 The experiment successfully validated the radiometric calibration of the Resinon-PiCa2 imaging spectrometer and determined its geo-registration accuracy under operational conditions. The results showed that the hyperspectral system can achieve an overall accuracy of 96.3%, 93.7% and 85.7% for calibration tarps of 56%, 24% and 2.5% reflectivity, respectively. Additionally, the system's planometric accuracy was found to be 4.6 meters when flying at a height of 344 meters above ground level. This demonstrates that the Resinon-PiCa2 hyperspectral system has the potential to provide high-quality data for quantitative scientific analysis. This article was authored by Nancy F. Glenn, Matthew Anderson, Jessica Mitchell, and others.