Add to ORKGIn the area of biomimetics, engineers use inspiration from natural systems to develop technical devices, such as sensors. One example is the lateral line system of fish. It is a mechanoreceptive system consisting of up to several thousand individual sensors called neuromasts, which enable fish to sense prey, predators, or conspecifics. So far, the small size and high sensitivity of the lateral line is unmatched by man-made sensor devices. Here, we describe an artificial lateral line system based on an optical detection principle. We developed artificial canal neuromasts using MEMS technology including thick film techniques. In this work, we describe the MEMS fabrication and characterize a sensor prototype. Our sensor consists of a silicon c...
The report consists of the author’s work in developing an array of piezoelectric MEMS pressure senso...
We present the design, fabrication and testing of a novel all-optical 2D flow velocity sensor, inspi...
Blind cavefishes are known to detect objects through hydrodynamic vision enabled by arrays of biolog...
In the area of biomimetics, engineers use inspiration from natural systems to develop technical devi...
Fish sense water motions with their lateral line. The lateral line is a sensory system that contains...
Evolution bestowed the blind cavefish with a resourcefully designed lateral-line of sensors that pla...
Biological sensory systems often display great performance, inspiring engineers to develop artificia...
In fish the lateral line is a sensory organ used to perceive water movement in the surrounding envir...
Using biological sensors, aquatic animals like fishes are capable of performing impressive behaviour...
This thesis describes the attempt to design and fabricate flow sensors based on the function of sens...
Neuromast sensors found in fishes detect flows around their body and are known to generate hydrodyna...
Flow sensors inspired from lateral line neuromasts of cavefish have been widely investigated over de...
Flow sensors inspired from lateral line neuromasts of cavefish have been widely investigat...
The paper reports the development of biomimetic haircell sensors inspired by the neuromast sensors p...
Chapter 3 presents a comprehensive review of the various biomimetic self-powered and low-powered MEM...
The report consists of the author’s work in developing an array of piezoelectric MEMS pressure senso...
We present the design, fabrication and testing of a novel all-optical 2D flow velocity sensor, inspi...
Blind cavefishes are known to detect objects through hydrodynamic vision enabled by arrays of biolog...
In the area of biomimetics, engineers use inspiration from natural systems to develop technical devi...
Fish sense water motions with their lateral line. The lateral line is a sensory system that contains...
Evolution bestowed the blind cavefish with a resourcefully designed lateral-line of sensors that pla...
Biological sensory systems often display great performance, inspiring engineers to develop artificia...
In fish the lateral line is a sensory organ used to perceive water movement in the surrounding envir...
Using biological sensors, aquatic animals like fishes are capable of performing impressive behaviour...
This thesis describes the attempt to design and fabricate flow sensors based on the function of sens...
Neuromast sensors found in fishes detect flows around their body and are known to generate hydrodyna...
Flow sensors inspired from lateral line neuromasts of cavefish have been widely investigated over de...
Flow sensors inspired from lateral line neuromasts of cavefish have been widely investigat...
The paper reports the development of biomimetic haircell sensors inspired by the neuromast sensors p...
Chapter 3 presents a comprehensive review of the various biomimetic self-powered and low-powered MEM...
The report consists of the author’s work in developing an array of piezoelectric MEMS pressure senso...
We present the design, fabrication and testing of a novel all-optical 2D flow velocity sensor, inspi...
Blind cavefishes are known to detect objects through hydrodynamic vision enabled by arrays of biolog...
