His research interests are in safe, trusted, and explainable AI, with a particular focus on AI planning for robotics and autonomous systems, and human-AI teaming. in Computer Science from University of L'Aquila in 2009. He served as program chair for ICAPS 2019.ĭaniele Magazzeni is an Associate Professor at King's College London. Hector Geffner, the ICAPS best paper award in 2015, and the winner and runner-up awards in two tracks of the International Planning Competition (IPC) in 2018. He received the International Conference on Automated Planning and Scheduling (ICAPS) best dissertation award in 2013 for his work under the supervision of Prof. His main research area is Automated Planning, Search, Optimization, and Operations Research. in Computer Science from Universitat Pompeu Fabra, Barcelona. His main area of research is AI planning, with a focus on problem modelling and bridging planning and optimisation.Nir Lipovetzky is a Lecturer at the School of Computing andInformation Systems at The University of Melbourne. in computer science from Linkoping University in 2006, and he is currently at the Australian National University in Canberra. The book is intended for advanced students and researchers in AI who want to dive into the mechanics of AI planning, as well as those who want to be able to use AI planning systems without an in-depth explanation of the algorithms and implementation techniques they use. Second, we want to introduce readers to the art of modelling planning problems in this language, through educational examples that demonstrate how PDDL is used to model realistic planning problems. First, we present a unified and current account of PDDL, covering the subsets of PDDL that express discrete, numeric, temporal, and hybrid planning. Several variants of PDDL have emerged that capture planning problems of different natures and complexities, with a focus on deterministic problems. Developed by the planning research community as a means of facilitating systems comparison, it has become a de-facto standard input language of many planning systems, although it is not the only modelling language for planning. The Planning Domain Definition Language (PDDL) is a formal knowledge representation language designed to express planning models. AI planning is model-based: a planning system takes as input a description (or model) of the initial situation, the actions available to change it, and the goal condition to output a plan composed of those actions that will accomplish the goal when executed from the initial situation. Planning is the branch of Artificial Intelligence (AI) that seeks to automate reasoning about plans, most importantly the reasoning that goes into formulating a plan to achieve a given goal in a given situation.
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