Simulation test system monitoring method and monitoring system based on BS architecture

A test system and monitoring system technology, applied in the field of equipment monitoring, can solve problems such as untimely shutdown of test equipment, influence on simulation test results, disconnection of test equipment, etc., to achieve the effect of convenient query, convenient troubleshooting, and reduced impact

Pending Publication Date: 2022-07-22
XIAN LINGKONG ELECTRONICS TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In view of the lack of corresponding monitoring technology in the working process of the simulation test system in the prior art, resulting in untimely operations such as troubleshooting, disconnection of test e

Method used

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  • Simulation test system monitoring method and monitoring system based on BS architecture
  • Simulation test system monitoring method and monitoring system based on BS architecture
  • Simulation test system monitoring method and monitoring system based on BS architecture

Examples

Experimental program
Comparison scheme
Effect test

Example Embodiment

[0040] Example 1

[0041] see figure 1 , the present embodiment a kind of simulation test system monitoring method based on B_S framework, it comprises the following steps:

[0042] S01: assign IP and ports to each simulation test system sub-module; each simulation test system sub-module corresponds to an IP and a port, and the IP and port corresponding to each simulation test system sub-module are unique;

[0043] S02: Collect the IPs and ports allocated by each simulation test system sub-module, summarize the allocated IP and ports, and form a configuration database; the configuration database is equivalent to a data table, through which each simulation test system sub-module corresponds to Summarize IP and port;

[0044] S03: Collect the running status information of each simulation test system sub-module, and send the running status information; the running status information includes software running status information and hardware running status information correspondi...

Example Embodiment

[0054] Example 2

[0055] see figure 2 , the present embodiment is a simulation test system monitoring method based on B_S architecture, on the basis of Embodiment 1, it also includes:

[0056] S06: Acquire the abnormal warning information or the normal prompt information in step S05, and display the generated abnormal warning information or the normal prompt information.

[0057] Wherein, step S05 further includes starting, restarting or stopping one or more sub-modules of the simulation test system according to the abnormal warning information.

[0058] Further, step S05 further includes acquiring abnormal warning information, and storing the abnormal warning information.

[0059] Take the test data acquisition module of the simulation test system as an example to illustrate:

[0060] S06: Acquire the abnormal warning information or normal prompt information of the test data acquisition module in step S05, and display the abnormal warning information or normal prompt inf...

Example Embodiment

[0061] Example 3

[0062] see image 3 , a monitoring system of the simulation test system based on the B_S architecture of the present embodiment is formed on the basis of the monitoring method of the simulation test system based on the B_S architecture of the embodiment 1, and it includes a distribution module, a configuration data module, and an acquisition module. , information encapsulation module and judgment module,

[0063] Allocation module: used to allocate IP and ports to each simulation test system sub-module of the simulation test system;

[0064] Configuration data module: used to collect the IP and ports allocated by each sub-module of the simulation test system, and summarize the allocated IP and ports to form a configuration database;

[0065] Allocation module: used to allocate IP and ports for each simulation test system sub-module of the simulation test system; each simulation test system sub-module corresponds to an IP and a port, and the IP and port cor...

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Abstract

The invention provides a simulation test system monitoring method and monitoring system based on a BS architecture. The method comprises the following steps: allocating an IP and a port to a simulation test system sub-module; iP and ports distributed by the simulation test system sub-modules are collected to form a configuration database; running state information of the simulation test system sub-module is collected and sent; receiving operation state information of the simulation test system sub-modules, reading the configuration database, and establishing a one-to-one correspondence mapping relation between IPs and ports in the configuration database and the simulation test system sub-modules; according to the mapping relation, packaging the operation state information of the simulation test system sub-modules to generate corresponding response data, and respectively sending the response data of different simulation test system sub-modules; receiving response data of the simulation test system sub-module, and judging the correctness of the response data; and the judgment result is processed, so that the serious influence on a simulation test or equipment can be reduced.

Description

technical field [0001] The invention belongs to the technical field of equipment monitoring and relates to a monitoring technology of a simulation test system, in particular to a simulation test system monitoring method and a monitoring system based on a B_S architecture. Background technique [0002] The large-scale simulation test system is composed of different functional modules. These functional modules can abstract different functional software parts and functional hardware parts. The functional software parts include the software part of the test stage, the software part of the test completion stage, and the test data acquisition software part, etc. , the functional hardware part includes test equipment, acquisition equipment, display equipment and so on. In the actual simulation test process, many functional software parts and functional hardware parts will have more or less large and small faults. However, in the simulation test stage, these faults are difficult to ...

Claims

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Application Information

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IPC IPC(8): G06F11/30G06F16/22G06F16/242H04L67/01H04L61/5007H04L101/663
CPCG06F11/302G06F11/3065G06F16/2291G06F16/242
Inventor 上官银芳高涛王宬刘艳龙
Owner XIAN LINGKONG ELECTRONICS TECH CO LTD
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