Abstract
In a large-scale wireless sensor network, a topology is needed to gather state-based data from sensor network and efficiently aggregate the data given the requirements of balanced load, minimal energy consumption, and prolonged network lifetime. In this study, we proposed a ring-based hierarchical clustering scheme (RHC) consisting of four phases: predeployment, parent-child relationship building, deployment, and member join phases. Two node types are distributed throughout the network: cluster head nodes (type 1 node) and general sensor nodes (type 2 node). The type 1 node has better battery life, software capability, and hardware features than the type 2 node; therefore, the type 1 node is a better cluster head than type 2 node. Due to our IP naming rules and type 1 nodes as cluster heads, public key cryptography, such as RSA (Rivest, Shamir, Adleman), or ECC (Elliptic Curve Cryptosystem), is easily implanted to our system to strengthen our security. The sink node is the only certification authority in our system, but n level cluster heads can be extended to n level certification authorities if needed, where n is maximum number of level.
Highlights
In recent years, wireless sensor networks have been studied in many different applications, including environmental monitoring, battlefield surveillance, and other domains
In order to compare with the other schemes, we propose a uniform deployment single level scheme (USL) which has two types of sensor node but from each cluster head to sink needs only one hop
This study proposed a ring-based scheme using two node types to organize a ring-based efficient hierarchical topology with many levels to optimize energy utilization
Summary
Wireless sensor networks have been studied in many different applications, including environmental monitoring, battlefield surveillance, and other domains. In each of these applications, global state-based data are collected by all sensors and periodically transmitted to a sink. Nodes are partitioned into “clusters,” each with a cluster head belonging to a type 1 node and several member nodes belonging to type 2 nodes. The network structure is organized heterogeneously and hierarchically such that cluster head nodes are further classified into different levels, which achieves substantial energy savings, and employing the ring-based way of predeployment. The cluster head nodes in the proposed scheme are deployed according to a predeployment process before deploying general sensor nodes.
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