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Smart city article details
| Title | Lightweight Cryptography Approach For Multifactor Authentication In Internet Of Things |
|---|---|
| ID_Doc | 35255 |
| Authors | Singh Y.; Singh A. |
| Year | 2022 |
| Published | MysuruCon 2022 - 2022 IEEE 2nd Mysore Sub Section International Conference |
| DOI | http://dx.doi.org/10.1109/MysuruCon55714.2022.9972623 |
| Abstract | IoT is developing into a vast web of heterogeneous networks that are expected to interconnect over 41 billion gadgets by 2025, producing about 79 zettabytes of data. The heterogeneous network will enable a wide range of digital services that use cloud and communication technologies to power applications for smart cities. It is crucial to safeguard their communications as consumers access these services remotely in a pervasive environment across open channels. The people who have access to the useful data collected by IoT devices are known as IoT users. The Internet of Things (IoT) users control smart gadgets with worldwide internet connectivity to access global data. Identity, passwords, and biometrics are the main considerations for authenticating IoT users. Biometrics is one of the important components in this case because it is unique to each IoT user and enables proper user authentication. This authentication is done using the SHA3 with Chaotic Behavior method. Multi-factor OTP (Biometric data, Random Number), timestamp, contest, and password are the foundations for authenticating. This system dramatically reduced the compute, communication, and authentication costs while mitigating the aforementioned vulnerabilities. Using the commonly used Burrows-AbadiNeedham (BAN) logic, we have demonstrated the validity of the method and examined its efficiency using a simulator. © 2022 IEEE. |
| Author Keywords | BAN Logic; Internet of Things; Lightweight Cryptography and SHA-3; Multifactor Authentication |
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