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An Architecture For Electronic Voting

An Architecture For Electronic Voting. Master Thesis Presentation Clifford Allen McCullough Department of Computer Science University of Colorado at Colorado Springs October ??, 2012. Outline. The Need for an E-Voting S ystem US Voluntary Voting System Guidelines Existing Solutions

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An Architecture For Electronic Voting

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  1. An Architecture ForElectronic Voting Master Thesis Presentation Clifford Allen McCullough Department of Computer Science University of Colorado at Colorado Springs October ??, 2012

  2. Outline The Need for an E-Voting System US Voluntary Voting System Guidelines Existing Solutions Proposed Architecture A Demonstration System Performance Comparisons Lessons Learned Future Work Summary An Architecture for Electronic Voting by Clifford Allen McCullough

  3. I. The Need for an E-Voting System Business Board of Directors Proxy votes US citizens overseas US military overseas An Architecture for Electronic Voting by Clifford Allen McCullough

  4. II. US Voluntary Voting System Guidelines (VVSG) Security Accuracy Error Recovery Integrity Vote Tabulation Casting a Ballot Accessibility Independent Verification System An Architecture for Electronic Voting by Clifford Allen McCullough

  5. III. Existing Solutions Commercial web-based voting systems are available Secure Electronic Registration and Voting Experiment (SERVE) Security Peer Review Group (SPRG) An Architecture for Electronic Voting by Clifford Allen McCullough

  6. IV. Proposed Architecture Design Requirements General Schema The System Architecture Paillier Cryptography An Architecture for Electronic Voting by Clifford Allen McCullough

  7. Design Requirements • VVSG • Information Assurance general rules • Minimize the attach surface • Mitigate the vulnerabilities An Architecture for Electronic Voting by Clifford Allen McCullough

  8. General Schema Should not be centralized Greatest vulnerability are from insider attacks Denial of service Keep control of the ballot Publish the web application An Architecture for Electronic Voting by Clifford Allen McCullough

  9. The System Architecture Voting-Server Voter Authentication Issue Presentation Verify the Ballot Casting the Ballot Mutual Authentication An Architecture for Electronic Voting by Clifford Allen McCullough

  10. System Diagram An Architecture for Electronic Voting by Clifford Allen McCullough

  11. Paillier Cryptography Exponential Homomorphic Generalized Paillier An Architecture for Electronic Voting by Clifford Allen McCullough

  12. V. A Demonstration System A 32-bit demonstration and development system a.k.aESXi A 64-bit demonstration system a.k.a UCCS An Architecture for Electronic Voting by Clifford Allen McCullough

  13. 32-bit Development System An Architecture for Electronic Voting by Clifford Allen McCullough

  14. 64-bit Demonstration System An Architecture for Electronic Voting by Clifford Allen McCullough

  15. VI. Performance Comparisons Cryptographic Methods Cryptographic Key Generation Block Paillier vs. Generalized Paillier Ballot Casting An Architecture for Electronic Voting by Clifford Allen McCullough

  16. VII. Lessons Learned Freeware Internet Forums Using Multiple Programing Languages An Architecture for Electronic Voting by Clifford Allen McCullough

  17. VIII. Future Work Redundancy Secret Share Encryption and Decryption Error Handling and Logging Ballot Generation Ballot and Multi-lingual Database Quorum Login An Architecture for Electronic Voting by Clifford Allen McCullough

  18. IX. Summary Developing an Election Assistance Commission compliant voting system is a significant undertaking SERVE objective too much too soon Much future work available The demonstration system is a proof of concept An Architecture for Electronic Voting by Clifford Allen McCullough

  19. Demonstration Generate and load a key Initialize services Vote Collect the tally Decrypt the tally An Architecture for Electronic Voting by Clifford Allen McCullough

  20. References MotionVoter. (2011). Retrieved March 6, 2012, from http://www.motionvoter.com/ Cardellini, V., Casalicchio, E., Colajanni, M., & Yu, P. S. (2002). The State of the Art in Locally Distributed Web-Server Systems. ACM Computing Surveys, Vol 34, No 2, 263-311. Damgard, I. B., & Jurik, M. J. (December 2000). A Generalisation, a Simplification and some Applications of Paillier'sProbabilstic Public-Key System. Basic Research in Computer Science, RS-00-45. Defense, D. o. (2007). Expanding the Use of Electronic Voting Technology for UOCAVA Citizens. Department of Defense. EAC. (2010). Election Assistance Commission. Retrieved February 29, 2012, from http://www.eac.gov/ EAC Voting System Testing and Certification Division. (2011). A Survey of Internet Voting. Washington, DC 20005. EAC VVSG Vol I. (2010). Voluntary Voting System Guidelines Volume I. Retrieved August 24, 2012, from United States Election Assistance Commission: http://www.eac.gov/testing_and_certification/voluntary_voting_system_guidelines.aspx EAC VVSG Vol II. (2010). Voluntary System Guidelines Volume II. Retrieved August 24, 2012, from United States Election Assistance Commission: http://www.eac.gov/testing_and_certification/voluntary_voting_system_guidelines.aspx Jefferson, D. D., Rubin, D. A., Simons, D. B., & Wagner, D. D. (2004). A Security Analysis of the Secure Electronic Registration and Voting Experiment (SERVE). Paillier, P. (1999). Public-Key Cryptosystems Based on Composite Degree ResiduosityClases. Advances in Cryptology - Eurocrypt '99, pp. 223-238. Shamir, A. (November, 1979). How to Share a Secret. Communications of the ACM, 612-613. Vote-Now. (n.d.). Retrieved March 6, 2012, from https://secure.vote-now.com/ An Architecture for Electronic Voting by Clifford Allen McCullough

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