Author(s): , ,
Institution(s): 1. Oceanit Laboratories, Inc., 2. University of Hawaii
We are developing a system to continually and simultaneously monitor infrared atmospheric extinction along all lines of sight. This system combines a next generation radiometrically calibrated thermal all-sky camera, a weather station, and a neural net trained on historic Radiosonde profiles. Oceanit Laboratories, Inc. will market this system as an off the shelf unit. Custom-built thermal all sky cameras have previously been used on Haleakala, Cerro Tololo, and elsewhere. Except for RASICAM on Cerro Tololo, they have not been radiometrically calibrated and have been used only for qualitative cloud monitoring. The new system will have improved sky coverage, resolution, and noise properties with respect to RASICAM, and simulations show it will be able to infer atmospheric transmittance to within a few percent. The all sky camera will combine an equiresolution optical design with an off-the-shelf thermal detector and in field blackbody calibration sources to provide uniform sensitivity and radiometric accuracy across the sky at relatively low cost. Our goal is to make such systems ubiqitous at observatories around the world.