Trajectory Scheduling for Timely Data Report in Underwater Wireless Sensor Networks

This paper considers underwater wireless sensor networks (UWSNs) for surveillance and monitoring. Sensors are distributed in several key sections along the seafloor to record the surrounding environment, for example, monitoring oil pipelines and submarine volcanoes. Due to the need for timely data reporting and the fact that underwater communications suffer from a significant signal attenuation, homogeneous autonomous underwater vehicles (AUVs) are sent to retrieve information from the sensors, and periodically surface to report the collected data to the sink. In this paper, considering the huge energy consumption of surfacing and diving, our objective is to determine a trajectory schedule for the AUVs so that the total amount of surfacing for all the AUVs are minimized, and the data is reported to sink within the deadline. We first investigate the influence of different movement directions of AUVs, and provide the optimal solution to minimize the amount of surfacing for multiple AUVs within the same sensor section. Then, we propose a greedy detouring scheme to collaboratively schedule the AUVs in adjacent sensor sections. Extensive experiments show that our trajectory scheduling improves performance significantly.

[1]  Ladislau Bölöni,et al.  Maximizing the value of sensed information in underwater wireless sensor networks via an autonomous underwater vehicle , 2014, IEEE INFOCOM 2014 - IEEE Conference on Computer Communications.

[2]  Jie Wu,et al.  On efficient data collection and event detection with delay minimization in deep sea , 2014, CHANTS '14.

[3]  Jie Wu,et al.  A General Data and Acknowledgement Dissemination Scheme in Mobile Social Networks , 2014, 2014 IEEE 11th International Conference on Mobile Ad Hoc and Sensor Systems.

[4]  B. Pirenne,et al.  The NEPTUNE Project - a cabled ocean observatory in the NE Pacific: Overview, challenges and scientific objectives for the installation and operation of Stage I in Canadian waters , 2007, 2007 Symposium on Underwater Technology and Workshop on Scientific Use of Submarine Cables and Related Technologies.

[5]  Yuan Li,et al.  Research challenges and applications for underwater sensor networking , 2006, IEEE Wireless Communications and Networking Conference, 2006. WCNC 2006..

[6]  Jie Wu,et al.  On optimal scheduling of multiple mobile chargers in wireless sensor networks , 2014, MSCC '14.

[7]  J. Hammersley SIMULATION AND THE MONTE CARLO METHOD , 1982 .

[8]  Donghyun Kim,et al.  Multiple heterogeneous data ferry trajectory planning in wireless sensor networks , 2014, IEEE INFOCOM 2014 - IEEE Conference on Computer Communications.