KR101622386B1 - Method for Test Protocol of WiBro Access System, and System therefor - Google Patents

Abstract

In order to test a protocol of a WiMAX (Worldwide Interoperability for Microwave Access) base station, the present invention generates an abnormally defined protocol message in addition to a protocol message defined between a base station and a terminal in real time, To a technique for testing a base station through a response of the base station to the base station. It is possible to expect that the test can be performed before the actual service so that the base station can provide the terminal service stably and continuously by generating and transmitting various abnormal messages that can be applied to the base station being actually served under the wireless environment.

Description

TECHNICAL FIELD The present invention relates to a protocol test method for a WiBro Access system,

The present invention relates to a method of testing a protocol of a WiBro access system and a system therefor, and more particularly, to a protocol testing method of a WiBro access system for testing a protocol of a WiMAX (WiMax: Worldwide Interoperability for Microwave Access The present invention relates to a method of testing a protocol of a WiBro access system and a system therefor to generate an abnormally defined protocol message in real time and transmit it to a base station so as to test a base station through a response of the base station to various abnormal messages.

WiMAX, a wireless mobile communication, is a technology for providing various wireless services through identification between a mobile communication terminal and a base station using wireless communication.
The base station must manage a plurality of terminals and must support mobile terminals to receive desired services through interworking with neighboring base stations.
That is, the base station must be able to provide a wireless service to the mobile communication terminal stably in any situation, and must be able to provide continuous wireless service to the mobile communication terminal through interworking between the plurality of base stations.
However, due to the characteristics of the wireless communication, the base station can reliably and continuously perform services due to a communication failure that may occur in communication between the base station and the mobile communication terminal, or an abnormal operation that may occur in a specific mobile communication terminal during service of the various mobile communication terminals. It may not be able to provide it.
In addition, when the base station can not provide a stable and continuous service, the base station may affect the operation of other base stations in the vicinity, thereby affecting the operation of the service network itself.
However, in the past, there has been no way to test how the base station is affected by the above-mentioned communication failure or abnormal operation of the mobile communication terminal.

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The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for performing a test by replaying various abnormal operations on a protocol that may occur in a mobile communication terminal, A WiBro access system protocol test method for testing a base station by generating various abnormal messages that may occur in a mobile communication terminal using a terminal emulator and a protocol message converting apparatus so as to test the operation of the base station by inserting The technical problem is that it provides.
In addition, an abnormal protocol message is transmitted to a base station in real time during a normal protocol operation between a terminal emulator and a base station to test the operation of the base station in an abnormal situation that may occur in wireless communication.

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According to another aspect of the present invention, there is provided a system for testing a protocol, the system comprising: a base station for transmitting a test message to a base station through a terminal emulator; And a terminal emulator for transmitting the base station test message transmitted from the test server to the base station, wherein the base station test message includes a normal message or an abnormal message .
The abnormal message is not defined on the protocol or is defined on the protocol but the value of the sub elements included in the abnormal message has a value different from the value specified in the protocol or is different from the predetermined timing And the timing information is transmitted in the timing.
The test server according to another embodiment of the present invention includes a normal message generator for generating a normal message to be transmitted to the base station, an abnormal message generator for generating an abnormal message based on the status of the normal message being changed, And a controller for controlling the abnormal message generator and for controlling the transmission and reception timings of the normal message and the abnormal message to the base station.
The abnormal message generation unit may generate an abnormal message that is not defined in the protocol or defined in the protocol but has a value different from a value specified in the protocol by the value of the detailed elements included in the abnormal message. can do.
The test server may further include a timer manager for controlling timers of the normal message and the abnormal message transmitted to the base station.
The timer management unit may control the normal message or the abnormal message to be transmitted at a timing different from the predetermined timing.
According to another embodiment of the present invention, there is provided a method for testing a protocol of a mobile communication system in a system for testing a protocol including a test server, a terminal emulator, and a base station, Transmitting the abnormal message to the base station through the terminal emulator, and checking the state of the base station based on the response information of the base station with respect to the transmitted abnormal message.
According to another embodiment of the present invention, there is provided a method of testing a protocol of a mobile communication system in a test server communicating with a terminal emulator and a base station, the method comprising: transmitting, by the test server, a normal message to the base station through the terminal emulator; The test server receiving a response message transmitted from the base station and determining the status of the base station, the test server transmitting the abnormal message to the base station through the terminal emulator, and the test server transmitting the abnormal message And monitoring and managing the state of the base station based on the response of the base station to the base station.
In addition, the normal message and the abnormal message are transmitted according to a predetermined test scenario.
In addition, the abnormal message may not be defined in the protocol, may be in a different order from the order defined in the protocol, or may be characterized in that the content included in the abnormal message is different from the content specified in the protocol.
According to another embodiment of the present invention, there is provided a method for testing a protocol of a mobile communication system in a test server communicating with a terminal emulator and a base station, the method comprising: transmitting, by the test server, a terminal status report request message transmitted from the base station to the terminal emulator The test server generates a response message for the terminal status report request message. The test server transmits the response message to the base station through the terminal emulator at a timing different from a predetermined timing And checking the state of the base station based on a response of the base station to the response message by the test server.

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As described above, the WiBro access system protocol test method and system of the present invention generate and transmit various abnormal messages that can be applied to a base station that is actually being served in a wireless environment, so that the base station can provide stable and continuous terminal services So that the test can be performed before the actual service.
In addition, the present invention verifies the function of a service base station so that WiMAX users can use WiMAX communication more stably and continuously, and can test each terminal environment without using many kinds of terminals, There is an advantage that the time required for the interlocking operation between the terminals can be shortened.

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Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
1 is a diagram illustrating a configuration of a system for testing a protocol of a WiBro access system according to the present invention.
The system of the present invention generates a message for testing the base station 300 and transmits it to the base station 300 through either a normal message or an abnormal message through a terminal emulator according to a predetermined scenario, A test server 100 for detecting and managing the state of the base station through the response information of the base station 300, a request for access by searching the base station 300 according to a request of the test server 100, Abnormal messages or abnormality messages transmitted from the test server 100 through the terminal emulator 200 and the terminal emulator 200 for transmitting a test message transmitted from the test server 100 to the base station 300, And a base station 300 for transmitting a response message according to a test message including a message according to a timing.
Meanwhile, the terminal emulator 200 shown in FIG. 1 performs the same function as an actual terminal and can access the base station.
The test server 100 generates an abnormal message or abnormal timing to test the base station.
Through this, an abnormal situation that may occur in the process of interworking with an actual terminal is generated and the response of the base station is confirmed. When a situation other than the one defined by the WiMAX protocol protocol occurs, the base station must operate normally without abnormality in the existing operation. Therefore, the test server 100 reproduces the abnormal situation in advance and tests the base station in advance.
2 is a diagram showing a configuration of a test server according to the present invention.
The test server 100 includes a control unit 110, a normal message generating unit 130, a timer managing unit 150, and an abnormal message generating unit 170.
More specifically, the control unit 110 controls the normal message generator 130, the abnormal message generator 170, and the timer manager 150, and exchanges protocol messages with the base station 300 and the timing between messages And controls the transmission and reception of protocol messages for testing the base station.
The control unit 110 processes the messages transmitted and received by the base station 300 and transmits related information to the base station 300 in order to allow the base station 300 to transmit a desired message or an abnormal message in response to the message transmitted from the base station 300 .
For example, in the network entry process defined in the WiMAX protocol, the access request message transmitted from the base station is received after transmitting the access request message expected by the base station. Thereafter, the control unit 110 transmits a message to the base station using the message generated by the normal message generator or the abnormal message generator, according to the test purpose. Here, the control unit 110 selects a message to be transmitted next to the normal message or the abnormal message based on the test scenario.
On the other hand, the control unit 110 sets various test scenarios in advance based on the number of cases in which an abnormal case can occur, which is composed of conditions that can not be tested in an actual terminal and conditions that can occur in a wireless environment .
The normal message generator 130 generates a normal message for transmission to the base station 300. [
Here, prior to transmitting the abnormal message to the base station, a normal message generating job is required. The normal message generating unit 130 performs such a task.
The normal message generation unit 130 transmits the generated normal message to the control unit 110.
For example, when an abnormal situation occurs during normal operation, it is an environment for testing a method of coping with a base station.
The abnormal message generator 170 generates an abnormal message for testing the base station in consideration of a situation where the normal message can be changed according to the characteristics of the wireless situation or the characteristics of the terminal.
Here, the abnormal message generating unit 170 generates an abnormal message with a value that is determined in a message protocol or a protocol protocol but does not match the protocol, with the values of the detailed elements included in the message.
The timer management unit 150 adjusts a message-specific timer to be transmitted to the base station to check the status of the base station.
Here, after receiving the terminal status report request message transmitted from the base station 300, the timer management unit 150 sets a transmission timer of the message to exceed the response message reception time set in the base station so as to test the base station .
For example, after transmitting the terminal status report request message, the base station checks whether the terminal status report response message is received within the time defined in the protocol rule in the base station. The timer management unit 150 sets a timer of the response message So as to violate the message timer protocol defined in the base station to test the response state of the base station.
3 is a flowchart for explaining a method of testing a protocol of a WiBro access system according to the present invention. Hereinafter, a method for testing a protocol of a mobile communication system in a system including a test server, a terminal emulator, and a base station will be described as an example .
First, the test server 100 requests the terminal emulator to search for a base station according to a preset test scenario (S101, S103).
Then, the terminal emulator 200 attempts to search for a base station, and receives a connection request message and a connection permission message for a connection request to the searched base station (S105 to S109).
The connection permission message received by the terminal emulator 200 is transmitted to the test server 100.
The test server 100 generates an abnormal message based on predetermined conditions and transmits the message to the base station 300 through the terminal emulator 200 (S111).
The test server 100 grasps the status of the corresponding base station 300 through the response information of the base station 300 with respect to the abnormal message and manages the detected information using the status information of the corresponding base station 300 (S115).
In this case, the response information of the base station 300 may be in various forms, such as an abnormal response message for an abnormal message, a response message for reaching a predetermined time, a non-response to an abnormal message, Then, the base station 300 grasps and manages the state of the base station based on the response of the base station 300.
Although not shown, the test server 100 transmits status information of the identified base station to the operator so as to grasp the cause of the malfunction of the base station, and performs a measure so that the base station can show a normal response to the case based on the detected cause .
4 is a flowchart for explaining a method of testing a protocol of a WiBro access system according to the present invention. A method for testing a protocol of a mobile communication system in a terminal emulator and a test server communicating with the base station will be described as an example .
First, the test server 100 transmits a normal message to a base station through a terminal emulator according to a preset test scenario (S201, S203).
Here, the internal operation of the test server is such that if the control unit requests the normal message generation unit to generate the normal message according to the preset test scenario, the normal message generation unit generates a normal message according to the request of the control unit and transmits the normal message to the control unit. The controller transmits the normal message received from the normal message generator to the base station through the terminal emulator.
Thereafter, the test server 100 receives the response message transmitted from the base station 300 and determines the state of the base station (S205 to S207).
Here, the normal message generator compares the response message transmitted from the base station with a preset condition, analyzes the message, and transmits the message to the controller.
At this time, it is also possible to directly analyze the response message on the control unit according to the operator's need.
The test server 100 selects either a normal message or an abnormal message according to a preset test scenario, and when the abnormal message is selected, the test server 100 transmits a specific abnormal message to the terminal emulator 200 according to a test scenario among a plurality of abnormal message types To the base station 300 (S209, S211).
Here, the plurality of abnormal message types are different from the message type required in the order defined in the WiMAX standard, the message type requested by the base station, the message type arbitrarily changed in the message, and the WiMAX standard It contains a randomly generated message type that is not defined.
In this case, the message type other than the message type required in the order defined by the WiMAX standard is to test the response when the base station receives a message that it does not want, Check.
In addition, a message type requested by a base station but arbitrarily changed in contents included in a message is used for testing an operation when a specific content is erroneous during a process of verifying a message transmitted to a terminal by the base station. The present invention is to test a problem that may occur when a message normally transmitted from a terminal due to interference or disconnection in communication between the terminal and the base station is transformed or that the terminal is abnormal.
In addition, a randomly generated message type that is not defined in the WiMAX standard is for testing a base station for a case where an erroneous message is transmitted to the base station due to radio interference when the terminal is connected or there is no connected terminal.
Among the various abnormal messages, the controller of the test server requests the normal / abnormal message generator to generate a message corresponding to the test scenario, receives the generated message, and transmits the received message to the base station. Thereafter, the test server checks whether the base station performs an operation on the message, and determines whether the test condition is satisfied.
The test server 100 recognizes and manages the state of the base station based on the response of the base station to the abnormal message (S213).
FIG. 5 is a flowchart for explaining a method of testing a protocol of a WiBro access system according to the present invention, in which an error occurs at a message transmission time of a base station.
First, the test server 100 drives a test scenario (S301).
Then, the test server 100 receives the terminal status report request message transmitted from the base station 300 through the terminal emulator 200 (S303).
Thereafter, the test server 100 generates a response message to the terminal status report request message (S305).
In step S305, when the normal or abnormal message generator receives the terminal status report request message transmitted from the base station through the controller, the response message is generated and transmitted to the controller.
The test server 100 sets a timer to exceed the response message transmission time defined in the WiMAX standard based on the time when the terminal status report request message is received from the base station 300, Message to the base station through the terminal emulator (S307 to S311).
Thereafter, the test server 100 determines and manages the state of the base station based on the response of the base station to the response message exceeding the response message transmission time (S313).
Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

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As described above, the WiBro access system protocol test method and the system for the present invention generate and transmit various abnormal messages that can be applied to the base station being actually served under the wireless environment, so that the base station can reliably and continuously provide terminal services It is suitable for those who need to perform testing before actual service.
In addition, the present invention verifies the function of a service base station so that WiMAX users can use WiMAX communication more stably and continuously, and can test each terminal environment without using many kinds of terminals, There is a high need to shorten the time required for the interlocking operation between the terminals.

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1 is a diagram illustrating a configuration of a system for testing a protocol of a WiBro access system according to the present invention;

2 is a diagram showing a configuration of a test server according to the present invention,

3 to 5 are flowcharts for explaining a protocol test method of a WiBro access system according to the present invention.

Description of the Related Art

100: test server 110:

130: normal message generator 150: timer manager

170: abnormal message generation unit 200: terminal emulator

300: base station

Claims (11)

delete delete A normal message generator for generating a normal message to be transmitted to the base station; An abnormal message generating unit for generating an abnormal message based on a status in which the normal message is changed; A timer manager for transmitting the normal message or the abnormal message to the base station at a timing different from a predetermined timing and adjusting a transmission timer to violate a message timer defined by the base station; And And a controller for controlling the normal message generator and the abnormal message generator and determining the state of the base station based on the response information of the base station for the normal message and the abnormal message, Test server. The method of claim 3, Wherein the abnormal message generator comprises: Characterized in that an abnormal message which is not defined in the protocol or defined in the protocol but whose value of the detail elements included in the abnormal message has a value different from the value specified in the protocol is generated Test server. delete delete 1. A method for testing a protocol of a mobile communication system in a system for protocol testing comprising a test server, a terminal emulator and a base station, Transmitting, by the test server, an abnormal message generated based on a predetermined condition to the base station through the terminal emulator at a timing different from a predetermined timing , so as to violate a message timer convention defined in the base station ; And And the test server recognizing and managing the state of the base station based on the response information of the base station with respect to the transmitted abnormal message Protocol test method. A method of testing a protocol of a mobile communication system in a terminal emulator and a test server communicating with the base station, Transmitting, by the test server, the normal message to the base station via the terminal emulator at a timing different from the predetermined timing , so as to violate the message timer protocol defined in the base station ; Receiving a response message transmitted from the base station and determining a status of the base station; Transmitting, by the test server, an abnormal message to the base station through the terminal emulator at a timing different from a predetermined timing , thereby violating a message timer defined in the base station ; And And the test server recognizing and managing the state of the base station based on the response of the base station to the abnormal message Protocol test method. 9. The method of claim 8, Wherein the normal message and the abnormal message comprise: Lt; RTI ID = 0.0 > a < / RTI > predetermined test scenario Protocol test method. 9. The method of claim 8, The abnormal message includes: Characterized in that the message is not defined in the protocol or is in a different order from the order defined in the protocol or the content included in the abnormal message is different from the content specified in the protocol Protocol test method. A method of testing a protocol of a mobile communication system in a terminal emulator and a test server communicating with the base station, The test server receiving a terminal status report request message transmitted from the base station through the terminal emulator; Generating a response message for the terminal status report request message by the test server; Transmitting the response message to the base station through the terminal emulator at a timing different from a predetermined timing so that the test server violates a message timer defined by the base station ; And And the test server recognizing and managing the state of the base station based on the response of the base station to the response message Protocol test method.

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