Embedded security framework for M2M communication using ULBC and Rubik’s Cube encryption algorithm

Abstract

The potential of a variety of stockholders has increased as a direct result of the development of the Internet of Things and cloud computing. These individuals are now able to communicate and share data in a productive manner. This interaction with devices is regarded as extremely helpful and advantageous by a lot of users. Inadequate configuration of a network system makes it an easy target for potential security breaches. This is why it is important that a security framework is developed for the Internet of Things (IoT) and cloud computing models. This paper talks about the various frameworks that are used in these two technologies. It also explores the various security methods that are used to protect the devices that are connected to the cloud. Numerous studies have shown that there are various ways that people can manipulate the operations of machine-to-machine (M2M) in the digital world. While analyzing the methodology used in this technology, it is also important to keep in mind the security levels of the cloud and IoT ecosystem. The development of a secure connection between the various devices that are connected to the cloud is also important to ensure that the network is protected from security threats. This paper aims to provide a framework that will allow the integration of the Cloud and IoT and the Cloud Framework for Machine-to-Machine communication. The paper aims to develop a secure framework that will allow the integration of the Cloud and IoT with secure framework for Machine-to-Machine communication using (ultra-lightweight block cipher) ULBC and Rubik’s Cube encryption algorithm.