KR960016657B1 - Continuity test control method of n0.7 signalling at the call set up - Google Patents

Abstract

informing a transmitting processor that an output trunk is occupied; being shifted to a switch connection standby state if the continuity test is unnecessary; waiting for the continuity test result of the output trunk; being shifted to the switch connection standby state if the result receiving flag succeeds, and ending the step in case of a failure; being shifted to the RLC standby state; driving a timer until an ACM or a CON is received; and being shifted to the translation result standby state if the continuity test succeeds, and ending the input trunk process in case of a failure.

Description

Continuity test control method of No.7 signal type when setting call

1 is an overall structural diagram of an all-electronic exchanger which is a distributed control system to which the present invention is applied,

2 is an internal block diagram for implementing the continuity test function of the No.7 signal type user unit in the electronic switchgear;

3 and 4 are processing flowcharts of the method for controlling the continuity test of the outgoing line during call execution in the No. 7 signaling user part of the all-electronic exchange according to the present invention;

5 is a flowchart illustrating a method for controlling the continuity test of incoming trunks during call execution in the No. 7 signaling user unit of an electronic switching system according to the present invention.

The present invention relates to a method of controlling the continuity test function during call setup in order to confirm the reliability of a call line, and more particularly, to a method of controlling continuity test of the No. 7 signaling method when setting up a call.

In general, CCS (No.7 Signaling), which is Common Channel Signaling (CCS), has a characteristic of performing call setup and line monitoring by transmitting a signal message with a power station using a separate signal channel moved.

Due to these characteristics, when implementing No.7 signaling in a distributed control system, it is necessary to verify the reliability of the call path when establishing the call to ensure the reliability of the call line and the quality of the transmission path when the call is established. have. In other words, with the advent of the high information age, it is necessary to establish an Integrated Services Digital Network (ISDN) that can provide users with more economical, high-quality services and various voice and non-voice services. In the case of the inter-station signaling system, it is difficult to transmit various comprehensive information through the existing channel-associated signaling (CAS), which leads to the introduction of No. 7 signaling system, which is common channel signaling (CCS). It became. The DC loop (Decadic Pulse) and MFC R2 (Multifrequency Compelled) signals, which are the existing individual line signaling methods, have the same transmission line and the call line of the signal, so that no separate quality inspection of the call path is required, but the common line signaling method ( CCS: Common Channel Signaling (No.7) signaling method transmits signaling message with power station through separate signal link to monitor call setup and line, which does not guarantee quality status on transmission path and reliability of call line. There are disadvantages. Therefore, the continuity test function of No.7 signaling is required during call setup to ensure the reliability of the call line and to ensure the quality state on the transmission path.

The present invention devised to solve all the problems of the prior art and to meet the above needs, in the No.7 signaling method, which is a common signaling method, has its own failure detection function during call setup because signal and call lines are separated. In order to provide reliable voice and data services to subscribers, it is necessary to perform separate reliability and quality checks for digital and analog lines that do not have a proper system. The purpose of the present invention is to provide a continuity test control method of signal No. 7 signaling.

In order to achieve the above object, the present invention provides a continuity test control method of the number 7 (No. 7) signaling method when setting up a call to be applied to an exchange system. The processing process includes a first step of reporting to the calling process that the outgoing line is occupied; After performing the first step, the timer is driven until the address reception completion message (ACM) and the access message (CON) are received, and then the continuity test is requested from the LSP to perform the continuity test on the outgoing line, and the continuity test is unnecessary. A second step of transition to a standby state of the switch connection; A third step of transmitting the received message handling processor (SMHP) to a power station and waiting for a continuity test result of the outgoing line after delivering the information received when the outgoing line occupancy request is performed after performing the second step; Performing the continuity test in the LSP (Local Service Processor) and notifying the outgoing process, after the third step, transitions to the switch connection standby state if the result receiving flag set is successful, and terminates if it fails; step ; And after the third step is performed, when the timer is terminated without receiving the continuity test result, the state of the call is transferred to the standby state of the release completion message (RLC) of the power, and the timer is stopped when the call release is notified from the originating process. And performing a continuous test control of the outgoing line, including the fifth step of transitioning the call state to the standby state of the release completion message (RLC) of the power station, and receiving a head address message (IAM) from the power station for an empty incoming line. A sixth step of generating a receiving process and running a timer until receiving an address reception completion message ACM or a connection message CON; After performing the sixth step, collect the information of the incoming route, analyze the IAM message received from the power station, request the continuity test, wait for the result, and if the continuity test is not necessary, transfer the call status to the station translation result waiting state. The seventh step; And after performing the seventh step, when the continuity test result is received from the power station in the standby state of the continuity test result, when the continuity test is successful, the state of the call is transferred to the station number translation result waiting state. An eighth step of terminating is included.

This is a method to implement the continuity test of No.7 signaling method when setting up a call in an electronic switchboard, and performs the continuity test, which is a quality test for the rotation of the call when setting up a call, to service only the line having good quality condition on the transmission path. to be.

No.7 Signaling By defining and implementing a separate call processing state for continuity test in the call processing process of the user part, it is possible to simplify the algorithm, improve the reliability of the software and minimize the change according to the software structure change, and the portability is good. .

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 is an overall system structure diagram of an all-electronic exchanger which is a distributed control system to which the present invention is applied.

Electronic switching system, which is a distributed control system, is structurally divided into three sub-systems, namely, Central Control Subsystem (CCS) and Interconnection Network Subsystem (INS). It can be divided into a plurality of ASS (Access Switching Subsystem).

CCS is a subsystem that performs the overall M & A function of the system. Test and measurement for system level maintenance and repair, operator input and output data control function, statistics and charging functions as well as disk and M / T control. It is performing a management function.

INS is located at the center of the system to connect ASS to each other or between ASS and CCS, and to manage and connect / disconnect the space switch in the TST switch structure. It also performs the route control function and has a network synchronizer to generate and supply the system clock.

ASS can connect up to 60 ASS through INS, and it is equipped with subscriber and trunk device, T-switch device, various signal processing device, packet handler, CCS No.7 signal device, network interlocking device, etc. Perform processing and own M & A function.

The structure of ASS is ASS-S (Subscriber), ASS-T (Trunk), ASS-7 (No.7), ASS-P (Packet), ASS-S / T (Subscriber and Trunk) etc. Any combination of may be configured to have a horizontal dispersion structure.

2 is an internal block diagram for implementing the continuity test function of the No. 7 user part in the electronic switching unit.

In terms of control, an electronic switch can be divided into main control, which is a high level function, and peripheral control, which controls a device. can be divided into (interworking).

The processor of the upper control system includes an access switching processor (ASP), an interconnection network processor (INP), an operation and maintenance processor (OPM), and a number translation processor (NTP). The processors of the lower control system include a trunk interface processor (TIP), It is divided into a Time Switch Processor (TSP), a Local Service Processor (LSP), a Space Switch Processor (SSP), and a Signaling Message Handling Processor (SMHP). These processors interoperate with each other through Control Interworking (CI).

The processor system accommodated in INS includes NTP and SSP. Among them, NTP provides number translation and route information requested by each ASP, and SSP controls the Sw (Sapce Swicth) equipment to interconnect TSW (Time Switch) in each ASS. A note performs a function.

The processor system accommodated in ASS includes ASP, TIP, TSP, LSP, CIP, SMHP, etc. Among them, ASP is composed of a plurality of upper blocks, which controls various devices of ASS, and controls upper level such as call processing and own M @ A function. In particular, UPC (ISDN User Part Control), the No.7 user block control block in the ASP, is a main process and ISUP root that performs maintenance, maintenance, and creation and management of child processes. Outgoing line processing process that performs call control and call status control with outgoing line assigned to, Incoming line processing process that performs call control and call state control with incoming line assigned to ISUP route, Outgoing assigned to ISUP route Outgoing line treatment continuity test process to perform continuity retest and repeat test control functions for mooring line and incoming line treatment continuity test process for incoming line It has a parallel processing (concurrent processing) structures.

UPI (ISDN User Part Interface), the No.7 user part matching block, is realized in a single process structure to perform ISUP message conversion, CIC (circuit identification code) management and conversion, and TIP controls TU (Turnk Unit) devices. It is responsible for monitoring incoming and outgoing lines and receiving and sending line and register signals. TSP controls time switch (TSW) devices to connect various devices in ASP and SSW (space in INS). The LSP controls the Local Service Unit (LSU) to perform R2, DTMF, CCT, transmit / receive tone signals and monitor the operation status of the device.In particular, the continuity test is performed by connecting the LSU to the TU. -Send the tone to the power station using the switch path. If the power is also received from the power station, send the tone to the calling exchange in the same way. SMHP is in charge of sending and receiving messages with No.7 signaling.

The transmission / reception of ISUP message is distributed to ASS-T through SDL (signal data link), which is an internal fixed up path of TST that connects TU of ASS-T connected to large power and CSU of ASS-7. It is sent / received.

3 and 4 are flow charts for controlling the continuity test of the outgoing line during call execution in the user part 7 of the electronic switch according to the present invention.

(1) Outgoing line at the occurrence of ISUP call If the ISUP route requests the occupancy of the outgoing line to the ISUP outgoing line control block when available, (2) If the requested UPC block exists, the outgoing line processing process is generated. (3) the generated outgoing line processing process reports to the originating process that the outgoing line is occupied and requests that the subsequent address message (SAM) be delivered to its own process; and (4) an address reception complete message (ACM) and an access message. Run timer T7 until (COM) is received, (5) check if continuity test is required for occupied outgoing line, (6) if continuity test is required, set continuity test request flag (7) (8) After requesting the connection of signaling equipment for continuity test, request continuity test from LSP.

(9) When receiving information on the outgoing line, the received information is converted into the head address message (IAM) and transmitted to the UPI block, while the UPI is transmitted to the SMHP in ASS-7, and the SMHP sends a nailed up path (TST). (10) After that, wait for the result of the continuity test of the outgoing ship.

(11) When the continuity test is performed at the LSP and the result is notified to the outgoing processing process, (12) the outgoing processing process stores that the continuity test result has been received from the LSP, and (13) determines whether the continuity test was successful (14). ) If the continuity test is successful, send the continuity test result message (COT) to the power station through the fixed passage (15) request to disconnect the connected signaling equipment (16) and transition the call status to the connection waiting state of the switch.

(17) If the continuity test fails, stop the run Timer T7, (18) send a continuity test result message (COT) to the power station, (19) request an automatic retry, and (20) retest the continuity test to the UPC main process. (21) request disconnection of the connected signaling equipment and (22) terminate the ISUP outgoing line processing process.

(23) If the continuity test result is not received in the standby state of the continuity test and the timer T7 is terminated, (24) request the disconnection of the connected continuity test signal equipment and switch and (25) the UPC main process to perform the continuity retest. Requesting (26) sending a release message (REL) to the play for release of the play, (27) driving a timer T7 to monitor the completion of the play, and (28) calling the status of the play. To the standby state.

(29) If the continuity test result is notified of the call release from the originating process in the waiting state, (30) stops the operation of timer T7, (31) requests the disconnection of the connected continuity test signal equipment and switch, and (32) For release, the release message REL is transmitted to the play (33) and the timer T7 for monitoring the release completion of the play is driven (34) and the state of the call transitions to the wait state of the release complete message (RLC) of the play.

5 is a flow chart of the continuity test control of incoming trunks at the user equipment of electronic switch No. 7 according to the present invention.

(35) When the UPC main process receives the head address message (IAM) from the power station for the idle line that is idle, (36) creates the incoming line processing process and (37) informs the UPI block that the incoming processing process has been created. (34) Run timer T7 until the reception of the address reception complete message (ACM) or access message (CON), and (39) collect the incoming route information. (40) In case of requesting continuity test by analyzing IAM message received from large country (41) requesting connection of signaling equipment, (42) requesting continuity test to be performed by LSP, and (43) changing the state of call to continuity test waiting state. Transition

(44) If the continuity test is not necessary, collect incoming call-related information (45) request the station number to be translated by NTP, and (46) transition the state of the call to the station number result waiting state.

(47) Continuity test result When the continuity test result is received from the power station in standby mode. (48) If the continuity test is successful, (49) Release the connected signal equipment. (50) Collect the incoming information. It requires the translation of the station number and transitions the state of (52) to the waiting state of the station number translation result.

(53) If the continuity test fails (54) release the connected signaling equipment (55) request the UPC main process to retest the continuity (56) and terminate the incoming process.

As described above, the present invention can be used as a method of implementing a continuity test function when setting up a call when implementing a user part, which is a common line signaling method, in a general exchange, and improves the quality of service by ensuring reliability of a call line. There is an effect that can improve the completion rate of the call.

Claims (9)

In the method of controlling the continuity test using the number 7 (No.7) signaling method when setting up a call applied to the switching system, when the ISUP (ISDN User Part) outgoing line is requested, the outgoing line processing process indicates that the outgoing line is occupied. First step to report to; After performing the first step, the timer is driven until the address reception completion message (ACM) and the access message (CON) are received, and then the continuity test is requested from the LSP to perform the continuity test on the outgoing line, and the continuity test is unnecessary. A second step of transition to a standby state for a switch connection; A third step of transmitting the received message handling processor (SMHP) to a power station and waiting for a continuity test result of the outgoing line after delivering the information received when the outgoing line occupancy request is performed after performing the second step; After performing the third step, performing a continuity test in the LSP (local service processor), notifying a result to the outgoing process, and transitioning to a switch connection waiting state if the result receiving flag set is successful, and ending if the fourth is completed. step ; And after the third step is performed, when the timer is terminated without receiving the continuity test result, the state of the call is transferred to the standby state of the release completion message (RLC) of the power, and the timer is stopped when the call release is notified from the originating process. And performing a continuous test control of the outgoing line, including the fifth step of transitioning the call state to the standby state of the release completion message (RLC) of the power station, and receiving a head address message (IAM) from the power station for an empty incoming line. A sixth step of generating a receiving process and running a timer until receiving an address reception completion message ACM or a connection message CON; After performing the sixth step, collect the information of the incoming route, analyze the IAM message received from the power station, request the continuity test, wait for the result, and if the continuity test is not necessary, transfer the call status to the station translation result waiting state. The seventh step; And after performing the seventh step, when the continuity test result is received from the power station in the standby state of the continuity test result, when the continuity test is successful, the state of the call is transferred to the station number translation result waiting state. A method of controlling continuity test of the number 7 (No. 7) signal method when setting up a call for performing incoming line continuity test control, including an eighth step of terminating. The outgoing line processing process according to claim 1, wherein the first step comprises: requesting the outgoing line to be occupied by the ISUP outgoing line control block when an ISUP call occurs; A first process of generating a; And after the first process is performed, the generated outgoing line processing process includes a second process of reporting to the calling process that the outgoing line is occupied and requesting to deliver a subsequent address message (SAM) to its own process. A continuity test control method using the number 7 (No. 7) signal system when setting up a call. The method of claim 1, wherein the second step comprises: a first process of checking whether a continuity test is required for the occupied outgoing line after running a timer until an address reception completion message (ACM) and a connection message (CON) are received; ; After performing the first process, if the continuity test is required, the second process of setting a continuity test request flag and requesting the connection of the signal equipment for continuity test, requesting the continuity test to the LSP, and transitioning to the switch connection standby state if not necessary Continuity test control method of the number 7 (No. 7) signaling method when setting up a call, characterized in that it comprises a. The method of claim 1, wherein the fourth step comprises: a first step of determining whether the continuity test succeeds when performing the continuity test to the LSP and notifying the outgoing processing process of the result; A second process of transmitting a continuity test result message (COT) to a power station, requesting disconnection of connected signal equipment, and transitioning a call state to a connection waiting state of a switch after the first process is performed; And if the continuity test fails after performing the first step, stopping the driven timer, transmitting a continuity test result message (COT) to the power station, requesting the UPC main process to retest the continuity test, and ending the ISUP outgoing line processing process. A method for controlling the continuity test of the number 7 (No. 7) signaling method when setting up a call, characterized by including a third process. The method of claim 1, wherein in the fifth step, if the continuity test result is not received in the standby state of the continuity test result and the timer expires, the continuity retest is requested to the UPC main process by requesting disconnection of the connected continuity test equipment and the switch. First process of doing; And performing a second process of transmitting a release message (REL) to the play state and transitioning the call state to the waiting state of the release completion message (RLC) of the play to release the play. A method for controlling the continuity test of the number 7 (No. 7) signaling method when setting up a call. The method of claim 1, wherein the fifth step comprises: a first step of stopping a timer and requesting disconnection of a switch of the connected continuity test signal equipment and a switch when a call release is notified from the originating process in a standby state of a continuity test result; And a second process of transmitting a release message (REL) to the play state and transitioning the call state to the standby state of the release completion message (RLC) of the play state after performing the first process. Continuity test control method of No.7 signal system when setting call. 6. The method of claim 1, wherein the sixth step comprises: a first step of generating a incoming line processing process when the UPC main process receives a head address message (IAM) from a large station for an empty incoming line; And after performing the first process, requesting that the incoming process is generated to the UDN (ISDN User Part Interface) block to transmit a message related to the incoming call line, and receiving an address reception completion message (ACM) or access. And a second step of driving a timer until the reception of the message CON. 7. The method of claim 1, wherein in the seventh step, when the continuity test is requested by collecting information on the incoming route and analyzing the IAM message received from the power station, requesting the connection of signaling equipment and requesting the continuity test to be performed by the LSP; A first step of transitioning a call state to a standby state for continuity test; And performing a first process after collecting the information related to an incoming call if the continuity test is not necessary after the first process, requesting a station number translation with a number translation processor (NTP), and transitioning a call state to a station number translation waiting state. A continuity test control method according to the number 7 (No. 7) signal method when setting up a call. The method of claim 1, wherein the eighth step comprises: a first step of determining whether the continuity test succeeds when receiving the continuity test result from the power station in a continuity test result standby state; A second process of releasing the connected signaling equipment, collecting incoming information, requesting a station number translation, and transitioning a call state to the station number translation result standby state if the continuity test is successful after performing the first process; And a third step of releasing the connected signal equipment, requesting a continuity retest to the UPC main process, and terminating the incoming process after performing the first step, if the continuity test fails. Continuity test control method of No.7 signal system.