Add to ORKGIn this paper, we report, to the best of our knowledge [1], the most sensitive artificial hair-based flow-sensor arrays operating in air, to date. Artificial hair sensors are bio-inspired from crickets’ cerci, one of nature’s best in sensing small air flows. The presented hair sensor arrays aim to realize higher sensitivity by means of model-based design optimizations and fabricated with advanced MEMS technologies. The presented artificial hair-sensor arrays display a clear figure-of-eight response and show remarkable sensitivities to oscillating air flows down to 0.85 mm/s that surpass noise levels even at 1 kHz operational bandwidths
The filliform hairs of crickets are among the most sensitive flow sensing elements in nature. The hi...
In biology, mechanosensors, equipped with differing hair-like structures for signal pick-up, are sen...
Arrays of MEMS fabricated flow sensors inspired by the acoustic flow-sensitive hairs found on the ce...
In this paper, we report, to the best of our knowledge, the most sensitive artificial hair-based flo...
Artificial hair sensor arrays are bio-inspired from flow-sensitive filiform hairs of the crickets, o...
In this work, we report on the successful implementation of highly sensitive artificial hair-based f...
Biologically inspired sensor-designs are investigated as a possible path to surpass the performance ...
We have successfully developed biomimetic flowsensitive hair-sensor arrays taking inspiration from m...
Nature offers human being elegant solutions for various engineering problems. Mimicking principles a...
Crickets have, quite often, been a subject of common interest to biologists and engineers. They have...
Micro Electro Mechanical Systems (MEMS) offer exciting possibilities for the fabrication of bioinsp...
International audienceMicro electro mechanical system (MEMS) offers exciting possibilities for the f...
Crickets use a pair of hairy appendages on their abdomen called cerci, each of which contains numero...
In this paper we report on the latest developments in characterising and interfacing biomimetic flow...
This contribution reports on the major developments and achievements in our group on fabricating hig...
The filliform hairs of crickets are among the most sensitive flow sensing elements in nature. The hi...
In biology, mechanosensors, equipped with differing hair-like structures for signal pick-up, are sen...
Arrays of MEMS fabricated flow sensors inspired by the acoustic flow-sensitive hairs found on the ce...
In this paper, we report, to the best of our knowledge, the most sensitive artificial hair-based flo...
Artificial hair sensor arrays are bio-inspired from flow-sensitive filiform hairs of the crickets, o...
In this work, we report on the successful implementation of highly sensitive artificial hair-based f...
Biologically inspired sensor-designs are investigated as a possible path to surpass the performance ...
We have successfully developed biomimetic flowsensitive hair-sensor arrays taking inspiration from m...
Nature offers human being elegant solutions for various engineering problems. Mimicking principles a...
Crickets have, quite often, been a subject of common interest to biologists and engineers. They have...
Micro Electro Mechanical Systems (MEMS) offer exciting possibilities for the fabrication of bioinsp...
International audienceMicro electro mechanical system (MEMS) offers exciting possibilities for the f...
Crickets use a pair of hairy appendages on their abdomen called cerci, each of which contains numero...
In this paper we report on the latest developments in characterising and interfacing biomimetic flow...
This contribution reports on the major developments and achievements in our group on fabricating hig...
The filliform hairs of crickets are among the most sensitive flow sensing elements in nature. The hi...
In biology, mechanosensors, equipped with differing hair-like structures for signal pick-up, are sen...
Arrays of MEMS fabricated flow sensors inspired by the acoustic flow-sensitive hairs found on the ce...