This paper proposes that automotive radar technology could be used to detect low friction spots due to water or ice on asphalt. The backscattering properties of dry, wet and icy asphalt are experimentally studied in laboratory conditions at two automotive radar bands at 24 GHz and at 77 GHz. Both water and ice are found to change the backscattering properties of asphalt. The experimental results suggest that water could be detected using dual-polarised 24 GHz radar. Both water and ice could be detected using dual-polarised 24 GHz radar and 77 GHz radar
Passive radiometers are well-known instruments used in the characterization of soil, sea surfaces an...
By its invention at the turn of this century, the automobile has had a revolutionary impact on human...
Modern automotive radar operates at the mm-wave frequency band and has to provide reliable sensing i...
This paper proposes that automotive radar technology could be used to detect low friction spots due ...
This paper proposes that automotive radar technology could be used to detect low friction spots due ...
This paper proposes that automotive radar technology could be used to detect low friction spots due ...
This paper studies 24-GHz automotive radar technology for detecting low-friction spots caused by wat...
This paper studies 24-GHz automotive radar technology for detecting low-friction spots caused by wat...
Traffic safety can be improved by detecting the road surface condition using automotive radar. This ...
Traffic safety can be improved by detecting the road surface condition using automotive radar. This ...
This paper presents experimental results on detecting low friction spots due to snow, ice or water o...
This paper presents experimental results on detecting low friction spots due to snow, ice or water o...
Automotive radar technology for detecting low-friction spots caused by water, ice or snow on asphalt...
Automotive radar technology for detecting low-friction spots caused by water, ice or snow on asphalt...
A frozen or wet road surface is a cause of skidding and accidents, so road surface condition is impo...
Passive radiometers are well-known instruments used in the characterization of soil, sea surfaces an...
By its invention at the turn of this century, the automobile has had a revolutionary impact on human...
Modern automotive radar operates at the mm-wave frequency band and has to provide reliable sensing i...
This paper proposes that automotive radar technology could be used to detect low friction spots due ...
This paper proposes that automotive radar technology could be used to detect low friction spots due ...
This paper proposes that automotive radar technology could be used to detect low friction spots due ...
This paper studies 24-GHz automotive radar technology for detecting low-friction spots caused by wat...
This paper studies 24-GHz automotive radar technology for detecting low-friction spots caused by wat...
Traffic safety can be improved by detecting the road surface condition using automotive radar. This ...
Traffic safety can be improved by detecting the road surface condition using automotive radar. This ...
This paper presents experimental results on detecting low friction spots due to snow, ice or water o...
This paper presents experimental results on detecting low friction spots due to snow, ice or water o...
Automotive radar technology for detecting low-friction spots caused by water, ice or snow on asphalt...
Automotive radar technology for detecting low-friction spots caused by water, ice or snow on asphalt...
A frozen or wet road surface is a cause of skidding and accidents, so road surface condition is impo...
Passive radiometers are well-known instruments used in the characterization of soil, sea surfaces an...
By its invention at the turn of this century, the automobile has had a revolutionary impact on human...
Modern automotive radar operates at the mm-wave frequency band and has to provide reliable sensing i...
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