Testing and Evaluation of E-O Imaging Systems

Data analysis techniques are independent of the sensor selected (i.e., wavelength independent). The difference lies in the input variable name (watts, lumens, or delta-T) and the output variable name (volts, lumens, or observer response). Field tests are extremely difficult. Differences between lab and field test approaches are provided with an estimate of anticipated field results. Real world target are significantly different than laboratory targets and the illumination is quite different. This course describes the most common laboratory test techniques. Equally important is identifying those parameters that adversely affect results. Believable test results depend upon specifications that are testable, unambiguous, and provide a true measure of performance.

This course will enable you to:

• write concise test procedures with unambiguous system specifications
• identify all appropriate test parameters
• differentiate between observer variability and system response during MRC and MRT testing
• describe the difference between the CTF and the MTF
• discern the difference between poor system performance, peculiarities of the system under test, and measurement errors
• assess how sampling affects test results
• appreciate the benefits and shortcomings of fully automated testing
• identify parameters that can lead to poor results
• compare the differences between laboratory and field testing

Gerald Holst is an independent consultant for imaging system analysis and testing. He was a technical liaison to NATO, research scientist for DoD, and a member of the Lockheed-Martin senior technical staff. Dr. Holst has chaired the SPIE conference Infrared Imaging Systems: Design, Analysis, Modeling and Testing since 1989. He is author of over 30 journal articles and 6 books (published by SPIE and/or JCD Publishing). Dr. Holst is a member of OSA, a SPIE Fellow, and a thesis advisor at UCF.

• $492 Student Member
• $840 Member
• $980 Non-Member