TY - JOUR
T1 - Autonomous detection of cryospheric change with hyperion on-board Earth Observing-1
AU - Doggett, T.
AU - Greeley, R.
AU - Chien, S.
AU - Castano, R.
AU - Cichy, B.
AU - Davies, A. G.
AU - Rabideau, G.
AU - Sherwood, R.
AU - Tran, D.
AU - Baker, V.
AU - Dohm, J.
AU - Ip, F.
N1 - Funding Information:
This study was supported by a contract from the Jet Propulsion Laboratory to Arizona State University. We gratefully acknowledge the technical support of Michael Bentley and Susan Selkirk, the role of the EO-1 team at NASA's Goddard Space Flight Center in getting ASE “flying”, and our collaboration with the University of Wisconsin's Center for Limnology, in particular Ted Cummings, David Balsiger and Tim Kratz.
PY - 2006/4/30
Y1 - 2006/4/30
N2 - On-board detection of cryospheric change in sea ice, lake ice, and snow cover is being conducted as part of the Autonomous Sciencecraft Experiment (ASE), using classifiers developed for the Hyperion hyper-spectral visible/infrared spectrometer on-board the Earth Observing-1 (EO-1) spacecraft. This classifier development was done with consideration for the novel limitations of on-board processing, data calibration, spacecraft targeting error and the spectral range of the instrument. During on-board tests, these algorithms were used to measure the extent of cloud, snow, and ice cover at a global suite of targets. Coupled with baseline imaging, uploaded thresholds were used to detect cryospheric changes such as the freeze and thaw of lake ice and the formation and break-up of sea ice. These thresholds were used to autonomously trigger follow-up observations, demonstrating the capability of the technique for future planetary missions where downlink is a constrained resource and there is high interest in data covering dynamic events, including cryospheric change. Before upload classifier performance was assessed with an overall accuracy of 83.3% as measured against manual labeling of 134 scenes. Performance was further assessed against field mapping conducted at Lake Mendota, Wisconsin as well as with labeling of scenes that were classified during on-board tests.
AB - On-board detection of cryospheric change in sea ice, lake ice, and snow cover is being conducted as part of the Autonomous Sciencecraft Experiment (ASE), using classifiers developed for the Hyperion hyper-spectral visible/infrared spectrometer on-board the Earth Observing-1 (EO-1) spacecraft. This classifier development was done with consideration for the novel limitations of on-board processing, data calibration, spacecraft targeting error and the spectral range of the instrument. During on-board tests, these algorithms were used to measure the extent of cloud, snow, and ice cover at a global suite of targets. Coupled with baseline imaging, uploaded thresholds were used to detect cryospheric changes such as the freeze and thaw of lake ice and the formation and break-up of sea ice. These thresholds were used to autonomously trigger follow-up observations, demonstrating the capability of the technique for future planetary missions where downlink is a constrained resource and there is high interest in data covering dynamic events, including cryospheric change. Before upload classifier performance was assessed with an overall accuracy of 83.3% as measured against manual labeling of 134 scenes. Performance was further assessed against field mapping conducted at Lake Mendota, Wisconsin as well as with labeling of scenes that were classified during on-board tests.
KW - Autonomy
KW - Cryosphere
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U2 - 10.1016/j.rse.2005.11.014
DO - 10.1016/j.rse.2005.11.014
M3 - Article
AN - SCOPUS:33646004868
SN - 0034-4257
VL - 101
SP - 447
EP - 462
JO - Remote Sensing of Environment
JF - Remote Sensing of Environment
IS - 4
ER -