A portable stop determining device 10 includes an acceleration sensor 115 and a state grasp unit 143 in order to detect that a vehicle such as a train stops, with an adequate degree of accuracy, even when position information of a user and time information are not available. The state grasp unit 143 outputs an alarm signal when detecting deceleration in a direction of travel of the vehicle based on a measured value from the acceleration sensor, and detecting that posture of the portable stop determining device carried by a person riding on the vehicle inclines in the direction of travel and then returns to a basic state.

A processor may determine, using natural language processing, a writing style of content of a composed message written by a composer. The processor may analyze, using natural language processing, a set of previous message written by the composer. The processor may identify, based on the analyzing, writing habits of the composer. The processor may also identify a difference between the writing style of the content and the writing habits of the composer. The processor may display a notification of the difference to the user.

Master Street Address Guide (MSAG)-validated street address data is correlated with real-world geographic (e.g., latitude/longitude) data. Conventional MSAG-validated street address data is processed, or geocoded, into an additional (or integrated) database that associates latitude/longitude information with a particular entry in the existing MSAG-validated database. The association of the lat/lon data may be direct, or indirect using link ID or other unique tags indicating a particular entry in the MSAG-validated database. The geocoding need be performed only once by a service provider, e.g., as part of the deployment of an emergency service system. In this way, the closest public service answering point (PSAP) to a given latitude/longitude position of a wireless or VoIP device may be determined quickly, providing emergency services with the smallest possible reliable response time.

Techniques for transporting messages for location services (LCS) are described. A Mobility Management Entity (MME) may have a location session with an Evolved Serving Mobile Location Center (E-SMLC) to provide location services for a User Equipment (UE). The UE may exchange LCS-related messages with the E-SMLC to obtain location services. In an aspect, LCS-related messages exchanged between the UE and the E-SMLC may be encapsulated in Non-Access Stratum (NAS) messages and transported via the MME and a base station. In another aspect, a routing identifier (ID) may be used to associate messages exchanged between the UE and the MME with the location session between the MME and the E-SMLC for the UE. Each NAS message exchanged between the MME and the UE may include the routing ID, which may enable the MME to associate each NAS message from the UE with the location session between the MME and the E-SMLC.

A system may comprise a processor-based portable device having a communication unit and a position determining unit and a life circle database. One or more life circle records are defined in the life circle database. Each life circle record is associated with a position/location and comprises contact information and/or instructions to be applied for contacting at least one responder and/or for performing one or more predefined operations in case of a distress situation of a bearer of the processor-based portable device. A life circle record to be used at a distress situation is selected on the basis of a current position of the processor-based portable device.

Various exemplary embodiments relate to a method, device, and storage medium including one or more of the following: receiving location information and expiration information; determining a current location of the mobile device; determining that the medicament device is within a predetermined distance from the mobile device; determining that the medicament device is currently associated with an expiration event; outputting an expiration alarm indicating the expiration event in response to determining that the medicament device is within a predetermined distance from the mobile device and that the medicament device is currently associated with an expiration event; receiving, from the user, a request to display a map of a geographic area; displaying, by the mobile device and via a non-operating system application, the map of the geographic area; and displaying an alert icon on the map, wherein the location of the icon on the map is based on the received location information.

A broadcasting system provides a telephone number as identity information during a registration process of a user equipment intended to be used as a user broadcasting equipment. The telephone number is one of many telephone numbers associated with the broadcasting system. During the registration process in which the user equipment is identified as a user broadcasting equipment, various information associated with the user equipment are obtained and stored. The identity information, i.e., the telephone number, maps to the stored information such that when the user equipment is used to dial the provided telephone number, the broadcasting system automatically recognizes the user equipment is making a dial to broadcast request. Upon checking the stored information associated with the user equipment, the broadcasting system allows the user equipment to broadcast to one or more other user equipment registered as listeners to a scheduled broadcast.

A computer aided prioritization (CAP) system may receive, from the emergency event reporter device, an emergency event including a priority selected from a set of event priorities and a type of event selected from a set of event types associated with the selected event priority; determine, based on the emergency event and without querying the emergency event reporter device for additional information, whether the emergency event indicates a higher priority emergency event to be handled by a computer aided dispatch (CAD) system or a lower priority emergency event to be handled automatically by a computer aided event module (CAEM); and selectively route the emergency event report to at least one of the CAD system and the CAEM according to the determination.

A computer aided prioritization (CAP) system may receive, from the emergency event reporter device, an emergency event including a priority selected from a set of event priorities and a type of event selected from a set of event types associated with the selected event priority; determine, based on the emergency event and without querying the emergency event reporter device for additional information, whether the emergency event indicates a higher priority emergency event to be handled by a computer aided dispatch (CAD) system or a lower priority emergency event to be handled automatically by a computer aided event module (CAEM); and selectively route the emergency event report to at least one of the CAD system and the CAEM according to the determination.

A system and method for providing communication in a distributed LMR system architecture is provided herein, wherein the system includes a plurality of LMR subsystems interconnected by a data network. In some embodiments, a subsystem may include a distributed simulcast architecture comprising a plurality of LMR sites, each site having a subsystem controller and a plurality of repeaters. In one embodiment, one subsystem controller operates in an active mode and the remaining subsystem controllers operate in standby to provide redundancy. The repeaters include integrated voter comparator and simulcast controller functionality and circuitry. In some embodiments, the repeaters are operable in an active or standby mode, wherein repeaters in the active mode perform voter comparator and simulcast controller functionality. The distributed simulcast architecture provides simulcast controller and voter comparator redundancy, network failure redundancy, and site redundancy.