Intelligent vision-based navigation system

Koay, Kheng Lee

January 2003

This thesis presents a complete vision-based navigation system that can plan and follow an obstacle-avoiding path to a desired destination on the basis of an internal map updated with information gathered from its visual sensor. For vision-based self-localization, the system uses new floor-edges-specific filters for detecting floor edges and their pose, a new algorithm for determining the orientation of the robot, and a new procedure for selecting the initial positions in the self-localization procedure. Self-localization is based on matching visually detected features with those stored in a prior map. For planning, the system demonstrates for the first time a real-world application of the neural-resistive grid method to robot navigation. The neural-resistive grid is modified with a new connectivity scheme that allows the representation of the collision-free space of a robot with finite dimensions via divergent connections between the spatial memory layer and the neuro-resistive grid layer. A new control system is proposed. It uses a Smith Predictor architecture that has been modified for navigation applications and for intermittent delayed feedback typical of artificial vision. A receding horizon control strategy is implemented using Normalised Radial Basis Function nets as path encoders, to ensure continuous motion during the delay between measurements. The system is tested in a simplified environment where an obstacle placed anywhere is detected visually and is integrated in the path planning process. The results show the validity of the control concept and the crucial importance of a robust vision-based self-localization process.

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Robotics

Integration of acoustic and visual data for subsea robotics

Reid, Ceri St. J.

January 1992

No description available.

629.892

Robotics

Neural network techniques for modelling and learning control of an underwater robotic vehicle

Kodogiannis, Vassilios S.

January 1994

No description available.

629.892

Robotics

A flexible robot control system for subsea manipulator applications

Mackay, Andrew Stuart

January 1992

No description available.

629.892

Robotics

A navigation strategy for mobile robots in a manufacturing environment

Ko, Wen-Shen

January 1996

No description available.

629.892

Robotics

Advancements in the programmable motion control of pneumatic drives for robots and other flexible machines

Pu, Jungsheng

January 1988

The overall objective of this research is to advance the programmable motion control of pneumatic drives. Enhanced performance characteristics and improved parameter tuning facilities have been evolved for a new generation of pneumatic servos. The evolution has been achieved with specific reference to the application of pneumatics in the motion control of modular robots and other modular machines. The research has been largely experimentally-based with complementary new modelling studies providing a basis for suggesting and explaining the control strategies evolved. Novel realtime control algorithms have been implemented and their associated performance characteristics statistically analysed. The algorithms have provided technological advance with respect to (i) minimising drift and hysteresis in the drive system through compensating and automating the system null conditions; (ii) optimising the positioning time through use of learning procedure; (iii) achieving velocity control through "null velocity" compensation and learning.

629.892

Robotics

Advancement in robot programming with specific reference to graphical methods

Chan, Sun Fat

January 1989

This research study is concerned with the derivation of advanced robot programming methods. The methods include the use of proprietary simulation modelling and design software tools for the off-line programming of industrial robots. The study has involved the generation of integration software to facilitate the co-operative operation of these software tools. The three major researcli'themes7of "ease of usage", calibration and the integration of product design data have been followed to advance robot programming. The "ease of usage" is concerned with enhancements in the man-machine interface for robo t simulation systems in terms of computer assisted solid modelling and computer assisted task generation. Robot simulation models represent an idealised situation, and any off-line robot programs generated from'them may contain'discrepancies which could seriously effect thq programs' performance; Calibration techniques have therefore been investigated as 'a method of overcoming discrepancies between the simulation model and the real world. At the present time, most computer aided design systems operate as isolated islands of computer technology, whereas their product databases should be used to support decision making processes and ultimately facilitate the generation of machine programs. Thus the integration of product design data has been studied as an important step towards truly computer integrated manufacturing. The functionality of the three areas of study have been generalised and form the basis for recommended enhancements to future robot programming systems.

629.892

Robotics

Investigations into the design of a wheelchair-mounted rehabilitation robotic manipulator

Prior, Stephen D.

January 1993

This research describes the steps towards the development of a low-cost wheelchair-mounted manipulator for use by the physically disabled and elderly. A detailed review of world rehabilitation robotics research has been conducted, covering fifty-six projects. This identified the main areas of research, their scope and results. From this review, a critical investigation of past and present wheelchair-mounted robotic arm projects was undertaken. This led to the formulation of the key design parameters in a final design specification. The results of a questionnaire survey of fifty electric wheelchair users is presented, which has for the first time established the needs and abilities of this disability group. An analysis of muscle type actuators, which mimic human muscle, is presented and their application to robotics, orthotics and prosthetics is given. A new type of rotary pneumatic muscle actuator, the flexator, is introduced and through extensive testing its performance characteristics elucidated. A review of direct-drive rotary pneumatic, hydraulic and electrical actuators has highlighted their relative performance characteristics and has rated their efficiency in terms of their peak torque to motor mass ratio, Tp/MM. From this, the flexator actuator has been shown to have a higher Tp/MM ratio than most conventional actuators. A novel kinematic arrangement is presented which combines the best features of the SCARA and vertically articulated industrial robot geometries, to form the 'Scariculated' arm design. The most appropriate actuator for each joint of this hybrid manipulator was selected, based on the criteria of high Tp/MM ratio, low cost, safety and compatibility. The final design incorporates conventional pneumatic linear double-acting cylinders, a vane type rotary actuator, two dual flexator actuators, and stepping motors for the fme control of the wrist/end effector. An ACSL simulation program has been developed which uses mass flow rate equations, based on one-dimensional compressible flow theory and suppressed critical pressure ratios, to simulate the dual flexator actuator. Theoretical and empirical data is compared and shows a high degree of correlation between results. Finally, the design and development work on two prototypes is discussed. The latest prototype consists of a five-axis manipulator whose pneumatic joints are driven by pulse width modulated solenoid valves. An 8051 microprocessor with proportional error feedback modilles the mark to space ratio of the PWM signal in proportion to the angular error of the joints. This enables control over individual joint speeds, reprogrammable memory locations and position monitoring of each joint. The integration of rehabilitation robotic manipulators into the daily lives of the physically disabled and elderly will significantly influence the role of personal rehabilitation in the next century.

629.892

Robotics

Robust nonlinear control of flexible joint manipulators

Wilson, Giles A.

January 1994

No description available.

629.892

Robotics

Heuristic based multi-manipulator motion planning in time varying environments with fault tolerance

Hamilton, Kevin Michael

January 1996

No description available.

629.892

Robotics