RU2161870C2 - Gear and method to process calls in remote subscriber's module of electron commutation system - Google Patents

Abstract

FIELD: processing technology. SUBSTANCE: proposed gear to process calls in remote subscriber's module of electron commutation system is related to communication systems in which remote subscriber's module is connected to main switching center by means of connecting communication line. Gear to process calls includes interface with subscriber's line which has functions of reception of phone number and function of tone signals and can process calls between in-house subscribers of remote subscriber's module even if connecting communication line between main switching center and remote subscriber's module is out of order and processor of remote subscriber's module to receive and analyze phone number, to send required tone signals, to transmit and receive special digital information that functions as processor of access commutation of main switching center if connecting communication line between main switching center and remote subscriber's module is out of order. EFFECT: development of reliable gear and method to process calls in remote subscriber's module of electron commutation system. 8 cl, 9 dwg

Description

 The invention relates to an electronic switching system, in particular, to a device and method for processing calls in a remote subscriber module, allowing to process calls between internal remote subscribers even in the event of a connection failure between the main switching node and the remote subscriber module in the electronic switching system.

 The electronic switching system provides call connection service not only for the group of nearest subscribers, but also for a small group of remote subscribers. Call connections are serviced directly by the main switching node for the group of nearby subscribers, while a remote subscriber module (UAM) is installed on the remote site for the group of remote subscribers, providing a trunk connection to the main switching node to provide service for establishing call connections. A conventional electronic switching system is shown schematically in FIG. 1.

 Depicted in FIG. 1 electronic switching system contains the main switching node and the UAM, the interaction between which is carried out on the trunk. The blocking between the main switching node and the UAM is provided by the MMS (interprocess communication) via the data line, while the MMS uses alarm messages generated in the UAM and test messages to service the internal UAM, as well as the data necessary to process the call. The structure of the main switching node includes a temporary switching line (LAN) 24, a data line interface (ILD) 18, a tone dialing receiver (PTN) 26, a remote subscriber interface processor (IPAA) 20, and an access switching processor (PCA) 22. The UAM contains remote subscriber module remote subscriber (PUAM) processor 10, data link channel (CLC) 12, analog subscriber interface (AAI) 14, data transmission interface with a nominal speed (ANN) 28, control unit for testing equipment (UTA) 30, call generator (Vg) 32 and data line interface (DLC) 16. PUAM 10 manages remote subscriber devices, communication lines of remote subscribers, testing device and call processing and takes KLD 12 after detection of activation of the connection (off-hook) by the subscriber to transmit information to the PKD 22 through IPUA 20 of the main switching node using the LAP-D protocol (Link Access Procedures for the D-channel). PKD 22, having received information about the activation of communication, sends a dial-up signal to the corresponding voice channel to allow the subscriber to dial the number, and the further procedure is implemented in the same way as when processing the call by the main switching unit. PKD 22, made as part of the main switching unit, is the main processor that controls the operation and maintenance of the main switching unit. LVK 24 performs all the switching functions in the main switching node. KLD 12 gives the subscriber an overload tone if the trunk line with the main switching node is busy or out of order. To increase reliability, the main components of the system are duplicated. The UAM described above provides cost-effective service for long-distance remote subscribers and allows the distribution of subscriber terminals of the main switching node in order to increase economic efficiency by adding a function identical to that of the main switching node. The interaction structure between the UAM and the main switching node is shown in FIG. 2.

 As seen in FIG. 2, four ICLDs (data link channel interface), which are processors of a lower level, operate under the control of PSKD-AM (access switching subsystems for trunk subscribers), and two of them are used for interaction through the trunk line with DSP-T1 [ digital interface processor T1 (Conference of European Postal and Telecommunication Departments)], and the rest can be used for an analog subscriber interface processor (AAIP) or IPAA 20. IPAA 20 may have a function of pairing with AAI and the UAM pairing function, and the data between the IPAU 20 and the UAM are transmitted / received using the LAP-D protocol in conjunction with different MPS necessary for processing calls, testing and maintenance, using the data line, which is the sixteenth channel of the transmission line with PCM (Pulse Code Modulation).

 In the traditional electronic switching system described above, the UAM can provide call service only when the communication line with the main switching node is in a normal state. This means that UAM cannot provide calls to its internal subscribers, not only because the call processing devices (i.e., the telephone number receiving device and the tone device) share the resources of the main switching unit, but also because it controls the call processing PKD 22, which is a higher-level processor, in the main switching node. If the trunk connecting the UAM to the main switching node is in an abnormal state, it is not possible to service calls between UAM extension users because the UAM does not have the hardware for processing calls and a high-level processor.

 The basis of the invention is the creation of a device and method for processing calls in a remote subscriber module of an electronic switching system, allowing to process a call between internal subscribers of a remote subscriber module even in the event of a connection failure between the main switching node and the remote subscriber module.

 This result is achieved in the claimed method of processing calls in a remote subscriber module of an electronic switching system, in which a remote subscriber module is connected to the main switching node by means of a communication line, has the function of receiving a telephone number for receiving a telephone number from an internal subscriber, and a tone signal for issuing an internal to the subscriber of various tones and connects the internal channels for the internal subscribers of the remote subscriber module, which s should be switched internally with each other. Moreover, in accordance with the invention, information of the internal subscriber is received and stored in the remote subscriber unit from the main switching unit by means of a communication line connected to the main switching unit, in the case when the connecting line between the remote subscriber unit and the main switching unit is in a normal state, after detection of activation of communication, the subscriber checks whether the connecting line with the main switching node is in a normal state, select the deis calling the internal channel to the internal caller and transmitting the dial tone to the internal caller if the connecting line to the main switching node is in an abnormal state, receive and analyze the telephone number of the called party dialed by the calling subscriber, and connect the communication line between the calling subscriber and the called subscriber by connecting the internal channel of the called subscriber with the internal channel of the calling subscriber if analyzed second caller's telephone number corresponding to an extension.

The invention is illustrated by the example of its implementation with reference to the drawings, which represent the following:
in FIG. 1 is a block diagram of a conventional electronic switching system in which a main switching node is connected to a remote subscriber module via a trunk;
in FIG. 2 is a block diagram illustrating a general interface structure between a main switching node and a remote subscriber unit;
in FIG. 3 is a block diagram of an electronic switching system according to the invention, in which the main switching node is connected to a remote subscriber module via a trunk;
in FIG. 4A and 4B are diagrams depicting the structure of an internal switching device in a subscriber line coupler configured in a remote subscriber unit according to the invention;
in FIG. 5 is a flowchart of information transmission / reception of a remote subscriber between a main switching node and a remote subscriber module according to the invention;
in FIG. 6 is a diagram illustrating a digital input data card for a tone dialing receiver (DTN) in a subscriber line coupler, according to a possible embodiment of the invention;
in FIG. 7A and 7B are flowcharts for processing a call between extension users of a remote subscriber unit according to a possible embodiment of the invention.

 In FIG. 3 shows an electronic switching system in which the main switching node is connected to the UAM using a data line (or trunk). When the data link between the main switching node and the UAM is in a normal state, the corresponding elements operate as described above with reference to FIG. 1. In addition, additional operations are performed, which will be described below, to provide service calls between internal subscribers in UAM. In accordance with the invention, the PUAM 40 receives and analyzes the telephone number dialed by the extension using the subscriber line coupler to send the extension tone corresponding tones, in addition to the functions described with reference to FIG. 1. In addition, PUAM 40 requests and receives special digital data (internal subscriber information) from the main switching node, saves this data until the initialization of the PUAM and, if necessary, receives modified specific digital data from the main switching node. In addition, in case of malfunctions in the connecting line between the main switching node and the UAM, the PUAM 40 functions as a PCD 22, which is the highest level processor of the main switching node. The Subscriber Line Coupler (USAL) 50 is a device for interfacing between the main switching node and the PUAM 40 and has a telephone number receiving function and a tone function to provide call service between the internal UAM in the event of a trunk failure.

 In FIG. 4A and 4B show an internal switching device (i.e., a temporary switch) in the USAL 50 according to a possible embodiment of the invention, which comprises a subscriber transmitter 100 and a subscriber receiver 110. In particular, the subscriber transmitter 100 switches the subscriber channels (STX0-STK15) 211 to subscriber channels to the main switching node (MUX0-MUX7) 212 for connecting to the LAN 24 of the main switching node when the connecting line to the main switching node is in a normal state. But in case of failure of this line, the subscriber channels (STX0-STX15) 211 switch to the internal connecting channels (IJT0-IJT3) 222 through the internal connecting channels (IJT0-IJT3) 213. More specifically, if the connecting line to the main switching node is in an abnormal state, switching subscribers in the USAL has a structure that provides internal connection of subscribers to each other. Channel PTN 214 receives the number dialed by the subscriber, and PUAM 40 periodically scans channel PTN 214 to detect this number. The subscriber receiver 110 connects the subscriber channels (DMUX0-DMUX7) 221 from the LAN 24 to the subscriber channels (STX0-STX15) 224 when the trunk line to the main switching node is in a normal state. But in case of failure of this line, the internal connecting channels (IJT0-IJT3) 213 of the subscriber transmitter 100 are switched to the internal connecting channels (IJT0-IJT3) 222 of the subscriber receiver 110, and the internal connecting channels (IJT0-IJT3) 222 are switched to the subscriber channels (STX0- STX15) 224. The tone sending channel 223 gives the extension subscriber different tones, for example, a dial tone when the subscriber picks up the phone in the event of a line failure.

 In FIG. 5 is a flowchart of transmission / reception of special digital information (internal subscriber information) between the main switching node and the UAM according to the invention. In particular, the drawing shows the transmission and reception of remote subscriber information for processing a call (i.e., the special number and the number of the remote subscriber assigned to the special number) in the event of a line failure. As shown in the drawing, after initialization, the PUAM 40 requests the PKD 22 of the main switching node to inform it of special digital information in the UAM (step 301). Then the PKD 22 transmits the information of the corresponding UAM to the PUAM 40 (step 302). In addition, if the special digital information has changed, has been supplemented or withdrawn, PKD 22 transmits the adjusted information to the PUAM 40 (step 303).

 In FIG. Figure 6 shows a digital input data card in the PST 26 in the main switching unit in the event of a line failure according to a possible embodiment of the invention. The PUAM 40 periodically scans the PTH channel 214 depicted in FIG. 4A to detect a telephone number dialed by an extension. Bits 15-8 in the drawing represent the data of the receiver of the multi-frequency signals (PHC 0), and bits 07-00 represent the data of the PMC 1. This data occurs when D5 = 1.

 In FIG. 7A and 7B show a flowchart of a method for processing a call between extension users in a UAM according to the invention, which includes the following steps: receiving special digital information from the main switching node and transmitting this information to the main switching node through the connecting line in case the connecting line the communication line to the main switching node is in normal condition; after detecting the activation signal of communication by the subscriber, a check is made to see if the connecting line to the main switching node is in normal condition; sending a dial tone when the connecting line to the main switching node is in an abnormal state; receiving the telephone number of the called subscriber in the UAM; and after completion of the reception of the telephone number, connecting the communication line between the called subscriber and the calling subscriber in the UAM.

 If the trunk between the main switching node and the UAM is in an abnormal state, the PUAM 40 processes the call between the extensions in the UAM, as shown in FIG. 7A and 7B, which will be described in detail below. First, the PUAM 40 sends a request at step 401 to the PCL 22 of the main switching node to provide information to the remote subscriber about the special subscriber number in the UAM and, at step 402, stores the information of the remote subscriber received from the control panel 22. Then, at step 403, the PUAM 40 starts the task receiving numbers, for example 16mS tasks. After completing these steps, the PUAM 40 starts servicing the extension call at step 404. At steps 405–406, the POAM 40 checks to see if a change in the state of the extension has been detected (i.e., off-hook) to go to step 407 of the dial-ready state after detection pick up the handset or return to step 405 to continue checking the change in status of the extension if pickup is not detected. The PUAM 40 checks the state of the communication line between the main switching node and the UAM at step 408. If the communication line is in a normal state, the processing proceeds to step 409 to perform normal call processing, and if the communication line between the main switching node and the UAM is in an abnormal state , The POAM proceeds to step 410 to start processing the extension call for the special number in the UAM. Then, at step 411, the POAM 40 receives a specific channel from the PSTN channels 214 for receiving a number. If there are no free PTN channels, the PUAM 40 sends a tone (for example, a busy tone) from the USAL 50 to the caller so that the extension that lifts the handset hears a busy signal. The tone stored in the internal ROM of the USAL 50 is always transmitted to the tone supply channel 223. If the extension that lifted the handset leaves the receiver off-hook after he heard the busy tone, PUAM 40 stops the call at step 414, initializing various internal data. But if at step 411, the PUAM 40 receives a free tone dialing channel, it proceeds to step 412 and checks if there are free internal connecting channels 213 and 222 for connecting internal subscribers in the UAM. If there are no free internal connecting channels, the PUAM 40 releases the tone dialing channel allocated to it and performs steps 413 and 414. If there is a free internal connecting channel, the PUAM 40 proceeds to step 415 and sends a dial tone to the caller on the tone transmission channel 223. signal. At this point, PUAM 40 connects the tone dialing channel to the subscriber in preparation for receiving a telephone number. At step 416, the PUAM 40 scans the dial tone channel to receive the telephone number and stops sending the dial tone after receiving the first digit. After terminating the dial tone, at step 417, a check is made to see if the telephone number is fully received. If the number is fully received, the process proceeds to step 418, otherwise the completion of reception of the number is expected. After receiving the phone number, PUAM 40 compares the received number with the extension information stored in it to determine if the extension information is registered and searches for the line number of the called party. The POAM 40 checks the registration of the extension information and the status of the called party at step 419. If the extension information is not registered or the called party is unavailable (for example, busy or there are some problems) and the call cannot be processed, the POAM 40 sends a busy tone to the caller and releases the dedicated internal trunk at step 420. If the caller, upon hearing the busy tone, hangs up, PUAM 40 initializes various data and verifies flushes the call at step 421. But if the subscriber is available and the call can be processed puama 40 proceeds to step 422 and sends a ring tone to the called subscriber and return ringing tone to the caller through the channel 223 send the tones. If the called subscriber lifted the phone when he heard the ringing tone, PUAM 40 stops sending this signal to the called subscriber and the ringback signal to the calling subscriber and connects the internal connection channel to switch to the busy state. The PUAM 40 maintains a busy state to facilitate a conversation between the caller and the called party. The POAM 40 checks if the conversation is completed in order to return to step 423 if it is not finished. But if the conversation is over, PUAM 40 releases the internal trunk and ends the call at 425.

 As described above, even in the event of a connecting line failure between the main switching node and the UAM, for example, as a result of a fire or malicious actions, it is possible to provide a call service for the specified number in the UAM, which allows emergency calls between the internal UAM subscribers.

Claims (10)

 1. A device for processing calls in a remote subscriber module of an electronic switching system in which a remote subscriber module is connected to the main switching node by means of a connecting line to provide call processing between extension users in the remote subscriber module in the case where the connecting line is between the main switching node and the remote subscriber module is in an abnormal state, characterized in that it contains a device for interfacing with the subscriber line, Designed for interfacing between the subscriber access interface associated with the internal subscriber and the processor of the remote subscriber module, having the function of receiving a telephone number for receiving fire from the internal subscriber and the function of tones to issue various tones to the internal subscriber, and providing connection of internal channels for internal subscribers remote subscriber module, switched internally, in the case where the trunk line between the main switching evil and the remote subscriber module is in an abnormal state, and the processor of the remote subscriber module, providing reception and storage of information of the internal subscriber in the remote subscriber module, to which the subscriber belongs, from the main switching node in the case when the connecting line between the main connecting node and the remote the subscriber module is in normal condition, receiving and analyzing the number dialed by the subscriber through the channel of receiving the number of the interface device from the subscriber line in the case when the connecting line between the main switching node and the remote subscriber module is in an abnormal state, control the tone channel of the interface device with the subscriber line to provide the internal subscriber with the necessary tone and provide call processing by connecting the internal channel of the called subscriber with the internal the caller’s channel in the case when, as a result of checking the stored information of the internal subscriber, it was found that my corresponding extension subscriber.  2. The call processing device according to claim 1, characterized in that the subscriber line interface device comprises a subscriber transmitter and a receiver and connects internal channels for internal subscribers of the remote subscriber module, which must be switched internally with each other, in the case when the connecting line The communication between the main switching node and the remote subscriber module is in normal condition.  3. The call processing device according to claim 2, characterized in that the subscriber transmitter comprises a tone dial receiver channel for receiving a telephone number dialed by an internal subscriber.  4. The call processing device according to claim 2, characterized in that the subscriber receiver comprises a tone transmission channel for sending various tones to the internal subscriber.  5. A method for processing calls in a remote subscriber module of an electronic switching system in which a remote subscriber module is connected to the main switching node by means of a communication line, has a telephone number reception function for receiving a telephone number from an internal subscriber and a tone function for issuing various tones to the internal subscriber signals, and connects internal channels for internal subscribers of the remote subscriber module, which must be switched internally m with each other, characterized in that the internal subscriber information is received and stored in the remote subscriber unit from the main switching unit by means of a communication line connected to the main switching unit, in the case where the connecting line between the remote subscriber unit and the main switching unit is normal state, after the activation of the communication is detected by the subscriber, it is checked whether the connecting line to the main switching node is in the normal state, the action calling the internal channel to the internal caller and transmitting a dial tone to the internal caller if the connecting line to the main switching node is in an abnormal state, receive and analyze the telephone number of the called subscriber dialed by the calling subscriber, and connect the communication line between the calling subscriber and the called subscriber by connecting the internal channel of the called subscriber with the internal channel of the calling subscriber if The phone number of the called party corresponds to the extension.  6. A method for processing calls in a remote subscriber module of an electronic switching system, in which the remote subscriber module is connected to the main switching node by means of a communication line and comprises a subscriber line coupler connecting the subscriber access interface associated with the internal subscriber to the remote subscriber processor a module having a function of receiving a telephone number for receiving a number from an internal subscriber, and a function of tones for issuing ext the target subscriber with various tones, and providing the connection of internal channels for the subscribers of the remote subscriber module, internally switched with each other, and the processor of the remote subscriber module, which processes calls between the internal subscribers by controlling the interface device in the case of a connecting line between the main switching node and the remote subscriber module is in an abnormal state, characterized in that they request information of the internal subscriber from the main switching node in the case when the connecting line to the main switching node is in a normal state, receiving and registering the information of the internal subscriber from the main switching node through the connecting line, after detecting the activation of communication by the subscriber, check whether the connecting line is located with the main switching node in normal condition, allocate a free tone dial receiver channel for internal calling subscriber and provide a free channel for the tone dialing receiver by transmitting the dialing tone, stop transmitting the dialing tone and analyze the received telephone number if the telephone number of the called subscriber dialed by the internal subscriber is received through the tone dialing channel, check if the called subscriber is in a state of readiness for a call, if the analyzed telephone number of the called subscriber corresponds to the registered extension to him subscriber, provide a connection with the called subscriber and transmit the ringtone to the calling subscriber if the called subscriber is in a state of readiness for the call, stop transmitting the ringtone to the calling subscriber, disconnect the connection with the called subscriber and connect the channel between the transmitting and receiving subscribers by connecting the internal channel in the case of the called party’s response and after the end of the telephone call, release the dedicated internal channel and complete call.  7. The call processing method according to claim 6, characterized in that it further checks whether there is a free channel in the tone dialing receiver and an internal connecting channel in the case when the connecting line to the main switching node is in an abnormal state.  8. The method of processing calls according to claim 7, characterized in that they additionally send a busy tone to the caller in the absence of a free channel in the tone dialing receiver or internal connecting channel.  9. The method of processing calls according to claim 6, characterized in that they additionally send an busy tone to the internal caller if the called subscriber is in a state of inaccessibility to the call.  10. The method of processing calls according to claim 9, characterized in that as a state of unavailability for a call, a state is used when the called subscriber is not registered in the mentioned information of the internal subscriber, or the called subscriber is busy, or the connection with the called subscriber is broken.

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