60 research outputs found
Simulations of Weighted Tree Automata
Simulations of weighted tree automata (wta) are considered. It is shown how
such simulations can be decomposed into simpler functional and dual functional
simulations also called forward and backward simulations. In addition, it is
shown in several cases (fields, commutative rings, Noetherian semirings,
semiring of natural numbers) that all equivalent wta M and N can be joined by a
finite chain of simulations. More precisely, in all mentioned cases there
exists a single wta that simulates both M and N. Those results immediately
yield decidability of equivalence provided that the semiring is finitely (and
effectively) presented.Comment: 17 pages, 2 figure
Reversible Computation: Extending Horizons of Computing
This open access State-of-the-Art Survey presents the main recent scientific outcomes in the area of reversible computation, focusing on those that have emerged during COST Action IC1405 "Reversible Computation - Extending Horizons of Computing", a European research network that operated from May 2015 to April 2019. Reversible computation is a new paradigm that extends the traditional forwards-only mode of computation with the ability to execute in reverse, so that computation can run backwards as easily and naturally as forwards. It aims to deliver novel computing devices and software, and to enhance existing systems by equipping them with reversibility. There are many potential applications of reversible computation, including languages and software tools for reliable and recovery-oriented distributed systems and revolutionary reversible logic gates and circuits, but they can only be realized and have lasting effect if conceptual and firm theoretical foundations are established first
Rational subsets of Baumslag-Solitar groups
We consider the rational subset membership problem for Baumslag-Solitar
groups. These groups form a prominent class in the area of algorithmic group
theory, and they were recently identified as an obstacle for understanding the
rational subsets of .
We show that rational subset membership for Baumslag-Solitar groups
with is decidable and PSPACE-complete. To this end,
we introduce a word representation of the elements of : their
pointed expansion (PE), an annotated -ary expansion. Seeing subsets of
as word languages, this leads to a natural notion of
PE-regular subsets of : these are the subsets of
whose sets of PE are regular languages. Our proof shows that
every rational subset of is PE-regular.
Since the class of PE-regular subsets of is well-equipped
with closure properties, we obtain further applications of these results. Our
results imply that (i) emptiness of Boolean combinations of rational subsets is
decidable, (ii) membership to each fixed rational subset of is
decidable in logarithmic space, and (iii) it is decidable whether a given
rational subset is recognizable. In particular, it is decidable whether a given
finitely generated subgroup of has finite index.Comment: Long version of paper with same title appearing in ICALP'2
Decision problems for word-hyperbolic semigroups
This paper studies decision problems for semigroups that are word-hyperbolic in the sense of Duncan & Gilman. A fundamental investigation reveals that the natural definition of a `word-hyperbolic structure' has to be strengthened slightly in order to define a unique semigroup up to isomorphism. The isomorphism problem is proven to be undecidable for word-hyperbolic semigroups (in contrast to the situation for word-hyperbolic groups). It is proved that it is undecidable whether a word-hyperbolic semigroup is automatic, asynchronously automatic, biautomatic, or asynchronously biautomatic. (These properties do not hold in general for word-hyperbolic semigroups.) It is proved that the uniform word problem for word-hyperbolic semigroup is solvable in polynomial time (improving on the previous exponential-time algorithm). Algorithms are presented for deciding whether a word-hyperbolic semigroup is a monoid, a group, a completely simple semigroup, a Clifford semigroup, or a free semigroup.PostprintPeer reviewe
An Approach to Regular Separability in Vector Addition Systems
We study the problem of regular separability of languages of vector addition
systems with states (VASS). It asks whether for two given VASS languages K and
L, there exists a regular language R that includes K and is disjoint from L.
While decidability of the problem in full generality remains an open question,
there are several subclasses for which decidability has been shown: It is
decidable for (i) one-dimensional VASS, (ii) VASS coverability languages, (iii)
languages of integer VASS, and (iv) commutative VASS languages. We propose a
general approach to deciding regular separability. We use it to decide regular
separability of an arbitrary VASS language from any language in the classes
(i), (ii), and (iii). This generalizes all previous results, including (iv)
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