Add to ORKGBäckström has previously studied a number of optimization problems for partial-order plans, like finding a minimum deordering (MCD) or reordering (MCR), and finding the minimum parallel execution length (PPL), which are all NP-complete. We revisit these problems, but applying parameterized complexity analysis rather than standard complexity analysis. We consider various parameters, including both the original and desired size of the plan order, as well as its width and height. Our findings include that MCD and MCR are W[2]-hard and in W[P] when parameterized with the desired order size, and MCD is fixed-parameter tractable (fpt) when parameterized with the original order size. Problem PPL is fpt if parameterized with the size of the non-con...
We provide a theoretical analysis of planning via Petri net unfolding, a novel technique for synthes...
This thesis is presented in two parts. In Part I we concentrate on algorithmic aspects of parameteri...
We study a natural variant of scheduling that we call partial scheduling: in this variant an instanc...
This article studies the problem of modifying the action ordering of a plan in order to optimise the...
Automated planning is known to be computationally hard in the general case. Propositional planning i...
Automated planning is known to be computationally hard in the general case. Propositional planning i...
We study PO and POCL plans with regard to their makespan – the execution time when allowing the para...
Most nonlinear problem solvers use a least-commitment search strategy, reasoning about partially or...
Most nonlinear problem solvers use a least-commitment search strategy, reasoning about partially ord...
Many real-world planning problems require generating plans that maximize the parallelism inherent in...
Many real-world planning problems require generat-ing plans that maximize the parallelism inherent i...
A partial-order plan (POP) compactly encodes a set of sequential plans that can be dynamically chose...
A partial-order plan (POP) compactly encodes a set of sequential plans that can be dynamically chose...
Estimating the distance from a current partial-order plan to the goal state of the plan task is a ch...
We provide a theoretical analysis of planning via Petri net unfolding, a novel technique for synthes...
We provide a theoretical analysis of planning via Petri net unfolding, a novel technique for synthes...
This thesis is presented in two parts. In Part I we concentrate on algorithmic aspects of parameteri...
We study a natural variant of scheduling that we call partial scheduling: in this variant an instanc...
This article studies the problem of modifying the action ordering of a plan in order to optimise the...
Automated planning is known to be computationally hard in the general case. Propositional planning i...
Automated planning is known to be computationally hard in the general case. Propositional planning i...
We study PO and POCL plans with regard to their makespan – the execution time when allowing the para...
Most nonlinear problem solvers use a least-commitment search strategy, reasoning about partially or...
Most nonlinear problem solvers use a least-commitment search strategy, reasoning about partially ord...
Many real-world planning problems require generating plans that maximize the parallelism inherent in...
Many real-world planning problems require generat-ing plans that maximize the parallelism inherent i...
A partial-order plan (POP) compactly encodes a set of sequential plans that can be dynamically chose...
A partial-order plan (POP) compactly encodes a set of sequential plans that can be dynamically chose...
Estimating the distance from a current partial-order plan to the goal state of the plan task is a ch...
We provide a theoretical analysis of planning via Petri net unfolding, a novel technique for synthes...
We provide a theoretical analysis of planning via Petri net unfolding, a novel technique for synthes...
This thesis is presented in two parts. In Part I we concentrate on algorithmic aspects of parameteri...
We study a natural variant of scheduling that we call partial scheduling: in this variant an instanc...