The controllability of a temporal network is defined as an agent's ability to navigate around the uncertainty in its schedule and is well-studied for certain networks of temporal constraints. However, many interesting real-world problems can be better represented as Probabilistic Simple Temporal Networks (PSTNs) in which the uncertain durations are represented using potentially-unbounded probability density functions. This can make it inherently impossible to control for all eventualities. In this paper, we propose two new dynamic controllability algorithms that attempt to maximize the likelihood of successfully executing a schedule within a PSTN. The first approach, which we call Min-Loss DC, finds a dynamic scheduling strategy that minimi...
Most existing works in Probabilistic Simple Temporal Networks (PSTNs) base their frameworks on well-...
Temporal networks are expressive formalisms employed in AI to model, validate, and execute temporal ...
Probabilistic Simple Temporal Networks (PSTN) are used to represent scheduling problems under uncert...
Dynamically controllable simple temporal networks with uncertainty (STNU) are widely used to represe...
Abstract: A Simple Temporal Network (STN) is a structure containing time-points and temporal constra...
In Temporal Planning a typical assumption is that the agent controls the execution time of all event...
Simple Temporal Networks with Uncertainty (STNUs) provide a useful formalism with which to reason ab...
The Temporal Network with Uncertainty (TNU) modeling framework is used to represent temporal knowled...
A conditional simple temporal network with uncertainty (CSTNU) is a framework able to model temporal...
Temporal formalisms are essential for reasoning about actions that are carried out over time. The ex...
An important issue for temporal planners is the ability to handle temporal uncertainty. Recent paper...
The Probabilistic Simple Temporal Network (PSTN) generalizes Simple Temporal Networks with Uncertain...
An important issue for temporal planners is the ability to handle temporal uncertainty. We revisit t...
A Simple Temporal Network with Uncertainty (STNU) is a framework for representing and reasoning abou...
Automated Planning is an active area within Artificial Intelligence. With the help of computers we c...
Most existing works in Probabilistic Simple Temporal Networks (PSTNs) base their frameworks on well-...
Temporal networks are expressive formalisms employed in AI to model, validate, and execute temporal ...
Probabilistic Simple Temporal Networks (PSTN) are used to represent scheduling problems under uncert...
Dynamically controllable simple temporal networks with uncertainty (STNU) are widely used to represe...
Abstract: A Simple Temporal Network (STN) is a structure containing time-points and temporal constra...
In Temporal Planning a typical assumption is that the agent controls the execution time of all event...
Simple Temporal Networks with Uncertainty (STNUs) provide a useful formalism with which to reason ab...
The Temporal Network with Uncertainty (TNU) modeling framework is used to represent temporal knowled...
A conditional simple temporal network with uncertainty (CSTNU) is a framework able to model temporal...
Temporal formalisms are essential for reasoning about actions that are carried out over time. The ex...
An important issue for temporal planners is the ability to handle temporal uncertainty. Recent paper...
The Probabilistic Simple Temporal Network (PSTN) generalizes Simple Temporal Networks with Uncertain...
An important issue for temporal planners is the ability to handle temporal uncertainty. We revisit t...
A Simple Temporal Network with Uncertainty (STNU) is a framework for representing and reasoning abou...
Automated Planning is an active area within Artificial Intelligence. With the help of computers we c...
Most existing works in Probabilistic Simple Temporal Networks (PSTNs) base their frameworks on well-...
Temporal networks are expressive formalisms employed in AI to model, validate, and execute temporal ...
Probabilistic Simple Temporal Networks (PSTN) are used to represent scheduling problems under uncert...