Abstract
Integration of blockchain and Internet of Things (IoT) to build a secure, trusted and robust communication technology is currently of great interest for research communities and industries. But challenge is to identify the appropriate position of blockchain in current settings of IoT with minimal consequences. In this article we propose a blockchain-based DualFog-IoT architecture with three configuration filter of incoming requests at access level, namely: Real Time, Non-Real Time, and Delay Tolerant Blockchain applications. The DualFog-IoT segregate the Fog layer into two: Fog Cloud Cluster and Fog Mining Cluster. Fog Cloud Cluster and the main cloud datacenter work in a tandem similar to existing IoT architecture for real-time and non-real-time application requests, while the additional Fog Mining Cluster is dedicated to deal with only Delay Tolerant Blockchain application requests. The proposed DualFog-IoT is compared with existing centralized datacenter based IoT architecture. Along with the inherited features of blockchain, the proposed model decreases system drop rate, and further offload the cloud datacenter with minimal upgradation in existing IoT ecosystem. The reduced computing load from cloud datacenter doesn't only help in saving the capital and operational expenses, but it is also a huge contribution for saving energy resources and minimizing carbon emission in environment. Furthermore, the proposed DualFog-IoT is also being analyzed for optimization of computing resources at cloud level, the results presented shows the feasibility of proposed architecture under various ratios of incoming RT and NRT requests. However, the integration of blockchain has its footprints in terms of latent response for delay tolerant blockchain applications, but real-time and non-real-time requests are gracefully satisfying the service level agreement.
Highlights
Internet of things (IoT) is the most fascinating technological revolution to empower things by connecting and taking autonomous decisions in a smart environment
RESULTS we present results obtained by simulating both, the DualFog-Internet of Things (IoT) and existing Cloud Data Center (CDC)-IoT
Some other proposals suggest to integrate the blockchain at one of the layers of existing Centralized Datacenter based IoT (CDC-IoT) like at Fog and/or at cloud. These proposals mainly focus to deal with the issues like; security, privacy, processing power, storage capacity and reliable communication; and leaving behind the issues related to response to real-time applications, industrial data analytics and energy consumption
Summary
Internet of things (IoT) is the most fascinating technological revolution to empower things by connecting and taking autonomous decisions in a smart environment. To address challenges of scalability, latency, cost and energy consumption involved in IoT architecture, in 2006 Cisco announced Fog computing to bring processing resources at the edge of device [24]. FCC communicates with cloud as in available IoT architecture, while the FMC of trusted fog devices is dedicated to perform the mining operation for blockchain-based applications. It is found that the proposed DualFog-IoT reduces the drop rate and VOLUME XX, 2017 3 offload the fog and cloud layers by releasing a number of hardware resources, which doesn’t only reduce the CAPEX and OPEX involved in establishing and maintaining the CDCs, and reduces the energy consumption of giant CDC. Simulation Model:Simulation of DualFog in JMT simulator (A queuing theory simulator) is novel in itself which provide a base model for simulation of blockchain with IoT
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