Abstract
The Internet of things (IoT) provides the possibility of communication between smart devices and any object at any time. In this context, wireless nodes play an important role in reducing costs and simple use. Since these nodes are often used in less accessible locations, recharging their battery is hardly feasible and in some cases is practically impossible. Hence, energy conservation within each node is a challenging discussion. Clustering is an efficient solution to increase the lifetime of the network and reduce the energy consumption of the nodes. In this paper, a novel hybrid unequal multi-hop clustering based on density (HCD) is proposed to increase the network lifetime. In the proposed protocol, the cluster head (CH) selection is performed only by comparing the status of each node to its neighboring nodes. In this new technique, the parameters involving energy of nodes, the number of neighboring nodes, the distance to the base station (BS), and the layer where the node is placed in are considered in CH selection. So, in this new and simple technique considers energy consumption of the network and load balancing. Clustering is performed unequally so that cluster heads (CHs) close to BS have more energy for data relay. Also, a hybrid dynamic–static clustering was performed to decrease overhead. In the current protocol, a distributed clustering and multi-hop routing approach was applied between cluster members (CMs), to CHs, and CHs to BS. HCD is applied as a novel assistance to cluster heads (ACHs) mechanism, in a way that a CH accepts to use member nodes with suitable state to share traffic load. Furthermore, we performed simulation for two different scenarios. Simulation results showed the reliability of the proposed method as it was resulted in a significant increase in network stability and energy balance as well as network lifetime and efficiency.
Highlights
The Internet of Things (IoT) is based on the fact that each object or thing can use wireless communication to communicate with each other [1]
To evaluate network stability, efficiency, and throughput of the proposed algorithm, this algorithm was compared to Energy and coverage-aware distributed clustering (ECDC) (2013) [24], Hybrid unequal clustering with layering protocol (HUCL) (2015) [15], and EADUC-II (2016) [25] algorithms
We considered a distributed clustering method and performed routing between cluster head (CH) and base station (BS) on the basis of multi-hop routing
Summary
The Internet of Things (IoT) is based on the fact that each object or thing can use wireless communication to communicate with each other [1]. IoT has attracted attentions of societies, governments, and industries for a wide range of applications including smart homes, hSuesataltinhacbailirtey 2s0e1r8v, i1c0e, sx,FeOnRvPirEoEnRmREeVnItEaWl monitoring, smart transportation, smart networks, security, ofifr2e8 detection, finance tracking, smart lighting, etc. IInn tthhisiscocnotnetxetx,tw, iwreilreeslsesssensseonrsnoertwneotrwksor(kWsS(NWs)SNplsa)y palnayimapnoritmanptorrotlaenitnrionlcereiansiningcrtheaesninugmbtheer onfumnebtewroorfksnewtwitohrklosww-citohstloswm-acrotstdsemviacretsdwevhiiccehs cwahnicbhe ceaansiblye ienasstialylleinds. SWaSrNe swairdeelwyi-dueselydiunsevdariinouvasrfiioeuldssfiseuldcshsauschenavsieronnvimroennmt, ehneta, lhthea, lmthi,lmitairliytaerytc.etcE.aEcahchnondoedeisiscocommppooseseddooffaa sseennssoorr uunniitt,, pprroocceessssiinngguunniti(tm(micricorcoocnotnrotrlloelrle),rt)h, ethraedrioadcioomcmomunmicuantiiocnatuionnit,uannidt,aannednearngyerneesroguyrcree.sFoiugurcree.
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