Task identification and characterisation in mobile robotics through non-linear modelling
The lack of a theory-based design methodology for mobile robot control programs means that control programs have to be developed through an empirical trial-and-error process. This can be costly, time consuming and error prone. In this paper we show how to develop a theory of robot–environment interaction, which would overcome the above problem. We show how we can model a mobile robot’s task (so-called “task identification”) using non-linear polynomial models (NARMAX), which can subsequently be formally analysed using established mathematical methods. This provides an understanding of the underlying phenomena governing the robot’s behaviour. Apart from the paper’s main objective of formally analysing robot–environment interaction, the task identification process has further benefits, such as the fast and convenient cross-platform transfer of robot control programs (“Robot Java”), parsimonious task representations (memory issues) and very fast control code execution times.
keywords: Mobile robotics, System identification, Non-linear modelling, NARMAX
Publication: Article
1624014927579
June 18, 2021
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The lack of a theory-based design methodology for mobile robot control programs means that control programs have to be developed through an empirical trial-and-error process. This can be costly, time consuming and error prone. In this paper we show how to develop a theory of robot–environment interaction, which would overcome the above problem. We show how we can model a mobile robot’s task (so-called “task identification”) using non-linear polynomial models (NARMAX), which can subsequently be formally analysed using established mathematical methods. This provides an understanding of the underlying phenomena governing the robot’s behaviour. Apart from the paper’s main objective of formally analysing robot–environment interaction, the task identification process has further benefits, such as the fast and convenient cross-platform transfer of robot control programs (“Robot Java”), parsimonious task representations (memory issues) and very fast control code execution times. - R. Iglesias, T. Kyriacou, U. Nehmzow, S. Billings - 10.1016/j.robot.2006.11.007
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