In order to meet the requirements of fine, reliable and efficient preparation at the flight test site, an airborne test data detection method was proposed. By obtaining the topology of the airborne test system, the analytic hierarchy process is used to quantitatively analyze the task support capacity of the test system, the airborne test data detection method based on the improved rule model is designed, and the remote control command state expectation-response matching algorithm is established to improve the digital level of the test work at the test site. Based on the airborne embedded platform, a set of test system data inspection and maintenance platforms is developed. The system has been installed and applied in multi-type testing machines, which greatly improves the on-site detection efficiency of airborne test data, realizes the decoupling of on-site test preparation of the testing machine from the test supervisor, allows the on-site supervisor to focus more on exception handling, reduces the impact of test failures on the test flight task, and reduces the on-site detection and evaluation time of airborne test data by more than 70%.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Research on the Field Evaluation Technology of Airborne Test Data in the Mode of Flight Test Mission Surge

  • Jiang Xie,
  • Ruchang Huang,
  • Fenglei Shi

摘要

In order to meet the requirements of fine, reliable and efficient preparation at the flight test site, an airborne test data detection method was proposed. By obtaining the topology of the airborne test system, the analytic hierarchy process is used to quantitatively analyze the task support capacity of the test system, the airborne test data detection method based on the improved rule model is designed, and the remote control command state expectation-response matching algorithm is established to improve the digital level of the test work at the test site. Based on the airborne embedded platform, a set of test system data inspection and maintenance platforms is developed. The system has been installed and applied in multi-type testing machines, which greatly improves the on-site detection efficiency of airborne test data, realizes the decoupling of on-site test preparation of the testing machine from the test supervisor, allows the on-site supervisor to focus more on exception handling, reduces the impact of test failures on the test flight task, and reduces the on-site detection and evaluation time of airborne test data by more than 70%.