Principles of artificial intelligence
Principles of artificial intelligence
On cooperating/distributed grammar systems
Journal of Information Processing and Cybernetics
Control mechanisms on #-context-free array grammars
Mathematical aspects of natural and formal languages
Accepting multi-agent systems II
Acta Cybernetica - Special issue: selected papers of the workshop grammar systems: recent results and perspectives, Budapest, July 1996
On a hierarchy of languages generated by cooperating distributed grammar systems
Information Processing Letters
Journal of Computer and System Sciences
Hybrid modes in cooperating distributed grammar systems: internal versus external hybridization
Theoretical Computer Science
Array Grammars, Patterns and Recognizers
Array Grammars, Patterns and Recognizers
Handbook of Formal Languages
Grammar Systems: A Grammatical Approach to Distribution and Cooperation
Grammar Systems: A Grammatical Approach to Distribution and Cooperation
Regulated Rewriting in Formal Language Theory
Regulated Rewriting in Formal Language Theory
Membrane Computing: An Introduction
Membrane Computing: An Introduction
Bounded Parallelism in Array Grammars Used for Character Recognition
SSPR '96 Proceedings of the 6th International Workshop on Advances in Structural and Syntactical Pattern Recognition
Character Recognition with k-Head Finite Array Automata
SSPR '98/SPR '98 Proceedings of the Joint IAPR International Workshops on Advances in Pattern Recognition
Accepting Array Grammars with Control Mechanisms
New Trends in Formal Languages - Control, Cooperation, and Combinatorics (to Jürgen Dassow on the occasion of his 50th birthday)
Theoretical Computer Science
Asynchronous p systems and p systems working in the sequential mode
WMC'04 Proceedings of the 5th international conference on Membrane Computing
Hi-index | 0.00 |
We consider tissue P systems where rules are applied when moving through a channel from one cell to another one. In a very general manner (i.e., working on arbitrary objects as strings, arrays, graphs, etc.), these tissue P systems equipped with the sequential derivation mode allow for the representation of hybrid co-operating grammar systems using the classic basic derivation modes *, t and ⩽ κ,= κ,⩾ κ, for κ ⩾ ℓ, as well as the internally hybrid modes (⩾ κ∧⩽ℓ), for κ, ℓ∈N, κ⩽ℓ, and (t∧⩽κ), (t∧ =κ), (t∧⩾κ), for κ ⩾ 1. Moreover, we also show how these tissue P systems working in the sequential mode allow for the simulation of random context grammars, too.