6533b7defe1ef96bd12764fa
RESEARCH PRODUCT
<title>HAP: a hybrid system for reasoning about actions and plans in robotics</title>
Marcello FrixioneAntonio CamurriRenato ZaccariaSalvatore Gagliosubject
Knowledge representation and reasoningComputer sciencebusiness.industryHybrid systemComponent (UML)Obstacle avoidanceRepresentation (systemics)RobotRoboticsContext (language use)Artificial intelligencebusinessdescription
The paper describes the main ideas and principles of HAP (Hybrid representation of Actions and Plans), a system for hybrid representation and reasoning in advanced robotics. In this context, hybrid representation refers to the integration of both symbolic and analogic knowledge representation paradigms. In particular, the logic/symbolic component is based on a KL-ONE-like representation language. The system embeds "analogic experts", that are concurrent procedures operating in a direct and fast way on the world representation. These "experts" help the system in planning a correct temporal sequence of actions. As a reference scenario, assembly (and disassembly) problems are considered. The assembly problem can be decomposed in several suitable concurrent sub-tasks, which involves both robotic aspects as navigation, obstacle avoidance, grasping, and AI aspects as action planning and world representation. As a case study, the paper discusses the assembly of a complex object from parts as an experimental paradigm for planning movements of a redundant robot in an unstructured environment.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1990-01-01 | SPIE Proceedings |