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Publications

Publications by CRIIS

2009

Accelerometer-Based Control of an Industrial Robotic Arm

Authors
Neto, P; Pires, JN; Moreira, AP;

Publication
RO-MAN 2009: THE 18TH IEEE INTERNATIONAL SYMPOSIUM ON ROBOT AND HUMAN INTERACTIVE COMMUNICATION, VOLS 1 AND 2

Abstract
Most of industrial robots are still programmed using the typical teaching process, through the use of the robot teach pendant. In this paper is proposed an accelerometer-based system to control an industrial robot using two low-cost and small 3-axis wireless accelerometers. These accelerometers are attached to the human arms, capturing its behavior (gestures and postures). An Artificial Neural Network (ANN) trained with a back-propagation algorithm was used to recognize arm gestures and postures, which then will be used as input in the control of the robot. The aim is that the robot starts the movement almost at the same time as the user starts to perform a gesture or posture (low response time). The results show that the system allows the control of an industrial robot in an intuitive way. However, the achieved recognition rate of gestures and postures (92%) should be improved in future, keeping the compromise with the system response time (160 milliseconds). Finally, the results of some tests performed with an industrial robot are presented and discussed.

2009

Accelerometer-based control of an industrial robotic arm

Authors
Neto, P; Pires, JN; Moreira, AP;

Publication
18th IEEE International Symposium on Robot and Human Interactive Communication, RO-MAN 2009, Toyama International Conference Center, Japan, September 27 - October 2, 2009

Abstract

2009

Concept and design of the intellwheels platform for developing intelligent wheelchairs

Authors
Braga, RAM; Petry, M; Moreira, AP; Reis, LP;

Publication
Lecture Notes in Electrical Engineering

Abstract
Many people with severe disabilities find it difficult or even impossible to use traditional powered wheelchairs independently by manually controlling these electrical devices. Intelligent wheelchairs are a very good solution to assist severely handicapped people who are unable to operate classical electrical wheelchair by themselves in their daily activities. This paper describes a development platform for intelligent wheelchairs called IntellWheels. The intelligent system developed may be added to commercial powered wheelchairs with minimal modifications in a very straightforward manner. The paper describes the concept and design of the platform, including the hardware and software, multimodal input interface and the intelligent wheelchair prototype developed to validate the approach. Preliminary results concerning automatic movement of the IntellWheels prototype are also described showing the autonomous movement capabilities of the prototype. © 2009 Springer-Verlag Berlin Heidelberg.

2009

Tuning and Application of Integer and Fractional Order PID Controllers

Authors
Barbosa, RS; Silva, MF; Machado, JAT;

Publication
Intelligent Engineering Systems and Computational Cybernetics

Abstract

2009

Control and dynamics of fractional order systems

Authors
Tenreiro Machado, JA; Jesus, IS; Barbosa, RS; Silva, MF;

Publication
Studies in Computational Intelligence

Abstract
Fractional Calculus (FC) goes back to the beginning of the theory of differential calculus. Nevertheless, the application of FC just emerged in the last two decades due to the progress in the area of nonlinear dynamics. This article discusses several applications of fractional calculus in science and engineering, namely: the control of heat systems, the tuning of PID controllers based on fractional calculus concepts and the dynamics in hexapod locomotion. © 2009 Springer-Verlag Berlin Heidelberg.

2009

Development of a genetic algorithm for the optimization of hexapod robot parameters

Authors
Silva, MF; Barbosa, RS; Machado, JAT;

Publication
Proceedings of the IASTED International Conference on Applied Simulation and Modelling, ASM 2009

Abstract
Legged robots allow the locomotion on terrains inaccessible to other type of vehicles because they do not need a continuous support surface. Different strategies have been adopted for the optimization of these systems, during their design and construction phases, and during their operation. Among the different optimization criteria followed by different authors, it is possible to find issues related to energy efficiency, stability, speed, comfort, mobility and environmental impact. Evolutionary strategies are a way to "imitate nature" replicating the process that nature designed for the generation and evolution of species. The objective of this paper is to present a genetic algorithm, running over a simulation application of legged robots, which allows the optimization of several parameters of the robot model and of its gaits, for different locomotion speeds.

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