Abstract
The Internet of Things (IoT) is reported as a main research topic in the current decade. It will be possible to connect smart devices to each other using IoT, a platform such as the Internet. However, the expansion and intrusion of such a large network raises some new security issues and risks related to the disclosure of user confidential information where these devices are subject to hacker threats and intrusions. Traditional security systems were password based. In this paper, after reviewing the actions taken in this regard, the improvement level of biometric security compared with traditional password-based methods will be proven in section three using the Markov model. By considering the results of the evaluation, the probability of occurrence of security problems is decreased by 90.71% by applying biometric features. Then, multi-layer security architecture with biometric features and coding systems is suggested to increase security. In the first layer, the fingerprint recognition algorithm is dependent on the module, and the U.are.U 5100 module provides more security than others. In the second layer, the Hash mechanism of the MD5 algorithm is, on average, 63.21% more efficient. By determining the properties of the first two architectural layers and ultimately for the IoT application layer, empirical methods and hardware platforms for the Internet of things are used. Concerning the simulation results, the suggested mechanism enhances the system security by 120.38% on average, which is 106.23, 110.45, and 144.46% of relative improvement compared with IoT sensors, controller layer mechanisms, and application layer mechanisms, respectively.
Highlights
Internet of ings (IoT) [1] is one of the new popular technologies in the modern era whose security and confidentiality is still a controversial topic in this field
IoT primarily requires the precise mechanisms of confidentiality, integrity, authentication, and access control model. e current Internet is constantly under attack due to technical, legal, and human problems. is issue leads to hundreds of new security challenges that should be addressed in detail
Fingerprint is a reliable biometric feature that is addressed in a wide range of applications requiring authentication
Summary
Internet of ings (IoT) [1] is one of the new popular technologies in the modern era whose security and confidentiality is still a controversial topic in this field. Fingerprint is a reliable biometric feature that is addressed in a wide range of applications requiring authentication. Biometric systems such as fingerprints provide tools to create reliable reports and protect the privacy of authorized users [5]. Is controller’s performance can be upgraded based on the algorithms to support a variety of IoT sensors and communication platforms Another improvement is the simultaneous use of biometric sensors and back-up communication paths to address security threats in each layer of the IoT. (iv) Security enhancement for user authentication and confirmation, a combination of password and biometric features are used to identify the person and allow access to the IoT.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
