| Title | Cybersecurity architecture functional model for cyber risk reduction in IoT based wearable devices |
| Publication Type | Conference Paper |
| Year of Publication | 2021 |
| Authors | Gómez, Giancarlo, Espina, Enrique, Armas-Aguirre, Jimmy, Molina, Juan Manuel Madrid |
| Conference Name | 2021 Congreso Internacional de Innovación y Tendencias en Ingeniería (CONIITI) |
| Keywords | cyber risk reduction, Cybersecurity Architecture, Framework, Human Behavior, Internet of Things, ISO standards, performance evaluation, Pregnancy, privacy, Proposals, pubcrawl, resilience, Resiliency, risk management, Scalability, security, wearable computers, wearable devices, wearables security |
| Abstract | In this paper, we propose a functional model for the implementation of devices that use the Internet of Things (IoT). In recent years, the number of devices connected to the internet per person has increased from 0.08 in 2003 to a total of 6.58 in 2020, suggesting an increase of 8,225% in 7 years. The proposal includes a functional IoT model of a cybersecurity architecture by including components to ensure compliance with the proposed controls within a cybersecurity framework to detect cyber threats in IoT-based wearable devices. The proposal focuses on reducing the number of vulnerabilities present in IoT devices since, on average, 57% of these devices are vulnerable to attacks. The model has a 3-layer structure: business, applications, and technology, where components such as policies, services and nodes are described accordingly. The validation was done through a simulated environment of a system for the control and monitoring of pregnant women using wearable devices. The results show reductions of the probability index and the impact of risks by 14.95% and 6.81% respectively. |
| DOI | 10.1109/CONIITI53815.2021.9619624 |
| Citation Key | gomez_cybersecurity_2021 |
Cybersecurity architecture functional model for cyber risk reduction in IoT based wearable devices