This report is presented in two parts: the first part describes a design and implementation methodology for real time software suitable for control of mechanical systems such as vehicles. This method provides for a design description of the system, a means of capturing the system structure in such a way as to modularize the software writing job, and a portable implementation method. The second part is concerned with a particular problem in the mechanical system control: estimating velocity when the even rate from a digital encoder is lower than the controller's sample time. Methods are explored for performing this estimation that achieve best accuracy overall, but can also avoid the problem of spurious estimates when the velocity reverses
Hydrostatic drive systems with linear actuators are commonly used in variety of mobile machines and ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This work deals with design and construction of unstable double wheeled Segway-like vehicle built fo...
Many motion control systems are currently implemented as discrete-time systems due to the technologi...
Traditionally two different algorithms are used for the estimation of angular velocity with an incre...
Engine control applications include computational activities that adapt their behavior as a function...
This paper proposes a novel method of velocity measurement for motor drives with optical encoders. A...
This paper discusses velocity measurement for motor drives with optical encoders. Although many meth...
The problem of the estimation of rotating speed is a very important problem, specially for systems t...
During the last years, our group has worked on real-time formulations for the dynamics of multi-body...
Abstract:- Two digital control applications are presented: velocity control of a DC motor and adapti...
The purpose of this dissertation is to implement and compare speed controllers on the CE 107 pneuma...
The proper operation of computing resources in a microprocessor-embedded system plays a key role in ...
Precise motion control requires high-accuracy and high- bandwidth feedback speed information, often ...
Hydrostatic drive systems with linear actuators are commonly used in variety of mobile machines and ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This work deals with design and construction of unstable double wheeled Segway-like vehicle built fo...
Many motion control systems are currently implemented as discrete-time systems due to the technologi...
Traditionally two different algorithms are used for the estimation of angular velocity with an incre...
Engine control applications include computational activities that adapt their behavior as a function...
This paper proposes a novel method of velocity measurement for motor drives with optical encoders. A...
This paper discusses velocity measurement for motor drives with optical encoders. Although many meth...
The problem of the estimation of rotating speed is a very important problem, specially for systems t...
During the last years, our group has worked on real-time formulations for the dynamics of multi-body...
Abstract:- Two digital control applications are presented: velocity control of a DC motor and adapti...
The purpose of this dissertation is to implement and compare speed controllers on the CE 107 pneuma...
The proper operation of computing resources in a microprocessor-embedded system plays a key role in ...
Precise motion control requires high-accuracy and high- bandwidth feedback speed information, often ...
Hydrostatic drive systems with linear actuators are commonly used in variety of mobile machines and ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This work deals with design and construction of unstable double wheeled Segway-like vehicle built fo...