Add to ORKGIt is well known that hyperedge-replacement grammars can generate NP-complete graph languages even under seemingly harsh restrictions. This means that the parsing problem is difficult even in the non-uniform setting, in which the grammar is considered to be fixed rather than being part of the input. Little is known about restrictions under which truly uniform polynomial parsing is possible. In this paper we propose a low-degree polynomial-time algorithm that solves the uniform parsing problem for a restricted type of hyperedge-replacement grammars which we expect to be of interest for practical applications
Graph parsing is known to be computationally expensive. For this reason the construction of special-...
We introduce a weighted extension of the recently proposed notion oforder-preserving hyperedge-repla...
We introduce a weighted extension of the recently proposed notion oforder-preserving hyperedge-repla...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
Hyperedge replacement grammar (HRG) is a formalism for generating and transforming graphs that has p...
We introduce a weighted extension of the recently proposed notion of order-preserving hyperedge-repl...
We introduce a weighted extension of the recently proposed notion of order-preserving hyperedge-repl...
We introduce a weighted extension of the recently proposed notion of order-preserving hyperedge-repl...
We introduce a weighted extension of the recently proposed notion of order-preserving hyperedge-repl...
Graph parsing is known to be computationally expensive. For this reason the construction of special-...
We introduce a weighted extension of the recently proposed notion oforder-preserving hyperedge-repla...
We introduce a weighted extension of the recently proposed notion oforder-preserving hyperedge-repla...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
It is well known that hyperedge-replacement grammars can generate NP-complete graph languages even u...
Hyperedge replacement grammar (HRG) is a formalism for generating and transforming graphs that has p...
We introduce a weighted extension of the recently proposed notion of order-preserving hyperedge-repl...
We introduce a weighted extension of the recently proposed notion of order-preserving hyperedge-repl...
We introduce a weighted extension of the recently proposed notion of order-preserving hyperedge-repl...
We introduce a weighted extension of the recently proposed notion of order-preserving hyperedge-repl...
Graph parsing is known to be computationally expensive. For this reason the construction of special-...
We introduce a weighted extension of the recently proposed notion oforder-preserving hyperedge-repla...
We introduce a weighted extension of the recently proposed notion oforder-preserving hyperedge-repla...