A wireless communication network serves a wireless User Equipment (UE). The wireless UE exchanges user data over a data session of a Dynamic Network Name (DNN) while exchanging other user data over other data sessions of other DNNs. An Access and Mobility Management Function (AMF) receives a DNN message for the wireless UE and the DNN and responsively transfers a reattach message for the data session of the DNN to the wireless UE. The wireless UE receives the reattach message and responsively terminates the data session of the DNN and transfers a session message for the DNN to the AMF. The AMF receives the session message for the DNN and the wireless UE and responsively establishes a new data session for the DNN. The wireless UE exchanges new user data over the new data session of the DNN while exchanging additional user data over the other data sessions of the other DNNs.

An information adding method and apparatus, to increase a quantity of terminals that can be represented by an identifier sequence. The method includes: performing, by a transmit end, polar code encoding on a first bit sequence to generate an encoded second bit sequence; adding, by the transmit end, a part or all of an identifier sequence to the second bit sequence to generate a third bit sequence, where the identifier sequence is used to identify a terminal; and sending, by the transmit end, the third bit sequence.

A blockchain based alias directory may be utilized. Encrypted lists of aliases may be stored on the blockchain and may be accessible to network computers and secure gateways. Embodiments are directed to secure gateways and user devices for accessing the alias directory stored in the blockchain during a financial transaction. The user device may be provided with a list of aliases from which a user may select a payment account. Upon selection the user may be redirected to an identity verification system of the associated payment network.

A conventional network managing method has a problem that there is a high possibility that a setting error of communication software occurs. According to one embodiment, a non-transitory computer-readable medium including a network managing program is executed in a master apparatus, system information stored in a slave apparatus in advance is read out in a procedure conforming to an SNMP, protocol information in which a communication protocol that can be used by the slave apparatus is described is read out from the slave apparatus by using an object ID described in the system information thus read out, and the protocol information thus read out is referred to start communication with the slave apparatus by executing software corresponding to the communication protocol.

A conventional network managing method has a problem that there is a high possibility that a setting error of communication software occurs. According to one embodiment, a non-transitory computer-readable medium including a network managing program is executed in a master apparatus, system information stored in a slave apparatus in advance is read out in a procedure conforming to an SNMP, protocol information in which a communication protocol that can be used by the slave apparatus is described is read out from the slave apparatus by using an object ID described in the system information thus read out, and the protocol information thus read out is referred to start communication with the slave apparatus by executing software corresponding to the communication protocol.

A wireless device requests a network slice from a network by, first, identifying at least one network slice to be requested. Based on a mapping method that is specific to the wireless device, the wireless device forms a slice pseudonym for the or each network slice to be requested. The wireless device then transmits a request message to the network, wherein the request message comprises the or each slice pseudonym. The network node receives the request message sent by the wireless device, wherein the request message comprises at least one slice pseudonym. Based on a mapping method that is used by the wireless device and that is specific to the wireless device, the network node identifies at least one requested network slice from the or each received slice pseudonym. The network node then permits use of the requested network slice.

A wireless device requests a network slice from a network by, first, identifying at least one network slice to be requested. Based on a mapping method that is specific to the wireless device, the wireless device forms a slice pseudonym for the or each network slice to be requested. The wireless device then transmits a request message to the network, wherein the request message comprises the or each slice pseudonym. The network node receives the request message sent by the wireless device, wherein the request message comprises at least one slice pseudonym. Based on a mapping method that is used by the wireless device and that is specific to the wireless device, the network node identifies at least one requested network slice from the or each received slice pseudonym. The network node then permits use of the requested network slice.

A system for managing network connected devices, comprising at least one hardware processor adapted to produce a plurality of unique device descriptors, each describing one of a plurality of network connected devices, by: for each of a plurality of device descriptors, each having a plurality of supported actions, and one or more domain device identifiers, each identifier associating the device descriptor with one of a plurality of management domains: for each of the plurality of management domains not associated with the device descriptor: and instructing execution on a network connected device described by the device descriptor a domain identification query according to the descriptor's plurality of supported actions, to determine a new domain device identifier.

Systems and methods may include sending, to a network registrar, an extended duplicate address request (EDAR) message including a first nonce generated by a host computing device, and receiving, from the network registrar, an extended duplicate address confirmation (EDAC) message including a second nonce and a first signature, a first nonce pair including the first nonce and the second nonce being signed by the network registrar via a first key pair of the network registrar via the first signature. The systems and methods may further include sending a first neighbor advertisement (NA) message to the host computing device including the second nonce. The second nonce and a public key of the network registrar verifies the first signature from the network registrar, the verification of the first signature indicating that a router through which the host computing device connects to a network is not impersonating the network.

Systems and methods for resolving names in a data network. A data network includes an information-centric network layer, ICN-layer, with multiple routers, and a name resolution layer with multiple name resolvers. Each router receives an interest packet announcement describing data objects provided by a data producer. Each router determines a first name resolver of the name resolution layer closest to the data producer and sends a name of the provided data object and geo-location of the data producer to the first name resolver. The first name resolver transmits the name of the data object and geo-location of the data producer to other name resolvers. Each router receives an interest packet request describing a data object requested by a data consumer. Each router transmits the interest packet request to a second name resolver spatially closest to the data consumer. Each name resolver provides the geo-location of the requested data object to the data consumer.