Rune Gundersen
Norwegian University of Life Sciences
8 Papers
45 Citations
Rune Gundersen is an academic researcher from Norwegian University of Life Sciences. The author has contributed to research in topics: Radar & Continuous-wave radar. The author has an hindex of 3, co-authored 8 publications.
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Papers
Hovering helicopter measured by bi-/multistatic CW radar
Terje Johnsen,Karl Erik Olsen,Rune Gundersen +2 more
- 05 May 2003
TL;DR: In this paper, the use of bi-/multistatic radar to detect and extract parameters for classification of a hovering helicopter has been studied, including rotor tip velocity, number of blades of main and tail rotor and direction of Doppler shift.
22
Results from an experimental continuous wave low probability of intercept bistatic radar - the first steps toward multistatic radar
Karl Erik Olsen,T. Johnsen,S. Johnsrud,Rune Gundersen,H. Bjordal,I. Tansem,P. Sornes +6 more
- 03 Sep 2003
TL;DR: The Norwegian Defence Research Establishment (FFI) has developed an experimental continuous wave (CW) low probability of intercept (LPI) bistatic radar that has been used to detect different targets in various trials.
14
Ground-Based Differential Interferometric Radar Monitoring of Unstable Mountain Blocks in a Coastal Environment
TL;DR: The results show that radar measurements are as accurate as data from in situ instruments like extensometers and crack meters, making it possible to monitor inaccessible areas, and by using differential interferometry, a significant part of the variation caused by radio refractivity variations is removed.
Geometric, Environmental and Hardware Error Sources of a Ground-Based Interferometric Real-Aperture FMCW Radar System
TL;DR: The results show that with careful design and analysis of radar parameters and radar system geometry the measurement accuracy of a GB-InRAR system without the use of deployed corner reflectors is comparable to the accuracy of differential interferometric measurements.
Monitoring glacier flow in Ny-Ålesund with a high temporal resolution ground-based interferometric-phased array radar
TL;DR: In this paper, the authors explore the possibilities of permanent monitoring of glaciers in the Ny-Alesund area using a ground-based interferometric radar with a significantly higher temporal resolution than what is achievable from satellites or mechanical scanning groundbased radars.