KR20030057593A - Trap message sending method for WLL system - Google Patents

Abstract

PURPOSE: A trap message transmission method of a wireless subscriber network system is provided to perform in proper a trap message transmission between an RPOM(Radio Port Operation and Maintenance) of a base station corresponding to an RPC(Radio Port Controller) and an EMS(Event Management System) in a WLL system. CONSTITUTION: A base station controller reports periodically a state of a system to a base station operation device and transmits a message for notifying that there is no problem in a network link to the base station operation device(S400,S410). Messages required a response such as an alarm message of a system and a subscriber information message are stored with priority according to the importance and then applied according to the importance in grade(S420). In a case that an event is happened, a message is stored to a buffer. Preferably, a periodic message is not stored to the buffer(S421-S422). The base station controller gives a response number to the messages stored to the buffer sequentially until 1-255. In case of a periodic message, '0' is given. At this time, according to the message is applied to the priority(S423). Before the message transmission, a message, not received a response, is given a response number again and then transmitted(S424).

Description

Trap message sending method for WLL system

The present invention relates to the transmission of a trap message of a wireless local loop (WLL) system, and more particularly, to a base station controller (Radio Port Controller, or RPC) and a base station operating apparatus (Radio) in a WLL system. The present invention relates to a method for transmitting a trap message of a wireless subscriber network system suitable for transmitting a trap message between a port operation & maintenance or an RPOM.

1 shows a configuration of a general WLL system.

The WLL system's subscriber interface (Radio Interface Unit, or RIU) is located at the end of the network elements, and the RF transmission / reception function for transmitting and receiving information on the air interface, and the RF-to-baseband signal is transmitted to the subscriber interface. The baseband signal processing function for performing the reverse process and the reverse process, the signal protocol processing function with the network, the voice signal processing function for processing the voice signal, the PSTN, and the ISDN terminal access function.

A base station (Radio Port, or RP) performs a wireless access function with a subscriber access device and a wired access function with a base station controller. The configuration consists of an RF unit for transmitting and receiving RF signals and power control, a digital signal processor for receiving IF signals, modulating and demodulating them into a signal form required by the base station controller, and performing the reverse process, and a voice, data, and signaling signal from the base station controller. Interface unit performing matching function for transmitting / receiving, synchronization unit for distributing and controlling timing and clock information in each part of base station, test unit for function for testing of wired / wireless section and basic operation status diagnosis. Consists of.

The base station controller (RPC) is located between the base station and the local exchange (LE) to perform the function of transmitting signal messages, call processing, transcoding, interface with the base station and the exchange. The architecture includes a processor-to-processor communication unit that provides an interprocessor communication path of each device in the base station controller, a base station matching unit that matches the base station-base station controller with an E1 digital relay line and HDSL, a 2-wire analog subscriber and a digital subscriber, and an E1 digital relay line A switch that matches the exchange with the switch, a transcoding function between the subscriber access device and the voice coding method of the exchange, a signal that performs a series of processes such as echo cancellation in case of delay of voice signal processing and channel change during a call. There is a central control unit that handles functions such as processing unit, various call processing, status management in the device, and control signal format between exchange and base station. Others include time switch unit, network synchronizer, operation preservation device matching unit, alarm processing unit, and exclusive selection. It is composed of a mating part.

The base station operating device (RPOM) is a device that is in charge of the operation and maintenance of the entire wireless subscriber network, that is, the subscriber access device, the base station, and the base station controller. A commercial workstation is generally used. There are network element management function, performance management function, data processing function, software management function and security management function.

The Simple Network Management Protocol (SNMP) protocol is used between the base station operator and the base station controller. Since the SNMP protocol is based on the UDP (User datagram Protocol) connection type transport protocol, retransmission is not performed.

The SNMP protocol uses the 'Trap' command to notify exceptions. In other words, if a certain event occurs, it keeps a record and sends a trap message to the manager. Such trap generation and record keeping are optional. If an incident occurs in connection with an alarm, the incident record and trap generation can be preset by the administrator.

However, a message such as subscriber management or alarm is a necessary message for operation, and when a corresponding message is lost, a problem may occur due to a data mismatch between the system and the base station operating apparatus.

Thus, the system receives an ACK message from the EMS to prevent the loss of trap messages. At this time, it operates by not sending the next message until the response of the currently sent message is received. In other words, it has a structure that synchronizes the transmission of the message.

According to FIG. 2, when an event such as an alarm occurs, the base station controller adds an ACK number to the trap message to be transmitted and transmits it to the base station operating apparatus. At this time, if confirmation is required for message transmission such as alarm and subscriber information, the system sequentially assigns a value of 1 to 255 as a response number. Otherwise, the system transmits a message with a value of '0'.

The system waits for a response message such as the response number of the message currently sent.

In this case, if a message is not retransmitted, the buffer that manages the message becomes full after a certain period of time, and then the message is first deleted in the corresponding buffer.

However, according to the related art described above, when the response of the trap message is sequentially transmitted, the transmission speed is slow because the next message waits for the response of the previous message.

In addition, if the response message is lost, it is possible to fall into an infinite root in the retransmission flow or delay the transmission of the next message much later.

In addition, in the case of a message that needs to be answered, all the messages are deleted after a certain time has elapsed while communication with the EMS is lost, and management is required according to the importance of the message.

The present invention was created to solve the above-mentioned conventional problems, and an object of the present invention is to provide a trap message between a base station controller (RPC) and a base station operator (RPOM) corresponding to an EMS (Event Management System) in a WLL system. The present invention provides a method for transmitting a trap message in a wireless subscriber network system suitable for transmission.

A method for transmitting a trap message in a wireless subscriber network system of the present invention for achieving the above object comprises the steps of determining, by a base station controller, whether a response to a trap message is required; If a response to the message is required, storing the message by the base station controller and transmitting the message when an event occurs; And if the base station controller does not respond to the previously transmitted message, transmitting the corresponding message together with the response number of the previous message.

1 is a block diagram of a general wireless subscriber network system.

Figure 2 is a flow chart illustrating a trap message transmission method of a wireless subscriber network system according to the prior art.

Figure 3 is a flow chart illustrating a trap message transmission method of a wireless subscriber network system according to an embodiment of the present invention.

Figure 4 is a flow chart of a trap message transmission method of a wireless subscriber network system according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a flowchart illustrating a trap message transmission method of a wireless subscriber network system according to an embodiment of the present invention, and FIG. 4 is a flowchart of a trap message transmission method of a wireless subscriber network system according to an embodiment of the present invention.

In this embodiment, when an event occurs, even when the base station controller does not receive a response to the previous message, the corresponding message is transmitted to the base station operating apparatus. On the other hand, when sending a message periodically to re-send a message that has not received a response, in this case is a periodic event so that retransmission is not delayed.

In addition, the priority and time parts are added to the structure of the event buffer that will store the message to be sent as the event occurs, thereby improving the management of the event buffer efficiently.

The communication performed between the WLL base station controller system and the WLL base station operating system (or EMS) is based on the SNMP protocol and sends a message in an SNMP trap when an event occurs.

The base station controller periodically manages the status of the trap message by dividing the message type into a case of reporting status, that is, a response message is not required and a response message is required. Thus, when the buffer is full, messages can be deleted according to their importance. It is especially useful for the management of certain messages that, if lost, have the potential to have significant consequences.

After sending a message, the base station controller waits for a response to the message and sends the next message. Instead, the base station controller periodically checks and retransmits the buffer using a periodically occurring message.

The timing of the base station controller is as follows.

3 and 4, the base station controller periodically reports the state of the system to the base station operating apparatus, and also sends a message indicating that there is no problem in the network link between the base station controller and the base station operating apparatus. This message is a periodic message that does not need to receive a response from the base station operating system. By using this message, it is possible to periodically manage and retransmit the event buffer (S400, S410).

Meanwhile, among the events occurring in the base station controller, the alarm message and the subscriber information message of the system correspond to the messages that must be answered. The message requiring a response is set to priorities according to the importance, so that the message is differentially applied according to the importance (S420).

For example, subscriber-related messages have the highest importance because the subscriber information of the base station operating system and the subscriber information of the system must match. do. This is accomplished by adding more priority and timing information in addition to the response number of the message to be stored in the buffer. Therefore, differentiated message management prevents the possibility of losing important messages that must match information between the system and the base station operator when communication is lost.

Next, a trap message transmission procedure of the base station controller is performed. That is, when an event occurs, the base station controller periodically checks the buffer using a trap message that occurs periodically, instead of waiting for a response from the corresponding message after sending the message and sending the next message. If the message is not received, resend according to a certain procedure. Therefore, the base station controller has an asynchronous structure for the message. Accordingly, when the message is sent, the transmission speed of the next message is not slowed down, and the corresponding message is transmitted immediately after the event occurs.

However, when the network link status between the base station controller and the base station operating apparatus is bad or disconnected, a message that does not receive a response increases, which may cause a management buffer to become full. At this time, by managing the message according to the priority of the message, it is possible to maximize the data information of the base station controller and the base station operator.

Therefore, the trap message transmission procedure of the base station controller is performed according to the following procedure.

First, a message is stored in a buffer when an event occurs. Periodic messages are preferably not stored in the buffer (S421 to S422).

The base station controller sequentially assigns a response number from 1 to 255 to the message stored in the buffer. On the other hand, '0' is given in the case of periodic messages. At this time, the priority is applied according to the type of message (S423).

Before sending the message, resend the reply number to the message that did not receive the response. At this time, the previous message is not continuously waiting for the response to be received, but the message is transmitted together with the response number of the previous message (S424).

If the buffer is full, the messages of the lower priority among the messages in the buffer are deleted first.

Since the base station controller periodically generates a message, it is not necessary to manage a timer for each message. In the case of an alarm message, when the generation time is determined to be too long, the corresponding message may be deleted.

The embodiments described above are within the scope of various changes, modifications, and equivalents of the present invention. Therefore, the present invention is not limited to the description of the examples.

According to the trap message transmission method of the wireless subscriber network system of the present invention, the message transmission speed is improved by having an asynchronous structure in message transmission.

In addition, since the present invention retransmits using a periodically occurring message, it is possible to minimize the load of system resources without having to set a timer for each message.

In addition, by managing the messages by giving priority to each message, it is possible to prevent message loss for important messages when there is an error in the link between the base station controller and the base station operating apparatus.

Claims (6)

Determining, by the base station controller, whether a response to the trap message is required; If a response to the message is required, storing the message by the base station controller and transmitting the message when an event occurs; And transmitting the corresponding message together with the response number of the previous message, if the base station controller does not respond to the previously transmitted message. The method of claim 1, wherein if no response to the message is required, The base station controller retransmits the message to the base station operating apparatus every set period, and when the event occurs, even if the base station controller does not receive a response to the previous message, the current message is transmitted to the base station operating apparatus at the arrival of the period. Trap message transmission method of a wireless subscriber network system. The method of claim 1, The base station controller determines that the response message is not necessary when it is set to report the status periodically, and determines that the response message is necessary when it is not set to report the status periodically. How to send trap message in own network system. The method of claim 1, wherein if it is determined that a response to the message is not required, The base station controller setting priorities according to the importance of each message; Temporarily storing a message on the set storage medium together with the set priority information and response number; Checking the storage medium when an event occurs and transmitting the message according to a set priority to determine whether a response is received; And retransmitting the message together with the response number of the message that has not been previously answered at the next transmission of the message even when there is no response to the transmission message within a predetermined period. How to send a message. The method of claim 4, wherein When it is determined that a response to the message is not required and the message is stored in the storage medium, when the storage medium becomes full, the message having a relatively low priority is first deleted by comparing the set priority. Trap message transmission method of a wireless subscriber network system, characterized in that. The method of claim 4, wherein And the response number, the set priority, timing information, and message content of each message are stored in the storage medium, respectively.