An Efficient Algorithm for the Fast Delivery Problem

Abstract: We study a problem where k autonomous mobile agents are initially located on distinct nodes of a weighted graph (with n nodes and m edges). Each autonomous mobile agent has a predefined velocity and is only allowed to move along the edges of the graph. We are interested in delivering a package, initially positioned in a source node s, to a destination node y. The delivery is achieved by the collective effort of the autonomous mobile agents, which can carry and exchange the package among them. The objective is … Show more

“…The solution in [16] suggests that these algorithms can be implemented in all kind of networks with complexity of Dijkstra O ðV 2 + EÞ, Bellman O ðVÞ 3 , and Floyd O ðVEÞ. The paper [17] suggests a solution with O ðkV log ðkVÞ + kEÞ complexity for a fast delivery problem. The complexity of Bellman is O ðVÞ 3 , and the complexity of Dijkstra is O ðVÞ 2 if the network is fully connected or near to the fully connected [18].…”

A Robust Graph Theoretic Solution of Routing in Intelligent Networks

“…The solution in [16] suggests that these algorithms can be implemented in all kind of networks with complexity of Dijkstra O ðV 2 + EÞ, Bellman O ðVÞ 3 , and Floyd O ðVEÞ. The paper [17] suggests a solution with O ðkV log ðkVÞ + kEÞ complexity for a fast delivery problem. The complexity of Bellman is O ðVÞ 3 , and the complexity of Dijkstra is O ðVÞ 2 if the network is fully connected or near to the fully connected [18].…”

A Robust Graph Theoretic Solution of Routing in Intelligent Networks

New Approximation Algorithms for the Heterogeneous Weighted Delivery Problem

Message Delivery in the Plane by Robots with Different Speeds