Aaron Thompson
2021
Estimating wind slab thickness in a Tundra snowpack using Ku-band scatterometer observations
Aaron Thompson,
Richard Kelly
Remote Sensing Letters, Volume 12, Issue 11
Estimating snow water equivalent (SWE) in the northern high latitudesis important from climate, ecological and human perspectives since it enables us to track changes in spatiotemporal distribution...
Considerations for Ku-Band Radar Retrieval of Snow Water Equivalent at Mid-Latitude Ontario Agricultural Sites
Aaron Thompson,
Richard Kelly
Canadian Journal of Remote Sensing, Volume 47, Issue 1
Mid-latitude snow is understudied compared to snow in the northern high latitudes despite its importance as a source of freshwater to this economically significant region. The mid-latitudes provide...
2020
Application of GNSS Interferometric Reflectometry for the Estimation of Lake Ice Thickness
Yusof Ghiasi,
Claude R. Duguay,
Justin Murfitt,
J.J. van der Sanden,
Aaron Thompson,
H. Drouin,
C Prévost
Remote Sensing, Volume 12, Issue 17
Lake ice thickness is a sensitive indicator of climate change largely through its dependency on near-surface air temperature and on-ice snow mass (depth and density). Monitoring of the seasonal variations and trends in ice thickness is also important for the operation of winter ice roads that northern communities rely on for the movement of goods as well as for cultural and leisure activities (e.g., snowmobiling). Therefore, consistent measurements of ice thickness over lakes is important; however, field measurements tend to be sparse in both space and time in many northern countries. Here, we present an application of L-band frequency Global Navigation Satellite System (GNSS) Interferometric Reflectometry (GNSS-IR) for the estimation of lake ice thickness. The proof of concept is demonstrated through the analysis of Signal-to-Noise Ratio (SNR) time series extracted from Global Positioning System (GPS) constellation L1 band raw data acquired between 8 and 22 March (2017 and 2019) at 14 lake ice sites located in the Northwest Territories, Canada. Dominant frequencies are extracted using Least Squares Harmonic Estimation (LS-HE) for the retrieval of ice thickness. Estimates compare favorably with in-situ measurements (mean absolute error = 0.05 m, mean bias error = −0.01 m, and root mean square error = 0.07 m). These results point to the potential of GPS/GNSS-IR as a complementary tool to traditional field measurements for obtaining consistent ice thickness estimates at many lake locations, given the relatively low cost of GNSS antennas/receivers.
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Co-authors
- Richard Kelly 2
- Yusof Ghiasi 1
- Claude R. Duguay 1
- Justin Murfitt 1
- J.J. van der Sanden 1
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