Browsing International Telemetering Conference Proceedings, Volume 53 (2017) by Authors
EXTENDING CHAPTER 10 RECORDING WITH TELEMETRY NETWORK STANDARDSMoodie, Myron L.; Newton, Todd A.; Southwest Research Institute® (International Foundation for Telemetering, 2017-10)RCC 106 Chapter 10 has established the standard for interoperable flight test recording on the DOD ranges. The growth of network and distributed technologies in flight test instrumentation (FTI) has led to the recent adoption of Chapters 21 through 28 to provide standards for implementing interoperable telemetry networks. However, the new standards have led to confusion and concern that the investment in Chapter 10 recorders will be lost. This paper first clarifies the complementary nature of the RCC 106 chapters and proposes one possible path to extending the current capability of a Chapter 10 recorder with telemetry network capability while minimizing impact to existing recording and support systems.
RAPIDLY RECONFIGURABLE SYSTEM MANAGEMENTNoonan, Patrick J.; Whittington, Austin J.; Ibaroudene, Hakima; Moodie, Myron L.; Southwest Research Institute® (International Foundation for Telemetering, 2017-10)The growth of network and distributed technologies in flight test instrumentation (FTI) has provided the benefits of flexibility, scalability, and compatibility with prevalent computing capabilities. However, to achieve these capabilities, the complexity of each piece of FTI and the overall system has increased dramatically. Even with systems composed of equipment from a single vendor, it is important to have management systems that provide the flexibility to adapt quickly to various system configurations and present unified information to the flight test users. The growth of network technologies and then standardized approaches such as iNET standards becoming accepted IRIG 106 standards is leading to the growth of multi-vendor systems. These multi-vendor systems further increase the need for rapidly reconfigurable management systems. This paper describes a constraints engine we have developed to enable flexible system management systems and reflects on how these techniques have been used successfully in the iNET System Manager.