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Artificial Intelligence Planning Systems
Proceedings of the First Conference (AIPS 92)
- 1st Edition - June 28, 2014
- Editor: James Hendler
- Language: English
- eBook ISBN:9 7 8 - 0 - 0 8 - 0 4 9 9 4 4 - 4
Artificial Intelligence Planning Systems documents the proceedings of the First International Conference on AI Planning Systems held in College Park, Maryland on June 15-17, 1992.… Read more
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Request a sales quoteArtificial Intelligence Planning Systems documents the proceedings of the First International Conference on AI Planning Systems held in College Park, Maryland on June 15-17, 1992. This book discusses the abstract probabilistic modeling of action; building symbolic primitives with continuous control routines; and systematic adaptation for case-based planning. The analysis of ABSTRIPS; conditional nonlinear planning; and building plans to monitor and exploit open-loop and closed-loop dynamics are also elaborated. This text likewise covers the modular utility representation for decision-theoretic planning; reaction and reflection in tetris; and planning in intelligent sensor fusion. Other topics include the resource-bounded adaptive agent, critical look at Knoblock's hierarchy mechanism, and traffic laws for mobile robots. This publication is beneficial to students and researchers conducting work on AI planning systems.
Foreword
Papers
Declarative Goals in Reactive Plans
An Analysis of Search Techniques for a Totally-Ordered Nonlinear Planner
Complexity Results for Extended Planning
Abstract Probabilistic Modeling of Action
Semantics for Tasks that Can Be Interrupted or Abandoned
Acquiring Search Heuristics Automatically for Constraint-Based Planning and Scheduling
Plan Recognition in Understanding Instructions
Building Symbolic Primitives with Continuous Control Routines
Rational Handling of Multiple Goals for Mobile Robots
A Framework of Simplifications in Learning to Plan
Decision-Theoretic Recursive Modeling and the Coordinated Attack Problem
Systematic Adaptation for Case-Based Planning
Predicting and Explaining Success and Task Duration in the Phoenix Planner
Characterizing Multi-Contributor Causal Structures for Planning
An Analysis of ABSTRIPS
An Empirical Study of Sensing and Defaulting in Planning
Systematic and Nonsystematic Search Strategies
A Practical Approach to Integrating Reaction and Deliberation
Towards Structural Abstraction
Case-Based Planning Meets the Frame Problem (Case-Based Planning from the Classical Perspective)
Incremental Path Planning on Graphs with Cycles
Conditional Nonlinear Planning
The Projection Problem in the Situation Calculus: A Soundness and Completeness Result, with an Application to Database Updates
Building Plans to Monitor and Exploit Open-Loop and Closed-Loop Dynamics
Vague Data Management in Production Process Scheduling Applied to High-Grade Steelmaking
When is Planning Decidable?
A Semi-Reactive Planner Based on a Possible Models Action Formalization
Modular Utility Representation for Decision-Theoretic Planning
Automatically Abstracting the Effects of Operators
Constraint Satisfaction with a Multi-Dimensional Domain
Efficient Resource-Bounded Reasoning in AT-RALPH
Posters
Using Abstraction-Based Similarity to Retrieve Reuse Candidates
The Planning of Actions in the Basal Ganglia
Probabilistic Network Representations of Continuous-Time Stochastic Processes for Applications in Planning and Control
A Completable Approach to Integrating Planning and Scheduling
Isolating Dependencies on Failure by Analyzing Execution Traces
Posture Planning for Agent Animation
Tradeoffs in the Utility of Learned Knowledge
Reaction and Reflection in Tetris
Towards a Logical Treatment of Plan Reuse
Abstracting Operators for Hierarchical Planning
Planning for Soft Goals
Representing Conflicts in Parallel Planning
Protograms
Planning in Intelligent Sensor Fusion
An Introduction to Planning and Meta-Decision-Making with Uncertain Nondeterministic Actions Using 2nd-Order Probabilities
A Hierarchical Approach to Strategic Planning with Non-Cooperating Agents under Conditions of Uncertainty
An Architecture Supporting Multiple Organizations for Cooperative Mobile Robots
SEPIA: A Resource-Bounded Adaptive Agent
Multi-Agent Planning and Collaboration in Dynamic Resource Allocation
A Critical Look at Knoblock's Hierarchy Mechanism
On Traffic Laws for Mobile Robots (Extended Abstract)
When Goals Aren't Good Enough
Efficient Temporal Reasoning for Plan Projection
Author Index
- No. of pages: 315
- Language: English
- Edition: 1
- Published: June 28, 2014
- Imprint: Morgan Kaufmann
- eBook ISBN: 9780080499444
JH
James Hendler
Jim Hendler is the Tetherless World Senior Constellation Chair at Rensselaer Polytechnic Institute, and has authored over 200 technical papers in the areas of artificial intelligence, Semantic Web, agent-based computing, and web science. One of the early developers of the Semantic Web, he is the Editor-in-Chief emeritus of IEEE Intelligent Systems and is the first computer scientist to serve on the Board of Reviewing Editors for Science. In 2010, he was chosen as one of the 20 most innovative professors in America by Playboy magazine, Hendler currently serves as an "Internet Web Expert" for the U.S. government, providing guidance to the Data.gov project.
Affiliations and expertise
Rensselaer Polytechnic InstituteRead Artificial Intelligence Planning Systems on ScienceDirect