International audienceFour new algorithms (RFTA1, RFTA2, GFGF2A, and RFTA2GE) handling the event in wireless sensor and robot networks based on the greedy-face-greedy (GFG) routing extended with auctions are proposed in this paper. In this paper, we assume that all robots are mobile, and after the event is found (reported by sensors), the goal is to allocate the task to the most suitable robot to act upon the event, using either distance or the robots' remaining energy as metrics. The proposed algorithms consist of two phases. The first phase of algorithms is based on face routing, and we introduced the parameter called search radius (SR) at the end of this first phase. Routing is considered successful if the found robot is inside SR. After...
We present a robotic system for collecting data from wireless devices dispersed across a large envir...
Abstract—Wireless sensor network (WSN) technology is widely used in environment monitoring, health c...
Summarization: We consider the problem of allocating a number of exploration tasks to a team of mobi...
Four new algorithms (RFTA1, RFTA2, GFGF2A, and RFTA2GE) handling the event in wireless sensor and ro...
Two new algorithms (GFGF1 and GFGF2) for event finding in wireless sensor and robot networks based o...
Abstract. Robots coordinate among themselves to select one of them to re-spond to an event reported ...
In Wireless Sensor and Robot Networks (WSRNs), static sensors report event information to one of the...
Abstract: To solve the robot task allocation problem especially in unknown complex environment, a DP...
Abstract- Wireless sensor network (WSN) technology is widely used in environment monitoring, health ...
We propose a real time single item auction based task allocation method for the multi-robot explorat...
International audienceWireless sensor and robot networks (WSRNs) have emerged as a paradigmatic clas...
Randomly scattered sensors may cause sensing holes and redundant sensors. In carrier-based sensor re...
A fundamental knowledge of the trade-off between sensor cooperation and autonomous vehicles' (AV) tr...
Given a set of events and a set of robots, the dispatch problem is to allocate one robot for each ev...
This work focuses on systems where mobile robots periodically collect data from (static) wireless se...
We present a robotic system for collecting data from wireless devices dispersed across a large envir...
Abstract—Wireless sensor network (WSN) technology is widely used in environment monitoring, health c...
Summarization: We consider the problem of allocating a number of exploration tasks to a team of mobi...
Four new algorithms (RFTA1, RFTA2, GFGF2A, and RFTA2GE) handling the event in wireless sensor and ro...
Two new algorithms (GFGF1 and GFGF2) for event finding in wireless sensor and robot networks based o...
Abstract. Robots coordinate among themselves to select one of them to re-spond to an event reported ...
In Wireless Sensor and Robot Networks (WSRNs), static sensors report event information to one of the...
Abstract: To solve the robot task allocation problem especially in unknown complex environment, a DP...
Abstract- Wireless sensor network (WSN) technology is widely used in environment monitoring, health ...
We propose a real time single item auction based task allocation method for the multi-robot explorat...
International audienceWireless sensor and robot networks (WSRNs) have emerged as a paradigmatic clas...
Randomly scattered sensors may cause sensing holes and redundant sensors. In carrier-based sensor re...
A fundamental knowledge of the trade-off between sensor cooperation and autonomous vehicles' (AV) tr...
Given a set of events and a set of robots, the dispatch problem is to allocate one robot for each ev...
This work focuses on systems where mobile robots periodically collect data from (static) wireless se...
We present a robotic system for collecting data from wireless devices dispersed across a large envir...
Abstract—Wireless sensor network (WSN) technology is widely used in environment monitoring, health c...
Summarization: We consider the problem of allocating a number of exploration tasks to a team of mobi...