Apparatuses, systems, and methods relate to technology to identify first performance metrics associated with a first plurality of remote devices, determine first reliability weightings based on the first performance metrics, and identify one or more characteristics of an emergency based on the first reliability weightings and data from a first plurality of communications, where the first plurality of communications are associated with the first plurality of remote devices.

Methods, systems, and devices are described for predicting a destination of a user and sharing the presumed destination with the other users via a geographically-based graphical user interface. Consistent with some embodiments, an electronic communication containing location information is received from a location sensor coupled to a first client device. A current trajectory of the first user is determined based on the location information. A presumed destination of the first user is determined, by correlating the current trajectory of the first user with historical location information of the first user. A map depicting an icon associated with the presumed destination of the first user is displayed, on a display screen of a second client device of a second user.

Embodiments in accordance with this disclosure provide for a station to associate with a seamless roaming domain by transmitting a message that indicates an intent to associate with the seamless roaming domain, whereby an AP affiliated with the seamless roaming domain may transmit a confirmation of the association upon which the station may seamlessly roam between APs affiliated with the seamless roaming domain.

Embodiments in accordance with this disclosure provide for a station to associate with a seamless roaming domain by transmitting a message that indicates an intent to associate with the seamless roaming domain, whereby an AP affiliated with the seamless roaming domain may transmit a confirmation of the association upon which the station may seamlessly roam between APs affiliated with the seamless roaming domain.

Disclosed is a communication technique for merging, with IoT technology, a 5G communication system for supporting a data transmission rate higher than that of a 4G system, and a system therefor. The disclosure can be applied to intelligent services (for example, smart home, smart building, smart city, smart car or connected car, health care, digital education, retail, security, and safety related services, and the like) on the basis of 5G communication technology and IoT related technology. The present invention presents a method for connecting, with each network function defined in a fifth generation mobile communication network, a capability exposure function (CEF) having a function of exposing context of a terminal to a third party in a mobile communication network so as to provide management of the terminal or a mobility event for the terminal.

A first network device receives a request associated with data notification for a user equipment (UE). When the UE is in a mode in which communication of mobile terminated data is restricted and the first network device detects that the UE is in a non-allowed area, the first network device rejects the request unless the data notification is for a regulatory prioritized service.

A first network device receives a request associated with data notification for a user equipment (UE). When the UE is in a mode in which communication of mobile terminated data is restricted and the first network device detects that the UE is in a non-allowed area, the first network device rejects the request unless the data notification is for a regulatory prioritized service.

A method of propagating a radio access network (RAN) affiliation list to mobile communication devices, where the RAN affiliation list informs the mobile communication devices what cell site they are to attach to and what radio frequencies they are to use. The method comprises receiving a RAN affiliation list by a cell site, where the RAN affiliation list has a RAN affiliation list identity and comprises information about cell site affiliation for mobile communication devices that is applicable to an operating area including the cell site, transmitting the RAN affiliation list identity by the cell site on a broadcast channel, receiving by the cell site a request to download the RAN affiliation list, transmitting the RAN affiliation list by the cell site, receiving a wireless communication service request by the cell site, authorizing the wireless communication service request by the cell site based on the RAN affiliation list.

A method of propagating a radio access network (RAN) affiliation list to mobile communication devices, where the RAN affiliation list informs the mobile communication devices what cell site they are to attach to and what radio frequencies they are to use. The method comprises receiving a RAN affiliation list by a cell site, where the RAN affiliation list has a RAN affiliation list identity and comprises information about cell site affiliation for mobile communication devices that is applicable to an operating area including the cell site, transmitting the RAN affiliation list identity by the cell site on a broadcast channel, receiving by the cell site a request to download the RAN affiliation list, transmitting the RAN affiliation list by the cell site, receiving a wireless communication service request by the cell site, authorizing the wireless communication service request by the cell site based on the RAN affiliation list.

As wireless communication technology advances, the bandwidth usage of wireless communications systems becomes increasingly flexible. For example, different user equipment (UEs) may support different bandwidths or radio frequency capabilities. However, a scheduling entity may not know wireless capabilities or characteristics (e.g., supported bandwidths, RF chain configurations, reconfiguration times, and/or the like) of the UEs for which the scheduling entity is to manage communications, which may hamper the ability of the scheduling entity to take advantage of the advances in flexible bandwidth usage described above. Techniques for synchronization, scheduling, bandwidth allocation, and reference signal transmission in a wireless communications system associated with flexible bandwidth allocation, such as a 5G network, are described herein.