http://reply.papertrans.cn/19/1864/186348/186348_31.png
http://reply.papertrans.cn/19/1864/186348/186348_32.png
Schiffbautechnische Gesellschaft
ems (MEMS). To support understanding, an overview of the principles of human hearing is presented first. After the review of bio-inspired sensing systems, we continue with an outline of an adaptable acoustic MEMS-based sensor that offers adaptable sensing properties due to a simple, real-time feedba
Schiffbautechnische Gesellschaftpeed) and accuracy is essential for a creature to react to environmental stimuli and most importantly, relevant for survival. In-depth studies of coherent motion tasks in primates, based on two-choice decision experiments, led to a profound understanding of neuronal information processing and even b
https://doi.org/10.1007/978-3-642-92032-5ine and material science. Information processing in neuronal circuitry of biological models may offer guidelines for future highly efficient computing systems exhibiting, as for example, low power consumption accompanied by excellent pattern recognition capabilities. Here, we consider the visual inf
Schiffbautechnische Gesellschaftto this trade-off and high similarity to neuron behaviour models, relaxation-type oscillator circuits often yield a good compromise to emulate neurons. In this chapter, two exemplified relaxation-type silicon neurons are presented that emulate neural behaviour with energy consumption under the scale
http://reply.papertrans.cn/19/1864/186348/186348_37.png
Vereinfachte Bauweise eiserner Schiffe non-volatile memory devices, has given this field a significant boost in the last decade. However, most of today‘s efforts are aimed at the hardware implementation of artificial intelligence computational methods, while the emulation of biological computational methods is less pursued. In the latte
http://reply.papertrans.cn/19/1864/186348/186348_39.png
http://reply.papertrans.cn/19/1864/186348/186348_40.png