Abstract
As a product of the combination of information and energy technology, the energy internet is enormous and complex, and the absence of security safeguards at any aspect of it can cause incalculable damage. Aiming at the problems that Energy Internet terminals are difficult to be trusted and the integrity of massive terminals cannot be guaranteed, this paper designs and implements a set of comprehensive credibility measures and security protection schemes, isolates various malicious operations, and ensures that the system is always in a credible state. Specifically, we develop a secure TF card control program in the Android terminal application layer to realize the overall security scheme. Experimental results prove that this security protection scheme can effectively detect illegal application packages in energy Internet terminal devices, resist malicious programs, and protect key data from theft at the same time, achieving security protection in the "thing-to-thing" interconnection scenario of the Energy Internet.
Highlights
Integrating modern communication, computer and control technologies, the Energy Internet is an energy peer-to-peer exchange and sharing network capable of coordinating power sources, energy storage devices and loads over a wide area to achieve a shift from centralized fossil energy use to distributed renewable energy use[1]
With the massive access to a large number of the Internet of Things (IoT) devices brought about by the gradual expansion of the Energy Internet and the growth of confidential information and sensitive data as the volume of data continues to accumulate in the era of big data, most of the complex work in these end devices has to be done by the operating system
Compared with the traditional Internet, the security development of the Energy Internet still needs refinement, which leads to a fact that the terminal device as an important role in the Energy Internet has gradually become a new focus of the attack by the wrongdoers[2]
Summary
Integrating modern communication, computer and control technologies, the Energy Internet is an energy peer-to-peer exchange and sharing network capable of coordinating power sources, energy storage devices and loads over a wide area to achieve a shift from centralized fossil energy use to distributed renewable energy use[1]. The Energy Internet has the characteristics of open sharing and various distributed devices are coordinated and optimally controlled. China currently advocates building a secure and intelligent Energy Internet to meet global electricity demand as clean and green as possible. Due to the characteristics of low power consumption, Android devices are showing a high growth trend widely used up in the Energy Internet[3]. Ensuring the security of Android devices is a vital cornerstone of the current Energy Internet security protection
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