Probabilistic Simple Temporal Networks (PSTN) are used to represent scheduling problems under uncertainty. In a temporal network that is Strongly Controllable (SC) there exists a concrete schedule that is robust to any uncertainty. We solve the problem of determining Chance Constrained PSTN SC as a Joint Chance Constrained optimisation problem via column generation, lifting the usual assumptions of independence and Boole’s inequality typically leveraged in PSTN literature. Our approach offers on average a 10 times reduction in cost versus previous methods
Conditional simple temporal networks with uncertainty (CSTNUs) allow for the representation of tempo...
Temporal uncertainty in large-scale logistics forces one to trade off between lost efficiency throug...
International audienceWe introduce a new model for the design of concurrent sto-chastic real-time sy...
Probabilistic Simple Temporal Networks (PSTN) are used to represent scheduling problems under uncert...
Scheduling under uncertainty is essential to many autonomous systems and logistics tasks. Probabilis...
Scheduling under uncertainty is essential to many au-tonomous systems and logistics tasks. Probabili...
The controllability of a temporal network is defined as an agent's ability to navigate around the un...
Dynamically controllable simple temporal networks with uncertainty (STNU) are widely used to represe...
The Probabilistic Simple Temporal Network (PSTN) generalizes Simple Temporal Networks with Uncertain...
Inspired by risk-sensitive, robust scheduling for planetary rovers under temporal uncertainty, this ...
Inspired by risk-sensitive, robust scheduling for planetary rovers under temporal uncertainty, this ...
Most existing works in Probabilistic Simple Temporal Networks (PSTNs) base their frameworks on well-...
A number of extensions of simple temporal networks have been proposed over the last years to face se...
A number of extensions of simple temporal networks have been proposed over the last years to face se...
Temporal uncertainty in large-scale logistics forces one to trade off between lost efficiency throug...
Conditional simple temporal networks with uncertainty (CSTNUs) allow for the representation of tempo...
Temporal uncertainty in large-scale logistics forces one to trade off between lost efficiency throug...
International audienceWe introduce a new model for the design of concurrent sto-chastic real-time sy...
Probabilistic Simple Temporal Networks (PSTN) are used to represent scheduling problems under uncert...
Scheduling under uncertainty is essential to many autonomous systems and logistics tasks. Probabilis...
Scheduling under uncertainty is essential to many au-tonomous systems and logistics tasks. Probabili...
The controllability of a temporal network is defined as an agent's ability to navigate around the un...
Dynamically controllable simple temporal networks with uncertainty (STNU) are widely used to represe...
The Probabilistic Simple Temporal Network (PSTN) generalizes Simple Temporal Networks with Uncertain...
Inspired by risk-sensitive, robust scheduling for planetary rovers under temporal uncertainty, this ...
Inspired by risk-sensitive, robust scheduling for planetary rovers under temporal uncertainty, this ...
Most existing works in Probabilistic Simple Temporal Networks (PSTNs) base their frameworks on well-...
A number of extensions of simple temporal networks have been proposed over the last years to face se...
A number of extensions of simple temporal networks have been proposed over the last years to face se...
Temporal uncertainty in large-scale logistics forces one to trade off between lost efficiency throug...
Conditional simple temporal networks with uncertainty (CSTNUs) allow for the representation of tempo...
Temporal uncertainty in large-scale logistics forces one to trade off between lost efficiency throug...
International audienceWe introduce a new model for the design of concurrent sto-chastic real-time sy...