| dc.description.abstract | IoT-based systems have revolutionized various
sectors by improving efficiency and decision-making.
However, the increased interconnectivity and complexity
have heightened security concerns, including
vulnerabilities in communication protocols, inadequate
encryption, and insufficient access control mechanisms,
risking sensitive data and system integrity. This study
proposes a comprehensive security framework tailored for
IoT-based systems in industrial environments. By
integrating advanced encryption, authentication protocols,
and intrusion detection systems. This study is to develop
effective security mechanisms and strategies that can be
integrated into IoT-based systems to mitigate potential
security threats. The foundation for creating strong
security measures that will protect IoT-based systems
against various cyberattacks will come from this study. A
specific testing environment, utilizing specific
tools/technologies, e.g., simulated IoT networks, real-time
monitoring tools, will be developed to evaluate the
effectiveness of the proposed security measures against
potential cyberattacks. The suitability and flexibility of the
many suggested security improvements in a range of IoT
based systems are further confirmed by case studies. The
benefits and drawbacks of the suggested security methods
are illustrated by the outcomes of experiments and case
studies. In conclusion, this research contributes to the
enhancement of security in modern IoT-based systems by
providing effective mechanisms to address critical
vulnerabilities and enhance system reliability. By
implementing these security enhancements, the research
provides a framework that ensures the confidentiality,
integrity, and availability of data in IoT systems,
minimizing risks and enhancing system reliability. These
findings have the potential to influence future IoT system
designs and contribute to the development of industry-wide
security standards | en_US |
