International Journal of Advanced Robotic Systems (Nov 2013)
Strategic Path Planning by Sequential Parametric Bayesian Decisions
Abstract
The objective of this research is to generate a path for a mobile agent that carries sensors used for classification, where the path is to optimize strategic objectives that account for misclassification and the consequences of misclassification, and where the weights assigned to these consequences are chosen by a strategist. We propose a model that accounts for the interaction between the agent kinematics (i.e., the ability to move), informatics (i.e., the ability to process data to information), classification (i.e., the ability to classify objects based on the information), and strategy (i.e., the mission objective). Within this model, we pose and solve a sequential decision problem that accounts for strategist preferences and the solution to the problem yields a sequence of kinematic decisions of a moving agent. The solution of the sequential decision problem yields the following flying tactics: “approach only objects whose suspected identity matters to the strategy”. These tactics are numerically illustrated in several scenarios.
