An electronic device which displays and updates Mobile Network Operator (MNO) information includes a memory, a display, a communicator, a user inputter, and a processor. The processor is configured to control the display to display a contact list including telephone number information of a plurality of external devices and Mobile Network Operator (MNO) information of the plurality of external devices, and in response to a user command for selecting one of the plurality of external devices included in the contact list being input, establish a communication connection with the selected external device. The processor is further configured to control the communicator to receive information regarding the MNO information of the external device from the selected external device; and update the contact list based on the MNO information of the external device and store the updated contact list in the memory.

A serverless Page Party (SPP) station is provided for page announcing and party line conferencing that is configured to implement mutual provisioning to allow all SPP stations within a system to mutually maintain their configurations in runtime, and multiple master station negotiation and master failover. Plural SPP stations are connected with Ethernet cable or WIFi to a network and therefore without need for expensive and cumbersome cabling and daisy-chain configuration among stations. SPP stations route packets between each other via multicast technology and without need for a IP-PBX or other server (e.g., a SIP server) for controlling inter-station connections. In Mutual Provisioning Mode, SPP stations operate using a system configuration obtained from other SPP stations already on the network using a command channel. System configuration is maintained by a SPP station designated as a master station. Plural SPP stations can negotiate among themselves to designate a new master station.

Briefly, in accordance with one or more embodiments, an apparatus of a user equipment (UE) comprises one or more baseband processors to generate a voice call invite message for a remote UE, and a memory to store the voice call invite message. The voice call invite message includes a header p-use-silence-period to indicate that the UE is configured to transmit or receive non-voice data during a silence period of the voice call.

An Ethernet networking system is disclosed. The system includes a first network device having an interface to receive Ethernet data from a first Ethernet source. An Ethernet media converter couples the network device to telephone wires. The Ethernet media converter includes a first Ethernet transceiver PHY integrated circuit (IC) having a first system-side interface for coupling to a first transmission media including multiple pairs of wires and a first line-side interface. The Ethernet media converter further includes a second Ethernet transceiver PHY IC having a second line-side interface connected to the first line-side interface, and a second system-side interface for coupling to the telephone wires.

A serverless Page Party (SPP) station is provided for page announcing and party line conferencing that is configured to implement mutual provisioning to allow all SPP stations within a system to mutually maintain their configurations in runtime, and multiple master station negotiation and master failover. Plural SPP stations are connected with Ethernet cable or WIFi to a network and therefore without need for expensive and cumbersome cabling and daisy-chain configuration among stations. SPP stations route packets between each other via multicast technology and without need for a IP-PBX or other server (e.g., a SIP server) for controlling inter-station connections. In Mutual Provisioning Mode, SPP stations operate using a system configuration obtained from other SPP stations already on the network using a command channel. System configuration is maintained by a SPP station designated as a master station. Plural SPP stations can negotiate among themselves to designate a new master station.

The method performed by a gateway between a LAN and a WAN that includes a platform of the VoIP telephone service, is characterized in that it includes a step of activating the VoIP telephone service on detecting a connected state of a terminal connected to the gateway.

Systems and methods are provided for centralized validation of potential network calls, such as calls proposing database transactions, on a distributed system. The distributed system may include multiple systems that apply independent criteria for validating proposals, which criteria may not be available external to the individual systems. Moreover, the systems may lack an ability to validate proposals prior to submitting such proposals for commitment. A centralized network call parameter validation system as disclosed herein may validate potential network calls with high confidence by applying probability models of data pattern and hashing digit checksum to potential network call parameter values, which models are generated based on statistical analysis of historical network call values.

An example operation may include one or more of receiving, via a telephone network, a Voice over IP (VOIP) call from a network device, detecting a disturbance value from a tag that has been added to a VOIP message of the VOIP call, determining an answer priority of the VOIP call based on the disturbance value, and processing the VOIP call based on the determined answer priority.

An example operation may include one or more of receiving, via a telephone network, a Voice over IP (VOIP) call from a network device, detecting a disturbance value from a tag that has been added to a VOIP message of the VOIP call, determining an answer priority of the VOIP call based on the disturbance value, and processing the VOIP call based on the determined answer priority.

There is provided a method for processing communications in a telephony network. The method includes configuring a first telephony identifier for communication with a first user and a second user, and a second telephony identity for communication with the second user, each of the telephony identifiers being configured for use as different destination addresses in different SMS messages sent to the second user. The method includes processing at least one SMS message in SMS processing equipment in the network, and during this processing, performing identity management, in relation to the use of the first and second telephony identifiers for the second user.