A method is disclosed in which a defined vendor specific extension is used to store an enterprise network identifier within a subscriber identity module (SIM). The use of the vendor specific extension makes it easier to provision a SIM (Subscriber Identity Module) profile with an enterprise identifier. The vendor specific extension allows the high level operating system (HLOS) of a UE (User Equipment) to obtain an enterprise identifier without impacting the baseband implementation of the UE. The same enterprise identification can be reused in equipment of both 4th Generation Long Term Evolution (LTE) and 5th Generation New Radio (NR) networks.

The present invention relates to a method for contactlessly establishing a coupling between a medical apparatus (e.g., a hemodialysis apparatus or a peritoneal dialysis apparatus) and a remote control apparatus. An optical coupling signal is exchanged between the involved communication entities, in order to establish bijective, data-processing coupling between the remote control apparatus and the medical apparatus. Only after successful coupling is a remote control procedure initiated for remote control of the medical apparatus.

A user equipment is configured for concealment of a mission-critical push-to-talk (MCPTT) group identity in multimedia broadcast multicast services (MBMS). The UE is configured in particular to receive an indication of an MCPTT group pseudonym (7) which is a pseudonym for an MCPTT group identity (11) that identifies an MCPTT group of which the UE is a member. The UE may for example receive this indication from a group management server (GMS) or an MCPTT server. The UE in some embodiments may determine whether received control signalling (e.g., an MBMS subchannel control message) is for the MCPTT group of which the UE is a member, by determining whether the control signaling includes the MCPTT group pseudonym (7).

A wireless access device can be configured to determine a list of accessory groups corresponding to accessories connected to a network managed by the wireless access device. The wireless access device may also be configured to identify at least one firmware update that corresponds to at least one accessory group of the list of accessory groups and request all firmware updates that correspond to the at least one accessory group. The wireless access device can also be configured to receive one or more firmware updates that corresponds to at least one of the accessories of the at least one accessory group for which a respective firmware update is available and transmit at least one firmware update of the received one or more firmware updates to at least one corresponding accessory of the at least one accessory group.

A wireless access device can be configured to determine a list of accessory groups corresponding to accessories connected to a network managed by the wireless access device. The wireless access device may also be configured to identify at least one firmware update that corresponds to at least one accessory group of the list of accessory groups and request all firmware updates that correspond to the at least one accessory group. The wireless access device can also be configured to receive one or more firmware updates that corresponds to at least one of the accessories of the at least one accessory group for which a respective firmware update is available and transmit at least one firmware update of the received one or more firmware updates to at least one corresponding accessory of the at least one accessory group.

Methods, systems, and devices for communications are described. A device or a group of devices may generate data. The group of devices may receive a group profile from a node that identifies the devices to be included, and the group profile may include a function to be evaluated at each of the devices. The node may also provision evaluation parameters which may allow the device to provide authenticated aggregate data to a requesting third party, without sharing the data between the devices, thus concurrently maintaining individual data privacy and data provenance.

Methods, systems, and devices for communications are described. A device or a group of devices may generate data. The group of devices may receive a group profile from a node that identifies the devices to be included, and the group profile may include a function to be evaluated at each of the devices. The node may also provision evaluation parameters which may allow the device to provide authenticated aggregate data to a requesting third party, without sharing the data between the devices, thus concurrently maintaining individual data privacy and data provenance.

Method for authenticating a first and a second electronic devices associated through a communication line includes: creating a unique ID, by a third electronic device; transmitting the unique ID to the first electronic device; signing the transmitted unique ID by the first electronic device; transmitting the signed unique ID to the second electronic device, by the first electronic device; signing the transmitted signed unique ID by the second electronic device; transmitting the unique ID signed by the first and second electronic devices to the third electronic device; verifying and accepting the unique ID signed by the first device and the second device, by the third device; issuing a certificate for a secure communication line between the first electronic device and the second electronic device; and transmitting the certificate to the first electronic device and the second electronic device.

Techniques are provided for ad-hoc authenticated group discovery and data sharing in a mesh network. A group of devices is created without leaving a security gap due to the open communication needed to establish the discovery of the devices forming the group. The group can be authenticated autonomously following network discovery of the devices. Instead of requiring global pre-assigned keys for authentication, the devices in the group are authenticated with signatures and certificate passing thereby providing strong security. The efficiency of data sharing between the devices of the network, such as a mesh network, can also be increased. One or more devices may act as a bridge device between devices of a same group that are not in direct wireless communication with each other to reduce re-broadcasts within the mesh network.

Techniques are provided for ad-hoc authenticated group discovery and data sharing in a mesh network. A group of devices is created without leaving a security gap due to the open communication needed to establish the discovery of the devices forming the group. The group can be authenticated autonomously following network discovery of the devices. Instead of requiring global pre-assigned keys for authentication, the devices in the group are authenticated with signatures and certificate passing thereby providing strong security. The efficiency of data sharing between the devices of the network, such as a mesh network, can also be increased. One or more devices may act as a bridge device between devices of a same group that are not in direct wireless communication with each other to reduce re-broadcasts within the mesh network.