This paper presents a method for optimizing the performance of a real-time, long term, and accurate accelerometer based displacement measurement technique, with no physical reference point. The technique was applied in a system for measuring machine frame displacement. The optimizer has three objectives with the aim to minimize phase delay, gain error and sensor noise. A multi-objective genetic algorithm was used to find Pareto optimal estimator parameters. The estimator is a combination of a high pass filter and a double integrator. In order to reduce the gain and phase errors two approaches have been used: zero placement and pole-zero placement. These approaches were analysed based on noise measurement at 0g-motion and compared. Onl...
This paper investigates two methods of displacement estimation using sampled acceleration and orient...
AbstractThis paper presents a robust displacement sensor with nanometre-scale resolution over a micr...
This paper describes a formal approach to derive displacement from a 3 axis accelerometer. It forms ...
A novel concept for improving machine dynamic performance was developed and realised, a virtual metr...
Small size ultra-precision Computer Numerical Control (CNC) machines require high dynamic performanc...
This paper presents a novel concept, a virtual metrology frame, for enhancing the dynamic performanc...
AbstractThis paper presents a novel concept, a virtual metrology frame, for enhancing the dynamic pe...
Linear displacement has been widely applied in the technology and applications for Industry 4.0. The...
The paper describes a Kalman filtering technique for dynamic displacement estimation using accelerom...
The need for metrological systems with new capacities to perform measurements that go beyond the lim...
This paper presents a robust displacement sensor with nanometre-scale resolution over a micrometre r...
Deterministic error modelling, calibration and model parameter estimation of consumer-grade accelero...
This paper presents the development of semi-autonomous metrological devices, capable of calibrating ...
This paper proposes a robust discrete time Kalman filter (RDKF) for the dynamic compensation of nonl...
A displacement measurement provides useful information for structural health monitoring (SHM) as it ...
This paper investigates two methods of displacement estimation using sampled acceleration and orient...
AbstractThis paper presents a robust displacement sensor with nanometre-scale resolution over a micr...
This paper describes a formal approach to derive displacement from a 3 axis accelerometer. It forms ...
A novel concept for improving machine dynamic performance was developed and realised, a virtual metr...
Small size ultra-precision Computer Numerical Control (CNC) machines require high dynamic performanc...
This paper presents a novel concept, a virtual metrology frame, for enhancing the dynamic performanc...
AbstractThis paper presents a novel concept, a virtual metrology frame, for enhancing the dynamic pe...
Linear displacement has been widely applied in the technology and applications for Industry 4.0. The...
The paper describes a Kalman filtering technique for dynamic displacement estimation using accelerom...
The need for metrological systems with new capacities to perform measurements that go beyond the lim...
This paper presents a robust displacement sensor with nanometre-scale resolution over a micrometre r...
Deterministic error modelling, calibration and model parameter estimation of consumer-grade accelero...
This paper presents the development of semi-autonomous metrological devices, capable of calibrating ...
This paper proposes a robust discrete time Kalman filter (RDKF) for the dynamic compensation of nonl...
A displacement measurement provides useful information for structural health monitoring (SHM) as it ...
This paper investigates two methods of displacement estimation using sampled acceleration and orient...
AbstractThis paper presents a robust displacement sensor with nanometre-scale resolution over a micr...
This paper describes a formal approach to derive displacement from a 3 axis accelerometer. It forms ...