Advanced robot programming requires flexible and extensible programming environments, as well as programming languages capable of amalgamating and integrating components implemented according to different technologies. Logic programming can give a valuable contribution thanks to its characteristic features like relational form and declarative interpretation; on the other hand, its peculiar goal of removing control issues from programming seems to make it unsuitable for real robot programming. However, since control constitutes a fundamental issue in any effectively usable logic language, the purpose of this work is to present an architecture for a robot programming environment based on a real logic language like Prolog, properly extended with control capability toward program structuring and concurrence, and to discuss the impact of such an extended logic programming approach in a robotics framework.
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