Title :
Effectiveness calculations in captive-carry HIL missile simulator experiments
Author :
Pace, P.E. ; Nishimura, B.H. ; Morris, W.M. ; Surratt, R.E.
Author_Institution :
Dept. of Electr. & Comput. Eng., Naval Postgraduate Sch., Monterey, CA, USA
fDate :
1/1/1998 12:00:00 AM
Abstract :
Electronic countermeasures (ECMs) are instrumental in altering the flight path of an incoming active threat missile. To determine the effectiveness of the ECM, hardware-in-the-loop (HIL) threat missile simulators are tested in several types of experimental configurations (e.g., closed-loop in an anechoic chamber, open-loop captive-carry held tests on board an aircraft). A new class of modeling and simulation algorithms is presented that allows an accurate miss distance to be calculated from a high-bandwidth ECM captive-carry test result. The techniques combine the results from each test configuration and represent an improvement in evaluating an ECM effectiveness over a singly independent analysis. Anechoic chamber and captive-carry test results from an HIL antiship missile (ASM) simulator are used to demonstrate the algorithms and detail the feasibility of the approach
Keywords :
aerospace simulation; digital simulation; electronic countermeasures; military computing; missiles; signal processing; simulation; ECM; Electronic countermeasures; anechoic chamber; antiship missile; captive-carry missile simulator; closed-loop; feasibility; hardware-in-the-loop threat missile simulators; high-bandwidth ECM; incoming active threat missile; miss distance; modeling; open loop; simulation algorithms; Aerodynamics; Aerospace simulation; Anechoic chambers; Computational modeling; Computer simulation; Electrochemical machining; Electronic countermeasures; Missiles; Predictive models; Testing;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
