TY - GEN
T1 - MIMO radar setups by nesting braced minimum redundancy arrays
AU - Kirschner, Andreas
AU - Guetlein, Johanna
AU - Detlefsen, Juergen
N1 - Publisher Copyright:
© VDE VERLAG GMBH · Berlin · Offenbach, Germany
PY - 2019
Y1 - 2019
N2 - This paper covers coherent MIMO radar with co-located antennas distributed according to minimum redundancy principles. The fundament of the first are virtual arrays which can be considered as a discrete convolution of local transmitter and receiver distributions. Now this technique shall be combined with sparse array principles considering minimum redundancy (MR) aspects. Optimal results for so-called restricted MR arrays, found by brute-force search algorithms had already been presented. However, those are usually not suited for aperture antennas since the smallest element spacing is around half or quarter of the wavelength. This paper shall not only present an analysis of the effects relevant for design of general MR arrays, but also shows results for braced and nested arrays. This leads to MR-MIMO arrays with a smallest element spacing which is larger than a wavelength, giving a higher degree of freedom in choice of antenna type. Measurement results for a radar sensor operating in lower W-band and equipped with the afore-mentioned array type, demonstrate high angular resolution with suppression of grating lobes at the same time.
AB - This paper covers coherent MIMO radar with co-located antennas distributed according to minimum redundancy principles. The fundament of the first are virtual arrays which can be considered as a discrete convolution of local transmitter and receiver distributions. Now this technique shall be combined with sparse array principles considering minimum redundancy (MR) aspects. Optimal results for so-called restricted MR arrays, found by brute-force search algorithms had already been presented. However, those are usually not suited for aperture antennas since the smallest element spacing is around half or quarter of the wavelength. This paper shall not only present an analysis of the effects relevant for design of general MR arrays, but also shows results for braced and nested arrays. This leads to MR-MIMO arrays with a smallest element spacing which is larger than a wavelength, giving a higher degree of freedom in choice of antenna type. Measurement results for a radar sensor operating in lower W-band and equipped with the afore-mentioned array type, demonstrate high angular resolution with suppression of grating lobes at the same time.
UR - http://www.scopus.com/inward/record.url?scp=85084015585&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85084015585
T3 - 8th German Microwave Conference, GeMiC 2014
BT - 8th German Microwave Conference, GeMiC 2014
PB - VDE VERLAG GMBH
T2 - 8th German Microwave Conference, GeMiC 2014
Y2 - 10 March 2014 through 12 March 2014
ER -