An Opportunistic Approach for Cloud Service based IoT Routing Framework Administering Data, Transaction, and Identity Security

Abstract : There has been an asymmetric shift towards harnessing cloud-based technologies as the world focuses on shifting operations remotely. Data security for remote operations is crucial for the protection and preservation of critical infrastructure. Furthermore, there has been an emerging trend to integrate IoT based devices with the expanding cloud infrastructure. In this work, mobile cloudbased infrastructure is considered where contact opportunities are developed in an opportunistic manner so as to facilitate efficient data forwarding and secure process handling. A probabilistic framework is proposed that facilitates data routing between the nodes and local cloud in an IoT network coupled with a multi-tier trust and encryption scheme for secure data delivery in the cloudbased IoT network. The proposed scheme is evaluated with simulations over two datasets against attack resilience and routing efficiency-based performance metrics, comparing to standard protocols like PRoPHET, MaxProp, ProWait and TCAFE, which displays the enhancement in operations of Sec-CIoT.

 EXISTING SYSTEM :

 ? The existing cellular network doesn’t allow to connect all smart devices without centralized infrastructure even if they are very near to each other. ? The MANET model of smart devices in a local communication can work very well using the cloud, it is failed when it connects in exist wired networking framework. ? This mobile app should be installed on every smart device of MANET infrastructure. The experiment was conducted using the smart device with proposed research implementation and other existing algorithms were installed on same configuration devices. ? We notice the performance of the proposed research was better than all existing algorithms.

 DISADVANTAGE :

 ? These problems have been investigated in along with a solution based on reinforcement learning for eNB selection. ? In, an evaluation of RPL for low-power and lossy networks has been conducted in which several problems are identified including: under specification, incompatibility of modes of operation in storing and nonstoring modes, and loops. ? Some other problems have been reported for a 6LoWPAN gateway such as high rate of packet loss, and ease of interference. ? IETF‘s Smart Object Lifecycle Architecture for Constrained Environments (SOLACE) started some work to overcome this problem. ? The IoT increases productivity by analyzing production data, timing and causes of production issues.

 PROPOSED SYSTEM :

 • The proposed research work in this study is an enhancement and implementation of existing mobile ad hoc network communication using the cloud in the framework of the IoT. • The proposed research uses the correct and efficient simulation of the desired study and can be implemented in a framework of the Internet of Things. • The proposed technique will be very useful in machine to machine (M2M) networks because, in the M2M network, there are several devices nearby to each other. • In this article, we proposed a new framework to enhance the capability of MANET and cloud computing on the internet of smart devices that can be useful in the 5G heterogeneous network.

 ADVANTAGE :

 ? The performance comparison between CoAP and HTTP is investigated for energy consumption and response time in. ? Due to its condensed header and small packet size, CoAP is more efficient than HTPP in transmission time and energy usage. ? To carry out their study, the authors used the average number of exchange messages between the client and the server in a specific interval to measure the performance. ? In, the authors also analyzed the performance of MTC communications with a queuing model as well as eNB selection. ? Evaluating the performance of IoT services is a big challenge since it depends on the performance of many components as well as the performance of the underlying technologies.