We study the set $T_A$ of infinite binary trees with nodes labelled in a semiring $A$ from a coalgebraic perspective. We present coinductive definition and proof principles based on the fact that $T_A$ carries a final coalgebra structure. By viewing trees as formal power series, we develop a calculus where definitions are presented as behavioural differential equations. We present a general format for these equations that guarantees the existence and uniqueness of solutions. Although technically not very difficult, the resulting framework has surprisingly nice applications, which is illustrated by various concrete examples
AbstractBased on the presence of a final coalgebra structure on the set of streams (infinite sequenc...
AbstractThe algebra of infinite trees is, as proved by C. Elgot, completely iterative, i.e., all ide...
Coinductive data types are used in functional programming to represent infinite data struc-tures. Ex...
We study the set T_A of infinite binary trees with nodes labelled in a semiring A from a coalgebraic...
We study the set TA of infinite binary trees with nodes labelled in a semiring A from a coalgebraic ...
AbstractWe study the set TA of infinite binary trees with nodes labelled in a semiring A from a coal...
Abstract. We study the set TA of infinite binary trees with nodes labelled in a semiring A from a co...
We study the set TA of infinite binary trees with nodes labelled in a semiring A from a coalgebraic ...
The Stern-Brocot tree contains all rational numbers exactly once and in their lowest terms. We forma...
AbstractThis paper shows that the approach of [P. Aczel, J. Adámek, S. Milius, and J. Velebil, Infin...
We develop a coinductive calculus of streams based on the presence of a final coalgebra structure on...
textabstractStreams, (automata and) languages, and formal power series are viewed coalgebraically. I...
AbstractInfinite trees naturally arise in the formalization and the study of the semantics of progra...
We show that coinductive predicates expressing behavioural properties of infinite objects can be the...
AbstractWe present a theory of streams (infinite sequences), automata and languages, and formal powe...
AbstractBased on the presence of a final coalgebra structure on the set of streams (infinite sequenc...
AbstractThe algebra of infinite trees is, as proved by C. Elgot, completely iterative, i.e., all ide...
Coinductive data types are used in functional programming to represent infinite data struc-tures. Ex...
We study the set T_A of infinite binary trees with nodes labelled in a semiring A from a coalgebraic...
We study the set TA of infinite binary trees with nodes labelled in a semiring A from a coalgebraic ...
AbstractWe study the set TA of infinite binary trees with nodes labelled in a semiring A from a coal...
Abstract. We study the set TA of infinite binary trees with nodes labelled in a semiring A from a co...
We study the set TA of infinite binary trees with nodes labelled in a semiring A from a coalgebraic ...
The Stern-Brocot tree contains all rational numbers exactly once and in their lowest terms. We forma...
AbstractThis paper shows that the approach of [P. Aczel, J. Adámek, S. Milius, and J. Velebil, Infin...
We develop a coinductive calculus of streams based on the presence of a final coalgebra structure on...
textabstractStreams, (automata and) languages, and formal power series are viewed coalgebraically. I...
AbstractInfinite trees naturally arise in the formalization and the study of the semantics of progra...
We show that coinductive predicates expressing behavioural properties of infinite objects can be the...
AbstractWe present a theory of streams (infinite sequences), automata and languages, and formal powe...
AbstractBased on the presence of a final coalgebra structure on the set of streams (infinite sequenc...
AbstractThe algebra of infinite trees is, as proved by C. Elgot, completely iterative, i.e., all ide...
Coinductive data types are used in functional programming to represent infinite data struc-tures. Ex...