In this paper, we give the first constant-factor approximation algorithm for the rooted ORIENTEERING problem, as well as a new problem that we call the DISCOUNTED-REWARD-TSP, motivated by robot navigation. In both problems, we are given a graph with lengths on edges and rewards on nodes, and a start node s. In the ORIENTEERING problem, the goal is to find a path starting at s that maximizes the reward collected, subject to a hard limit on the total length of the path. In the DISCOUNTED-REWARD-TSP, instead of a length limit we are given a discount factor γ, and the goal is to maximize total discounted reward collected, where reward for a node reached at time t is discounted by γt. This problem is motivated by an approximation to a planning p...
Consider a salesperson that must sell some quota of brushes in order to win a trip to Hawaii. This s...
We consider an online version of the orienteering problem, where stochastic service requests arise d...
We have found two admissible heuristics that we use within a branch and bound frameworkto compute op...
AbstractProblems associated with determining optimal routes from one or several depots (origin, home...
Problems associated with determining optimal routes from one or several depots (origin, home city) t...
The probabilistic orienteering problem (POP) is defined on a directed graph where a cost is associat...
The capacitated team orienteering problem with time windows (CTOPTW) is a problem to determine playe...
We introduce a generalized Orienteering Problem where, as usual, a vehicle is routed from a prescrib...
The time-dependent orienteering problem is dual to the time-dependent traveling salesman problem. It...
The input to the stochastic orienteering problem (Gupta et al. in SODA, pp 1522–1538, 2012) consist...
This tutorial introduces readers to several variants of routing problems with profits. In these rout...
In the Orienteering Problem (OP), a set of nodes is given, each with a profit. The goal is to determ...
Consider a salesperson that must sell some quota of brushes in order to win a trip to Hawaii. This s...
In this paper we discuss the team orienteering problem (TOP) with dynamic inputs. In the static vers...
Consider a salesperson that must sell some quota of brushes in order to win a trip to Hawaii. This s...
We consider an online version of the orienteering problem, where stochastic service requests arise d...
We have found two admissible heuristics that we use within a branch and bound frameworkto compute op...
AbstractProblems associated with determining optimal routes from one or several depots (origin, home...
Problems associated with determining optimal routes from one or several depots (origin, home city) t...
The probabilistic orienteering problem (POP) is defined on a directed graph where a cost is associat...
The capacitated team orienteering problem with time windows (CTOPTW) is a problem to determine playe...
We introduce a generalized Orienteering Problem where, as usual, a vehicle is routed from a prescrib...
The time-dependent orienteering problem is dual to the time-dependent traveling salesman problem. It...
The input to the stochastic orienteering problem (Gupta et al. in SODA, pp 1522–1538, 2012) consist...
This tutorial introduces readers to several variants of routing problems with profits. In these rout...
In the Orienteering Problem (OP), a set of nodes is given, each with a profit. The goal is to determ...
Consider a salesperson that must sell some quota of brushes in order to win a trip to Hawaii. This s...
In this paper we discuss the team orienteering problem (TOP) with dynamic inputs. In the static vers...
Consider a salesperson that must sell some quota of brushes in order to win a trip to Hawaii. This s...
We consider an online version of the orienteering problem, where stochastic service requests arise d...
We have found two admissible heuristics that we use within a branch and bound frameworkto compute op...