WO2017192063A1

WO2017192063A1 - Method for connecting subscribers in the event of mutual calling and device for implementing same

Info

Publication number: WO2017192063A1
Application number: PCT/RU2017/000268
Authority: WO
Inventors: Константин Игоревич МИХАЙЛОВ; Ярослав Алексеевич ХАРИТОНОВ
Original assignee: Общество с ограниченной ответственностью "КьюЛабс"
Priority date: 2016-05-05
Filing date: 2017-04-26
Publication date: 2017-11-09
Also published as: RU2619082C1; EA201700534A1; EA036093B1

Abstract

The invention relates to the field of telephone communication and pertains to improving same so as to satisfy the needs of subscribers in the event of mutual calling. A method for connecting subscribers during mutual calling and a device for implementing same are carried out by processing signals for making a decision regarding connecting the subscribers in an additional service-management node 6 connected to a service management node 3 and to switches 2 and 5, and the subscribers 1 and 4 being connected, during mutual calling, in a network node 7 which is connected to switches 2 and 5, outside of switches 2 and 5.

Description

METHOD FOR CONNECTING SUBSCRIBERS FOR MEETING CALLS AND DEVICE FOR ITS IMPLEMENTATION

The invention relates to the field of telephone communications and for its improvement to meet the needs of subscribers in their oncoming calls.

The closest analogue of the invention is the development of the Swedish company Erickson - patent WO2013 / 1 16971 from 2013. This invention describes a technical solution for communication networks of various nature and organization in which a network node that performs call analysis and switching (MSC or Server) is equipped with an additional function that implements a method for analyzing the presence of a counter connection on a given network node for the same pair of subscribers. According to the invention, messages (signals) of call establishment, such as IAM and INVITE, are used for analysis (options are used in different types and generations of communication networks); if a counter pair is detected, one of the call attempts is suppressed by the network node, freeing up a resource for switching the second one.

The analogue has significant disadvantages:

the need to implement on numerous network nodes, the modification of the operation algorithms of which represents in practice a technically and economically difficult task; defining one of the parties as the caller and rejecting one of the calls leaves the probability of simultaneous operation of the proposed method on several switches (servers) involved in the process of organizing calls and the probability of rejecting both calls;

defining one of the parties as the calling one and rejecting one of the calls, together with the presence of time periods necessary for the network nodes to establish a call switching, characteristic time periods for the subscriber device to operate, time periods for the subscriber’s response, creates a high probability of the inability to connect using the proposed method.

The technical result of the proposed invention is to increase the speed of establishing a connection for mutual calls, improve the quality of communication for end users (subscribers), significantly increase the level of availability with the aid for implementation on communication networks, reduce the technological load in communication networks and increase revenue for networks serving users.

The specified technical result is achieved by the fact that in the method of connecting subscribers in the face of calls, according to which the service control node connected to the switches is used to determine the presence of the customer’s call back, in the presence of the customer’s back call, the signal is processed to make a decision about connecting the subscribers carried out in an additional services control node connected to the services and switches management node, and the connection of subscribers when they meet calls is carried out in a network node connected to the switches outside the switches.

The technical result in the device for implementing the method is achieved by the fact that the device for connecting subscribers, containing interconnected switches and a service control node, is equipped with an additional service control node and a network node connected to it for connecting subscribers when they meet, while an additional service control node connected to the service control node and the switches, and the network node is connected to the switches.

An additional service control node can be connected to the service control node and switches through standard signaling interfaces for organizing a call САР, INAP, Б1Р to implement the procedure for determining the characteristics of a call back and forming a control effect on call routing.

An additional service management node can also be connected to the services and switches management node through the standard signaling interfaces of the BbBOBalSUP, SIP / КТР organization to implement media information transfer procedures, determine the signs of a return call, and form a control effect on call routing. The invention is illustrated by drawings.

In FIG. 1 is a diagram illustrating a typical organization of the interaction of devices (network nodes) in a modern communication network.

In FIG. 2 is a diagram illustrating the organization of interaction in a communication network with the introduction of new devices (network nodes).

In FIG. 3 is a signaling diagram illustrating the steps of an applied method in a communication network.

In FIG. 4 is a diagram illustrating the composition and interaction of devices (network nodes) for implementing the method on a network with a large number of served users and calls.

The specific implementation of the invention described below is not limited to the specific component parts of the devices described herein, or to the steps used in the method, as they may vary. The terminology used is used only for the purpose of describing the constituent elements without the purpose of any restrictions.

Common to all types of communication networks is two levels:

- signal level - a set of messages and signals that is used by participants in a communication network (end-user devices and network nodes) to perform registration operations, make a call, confirm readiness, and possibly about the features of supported communication types (voice, video, encoding method) , signals confirmation of the beginning or end of the conversation, signals of the reorganization of the channel, signals informing the parties (nodes) involved in the organization of communication, information about the quality and charging; in digital networks it is also used to transmit information about services allowed to the user and other information necessary for the operation of the communication network;

- media level - the level of organization of the exchange of digitally encoded voice or video information, can allow intermediate transcoding of signals at intermediate nodes, when switching from network to network or while providing additional services.

The indicated logical separation into the signal and media levels is true both for the most modern types of OTT communication networks (Over-the-Tor, over the IP access network - Internet), such as Skype, Viber, GoogleTalk, FacebookMessenger, WhatApp, and for classic types communications described in telecommunication standards ITU-T, ETSI, 3GPP and other institutions.

To enable global communication and roaming in mobile cellular networks, an expanded amount of signaling information is used to transmit data of subscribers, short text messages (SMS and USSD) and call information in combination with the classical signaling of call control. Thus, in a modern digital telephone network, two levels of signaling coexist - signaling to ensure the operation of cellular services and signaling associated with calls, allowing you to send and receive calls to and from an external communication network.

In FIG. 1 shows a typical diagram of a modern communications network for digital telephony, using the capabilities of intelligent control of the connection process. As part of the intelligent management, the user nodes (subscribers, subscriber) serving network nodes designated as VMSC (the abbreviation used to refer to the telephone exchange in the cellular network - VisitorMobileSwitchingCenter, often also called switches) interact with the intelligent control node, here and standardly designated as SCP (SignalingControlPoint), for requests for the provision of the service after the initiation of the request by the user. A request from a VMSC to SCP can be generated, in particular, when a request is made from a user device for a communication session, if there are special settings for the VMSC network node and user profile settings stored in the VMSC while the user is in the coverage area of this VMSC network node. The SCP response may contain a response confirming the possibility of the requested communication session without conditions, may contain a response obliging the VMSC network node to make a second request after a certain time, or may contain instructions on a permanent or temporary change of route making a call, sending it to a voice platform to play audio information (for example, about the lack of balance for making a call) or providing an additional service (for example, recording a voice message for an inaccessible user - voicemail).

The solid arrows in FIG. 1, the procedure for establishing a call from a user (subscriber) to a network node (telephone exchange) and between network nodes is indicated. The dotted line indicates the signal exchange. As shown in FIG. 1, in the case of simultaneous calls by each other's subscribers, in general, both users will be busy and the communication session will not be successfully established. Subscriber 1 initiates a Calli-1 call through switch 2 (VMSCj), which makes a request to the service control node (SCP) 3 to continue the call and continues to establish a Call] -2 connection towards called party 4 to switch 5 (VMSC ₂ ), which reports the employment callee 4. Analogichnoabonent 4 initiates a call Sa11 ₂ -1 through the switch 5 (VMSC ₂₎ which produces a node 3 (SCP) a request for permission to continue the call setup and connection establishment continues Sa11 ₂ -2 toward callee n Switch 2 (^ UMBS to call where the switch 2 reports the employment of the recipient 1.

In FIG. 2 shows a diagram of a communication network with the introduction of new devices (network nodes), correcting the situation of the occurrence of simultaneous requests (calls) to establish communication in the opposite direction, providing correction of the routing of calls, performing procedures for establishing a connection for both callers and ensuring the combination of media flows of the incoming calls, the direction of the outgoing media stream of one call to the incoming flow of the second call and the direction of the outgoing stream the second call in the input stream of the first call. With the introduction of new network nodes - an additional service management node and a network node7 connected to it to connect subscribers 1 and 4 during their incoming calls - using standard interfaces previously available from the point of view of network interaction, it becomes possible to change the order of signal exchange by changing equipment settings and / or changes to user data describing the addresses of the network nodes involved in the provision of services of intelligent control (SCP).

The solid arrows in FIG. 2, the procedure for establishing a call from a user (subscriber) to a network node (telephone exchange) and between network nodes is indicated. The dotted line indicates the signal exchange of standard interfaces and interaction interfaces of nodes 6 and 7. In contrast to the standard service scenario described above, in FIG. Figure 2 shows the sequence when, after the request of subscriber 1 to initiate a Callpl call through switch 2 (VMSC ^), a request is made to node 3 (SCP), which in turn requests node 6 (SCP _Q NECT) to the analysis for the presence of the oncoming call, receives a response either on the continuation of the call routing to 5 (VMSC ₂ ) without changes (formation of Call i -2), or on the need to change the call route to the network node 7 (iMCF _QNEC T) and form the call corresponding Ca11 ₂ -3, and translates the response to node 2 (VMSCi).

An implementation scheme is practically possible in which a request from node 2 (VMSCi) goes directly to node 6 (SCPQNECT) _> which in turn requests or does not request node 3 (SCP). Another scenario is the configuration of network nodes and user profiles, in which the request for nodes 3 and / or 6 occurs upon the arrival of a call to node 5 (VMSC ₂ ) serving the called subscriber - in this case, the call passes sequentially from subscriber 1 to switch 2 (VMSCi), to switch 5 (VMSC ₂ ) and in case of signs of a call back to node 7 (IMCFQNECT). NODES 6 (SCP _QNE CT) and 7 (IMCFQNE _C T) are connected by a software interface that provides the ability to analyze the presence of attempts to make counter calls - active user sessions and user requests.

The order of processing the call from the subscriber 4 in FIG. 2 is completely analogous to the order and variations of call processing by subscriber 1.

Switch 7 (iMCF _QNECT ), which _takes control of the calls to Ca11 3 and Ca11 ₂ -3, analyzing the signaling information associated with calls, and the information received from node 6 _(SCPQNECT)> determines whether to generate signals confirming the beginning of the conversation, and facilitate the exchange of process media traffic between Calli-3 calls and Sa11 ₂ -3. Network nodes 6 (SCP _QNE CT) AND 7 (IMCFQNECT) can be located in the communication network of one operator or in the communication network of the partner operator, providing the necessary technical result.

The circuit of FIG. 3 illustrates examples of a signaling sequence in a communication network, detailing the method for organizing call-back combining described above, further indicating the possibility of implementing a call combining method, gaining control of a call on node 7 (IMCF _Q NECT) through a call forwarding mechanism or through signal processing Allocation T_Busy network nodes 3 (SCP) or 6 (SCP _QN ECT) - forwarding mechanism can be implemented without intelligent control units and / or no involvement of nodes 3 (SCP) or 6 (SCP _Q NECT) through settings podkontro noy (USSR) or uncontrolled (OCCF) polzovatelyupereadresatsii end. For ease of display, Node 3 (SCP) in FIG. 3 omitted.

Network nodes 6 (SCPQNECT) ^and (IMCFQNECT) can consist of a set of devices (nodes), which is associated with the need for reliable service of a large number of users making a large number of calls at the same or near time. A modern communications network serving millions of users can handle multiple thousands of simultaneous connection attempts, which requires the implementation of a reliable processing complex with the exception or minimization of failure points to achieve the desired technical result. In FIG. 4 is a diagram illustrating the composition and interaction of devices (network nodes) for implementing the method on a network with a large number of served users and calls. Node 6 (SCP _Q »ECT) ⁱⁿ reality can be represented by an arbitrary number of nodes calculated for a particular communication network from 1 to t. Node 7 (IMCF _Q NECT) In reality, it can be represented by an arbitrary number of nodes calculated from a specific communication network from 1 to n For the interaction of nodes 6 (SCP _Q NECT) and 7 (IMCF _Q NECT), separate IMCFAPP DB devices can be taken out, which provide storage and network access to the online registry of discussed or just served by nodes 7 (iMCFQNEct) user calls or information about call set signals processed by nodes 6 (SCP _QNECT ) - NODES 6 (SCP _QNECT ) receive standard signal sequences of messages from the communication network, from switches 2 and 5 (VMSC) or from node 3 (SCP) and form response control sequences. Nodes 7 (IMCF _Q NECT) receive standard signaling messages associated with media channels and media sequences (streams) from switches 2 and 5 (VMS C) and generate response sequences of signals and media data. Nodes 6 (SCPQNECT) AND 7 (IMCFQNECT) communicate directly or through IMCFAPP / DB devices using the internal program interface (ApplicationProgramminglnterface - API).

The logic of implementing the method of achieving a technical result is implemented using devices 7 (IMCF _Q NECT) that handle calls directly and devices 6 (SCPQ _N ECT) that route calls to devices 7 (IMCF _Q NECT) - Devices 7 (IMCFQNECT) can transfer service calls from one device 7 (IMCFQNECT) to another in cases where a pair call has arrived earlier and is being serviced on the corresponding node 7 (IMCFQNE _C T) -

Network Nodes 6 (SCPQNECT) ^AND (IMCFQNECT) include a receiving RX object for receiving messages from other network nodes and a CPU object for determining whether the first and second sides call each other.

The determining object of the CPU can be included in a microprocessor, microcontroller, ASIC (specialized integrated circuit) or FPGA (programmable logic integrated circuit) or any other suitable circuit.

The receiving RX entity may be included in the receiver or part of the receiver of an input / output device, for example, an Ethernet interface controller or any other suitable controller.

In addition, network nodes 6 (SCPQ _NEC T) ^AND (IMCFQ _NECT ) may include a MEM storage device for storing data, for example, associated with the capabilities of other network nodes and / or native capabilities, and may also include a TX transmitter, for example, included in an input / output device, for example, an Ethernet interface controller or any other suitable controller, for sending corresponding messages to other network nodes and / or subscribers and / or network operations.

Although the device of the present invention has been mainly described on the basis of the operation of network nodes, for example, a basic network node according to the type of individual elements, the invention can also be implemented in a unified MSC environment or in a blade environment of blade servers providing MSC or other similar functionality, and also represent real physical or virtual logical information processing devices.

The specific combination of elements and features described in detail above is just an example; interchangeability and replacement of the proposed options and methods for their implementation with other options are also provided by the invention. Scopes of the invention are defined in the following paragraphs and their equivalents.

Claims

Claim.

1. A method of connecting subscribers in a meeting call, in which to determine the presence of a meeting call of subscribers, a control unit is used, connected to the switches, characterized in that when there is a meeting call of the subscribers, signal processing for making a decision about connecting the subscribers is carried out in an additional service control node connected to the service control center and the switches, and the connection of subscribers when they meet calls is carried out in a network node connected to the switches outside the switch tori.

2. A device for connecting subscribers, comprising interconnected switches and a service control unit, characterized in that it is equipped with an additional service control unit and a network node connected thereto for connecting subscribers when they meet, the additional service control unit is connected to the control unit services and switches.

3. A device for connecting subscribers according to claim 2, characterized in that the additional service control node is connected to the service control node and switches through standard signaling interfaces of the call organization CAP, INAP, SIP to implement the determination procedure signs of a return call and the formation of a control effect on the routing of the call.

4. A device for connecting subscribers according to claim 2, characterized in that the additional service control node is connected to the service control center and switches through standard signal interfaces of the Bbi30BaISUP, SIP / RTP organization for implementing media transmission procedures, determining the signs of a call back and forming control impact on call routing.