Add to ORKGpeer-reviewedAn inexpensive fiber-based noncontact distance sensor specific for monitoring short-range displacements in micromachining applications is presented. To keep the overall costs low, the sensor uses plastic optical fibers and an intensiometric approach based on the received light intensity after the reflection from the target whose displacement has to be measured. A suitable target reflectivity compensation technique is implemented to mitigate the effects due to target surface nonuniformity or ageing.The performances of the sensor are first evaluated for different fiber configurations and target reflectivity profiles and positions using a numerical method based on Monte Carlo simulations. Then, experimental validations on a c...
This paper discusses the evaluation of displacements and accelerations from noncontact displacement ...
An inexpensive fiber-based displacement sensor for two-dimensional crack monitoring is proposed and ...
In this paper, we propose and demonstrate a simple yet accurate optical fiber based sensor capable o...
An inexpensive fiber-based noncontact distance sensor specific for monitoring short-range displaceme...
This paper presents a non-contact and low-cost distance sensor aimed at applications where displacem...
The article presents the state-of-the-art realization of a low-cost, non-contact displacement sensor...
A simple fiber optic displacement sensor is presented using a in multimode plastic bundled fiber and...
We present a non-contact low-cost displacement sensor based on plastic optical fiber (POF), designed...
The paper describes the use of a dual-wavelength technique for compensating power fluctuations in in...
The paper analyzes the performance of a dual-wavelength technique devised to compensate power fluctu...
In this paper, a low-cost fiber optic displacement sensor (FODS) using a bundle of plastic optical f...
A simple plastic optical fiber displacement sensor has been demonstrated as a non-contact color dete...
This paper describes an intensity based optical sensor for the evaluation of accelerations from non-...
Purpose-The purpose of this paper is to demonstrate a simple design of a fiber optic displacement se...
This dissertation proposes and demonstrates fiber-optic displacement sensor (FODS) theoretically and...
This paper discusses the evaluation of displacements and accelerations from noncontact displacement ...
An inexpensive fiber-based displacement sensor for two-dimensional crack monitoring is proposed and ...
In this paper, we propose and demonstrate a simple yet accurate optical fiber based sensor capable o...
An inexpensive fiber-based noncontact distance sensor specific for monitoring short-range displaceme...
This paper presents a non-contact and low-cost distance sensor aimed at applications where displacem...
The article presents the state-of-the-art realization of a low-cost, non-contact displacement sensor...
A simple fiber optic displacement sensor is presented using a in multimode plastic bundled fiber and...
We present a non-contact low-cost displacement sensor based on plastic optical fiber (POF), designed...
The paper describes the use of a dual-wavelength technique for compensating power fluctuations in in...
The paper analyzes the performance of a dual-wavelength technique devised to compensate power fluctu...
In this paper, a low-cost fiber optic displacement sensor (FODS) using a bundle of plastic optical f...
A simple plastic optical fiber displacement sensor has been demonstrated as a non-contact color dete...
This paper describes an intensity based optical sensor for the evaluation of accelerations from non-...
Purpose-The purpose of this paper is to demonstrate a simple design of a fiber optic displacement se...
This dissertation proposes and demonstrates fiber-optic displacement sensor (FODS) theoretically and...
This paper discusses the evaluation of displacements and accelerations from noncontact displacement ...
An inexpensive fiber-based displacement sensor for two-dimensional crack monitoring is proposed and ...
In this paper, we propose and demonstrate a simple yet accurate optical fiber based sensor capable o...