DocumentCode
1788705
Title
Wall climbing robots: Mechanics, control and adaptation to environment
Author
Gradetsky, Valery G. ; Knyazkov, Maxim M.
Author_Institution
Ishlinsky Inst. for Problems in Mech., Moscow, Russia
fYear
2014
fDate
3-5 Sept. 2014
Firstpage
1
Lastpage
7
Abstract
Wall Climbing Robots (WCR) are estimated as mobile machines having possibilities to move along horizontal, vertical surfaces and to pass from one surface to another one situated under different angles to horizon. The robots are intended for various technological operations fulfillment under extreme conditions or over complex surfaces such as walls of buildings, hulls of ships, areas of vessels or tanks. Presentation includes analysis of structure and performance of robot mechanics, control and adaptation features to environment. Mechanical composition of such robots may be variable - two platforms, multilinks sliding seal. Comparison of the methods for coupling with surfaces irregularities is under consideration. It is noted that mobile robots can be equipped with one or several technological manipulators depending on the problems to be solved. Complex control problems are solving by means of multilevel control system on strategy, tactical and executive levels with embedded microprocessors and microsensors devices. To increase effectiveness, reliability and collision avoidance with the obstacles, the adaptation to changing environment was applied by means of sensory fusion control and feedback loops. Modular system design is reserved for predicted tasks and it includes such modules as mechanical transportation, information measuring, adaptive control, and technological manipulation.
Keywords
adaptive control; collision avoidance; feedback; large-scale systems; level control; manipulators; mobile robots; sensor fusion; WCR; adaptive control; collision avoidance; complex control problems; embedded microprocessors; feedback loops; information measuring; manipulators; mechanical composition; mechanical transportation; microsensors devices; mobile machines; mobile robots; modular system design; multilevel control system; multilinks sliding seal; robot mechanics; sensory fusion control; technological manipulation; wall climbing robots; Climbing robots; Robot kinematics; Robot motion; Robot sensing systems; Surface treatment; Adaptation; control; coupling method; dangerous environment; design; mechanics; obstacle avoidance; wall climbing robot;
fLanguage
English
Publisher
ieee
Conference_Titel
Robotics in Alpe-Adria-Danube Region (RAAD), 2014 23rd International Conference on
Conference_Location
Smolenice
Print_ISBN
978-1-4799-6797-1
Type
conf
DOI
10.1109/RAAD.2014.7002240
Filename
7002240
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