Affiliation:
1. Department of Computer Science and Systems Engineering Faculty of Engineering, Yamaguchi University Ube 755, Japan
Abstract
Recently, related to the open problem of whether deterministic and nondeterministic space (especially lower-level) complexity classes are separated, the inkdot Turing machine was introduced. An inkdot machine is a conventional Turing machine capable of dropping an inkdot on a given input tape for a landmark, but not to pick it up nor further erase it. In this paper, we introduce a finite state version of the inkdot machine as a weak recognizer of the properties of digital pictures, rather than a Turing machine supplied with a one-dimensional working tape. We first investigate the sufficient spaces of three-way Turing machines to simulate two-dimensional inkdot finite automaton, as preliminary results. Next, we investigate the basic properties of two-dimensional inkdot automaton, i.e. the hierarchy based on the number of inkdots and the relationship of two-dimensional inkdot automata to other conventional two-dimensional automata. Finally, we investigate the recognizability of connected pictures of two-dimensional inkdot finite machines.
Publisher
World Scientific Pub Co Pte Lt
Subject
Artificial Intelligence,Computer Vision and Pattern Recognition,Software
Cited by
4 articles.
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1. Marker versus inkdot over three-dimensional patterns;Artificial Life and Robotics;2008-12
2. Three-dimensional multiinkdot automata;Artificial Life and Robotics;2005-05-20
3. Inkdot versus Pebble over Two-Dimensional Languages;IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences;2005-05-01
4. Nonclosure Properties of Two-Dimensional One-Marker Automata;International Journal of Pattern Recognition and Artificial Intelligence;1997-11