Design and implementation of adaptive signal processing systems using Markov decision processes

Abstract

In this paper, we propose a novel framework, called Hierarchical MDP framework for Compact System-level Modeling (HMCSM), for design and implementation of adaptive embedded signal processing systems. The HMCSM framework applies Markov decision processes (MDPs) to enable autonomous adaptation of embedded signal processing under multidimensional constraints and optimization objectives. The framework integrates automated, MDP-based generation of optimal reconfiguration policies, dataflow-based application modeling, and implementation of embedded control software that carries out the generated reconfiguration policies. HMCSM systematically decomposes a complex, monolithic MDP into a set of separate MDPs that are connected hierarchically, and that operate more efficiently through such a modularized structure. We demonstrate the effectiveness of our new MDP-based system design framework through experiments with an adaptive wireless communications receiver.