A failure monitoring device and a failure monitoring method that reduce maintenance operations at the time of a failure of an SIP server are provided. A failure monitoring device (10) includes: a monitoring unit (11) configured to transmit a monitoring signal from the outside of an SIP server (2) to the SIP server (2) and detect a failure of the SIP server (2) in accordance with presence/absence of a response from the SIP server (2) or details of a response from the SIP server; and a control unit (12) configured to inhibit, in a case in which the failure has been detected by the monitoring unit (11), a connection request toward a failed SIP server (2_1) in which a failure has been detected by the monitoring unit (11) in cooperation with a DNS server (1).

Improved methods for retrieval of content from CDNs is provided that includes a rendezvous controller that receives information of an identification of content being requested and an estimated location of a content requesting device. Based on this information, the rendezvous system identifies a server within a CDN from which the requested content may be retrieved. The selected server may be based on a repeatable hash function such that the likelihood that the content being requested is cached at the selected server. Steering requests to a server of the CDN which may have the content cached may reduce the number of servers within the CDN with the same cached content, particularly for the highest requested content. The rendezvous system may then return a corresponding domain name associated with the selected server and that can be subsequently submitted to a DNS for resolution to the IP address of the identified server.

An example method of suggesting contacts in a communications routing system includes: routing, via a routing engine, communications events between a communications device and a plurality of further communications devices coupled to the communications routing system as VoIP calls using respective VoIP telephone numbers; storing, for a user account associated with the communications device, a contact database representing VoIP telephone numbers stored in a contact tracking application of the communications device; storing, in the contact database for the user account, a log of communications events including a record for each new telephone number; and when the record for a new telephone number satisfies a threshold condition, providing a prompt, at the communications device, to add the new telephone number to the contact tracking application.

An example method of suggesting contacts in a communications routing system includes: routing, via a routing engine, communications events between a communications device and a plurality of further communications devices coupled to the communications routing system as VoIP calls using respective VoIP telephone numbers; storing, for a user account associated with the communications device, a contact database representing VoIP telephone numbers stored in a contact tracking application of the communications device; storing, in the contact database for the user account, a log of communications events including a record for each new telephone number; and when the record for a new telephone number satisfies a threshold condition, providing a prompt, at the communications device, to add the new telephone number to the contact tracking application.

A distributed network system for call processing, according to one embodiment, includes: a plurality of relay devices; and a call routing server for managing information about the plurality of relay devices and information about subscribers registered to the plurality of relay devices, where each of the plurality of relay devices can include: a database; a protocol relay unit; a call processing unit for checking whether the sender of a call and the receiver of the call are at least one subscriber, on the basis of an SIP signal incoming through the protocol relay unit; and a packet processing unit for realigning incoming phone call packets of the call according to the sequence of the phone call packets, and adjusting the transmission speed of the realigned phone call packets according to a situation in which the phone call packets are incoming.

Techniques related to managing data communications between devices are described. In an example, a computer system receives, from a first device, a request to transfer a communications session with the first device and a second device. The computer system determines contextual data associated with the communications session. Using at least the contextual data, the computer system determines the communications session is permitted to be transferred from the first device to a third device based. The computer system causes a transferred communications session to be established with the third device and the second device.

Broadband communications devices and methods operate with at least two separate communication paths between the devices and the network, such as the Internet. The broadband devices and methods receive data concurrently over the communication paths or separately. The bandwidth is increased when the separate communication paths are combined. The broadband devices employ packetized data with Voice over Internet Protocol (VoIP) technologies combined with RF communications technologies.

In order to achieve location transparency and routing slip extensibility, a system and a method for orchestrating a web service using Business Process Execution Language are disclosed. The method includes: receiving a message, wherein the message comprises an address identifying an extension element; determining, from the address, a location of the extension element identified by the address; responsive to determining the location of the extension element, directing the message to an appropriate location; and storing the message in a computer readable storage medium.

In order to achieve location transparency and routing slip extensibility, a system and a method for orchestrating a web service using Business Process Execution Language are disclosed. The method includes: receiving a message, wherein the message comprises an address identifying an extension element; determining, from the address, a location of the extension element identified by the address; responsive to determining the location of the extension element, directing the message to an appropriate location; and storing the message in a computer readable storage medium.

A system is presented that includes secure push-to-talk voice functionality. Using encryption, authentication, user filtering, and integration with new and existing LMR systems, a secure voice platform ensures malicious software, unauthorized access and brute force security attacks will not compromise the voice communications of the system. The VoIP system is engineered to ensure graceful system degradation in the event of maintenance activities, natural disasters and failure modes. The hardened VoIP system offers the functions a LMR trunking system while utilizing broadband connections. Private calls, group calls, Emergency Alarms with covert monitoring capability, scanning and priority scanning may be incorporated into the system. The system includes a VoIP-controller that serves as a trunking controller, manages available VoIP-based conference bridges, and assigns them as needed to the parties involved in each voice call. The system includes multiple fallback methods that may be prioritized based on pre-failure analytics.