Maik Fox scite author profile

Maik Fox

5Publications

13Citation Statements Received

29Citation Statements Given

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Affiliations

Karlsruhe Institute of Technology

Publications

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Large aperture at low cost three-dimensional time-of-flight range sensor using scanning micromirrors and synchronous detector switching

Bogatscher

Streck²,

Fox³

et al. 2014

Appl. Opt.

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In this article the problem of achieving fast scanning of a time-of-flight range sensor with a large optical receiver aperture at low system cost is targeted. The presented approach to solve this problem consists of a micromirror-based transmitter unit and a receiver unit consisting of a large aperture lens system with a small field of view and a detector array. A concept, which is called synchronous detector switching, is applied to the detector array. Thereby electronic steering of the small receiver field of view is possible. The overall approach is compared to alternative approaches, and the underlying concept of synchronous detector switching is demonstrated experimentally in an implementation of a three-dimensional time-of-flight range sensor. It is theoretically shown that the presented concept is potentially cheaper than the alternative approaches for applications with a field of view of less than 60×60°. After a discussion of the strengths and limitations of the approach, its effect on broader scientific issues is outlined.

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Influence of laser coherence on reference-matched laser Doppler velocimetry

2016

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The probe length is investigated under the influence of the coherence length of Gaussian and Lorentzian spectra for the case that the focal point and the point of highest interference are matched in a strongly focused laser Doppler velocimetry setup (LDV). Isosurfaces of a -3 dB drop of the intensity maximum are estimated and suggested as an alternative, comprehensible way to define probe volumes. In the end, the equations are applied for an exemplary lidar setup to show the reduction of requirements for the coherence length of the laser source in comparison to unmatched cases.

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Parameterization of a geometrical reaction time model for two beam nacelle lidars

Beuth

Fox

Stork

2015

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Optical system design and experimental evaluation of a coherent Doppler wind Lidar system for the predictive control of wind turbine

Shinohara

Tauscher

Beuth

et al. 2014

OPT REV

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Horizontal geometrical reaction time model for two-beam nacelle LiDARs

Beuth

Fox

Stork

2015

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Maik Fox

Large aperture at low cost three-dimensional time-of-flight range sensor using scanning micromirrors and synchronous detector switching

Influence of laser coherence on reference-matched laser Doppler velocimetry

Parameterization of a geometrical reaction time model for two beam nacelle lidars

Optical system design and experimental evaluation of a coherent Doppler wind Lidar system for the predictive control of wind turbine

Horizontal geometrical reaction time model for two-beam nacelle LiDARs

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