By GARY JEDLOVEC
Distant sensing is the purchase of knowledge of an item or phenomenon, via both recording or real-time sensing device(s), that isn't in actual or intimate touch with the item (such as when it comes to plane, spacecraft, satellite tv for pc, buoy, or ship). In perform, distant sensing is the stand-off assortment by utilizing numerous units for amassing info on a given item or zone. Human lifestyles relies on our skill to appreciate, make the most of, deal with and preserve the surroundings we are living in - Geoscience is the technology that seeks to accomplish those targets. This booklet is a set of contributions from world-class scientists, engineers and educators engaged within the fields of geoscience and distant sensing.
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Extra info for Advances in Geoscience and Remote Sensing
Norwegian remote sensing experiment: evaluation of the Nimbus 7 scanning multichannel microwave radiometer for sea ice research, J. Geophys. C5, pp. 2781-2792. ; Nihashi, S. & Hirasawa, N. (2007). Estimation of thin ice thickness and detection of fast ice from SSM/I data in the Antarctic Ocean, J. Atmos. Ocean. , Vol. 1757-1772. I. & Nihashi, S. (2008). Mapping of sea ice production for Antarctic coastal polynyas, Geophys. Res. 1029/ 2007GL032903. ; Toyota, T. & Uto, S. (2002). Sea ice thickness estimated from passive microwave radiometers, Polar Meteorology and Glaciology, Vol.
4501-4513. ; Shimoda, H. & Wakatsuchi, M. (2004). Thickness distribution, texture and stratigraphy, and a simple probabilistic model for dynamical thickening of sea ice in the southern Sea of Okhotsk, J. Geophys. 1029/2003JC002090. ; Naoki, K. I. (2007). Properties of sea ice and overlying snow in the southern Sea of Okhotsk, J. 3, pp. 393-411. I. & Ebuchi, N. (2009). Retrieval of sea ice thickness distribution in the seasonal ice zone from airborne L-band SAR, Int. J. , Vol. 30, No. 12, pp. 3171-3189.
I. & Ebuchi, N. (2009). Retrieval of sea ice thickness distribution in the seasonal ice zone from airborne L-band SAR, Int. J. , Vol. 30, No. 12, pp. 3171-3189. M. M. (1981). Measurement of the microwave properties of sea ice at 90 GHz and lower frequencies, J. Geophys. , Vol. C5, pp. 4283-4289. B. W. T. D. L. (2001). Evidence for rapid thinning of sea ice in the weatern Arctic Ocean at the end of the 1980s, Geophys. Res. 14, pp. 2851-2854. ; Shimoda, H. & Ushio, S. (2006a). Characteristics of sea-ice thickness and snow-depth distributions of the summer landfast ice in Lützow-Holm Bay, East Antarctica, Ann.