Systems and methods are disclosed for autonomous behavior override utilizing an emergency corridor. An example disclosed system includes an autonomous vehicle, infrastructure nodes, and an emergency router. The example autonomous vehicle sends an emergency request in response to detecting an occupant experiencing a medical emergency. The example infrastructure nodes are distributed across a municipal area. The example emergency router selects a route from a first location of the autonomous vehicle to an emergency response facility. The example emergency router also selects the infrastructure nodes that are along the route. Additionally, the example emergency router instructs the selected infrastructure nodes to broadcast messages to create an emergency corridor.

A system includes a processor configured to wirelessly receive crash indicia from a vehicle. The processor is also configured to access an occupant profile including medical data relating to an occupant of the vehicle, identify a public safety access point (PSAP), and send the medical data to the identified PSAP, in response to the crash indicia.

A computing device supports distributed application execution by receiving an application definition that identifies a plurality of platform-independent device functions to be performed by an application, and mapping the platform-independent device functions to corresponding code modules stored in a code module repository. The computing device distributes the corresponding code modules to a plurality of remote devices for distributed execution of the application by the remote devices according to device-specific support for the platform-independent device functions by the remote devices. The distributing includes sending a given code module to different remote devices that have different device-specific support for the platform-independent device function corresponding to the given code module.

A communication system includes at least one first device having a first display and at least one base station configured to send a mission command to the first device. The first device is configured to receive the mission command and change a setting of the first display from a first value to a second value in response to the mission command.

A roaming wireless user device on a Visited Public Land Mobile Network (VPLMN) may initiate a Long-Term Evolution (LTE) emergency call to a Public Safety Answering Point (PSAP). Accordingly, a Proxy Call Session Control Function (P-CSCF) of the VPLMN may receive an anonymous Session Initiation Protocol (SIP) invite message for the LTE emergency call. The anonymous SIP invite message lacks a Mobile Station International Subscriber Directory Number (MSISDN) of the wireless user device but has an International Mobile Equipment Identity (IMEI) of the wireless user device. The anonymous SIP invite message is forwarded to a Location Retrieval Function (LRF) in a Gateway Mobile Location Centre (GMLC) of the VPLMN. The LRF obtains a MSISDN of the wireless user device that matches the IMEI in the anonymous SIP invite message from a database of the GMLC, such that the MSISDN is routed with the LTE emergency call to the PSAP.

A method is provided to enable handoff of an emergency services call between different network operators. A UE may establish a first call with a first network for a first network operator based on a first wireless access type, where the first call is an emergency services call to a PSAP. The UE may then determine impaired wireless coverage for the first wireless access type and unimpaired wireless coverage for a second wireless access type for a second network, where the second network is for a second network operator different to the first network operator. The UE may then establish a second call with the second network based on the second wireless access type, where the second call is a continuation of the first call to the PSAP. In embodiments, the first wireless access type is WiFi and the second wireless access type is cellular.

Method and apparatus for notifying an emergency responder of a vehicle emergency. Communication is established with a cellular telephone located within the vehicle. The communication link is monitored and the vehicle occupant is notified of link loss. The apparatus monitors vehicle safety systems for detection of an emergency condition. Upon detection, the occupant is notified that an emergency call will be made. If no cancellation is received, vehicle location information is obtained from a global position system, synthesized into voice signals, and communicated to an emergency responder using the cellular telephone. A plurality of occupant and vehicle emergency information may also be provided. Emergency responders may be provided with a touch tone menu to select among the available information. Vehicle and occupant information may be communicated to the apparatus from external sources, such as a web server database via cellular telephone connection, or removable memory.

A system, method, and computer readable medium comprising instructions for providing temporary callback number for emergency calls is disclosed. A determination is made as to whether a restriction is imposed on a mobile user for incoming calls. A temporary callback number for the mobile user is generated if the restriction is imposed. A request for a callback to the mobile user comprising the temporary callback number is detected. The callback is routed to the mobile user using the temporary callback number.

A system for managing communications is described, where embodiments comprise a mobile radio control station component capable of supporting multiple frequency bands and a computing device. The computing device comprises a processor, a computer-readable memory, and a set of computer-executable instructions. The set of computer-executable instructions are configured to provide a vehicular repeater, a local repeater, an Interoperability Gateway, a call recorder, and a graphical user interface. The computing device is in operable communication with the mobile radio control station component. A method of establishing an advanced audio patch between multiple radios is also described.

In one embodiment, a method includes identifying an emergency event; determining that a threshold percentage of users who are associated with the emergency event have posted content related to the emergency event to an online social network; sending, in response to the determination, a safety-check prompt to each of a first set of users; determining a current-prompting probability based on one or more engagement metrics of the safety-check prompt by the first set of users; and sending, in response to determining that the current-prompting probability is above a first threshold probability, the safety-check prompt to each of a second set of users, wherein the second set of users comprises more users than the first set of users.