Deriving concurrent control software from behavioral specifications

Abstract

Concurrency is an integral part of many robotics applications, due to the need for handling inherently parallel tasks such as motion control and sensor monitoring. Writing programs for this complex domain can be hard, in particular because of the difficulties of retaining a robust modular design. We propose to use SCOOP, an object-oriented programming model for concurrency which by construction is free of data races, therefore excluding a major class of concurrent programming errors. Synchronization requirements are expressed by waiting on routine preconditions, which turns out to provide a natural framework for implementing coordination requirements in robotics applications. As demonstration application, we describe a control program for hexapod locomotion, whose implementation closely follows the corresponding behavioral specification given by the biological model. We compare the architecture with solutions expressed in more traditional approaches to robotic control applications.