Alfred Schultz scite author profile

Several species of animals use whiskers to accurately navigate and explore objects in the absence of vision. We have developed inexpensive arrays of artificial whiskers based on strain-gage and Flex Sensor technologies that can be used either in passive ("dragging") mode, or in active ("whisking") mode. In the present work we explore the range of functions that whisker arrays can serve on a rover. We demonstrate that when mounted on a rover, whisker arrays can (1) Detect obstacles and determine obstacle distance (2) Map terrain features (3) Determine ground and surface texture (4) Provide an estimate of rover speed (5) Identify "slip" of the rover wheels, and (6) Perform 3-dimensional extraction of object shape. We discuss the potential use of whisker arrays on planetary rovers and as an investigative tool for exploring the encoding of sensory information in the nervous system of animals.

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Neural networks in agroecological modelling — stylish application or helpful tool?

Schultz

Wieland

Lutze

2000

Computers and Electronics in Agriculture

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The use of neural networks in agroecological modelling

Schultz

Wieland

1997

Computers and Electronics in Agriculture

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Dynamic phenological model for winter rye and winter barley

Mirschel

Wenkel

Schultz

et al. 2005

European Journal of Agronomy

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Alfred Schultz

Indicators for multifunctional land use—Linking socio-economic requirements with landscape potentials

Multifunctional Whisker Arrays for Distance Detection, Terrain Mapping, and Object Feature Extraction

Neural networks in agroecological modelling — stylish application or helpful tool?

The use of neural networks in agroecological modelling

Dynamic phenological model for winter rye and winter barley

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