Due to the increase of cybercrime and security risks in computer networks as well as violations of user privacy, it is essential to upgrade the existing protection models and provide practical solutions to meet these challenges. An example of these risks is the presence of a third party between users and various services, which leads to the collection and control of large amounts of users' personal information and the possibility of their databases being misused or hacked. Blockchain technology and encrypted currencies have so far shown that a decentralized network of peer-to-peer users, along with a general ledger, can do reliable computing. So, in this article, we are going to introduce a protocol that converts the blockchain network to an automated access control manager without the presence of a third party. To this end, we designed a mutual authentication protocol to create a secure channel between the user and the service and then demonstrate its accuracy and completeness using the Gong-Nidham-Yahalom belief logic [1]. The results of our evaluations show that our proposed protocol is secure enough to be used on the blockchain network and attackers are unable to penetrate, track, impersonate, inject, misrepresent or distort information using the common attacks.

The RPL routing protocol is one of the most prominent protocols for low-power wireless networks. It has many benefits, including high flexibility and compatibility with different topologies, quality assurance, automatic configuration, self-healing, avoiding the creation of tree loops, and independence and transparency. Since the RPL's capability to meet the reliability requirements has not been sufficiently investigated and there is not much research about the reliability of this protocol, the purpose of this study is to propose a method for enhancing the reliability of RPL routing protocol in the Smart Grid Neighborhood Area Networks (NAN). We propose three methods for increasing the reliability of the RPL protocol: addition of cache at each node, considering two parents for each node and finally the combination of the two mentioned methods. The type of research is descriptive-analytic. Simulations have been performed in OPNET simulator. The results of this study indicate that the proposed methods significantly increase the reliability of this routing protocol in Smart Grid NAN.