| [+] Nondeterministic Constraint Logic (NCL). Constraint graph, AND/SPLIT vertex, OR vertex, protected OR vertex, CHOICE vertex, red-blue conversion, wire terminators, crossovers, grid graphs. Constraint Graph Satisfaction is NP-complete, NCL is PSPACE-complete. Reconfiguration 3SAT, sliding-block puzzles, sliding tokens, Rush Hour, hinged dissection, Sokoban, Push-2F, rolling-block mazes, plank puzzles (River Crossing), dynamic map labeling, partial searchlight scheduling. | |||||
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This lecture is about Constraint Logic. We saw the basic model in Lecture 1 to prove Rush Hour is PSPACE-complete. Now we'll see the details of how Nondeterministic Constraint Logic (NCL) works, why it's PSPACE-complete, and how we can reduce to a very small gadget set: planar graphs with just AND and protected OR vertices. Then we'll apply NCL to prove PSPACE-completeness proofs for several different puzzles and problems:
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Handwritten notes, page 1/8 •
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Handwritten notes, page 1/8 • [previous page] • [next page] • [PDF] |
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Slides, page 1/54 •
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http://erikdemaine.org/papers/GPC/ Slides, page 1/54 • [previous page] • [next page] • [PDF] |
