The Triangle Orientation Discrimination (TOD) methodology includes i) a widely applicable, accurate end-to-end EO/IR sensor test, ii) an image-based sensor system model and iii) a Target Acquisition (TA) range model. The method has been extensively validated against TA field performance for a wide variety of well- and under-sampled imagers, systems with advanced image processing techniques such as dynamic super resolution and local adaptive contrast enhancement, and sensors showing smear or noise drift, for both static and dynamic test stimuli and as a function of target contrast. Recently, significant progress has been made in various directions. Dedicated visual and NIR test charts for lab and field testing are available and thermal test ...
End-to-end Electro-Optical system performance tests such as TOD, MRTD and MTDP require the effort of...
The minimum resolvable temperature difference (MRTD), the minimum resolvable contrast (MRC), and the...
Currently, three major approaches exist to predict Target Acquisition (TA) performance with thermal ...
The Electro-Optical Signal Transmission and Ranging (EOSTAR) model is an image-based Tactical Decisi...
The TTP (Targeting Task Performance) metric, developed at NVESD, is the current standard US Army mod...
The Triangle Orientation Discrimination (TOD) test method was applied to characterize thermal and vi...
Identification and recognition performance for four staring and two scanning thermal imagers, were m...
Triangle orientation discrimination (TOD) is an observer task useful for characterizing the practica...
The objective characterization of electro-optical sensors and that of image enhancement techniques h...
The current standard to characterize Electro-Optical system performance is the MRTD (Minimum Resolva...
How far the eye reaches via camera is quantifiable and modeled with the TOD (triangle orientation di...
We propose a simple and powerful method to assess the quality of imaging systems with a human-in-the...
Detector sampling and optical blur are two major factors affecting Target Acquisition (TA) performan...
The Triangle Orientation Discrimination (TOD) threshold is an alternative method to characterize ele...
The standard way to characterize sensor performance is by means of the Minimum Resolvable Temperatur...
End-to-end Electro-Optical system performance tests such as TOD, MRTD and MTDP require the effort of...
The minimum resolvable temperature difference (MRTD), the minimum resolvable contrast (MRC), and the...
Currently, three major approaches exist to predict Target Acquisition (TA) performance with thermal ...
The Electro-Optical Signal Transmission and Ranging (EOSTAR) model is an image-based Tactical Decisi...
The TTP (Targeting Task Performance) metric, developed at NVESD, is the current standard US Army mod...
The Triangle Orientation Discrimination (TOD) test method was applied to characterize thermal and vi...
Identification and recognition performance for four staring and two scanning thermal imagers, were m...
Triangle orientation discrimination (TOD) is an observer task useful for characterizing the practica...
The objective characterization of electro-optical sensors and that of image enhancement techniques h...
The current standard to characterize Electro-Optical system performance is the MRTD (Minimum Resolva...
How far the eye reaches via camera is quantifiable and modeled with the TOD (triangle orientation di...
We propose a simple and powerful method to assess the quality of imaging systems with a human-in-the...
Detector sampling and optical blur are two major factors affecting Target Acquisition (TA) performan...
The Triangle Orientation Discrimination (TOD) threshold is an alternative method to characterize ele...
The standard way to characterize sensor performance is by means of the Minimum Resolvable Temperatur...
End-to-end Electro-Optical system performance tests such as TOD, MRTD and MTDP require the effort of...
The minimum resolvable temperature difference (MRTD), the minimum resolvable contrast (MRC), and the...
Currently, three major approaches exist to predict Target Acquisition (TA) performance with thermal ...