KR100259281B1 - System and method for controlling trunk in personal communication service - Google Patents

Abstract

PURPOSE: A system and method for managing trunks in personal communication service is provided to effectively manage trunks only with an enhanced trunk interface unit and to offer a trunk management system using a pseudo synchronous frame through a trunk of an unframed format. CONSTITUTION: A trunk interface unit(70) consists of a reference clock generation part(73), a pseudo synchronous frame generation part(71), a pseudo synchronous frame detection part(72), and a status display part(74). The reference clock generation part(73) generates a reference clock to detect trunk status. The pseudo synchronous frame generation part(71) generates a pseudo synchronous frame and sends it to a remote station with the reference clock. The pseudo synchronous frame detection part(72) receives a pseudo synchronous frame, sent to a local station from the remote station, according to the reference clock, compares it with the pseudo synchronous frame the local station sent, and detects a frame error state. The status display part(74) displays the detected pseudo synchronous frame error state.

Description

Relay line management system and method in personal mobile communication service

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a relay line management system and method for a personal mobile communication service. In particular, a pseudo synchronous frame is used in a trunk of an unframed format for transmitting and receiving data according to a reference clock. The present invention relates to a trunk line management system and a method for realizing state management and maintenance of a trunk line between a control station (BSC) and a base transceiver station (BTS).

In general, 1 bit is allocated as a frame sync bit to one frame carrying transmission / reception information data in a digital code division multiple access (CDMA) system and a personal mobile communication service (PCS) system.

If a telecommunication service is used for data transmission using a 24-channel method, it is composed of 193 bits per frame including frame sync bits in 192 bits allocated to 8 bits per channel. At this time, the length of one frame sampled with 8 kHz audio is 125 secsec, the length of one bit is 5.2 secsec, and the transmission rate is 193 bits x (1/125 secsec) = 1.544 M bits / sec.

A communication service for transmitting and receiving information data by the above-described method is generally used in a relay line of a frame format, and uses a chip set for processing a framed digital trunk for relay line management.

1 is a block diagram showing the basic configuration of a trunk line management system according to the prior art.

The relay line management system according to the related art is composed of a base station 20, a relay switch station 10, a relay line connecting the base station 20 and the relay switch station 10, and a relay line transmitter 30, The base station 20 periodically transmits and receives a packet-shaped frame for detecting the relay line state to detect the state of the relay line, detects the frame received through the relay line, and converts the state of the relay line from the detected frame into data. A relay line matching unit for performing actual processing for matching of the packet-type frame transmitted and received through the relay line according to the data for the relay line processing output from the state management processor 22 and the output state management processor 22 ( 21).

In addition, the RS 10 establishes a mutual path in order to transmit the information signal received to the BS 20 to the subscriber, and the RS 11 to determine a transmission path. Control station 12 for controlling the control of the base station 20 and the temporary relay line between the base station 20 and the relay switching center 10, the control station 12 periodically to detect the state of the relay line A state management processor 13 for transmitting and receiving a packet-shaped frame for checking the relay line state, detecting the frame received through the relay line, and outputting the state of the relay line from the detected frame as data; and the state management processor. A relay line matching unit 14 for performing an actual process for matching a frame in a packet form transmitted / received through the relay line according to the data for relay line processing outputted at (13). It is configured.

The operation of the trunk line management system configured as described above is as follows.

Each of the control station 12 and the state management processor 13, 22 of the base station 20 transmits the same frame packet of the same period to each other through a relay line of a frame format, and transmits the transmitted frame packet. The state management processing units 22 and 13 of the respective base stations 20 and the control station 12 receive each other.

At this time, the state management processing units 22 and 13 of the respective base station 20 and the control station 12 detect the frame packets received from each other, and manage the state of each of the base station 20 and the control station 12. The processing units 22 and 13 compare whether the frame packets previously transmitted to each other and the frame packets currently received to each other are the same.

The state management processor 22 or 13 determines whether or not an error of the frame packet transmitted through the comparison.

If the transmitted frame packet is deformed or transmitted due to the failure of the relay line through the above process, or if only one transmission is performed without mutual transmission, it is determined as an error, and each of the relay line matching units 21 and 14 is actually Error correction processing is performed.

Such a relay line detection method is referred to as keep alive check. Generally, the keep alive detection is effective for a relative connection between two stations to a separate secondary station from a primary station on a communication network. It is detection for checking whether it is stable in connection efficiency.

However, the real time transmission is important in managing the relay line state. If a periodic frame packet is used through the relay line of the framed format in the communication service method using the 24 channel method, 125 μsec. Since a 1-bit sync bit is required for synchronization of the transmitted frame every time, a transmission delay of 5.2 μsec per frame can be generated, thereby reducing processing capacity in relay line management.

Further, in managing the relay line state by the keep-alive detection method, the state management processor accommodates several base stations in the single state management processor, which may not only cause a problem in processing capacity but also cause multiple base stations at once. There may be a reliability problem in handling the condition of the relay line.

Accordingly, inevitably, measurement equipment is necessary for accurate performance analysis of the trunk line.

The present invention has been made to solve such a problem, there is no transmission delay per frame to be transmitted, and also to effectively manage the relay line with an improved relay line matching unit, unframed format without a frame format (Unframed Format) The purpose of the present invention is to provide a system for trunk line management using a pseudo sync frame through the trunk line.

In order to achieve the above object, the present invention provides a criterion for a time interval in which a relay line matching unit included in the control station is included in the control station for checking the state of a relay line established between a base station (BTS) and a control station (BSC) in personal mobile communication (PCS). A reference clock generator for generating a clock signal, a pseudo-synchronous frame generator for generating an arbitrary data bit stream based on the generated reference clock signal, and transmitting it to the base station, and the same time interval as the generated reference clock signal A pseudo-synchronous frame detection unit for detecting any data bit string generated by the base station to the control station and determining whether the provided data bit string is in error, and the state according to whether the determined data bit string is in error. Characterized in that it comprises a status display unit for displaying.

Preferably, any data bit string provided by the base station to the control station is detected according to a reference clock signal of a predetermined time interval generated by the reference clock generator, and the data bit string for checking the state of the hypothesized relay line is pseudo. ) Is a synchronous frame and has a packet form set according to the reference clock signal of the predetermined time interval.

Another feature of the present invention is a flag bit sequence for identifying the interval between successive pseudo-synchronous frames for relay line management, and a pattern of a frame to recognize and detect the pseudo-synchronous frame. An address bit string containing an address indicating an address, a control bit string into which a bit string responsible for control is inserted for checking the state of the hypothesized relay line, and arbitrary measurement data for checking the state of the hypothesis relay line. It consists of a random data bit string and a CRC bit string containing information on the error state of the pseudo-synchronous frame itself bits.

Preferably, a bit string for determining a state check section of the hypothesized relay line in the control bit string, and causing the pseudo sync frame to traverse the determined state check section to be fed back, is provided for the pseudo sync frame provided from the transmitting side. A bit string is inserted for automatically notifying the transmitting side of the error.

The final feature of the present invention is that if the control station detects the data bit string provided by the base station a plurality of times according to the reference clock signal of the predetermined time interval generated by the reference clock generator, and the data bit string is not detected for the predetermined number of times. It is characterized by indicating that the data bit string reception error, and by transmitting and receiving data bit strings respectively generated from the base station and the control station through a relay line established between any base station and the control station, the control station Receiving and detecting a data bit string according to a reference clock signal at a predetermined time interval, comparing the data bit string sent to the base station with the received data bit string; Searching for the presence or absence of an error bit in the received data bit string; Found in accordance with the data bit sequence error bit is whether or not through interaction determining the status of said trunk.

1 is a block diagram showing the basic configuration of a trunk line management system according to the prior art.

Figure 2 is a block diagram showing the basic configuration of the trunk line management system according to the present invention.

Figure 3 is a block diagram showing the internal configuration of the trunk line matching device of the trunk line management system according to the present invention.

4 is a view showing the configuration of a pseudo-synchronous frame of the relay line management system according to the present invention.

5 is a flowchart illustrating a relay line management method according to the present invention;

6 is a flowchart illustrating an error detection method of a pseudo-synchronous frame for relay line management according to the present invention.

Explanation of symbols for main parts of the drawings

42: control station (BSC) 70: relay line matching unit

71: pseudo synchronous frame generator 72: pseudo synchronous frame detector

73: reference clock generator 74: status display unit

80: Frag bit string 81: Address bit string

82: control bit string 83: random data bit string

84: Cyclic Redundancy Check Bit String

Hereinafter, a preferred embodiment of a relay line management system and method according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram showing the basic configuration of the trunk line management system according to the present invention.

Referring to FIG. 2, the relay line management system includes a base station 50, a relay switch 40, a relay line connecting the base station 50 and the relay switch 40, and a relay line transmitter 60. The base station 50 detects a state of the relay line by pseudo-transmitting and receiving a packet-shaped frame by using a predetermined reference clock to detect the state of the relay line, and outputs an error of the received frame as the detected data. And a relay line matching section 51 that performs actual processing for relay line management.

In addition, the RS 40 makes a mutual path for transmitting the information signal received to the BS 50 to the subscriber, and the RS 41 for determining the transmission path. Control station 42 for controlling the control of the base station 50 and the temporary relay line between the base station 50 and the relay switching center 40, the control station 42 in advance to detect the state of the relay line A relay line matching unit which detects a state of a relay line by pseudo-transmitting and receiving a packet-shaped frame using a predetermined reference clock, outputs an error status of the received frame as the detected data, and performs actual processing for relay line management. It consists of 70.

A more detailed description of the present invention will be described with reference to a block diagram showing an internal configuration of a relay line matching device of the relay line management system of FIG. 3.

Referring to FIG. 3, the relay line matching unit 70 generates a pseudo-synchronous frame with a reference force generating unit 73 generating a reference clock for detecting a relay line state, and generates a pseudo-synchronous frame to match the generated reference clock. Remote synchronization) and a pseudo-synchronous frame generator 71 for transmitting to the local station at the same time as the transmission and receiving the pseudo-synchronous frame transmitted to the local station according to the generated reference clock. And a pseudo-synchronous frame detection unit 72 for detecting a frame error state compared to the pseudo-synchronous frame, and a status display unit 74 for displaying an error state of the pseudo-synchronous frame detected by the pseudo-synchronous frame detection unit 72. .

Here, the local station and the remote station are the control station 42 if the base station 50 described in FIG. 2 is the own station. If the control station 42 is the local station, the large station is the base station 50. do.

Referring to the operation of the relay line matching device according to the present invention configured as described above are as follows.

The reference clock generator 73 of the relay line matching unit 70 generates a reference clock of 16 msec predetermined, and the pseudo-synchronous frame generator 71 generates a pseudo-synchronous frame in accordance with the reference clock of 16 msec. Remote Station).

The transmitted pseudo-synchronous frame is received to the large station through the relay line transmitter 60, and the large station transmits the pseudo-synchronous frame in accordance with the reference clock at the same time interval as the pseudo-synchronous frame transmitted from the local station.

The pseudo-synchronous frame detector 72 detects the pseudo-synchronous frame received from the power station according to the reference clock of 16 msec provided by the reference clock generator 73. The pseudo-synchronous frame generator 71 has already sent out By comparing the pseudo-synchronous frame and the pseudo-synchronized frame transmitted by the power station, it is determined whether the frames are the same frame and the frame error state indicating the state of the relay line is determined.

The frame error state determined by the pseudo-synchronous frame generator 71 is displayed through the status display unit 74.

Here, the relay line matching unit 70 transmits the pseudo-synchronous frame according to the 16msec reference clock and detects the pseudo-synchronized frame according to the 16msec reference clock, which is received for three or more predetermined times in succession according to the reference clock. If not, it is determined as a frame reception error.

At this time, the relay line matching unit 70 performs the actual error correction process for the relay line management.

4 is a view showing the configuration of a pseudo-synchronous frame of the relay line management system according to the present invention.

The pseudo-synchronous frame is in the form of a packet, and recognizes that it is the pseudo-synchronous frame and a bit stream 80 of 1 byte for identifying the interval between successive pseudo-synchronous frames. 1 bit of an address bit string 81 of 4 bytes containing an address indicating a pattern of a frame so as to be detected, and a bit string responsible for control for checking the state of the hypothesized relay line. Byte control bit string 82, 5 byte random data bit string 83 containing arbitrary measurement data for the state check of the hypothesized relay line, and the pseudo-synchronous frame itself bit It consists of a 2-byte CRC bit string 84 that contains information about the error condition of the.

Here, the cyclic redundancy check (CRC) bit string 84 is m check bit strings generated by the transmitter in response to k frames or messages in the cyclic redundancy check scheme, which is a kind of error control scheme.

That is, the transmitter determines m so that the entire frame composed of n (k + m) bits can be divided into a predetermined generation polynomial, and the receiving side divides the same generation polynomial into the same generation polynomial.

A trunk line management method using the trunk line management system described so far will be described.

5 is a flowchart illustrating a relay line management method according to the present invention.

The relay line management method according to the present invention generates a reference clock of 16msec time interval (S1) and transmits a pseudo-synchronous frame to the large station according to the reference clock, and at the same time, the own station transmits the pseudo-synchronous frame transmitted from the large station according to the reference clock. Receive. (S2)

The local station determines whether the received pseudo-synchronous frame is detected according to the reference clock (S3), and when the received pseudo-synchronous frame is detected according to the reference clock, the slave performs frame error detection operation for relay line management, which will be described later. (S4)

However, if the received pseudo-synchronous frame is not detected according to the reference clock, the received pseudo-synchronized frame is determined to be a frame reception error and displayed.

In this case, it is determined whether the pseudo-synchronous frame detection is performed three times or a predetermined number of times.

FIG. 6 is a flowchart illustrating an error detection method of a pseudo-synchronous frame for managing a relay line according to the present invention. As described in FIG. 5, the slave has already received and detected a pseudo-synchronous frame according to a reference clock of 16 msec time interval. (S10)

The pseudo-synchronized frame detected according to the reference clock is compared with the pseudo-synchronized frame sent by the own station to the large station (S20).

Here, the address bit strings of the two pseudo-synchronous frames are compared with each other (S20). The address bit strings of the pseudo-synchronous frame received and detected by the own station and the address bit strings of the pseudo-synchronous frame transmitted to the counter station are It is determined whether or not the same (S30).

If the address bit strings of the two pseudo-synchronous frames are not the same, a relay line error state is displayed (S70).

However, if the address bit strings of the two pseudo-synchronous frames are the same, the CRC bit string of the pseudo-synchronous frame received and detected by the slave station is searched (S40) and an error bit string is detected in the detected pseudo-synchronous frame. It is determined whether there exists. (S50)

If it is determined that the error bit string exists, the relay line error state is displayed (S70). If the error bit string does not exist, the relay line is normal.

Hereinafter, another embodiment of the trunk line management system and method according to the present invention will be described.

The relay line management system according to the present invention inserts arbitrary measurement data for the state check in the random data bit string 83 of the pseudo-synchronous frame to check the state of the hypothetical relay line, and marks the pseudo-synchronous frame. The station receives the pseudo-synchronous frame which has passed through the power station after transmitting to the power station, and inserts the measured data of the random data bit stream 83 which has passed through the transmission and reception into the random data bit stream 83 before being transmitted from the own station. By comparing one measurement data, it is possible to measure a bit error rate that can detect a bit error rate.

Here, the detected bit error rate indicates to what extent the data received by the receiver in data communication is wrong due to noise on the communication line compared to the transmission data. For example, a communication line with a bit error rate of ^10-3 is a line that produces an average of 10 bits when 10,000 bits of data are sent.

In addition, the relay line management system according to the present invention inserts a remote loop back bit string into the control bit string 82 of a pseudo-synchronous frame transmitted from a local station to check a specific section of the hypothesized relay line. Thus, the remote loop feedback function may be performed such that the pseudo-synchronous frame transmitted from the local station traverses only the state check section of the predetermined relay line and returns to the local station.

Finally, the relay line management system according to the present invention, through the error detection of the pseudo-synchronous frame described in FIG. By inserting and transmitting a Remote Alarm Indication bit into the control bit string 82 of the frame, a remote alarm display function can be performed to enable the display of a frame error status in the game.

As such, by using a pseudo synchronization frame through an unframed relay line, it is possible to have various processing capacities for effective relay line management.

According to the present invention described above, since the relay line management system uses a pseudo sync frame through a relay line having no frame type, there is no transmission delay per frame, thereby real-time guaranteeing the state of the relay line. Reliability can be ensured even in relay line state processing capability and calls for data communication. In addition, the management cost is also reduced because there is no need to have a separate measurement equipment for accurate check of the relay line.

Claims (9)

In the personal mobile communication (PCS), the relay line matching unit included in the control station for checking the state of the relay line established between the base station (BTS) and the control station (BSC), A reference clock generator for generating a reference clock signal at a predetermined time interval; A pseudo-synchronous frame generator for generating an arbitrary data bit string based on the generated reference clock signal and transmitting the random bit stream to the base station; A pseudo-synchronous frame detection unit which is generated at the same time interval as the generated reference clock signal to detect any data bit string provided by the base station to the control station, and determines whether the provided data bit string is in error; And a status display unit for displaying the status according to whether the determined data bit string is in error. The relay line of claim 1, wherein an arbitrary data bit string provided to the control station by the base station is detected according to a reference clock signal having a predetermined time interval generated by the reference clock generator. Management system. The personal data carrier of claim 1, wherein the data bit string for checking the state of the hypothetical relay line is a pseudo synchronization frame and has a packet form set according to the reference clock signal at a predetermined time interval. Trunk line management system in communications. The method of claim 3, wherein the pseudo-synchronous frame is A flag bit string for identifying an interval of successive pseudo-synchronous frames, An address bit string containing an address representing a pattern of a frame so as to recognize the pseudo-synchronous frame and detect the same; A control bit string in which a bit string responsible for control is inserted for checking the state of the hypothetical relay line; A random data bit string containing arbitrary measurement data for state check of the hypothesized relay line, Relay line management system for a personal mobile communication, characterized in that consisting of a CRC bit string containing information about the error state of the pseudo-synchronous frame itself bits. 5. The personal portable device as claimed in claim 4, wherein the control bit string includes a bit string for determining a state check section of the hypothesized relay line and allowing the pseudo-synchronous frame to return to the determined state check section. Trunk line management system in communications. 5. The relay line management system of claim 4, wherein a bit string for automatically notifying the transmitting side of an error of a pseudo-synchronous frame provided from the transmitting side is inserted into the control bit string. The method of claim 1, wherein the control station detects the data bit string provided by the base station a plurality of times according to a reference clock signal of a predetermined time interval generated by the reference clock generator, and the data bit string is not detected for a predetermined number of times. If not, the relay line management system for a personal mobile communication, characterized in that for indicating a data bit string reception error. In the control station checks the state of the relay line by mutually transmitting and receiving data bit strings respectively generated from the base station and the control station through a relay line established between any base station and the control station, Receiving and detecting a data bit string according to a reference clock signal at a predetermined time interval; Comparing whether the data bit string transmitted to the base station and the received data bit string are the same; Searching for the presence or absence of error bits in the received data bit stream; And determining the state of the relay line in accordance with the presence or absence of an error bit in the retrieved data bit string. The method of claim 8, wherein the data bit string is a pseudo sync frame and has a packet form set according to a reference clock signal having a predetermined time interval.