Browsing by Author "Elbarbary, Enas"

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    Secured and Transparent Computerized Voting System accessible everywhere
    (American Science, 2014) Elbarbary, Enas; Abdelhady, Ghada; Elbehiery, Hussam; Zekry, Abdelhahim
    Aiding the user to have secured voting system is a must. Early regular voting systems have many drawbacks like the overcrowding of people in the polling stations and hence the traffic problems. The need for great amount of documents that are vulnerable, exposed to forgery, also the difficulty of achieving votes counting, analysis are considered as drawbacks for regular voting systems. This work presents a new smart system for voting process to be secured and transparent. We will call it "Secured and Transparent Computerized Voting system (STCVS)". "STCVS" system could eliminate counterfeiting, hacking. Also, while accessing it from any location, this would save the time spent for voting processes and countries economic performance would be better. Finally, "STCVS" system assures that user's vote will be his own opinion, not influenced by any others. [Enas Elbarbary, Ghada Abdelhady, Hussam Elbehiery, Abdelhahim Zekry. Secured and Transparent Computerized Voting System accessible everywhere
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    Secured Transparent Computerized Voting System performance measurements
    (Science Publishing Corporation, 2015) Elbarbary, Enas; Abdelhady, Ghada; Elbehiery, Hussam; Zekry, Abdelhahim
    In this paper, a multipurpose Secured Transparent Computerized Voting System (STCVS) is proposed. STCVS introduces an improvement methodology to the regular election systems. It could handle electronic ballots with multiple scopes at the same time, e.g., presidential, parliamentary, local, amongst others. STCVS's design warrants well-secured identification and authentication processes for the voter via using voter's digital signatures, certificates. Also, it guarantees voting data protection via encryption. Tallying of the voting counts is achieved automatically; candidates recorded percentages are displayed as charts for the supervision trusted parties. STCVS eliminates counting errors, voting duplication, and vote attack raised in paper-based elections systems. Voting transparency is achieved through the election process steps to assure voting credibility. This is confirmed by a feedback e-mail that the voter receives after finalizing the voting process. In addition, the proposed system saves the huge budget required for authentication devices, Electronic Voting Machines (EVM) that consist similar voting systems. To evaluate the robustness and reliability of the proposed system, performance measurements were achieved by applying the Avalanche Effect (AE) tests. Results of these measurements show the degree of security and the performance of the proposed system.