Searched for: subject%3A%22Moving%255C%2Btarget%255C%2Bindicators%255C%2B%255C%2528MTI%255C%2529%22
(1 - 5 of 5)
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Lidicky, L. (author), Hoogeboom, P. (author), TNO Defensie en Veiligheid (author)
This paper shows how the signal model that is commonly used as a starting point in multi-channel Space Time Adaptive Processing (STAP) for airborne Moving Target Indication (MTI) formally corresponds to a model that can be derived from a bi-static Synthetic Aperture Radar (SAR) model extended for multiple channels. With the help of this...
conference paper 2009
document
Lidicky, L. (author), TNO Defensie en Veiligheid (author), IEEE (author)
The purpose of this paper is to propose a new way to detect victims buried in or under layers of rubble or debris in case of disasters such as earthquakes, fires or terrorist attacks. The method is based on Fourier Processing and Principal Component Analysis (PCA). It utilizes a moving array of sensors arranged in the line of motion. It combines...
conference paper 2008
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Lidický, L. (author), Hoogeboom, P. (author)
This paper presents a multi-channel synthetic aperture radar (SAR) signal model. Its purpose is to study nonstationary raw SAR signals in moving target indication (MTI) systems. This is opposed to the traditional approach in which only stationary (harmonic) signals are considered. The principal difference is that the autocorrelation function of...
conference paper 2006
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Lorga, J.F.M. (author), van Rossum, W.L. (author), van Halsema, D. (author), Chu, Q.P. (author), Mulder, J.A. (author)
In this paper, the authors propose to describe the development process of a navigation system, concerning Syntectic Aperture Radar (SAR) applications, starting from the motivation for the sensor selection and finalizing with the first flight-test results. Sensors selection was one of the first steps in the design. Motivations for the...
conference paper 2004
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van Rossum, W.L. (author), Otten, M.P.G. (author), Smith, A.J.E. (author), Groot, J.S. (author), TNO Fysisch en Elektronisch Laboratorium (author)
The PHARUS system is a fully polarimetric C-band SAR wíth an active phased array anrenna. PHARUS is an experimental system. It is meant for remote sensing research in many application areas, both civil and military, maritime and on land. The system performed its first test flight in 1995. In the following years a large amount of data was...
conference paper 2000
Searched for: subject%3A%22Moving%255C%2Btarget%255C%2Bindicators%255C%2B%255C%2528MTI%255C%2529%22
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