An object of the invention is to provide a common service device cable of broadcast distribution of various types of messages. A common service device (20) according to the present invention aggregates a plurality of application servers (40) and is connected to a plurality of distribution networks (30). The common service device (20) includes: an authentication unit (21) that performs authentication for a first application server by using a distribution request message transmitted from a first application server included in the plurality of application servers (40) via a first interface commonly set among the plurality of application servers (40); and a communication unit (22) that selects a first distribution network for which broadcast distribution is requested from among the plurality of distribution networks (30) based on the distribution request message, and transmits a broadcast distribution request message to the selected first distribution network.

A wireless communication system includes an LOPS-capable user equipment, an LOPS-mode eNB and a normal-mode eNB. When the user equipment is under the coverage of both the LOPS-mode eNB and the normal-mode eNB, the user equipment is configured to perform automatic PLMN by registering on both the IOPS-mode eNB and the normal-mode eNB so as to maintain both normal-mode communications and IOPS mode communications.

A device and system are provided for notifying a user contact of the status of a user of a portable device. The status is determined by the portable device collecting user provided information and device collected information relevant to a user of portable device. The portable device may then transmit the device collected information and the user provided information to a server that in turn performs an analysis on the device collected information and the user provided information to determine whether a triggering event has occurred. If it is determined that a triggering event has occurred, the server will proceed to send a status update regarding the user of the portable device to preset user contacts. The triggering event is determined to have occurred based on preset user conditions and algorithms and artificial intelligence being executed at the server.

Techniques disclosed herein are generally directed toward providing a fallback mechanism to use when the authentication session between the SET and E-SLP fails. In particular, the techniques provided herein allow the SET to attempt to connect with SLPs using given and/or generated information. As such, the techniques provided herein increase the likelihood that the SET will be able to complete a successful SUPL session, and a location of the SET will be provided to an emergency response service.

A system to access an emergency contact during a critical event is presented herein. The system includes a memory, controller, display, and sensor. The memory includes one or more executable instructions. The controller is configured to read and execute the executable instructions. The display is configured to exhibit information. The sensor the configured to send at least one critical event signal. Moreover, the executable instructions enable the controller to: receive an emergency contact; store the emergency contact in the memory; receive (from the sensor) a critical event signal; determine the status of a critical event; transmit the emergency contact from the memory to the display; and command the display to exhibit the emergency contact.

A data transmission system including an emitting device, a receiving device and a communication link, wherein the emitting device includes: a radio frequency emitter connected to the communication link; a power line connected to the communication link at a connection point, wherein the power line is brought to a supply voltage; and a capacitive coupling component connected between the radio frequency emitter and the connection point, wherein the receiving device includes: a radio frequency receiver connected to the communication link for receiving the radio frequency signal; a power line connected to the communication link at a connection point; and a capacitive coupling component connected between the connection point and the radio frequency receiver, wherein the capacitive coupling components transmit the radio frequency signal and block the supply voltage.

Described herein are methods, devices, media, and systems for automatic public safety answering point lookup, location tracking of first responders, and facilitating data exchange during emergency communications.

Described herein are methods, devices, media, and systems for automatic public safety answering point lookup, location tracking of first responders, and facilitating data exchange during emergency communications.

A network component is provided. The network component including a component configured such that the network transmits a response message containing an indicator indicating that a first message is an emergency-related request, and such that the network receives a second message containing information associated with a user equipment (UE).

A User Equipment (UE) including a controller configured to perform, in a case of failure of a connection attempt for a first emergency call that uses a Packet Switched (PS) domain, a connection attempt for a second emergency call that uses the PS domain, a transmission and/or reception unit configured to receive a service reject message due to the failure of the connection attempt for the first emergency call, wherein the UE uses a first access network for the connection attempt for the first emergency call, and the UE uses a second access network for the connection attempt for the second emergency call. Accordingly, a user equipment, a core network apparatus, a control method to be performed by an IMS apparatus, and the like are provided for the user equipment to connect to a network suitable for an emergency call service in 5th generation (5G) mobile communication system, which is a next-generation mobile communication system.