The present disclosure describes methods and systems for establishing a Session Initiation Protocol Session. One method includes transmitting a first message requesting authentication configuration information; in response to the first message, receiving a second message that includes the authentication configuration information; transmitting a third message that includes authentication information based upon the received authentication configuration information; receiving an authentication challenge request that is formatted according to the second protocol; and in response to receiving the authentication challenge request, transmitting an authentication response to the second network node.

A content provider has a plurality of content provider domain names, and a content delivery network (CDN) allocates a plurality of CDN domain names to the particular content provider. The content provider domain names are mapped to the CDN domain names. CDN domain names are bound to corresponding CDN clusters. The binding of the of CDN domain names to corresponding CDN clusters is modified.

A content provider has a plurality of content provider domain names, and a content delivery network (CDN) allocates a plurality of CDN domain names to the particular content provider. The content provider domain names are mapped to the CDN domain names. CDN domain names are bound to corresponding CDN clusters. The binding of the of CDN domain names to corresponding CDN clusters is modified.

A method of provisioning wireless communication service to wireless communication devices. The method comprises allocating telephone numbers to a first plurality of devices, allocating the same telephone numbers to a second plurality of devices, transmitting an eSIM provisioning data bundle in a short message service (SMS) message to the first plurality of devices by a first communication network routing node based on the corresponding one of the plurality of telephone numbers, transmitting an eSIM provisioning data bundle in a SMS message to the second plurality of devices by a second communication network routing node based on the corresponding one of the plurality of telephone numbers, wherein the first communication network routing node routes SMS messages in a first region and the second communication network routine node routes SMS messages in a second region, whereby a single telephone number is leveraged by two different devices located in different regions.

A method of provisioning wireless communication service to wireless communication devices. The method comprises allocating telephone numbers to a first plurality of devices, allocating the same telephone numbers to a second plurality of devices, transmitting an eSIM provisioning data bundle in a short message service (SMS) message to the first plurality of devices by a first communication network routing node based on the corresponding one of the plurality of telephone numbers, transmitting an eSIM provisioning data bundle in a SMS message to the second plurality of devices by a second communication network routing node based on the corresponding one of the plurality of telephone numbers, wherein the first communication network routing node routes SMS messages in a first region and the second communication network routine node routes SMS messages in a second region, whereby a single telephone number is leveraged by two different devices located in different regions.

A system and method are provided for a network device for use with a client device having a hostname and a MAC address. The network device contains a memory that has a second hostname and a second MAC address stored within the memory. The second MAC address corresponds to the second hostname. The memory also contains a processor configured to execute instructions stored on the memory to cause the network device to: receive, from the client device, the hostname and the MAC address; determine whether the MAC address is randomized; provide an instruction to the client device to inform a user of the client device that the client device hostname is registered when the hostname matches the second hostname and the MAC address is randomized.

Examples of techniques for handling fine time measurement ranging requests are described. In an example, an access point (AP) may receive a ranging request for initiating a Fine Timing Measurement (FTM) session. Responsive to determining that the client device is associated with the AP, it is determined that the ranging request is received after a threshold time from expiry of an FTM burst period of the client device. It is determined that the ranging request is within an FTM acceptance threshold of the AP. A number of consecutive unsuccessful FTM bursts between the AP and the client device is determined. In response to determining that the number of consecutive unsuccessful FTM bursts is less than an unsuccessful burst threshold of the AP, the FTM session may be initiated based on the ranging request.

Examples of techniques for handling fine time measurement ranging requests are described. In an example, an access point (AP) may receive a ranging request for initiating a Fine Timing Measurement (FTM) session. Responsive to determining that the client device is associated with the AP, it is determined that the ranging request is received after a threshold time from expiry of an FTM burst period of the client device. It is determined that the ranging request is within an FTM acceptance threshold of the AP. A number of consecutive unsuccessful FTM bursts between the AP and the client device is determined. In response to determining that the number of consecutive unsuccessful FTM bursts is less than an unsuccessful burst threshold of the AP, the FTM session may be initiated based on the ranging request.

A traffic communication system 1 that performs inter-roadside communication being wireless communication between roadside devices 200 includes a roadside device 200A that transmits a message including a MAC address field through inter-roadside communication, and a roadside device 200B that receives the message through inter-roadside communication. The roadside device 200A stores synchronization information in at least a part of the MAC address field. The synchronization information is information different from a MAC address and is used for synchronization between the roadside devices 200.

A traffic communication system 1 that performs inter-roadside communication being wireless communication between roadside devices 200 includes a roadside device 200A that transmits a message including a MAC address field through inter-roadside communication, and a roadside device 200B that receives the message through inter-roadside communication. The roadside device 200A stores synchronization information in at least a part of the MAC address field. The synchronization information is information different from a MAC address and is used for synchronization between the roadside devices 200.