Biblio

Filters: Author is Abi Sen, Adnan Ahmed  [Clear All Filters]
2023-07-21
Almutairi, Mishaal M., Apostolopoulou, Dimitra, Halikias, George, Abi Sen, Adnan Ahmed, Yamin, Mohammad.  2022.  Enhancing Privacy and Security in Crowds using Fog Computing. 2022 9th International Conference on Computing for Sustainable Global Development (INDIACom). :57—62.
Thousands of crowded events take place every year. Often, management does not properly implement and manage privacy and security of data of the participants and personnel of the events. Crowds are also prone to significant security issues and become vulnerable to terrorist attacks. The aim of this paper is to propose a privacy and security framework for large, crowded events like the Hajj, Kumbh, Arba'een, and many sporting events and musical concerts. The proposed framework uses the latest technologies including Internet of Things, and Fog computing, especially in the Location based Services environments. The proposed framework can also be adapted for many other scenarios and situations.
2022-02-09
Abi Sen, Adnan Ahmed, M Alawfi, Ibrahim Moeed, Aloufi, Hazim Faisal, Bahbouh, Nour Mahmoud, Alsaawy, Yazed.  2021.  Comparison among Cooperation, Anonymity and Cloak Area Approaches for Preserving Privacy of IoT. 2021 8th International Conference on Computing for Sustainable Global Development (INDIACom). :413–416.
As a result of the importance of privacy at present, especially with the modern applications and technologies that have spread in the last decade, many techniques and methods have appeared to preserve privacy and protect users' data from tracking, profiling, or identification. The most popular of these technologies are those which rely on peer-to-peer or third-party cooperation. But, by reviewing a significant portion of existing research articles related to privacy, we find considerable confusion amongst several concepts and ways of protection, such as the concept of cloak area, Anonymizer, cooperation, and Third Party Peers (TTP). In this research, we revisit and review these approaches, which contain an overlap between them to distinguish each one clearly with the help of graphs and to remove their ambiguity. In this way, we shall be able provide a ready-reckoner to those interested in this field to easily differentiate between them and thus work to develop them and provide new methods. In other words, this research seeks to enhance the privacy and security in smart applications and technologies in the IoT and smart city environments.