Abstract
Underwater Sensor Networks (UWSNs) are significantly different from terrestrial sensor networks in the following aspects: low bandwidth, high latency, node mobility, high error probability, and 3-dimensional space. These new features bring many challenges to the network protocol design of UWSNs. In this paper, we tackle one fundamental problem in UWSNs: robust, scalable, and energy efficient routing. We propose vector-based forwarding (VBF), a geographic routing protocol. In VBF, the forwarding path is guided by a vector from the source to the target, no state information is required on the sensor nodes, and only a small fraction of the nodes is involved in routing. To improve the robustness, packets are forwarded in redundant and interleaved paths. Further, a localized and distributed self-adaptation algorithm allows the nodes to reduce energy consumption by discarding redundant packets. VBF performs well in dense networks. For sparse networks, we propose a hop-by-hop vector-based forwarding (HHVBF) protocol, which adapts the vector-based approach at every hop. We evaluate the performance of VBF and HH-VBF through extensive simulations. The simulation results show that VBF achieves high packet delivery ratio and energy efficiency in dense networks and HH-VBF has high packet delivery ratio even in sparse networks.
Highlights
Underwater sensor networks have emerged as a very powerful technique for many applications in underwater environments, including monitoring, measurement, surveillance, and control [1,2,3,4,5,6,7]
Even though underwater sensor networks (UWSNs) share some common properties with terrestrial sensor networks, such as the large number of nodes and the limited energy supplies, UWSNs are significantly different from terrestrial sensor networks in many aspects: low bandwidth, high latency, node mobility, high error probability, and three-dimensional network topology
To enhance the performance of vector-based forwarding (VBF) in sparse networks, we propose a variant of VBF, called hopby-hop VBF (HH-VBF)
Summary
Underwater sensor networks have emerged as a very powerful technique for many applications in underwater environments, including monitoring, measurement, surveillance, and control [1,2,3,4,5,6,7]. Even though underwater sensor networks (UWSNs) share some common properties with terrestrial sensor networks, such as the large number of nodes and the limited energy supplies, UWSNs are significantly different from terrestrial sensor networks in many aspects: low bandwidth, high latency, node mobility (resulting in high network dynamics), high error probability, and three-dimensional network topology These new features bring many challenges to the protocol design of UWSNs. In this paper, we tackle one fundamental problem in UWSNs: robust, scalable, and energy efficient routing. In the phase of route discovery, the source seeks to establish a route toward the destination by flooding a route request message, which would be very costly in dynamic networks These protocols are not suitable for UWSNs. In UWSNs, nodes are usually powered by battery; energy efficiency is one of the major design concerns.
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