In the context of smart cities, unmanned aerial vehicles (UAVs) offer an alternative way of gathering data and delivering products. On the one hand, in congested urban areas UAVs might represent a faster way of performing some operations than employing road vehicles. On the other hand, they are constrained by driving-range limitations. This paper copes with a version of the well-known Team Orienteering Problem in which a fleet of UAVs has to visit a series of customers. We assume that the rewarding quantity that each UAV receives by visiting a customer is a random variable, and that the service time at each customer depends on the collected reward. The goal is to find the optimal set of customers that must be visited by each UAV without vio...
In the unmanned aerial vehicle (UAV) surveillance-routing problem, a limited fleet of UAVs with driv...
The use of drones in urban logistics is gaining more and more interest. In this paper we consider th...
In this paper, we analyze both the deterministic and stochastic versions of a team orienteering prob...
In the context of smart cities, unmanned aerial vehicles (UAVs) offer an alternative way of gatherin...
We consider the problem of routing a team of unmanned aerial vehicles (drones) being used to take su...
Efficient coordination of unmanned aerial vehicles (UAVs) requires the solving of challenging operat...
The concepts of unmanned aerial vehicles and self-driving vehicles are gaining relevance inside the ...
In smart cities, unmanned aerial vehicles and self-driving vehicles are gaining increased concern. T...
In smart cities, unmanned aerial vehicles and self-driving vehicles are gaining increased concern. T...
The team orienteering problem is a variant of the well-known vehicle routing problem in which a set ...
To overcome the limitation in flight time and enable unmanned aerial vehicles (UAVs) to survey remot...
In the team orienteering problem, a fixed fleet of vehicles departs from an origin depot towards a d...
This work proposes a learnheuristic approach (combination of heuristics with machine learning) to so...
Unmanned aerial vehicles (UAVs) have recently attracted significant attention in a wide range of com...
In this paper we simultaneously consider three extensions to the standard Orienteering Problem (OP) ...
In the unmanned aerial vehicle (UAV) surveillance-routing problem, a limited fleet of UAVs with driv...
The use of drones in urban logistics is gaining more and more interest. In this paper we consider th...
In this paper, we analyze both the deterministic and stochastic versions of a team orienteering prob...
In the context of smart cities, unmanned aerial vehicles (UAVs) offer an alternative way of gatherin...
We consider the problem of routing a team of unmanned aerial vehicles (drones) being used to take su...
Efficient coordination of unmanned aerial vehicles (UAVs) requires the solving of challenging operat...
The concepts of unmanned aerial vehicles and self-driving vehicles are gaining relevance inside the ...
In smart cities, unmanned aerial vehicles and self-driving vehicles are gaining increased concern. T...
In smart cities, unmanned aerial vehicles and self-driving vehicles are gaining increased concern. T...
The team orienteering problem is a variant of the well-known vehicle routing problem in which a set ...
To overcome the limitation in flight time and enable unmanned aerial vehicles (UAVs) to survey remot...
In the team orienteering problem, a fixed fleet of vehicles departs from an origin depot towards a d...
This work proposes a learnheuristic approach (combination of heuristics with machine learning) to so...
Unmanned aerial vehicles (UAVs) have recently attracted significant attention in a wide range of com...
In this paper we simultaneously consider three extensions to the standard Orienteering Problem (OP) ...
In the unmanned aerial vehicle (UAV) surveillance-routing problem, a limited fleet of UAVs with driv...
The use of drones in urban logistics is gaining more and more interest. In this paper we consider th...
In this paper, we analyze both the deterministic and stochastic versions of a team orienteering prob...