Using Sensory-Motor Phase-Plots to Characterise Robot-Environment Interactions
Mirza, N.A., Nehaniv, C.L., Dautenhahn, K. and Te Boekhorst, R.
(2005)
Using Sensory-Motor Phase-Plots to Characterise Robot-Environment Interactions.
Institute of Electrical and Electronics Engineers (IEEE).
Information theoretic methods are used to characterise and identify robot-environment interactions, with a view to using these to build an embodied interaction history from the robot's perspective. A bottom-up approach is taken using uninterpreted raw sensor and motor data. Interactions are analysed by calculating the Average Information Distance (AID) between all sensors and motors over a moving time window and used to create 2-dimensional "phase-plots" that can be thought of as describing the current interaction. Sensor- Motor AID Phase-plots are shown to be able to distinguish simple behaviours among a sequence of behaviours.
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Date Deposited | 27 Jul 2024 00:16 |
Last Modified | 27 Jul 2024 00:16 |
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