A Two-layer Architecture of Mobile Sinks and Static Sensors

TL;DR

This paper introduces a two-layer architecture for large-scale wireless sensor networks using mobile sinks and static sensors, enhancing scalability, fault tolerance, and sensor lifetime with current IEEE 802.11 devices.

Contribution

The paper presents a novel two-layer MSSSN architecture combining mobile sinks and static sensors, improving scalability and fault tolerance at lower cost.

Findings

Scalability is improved through mobile sink deployment.

Sensor lifetime is extended by limited transmission ranges.

Fault tolerance is enhanced with multiple sink coverage.

Abstract

We propose a two-layer mobile sink and static sensor network (MSSSN) architecture for large scale wireless sensor networks. The top layer is a mobile ad hoc network of resource-rich sink nodes while the bottom layer is a network of static resource-constrained sensor nodes. The MSSSN architecture can be implemented at a lower cost with the currently available IEEE 802.11 devices that only use a single halfduplex transceiver. Each sink node is assigned a particular region to monitor and collect data. A sink node moves to the vicinity of the sensor nodes (within a few hops) to collect data. The collected data is exchanged with peer mobile sinks. Thus, the MSSSN architecture provides scalability, extends sensor lifetime by letting them operate with limited transmission range and provides connectivity between isolated regions of sensor nodes. In order to provide fault tolerance, more than one mobile sink could be collecting data from a given region or a mobile sink could collect data from more than one region. In the later half of the paper, we discuss several open research issues that need to be addressed while implementing the MSSSN architecture.