, through the wireless device to the remote server. The method additionally includes receiving a response to the request having been sent from the remote server through the wireless device. The method includes verifying the authenticity of the received response and updating a policy table including information from the received response, the information including at least an expiration trigger and access rights for the application. Also, the method includes validating the application for usage based at least on the information included in the updated policy table.

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 method and system for scheduling an electronic vehicle order. The method includes receiving an electronic vehicle order, which has a plurality of associated vehicle-option inputs, from a customer; expanding the order by associating each vehicle option with a plurality of part codes to generate a subset of part codes; applying a first set of rules that has non-deterministic criteria to the subset of part codes for conflict determination; resolving any conflict(s) between part codes by applying a second rule set, which has deterministic criteria; and scheduling a vehicle build order based at least in part on the part code subset.

Abstract: An efficient route-defining method includes determining a route to a destination. The exemplary method also includes determining a wireless device to server connection type and assigning a tolerance in accordance with a connection type. The tolerance is usable to determine if a vehicle is off-route, and the tolerance is increased or decreased inversely corresponding to the speed of the connection type. According to the illustrative method, the assigned tolerance is used to determine points defining the route, such that the roads comprising the route are within a bounded area. The bounded area may be defined by the tolerance in conjunction with a plurality of lines connecting successive points along the route. Finally, the method includes delivering the determined points to a vehicle computing system in communication with the server.

Abstract: An efficient route-defining method includes determining a route to a destination. The exemplary method also includes determining a wireless device to server connection type and assigning a tolerance in accordance with a connection type. The tolerance is usable to determine if a vehicle is off-route, and the tolerance is increased or decreased inversely corresponding to the speed of the connection type. According to the illustrative method, the assigned tolerance is used to determine points defining the route, such that the roads comprising the route are within a bounded area. The bounded area may be defined by the tolerance in conjunction with a plurality of lines connecting successive points along the route. Finally, the method includes delivering the determined points to a vehicle computing system in communication with the server.

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 computer-implemented method includes connecting to a remote system and requesting data relating to a quality of air level in the vicinity of a known vehicle location. The method further includes receiving data relating to the quality of air level and comparing the data to one or more predetermined threshold levels of tolerance. If the data exceeds at least one threshold level of tolerance an automatic vehicle computing system response is instructed. In this example, the method also includes activating one or more vehicle systems in response to the data exceeding the at least one threshold level of tolerance.

Abstract: A method and system may include aggregating and implementing preferences associated with vehicle occupants for vehicle-based operations. The occupants may be identified in a vehicle, each occupant having one or more preferences relating to a plurality of vehicle-based operations. The common preferences between the vehicle occupants may be identified, merged, and implemented in a vehicle.

Abstract: A computer-implemented method includes requesting weather data from a remote location. The illustrative embodiment further includes determining if one or more vehicle systems should be adjusted, based at least in part on the requested weather data. The illustrative embodiment additionally includes adjusting one or more vehicle systems contingent at least in part on the determining. The illustrative embodiment further includes repeating the determining and adjusting until no weather data remains for processing.

Abstract: An efficient route-defining method includes determining a route to a destination. The exemplary method also includes determining a wireless device to server connection type and assigning a tolerance in accordance with a connection type. The tolerance is usable to determine if a vehicle is off-route, and the tolerance is increased or decreased inversely corresponding to the speed of the connection type. According to the illustrative method, the assigned tolerance is used to determine points defining the route, such that the roads comprising the route are within a bounded area. The bounded area may be defined by the tolerance in conjunction with a plurality of lines connecting successive points along the route. Finally, the method includes delivering the determined points to a vehicle computing system in communication with the server.

Abstract: A computer-implemented method includes recognizing the initiation of a vehicle journey. The method further includes periodically storing vehicle speed data, GPS coordinate data and time data. This method also includes providing at least one option for reporting the stored speed data, GPS data and time data. The method additionally includes outputting the stored speed data, GPS data and time data for at least one portion of the vehicle journey, responsive to input requesting the reporting.

Abstract: A computer-implemented tracking method includes receiving a tracking request at a vehicle associated computing system (VACS). The method also includes authenticating the tracking request and determining a vehicle location via a GPS in communication with the VACS. The method further includes transmitting the vehicle location from the VACS to a tracking request associated computing system (TRACS). The method also includes monitoring the vehicle for at least one delay-event. The method additionally includes transmitting data corresponding to the delay event to the TRACS, contingent on the occurrence of at least one delay-event.

Abstract: An efficient route-defining method includes determining a route to a destination. The exemplary method also includes determining a wireless device to server connection type and assigning a tolerance in accordance with a connection type. The tolerance is usable to determine if a vehicle is off-route, and the tolerance is increased or decreased inversely corresponding to the speed of the connection type. According to the illustrative method, the assigned tolerance is used to determine points defining the route, such that the roads comprising the route are within a bounded area. The bounded area may be defined by the tolerance in conjunction with a plurality of lines connecting successive points along the route. Finally, the method includes delivering the determined points to a vehicle computing system in communication with the server.

Abstract: A computer-implemented method of gathering data includes querying, via a vehicle computing system, a plurality of weather sensors included with a vehicle and in communication with a vehicle network. The method also includes determining whether or not appropriate conditions exist for storage of data from the sensor, for each of the sensors. Additionally, the method includes storing the data from the sensor if appropriate conditions exist. Finally, the method includes sending, from the vehicle computing system to a remote network, data from one or more queried sensors and current GPS coordinates of the vehicle.

Abstract: Various embodiments may include methods and systems for locating health facilities based on a cost of healthcare. Information may be received identifying a source for receiving health service cost information. Further, vehicle user insurance information may be transmitted to obtain health service cost information. The health service cost information may be received from the identified source and presented at a vehicle computer. The identified source may include information by or from a health facilities and/or information from one or more members of the public.

Abstract: A computer-implemented method includes determining a user account associated with a vehicle occupant. The method also includes detecting the presence of at least one active monitoring device. The method further includes determining an association between the active monitoring device and the user account and periodically downloading device information from the active monitoring device to a vehicle computing system. Finally, the method includes storing downloaded device information in association with the user account.

Abstract: A computer-implemented method includes detecting, through an RF transceiver in communication with a vehicle computing system, the proximate presence of one or more RFID tags. The method also includes determining, via the vehicle computing system, a type of potential hazard to which the detected tag corresponds. The method further includes notifying, via the vehicle computing system, a driver of the presence of the determined type of potential hazard.

Abstract: A system for providing weather conditions includes a server in communication with a weather data provision service. The server includes a middleware application operable to process weather data requests. The system also includes a gps module, and at least one component control system, operable to adjust at least one parameter associated with at least one vehicle component. Finally, the illustrative system includes a vehicle computing system, in communication with the GPS module, the at least one component control system, and the server. In response to a request for data from the component control system, the vehicle computing system passes GPS data to the server, including the request for data, and the vehicle computing system responsively receives the requested data from the server. The vehicle computing system relays the received data to the component control system that requested the data.