Triangle orientation discrimination (TOD) is an observer task useful for characterizing the practical performance of electro-optical imaging systems. We generated simulated imagery of TOD targets viewed at various ranges through a High Definition Long-wave (HDLW) imaging system. The simulated imagery was presented to human subjects in a TOD experiment, and the probability of identification (PID) was determined as a function of range. We present the PID curves and show that TOD is suitable for field testing of ID range
The minimum resolvable temperature difference (MRTD), the minimum resolvable contrast (MRC), and the...
End-to-end Electro-Optical system performance tests such as TOD, MRTD and MTDP require the effort of...
Night vision equipment is crucial in order to accomplish supremacy and safety of the troops on the b...
We propose a simple and powerful method to assess the quality of imaging systems with a human-in-the...
The current standard to characterize Electro-Optical system performance is the MRTD (Minimum Resolva...
The objective characterization of electro-optical sensors and that of image enhancement techniques h...
The Triangle Orientation Discrimination (TOD) test method was applied to characterize thermal and vi...
The Triangle Orientation Discrimination (TOD) methodology includes i) a widely applicable, accurate ...
The Triangle Orientation Discrimination (TOD) threshold is an alternative method to characterize ele...
How far the eye reaches via camera is quantifiable and modeled with the TOD (triangle orientation di...
The standard way to characterize sensor performance is by means of the Minimum Resolvable Temperatur...
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 performance of a super-resolution (SR) reconstruction method on real-world data is not easy to m...
Identification and recognition performance for four staring and two scanning thermal imagers, were m...
The minimum resolvable temperature difference (MRTD), the minimum resolvable contrast (MRC), and the...
End-to-end Electro-Optical system performance tests such as TOD, MRTD and MTDP require the effort of...
Night vision equipment is crucial in order to accomplish supremacy and safety of the troops on the b...
We propose a simple and powerful method to assess the quality of imaging systems with a human-in-the...
The current standard to characterize Electro-Optical system performance is the MRTD (Minimum Resolva...
The objective characterization of electro-optical sensors and that of image enhancement techniques h...
The Triangle Orientation Discrimination (TOD) test method was applied to characterize thermal and vi...
The Triangle Orientation Discrimination (TOD) methodology includes i) a widely applicable, accurate ...
The Triangle Orientation Discrimination (TOD) threshold is an alternative method to characterize ele...
How far the eye reaches via camera is quantifiable and modeled with the TOD (triangle orientation di...
The standard way to characterize sensor performance is by means of the Minimum Resolvable Temperatur...
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 performance of a super-resolution (SR) reconstruction method on real-world data is not easy to m...
Identification and recognition performance for four staring and two scanning thermal imagers, were m...
The minimum resolvable temperature difference (MRTD), the minimum resolvable contrast (MRC), and the...
End-to-end Electro-Optical system performance tests such as TOD, MRTD and MTDP require the effort of...
Night vision equipment is crucial in order to accomplish supremacy and safety of the troops on the b...