Friction is present in all mechanical systems, and can greatly affect system stability and control in precision motion applications. In this paper, we present application of a frictional model to trajectory planning of a part centering system with real-time identification of model parameters through system force and position response. This identification is carried out using LabVIEW motion control software and digital signal processing (DSP) and field-programmable gate array (FPGA) hardware. A comparison of hardware performance for force measurement is also made
Motion control systems are usually designed to track trajectories and/or regulate about a desired po...
Performance degradation in most mechanical systems with friction which are not easily eliminated th...
A method of modeling friction forces that impede the motion of parts of dynamic mechanical systems i...
Simplified part positioning in manufacturing has been achieved using pushing or tapping actuation in...
Abstract: The paper presents experimental results of friction parameter identification for two diffe...
Friction is a nonlinear phenomenon that is present in almost all motion systems. Friction often limi...
Friction modeling of a high-precision positioning system using linear permanent magnet synchronous m...
This paper focuses on friction identification and numerical validation on ball-screw driven XY milli...
Precision measurements of friction processes have a key role in a variety of industrial processes. T...
This work concerns the modeling and experimental verification of the highly nonlinear friction behav...
Precision measurements of friction processes have a key role in a variety of industrial processes. T...
This thesis presents the design and simulation of a friction compensation technique for position con...
A frequent problem encountered in the stabilization of a dynamic system supported by a moving base i...
Abstract – Precision measurements of friction processes have a key role in a variety of industria l ...
The presented work concerns the modeling and experimental verification of the highly nonlinear behav...
Motion control systems are usually designed to track trajectories and/or regulate about a desired po...
Performance degradation in most mechanical systems with friction which are not easily eliminated th...
A method of modeling friction forces that impede the motion of parts of dynamic mechanical systems i...
Simplified part positioning in manufacturing has been achieved using pushing or tapping actuation in...
Abstract: The paper presents experimental results of friction parameter identification for two diffe...
Friction is a nonlinear phenomenon that is present in almost all motion systems. Friction often limi...
Friction modeling of a high-precision positioning system using linear permanent magnet synchronous m...
This paper focuses on friction identification and numerical validation on ball-screw driven XY milli...
Precision measurements of friction processes have a key role in a variety of industrial processes. T...
This work concerns the modeling and experimental verification of the highly nonlinear friction behav...
Precision measurements of friction processes have a key role in a variety of industrial processes. T...
This thesis presents the design and simulation of a friction compensation technique for position con...
A frequent problem encountered in the stabilization of a dynamic system supported by a moving base i...
Abstract – Precision measurements of friction processes have a key role in a variety of industria l ...
The presented work concerns the modeling and experimental verification of the highly nonlinear behav...
Motion control systems are usually designed to track trajectories and/or regulate about a desired po...
Performance degradation in most mechanical systems with friction which are not easily eliminated th...
A method of modeling friction forces that impede the motion of parts of dynamic mechanical systems i...