A Framework to Make Voting System Transparent Using Blockchain Technology

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Product Code: Java - Blockchain
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Product Description

Aim:

           We are presenting a new e-Voting System with Face Verification that will overcome the drawbacks of the current voting methods that are used in India.

Abstract:

         Currently, the voting system in India is in efficient and vulnerable to outer threats, the only thing that the security checks is a voter ID card, which these days are faked by many. It is slow and counting the votes manually can take a long time. In some rural areas, where there is not much security available, polling booths are captured and often most ballots are destroyed. So, the development of such a system which is online will cut out these possibilities and many votes can be saved through this system even if such incidents occur. Most voting systems are not transparent enough; this makes it very difficult for the government to gain voters' trust. The reason behind the failure of the traditional and current digital voting system is that it can be easily exploited. The primary objective is to resolve problems of the traditional and digital voting system, which include any kind of mishap or injustice during the process of voting. Block chain technology can be used in the voting system to have a fair election and reduce injustice. The electronic voting has emerged over time as a replacement to the paper-based voting to reduce the redundancies and inconsistencies. The historical perspective presented in the last two decades suggests that it has not been so successful due to the security and privacy   observed over time. This paper suggests a framework by using effective hashing techniques to ensure the security of the data. The concept of block creation and block sealing is introduced in this paper. The introduction of a block sealing concept helps in making the block chain adjustable to meet the need of the polling process. The use of consortium block chain is suggested, which ensures that the block chain is owned by a governing body (e.g., election commission), and no unauthorized access can be made from outside. The framework proposed in this paper discusses the effectiveness of the polling process, hashing algorithms' utility, contract and block creation and sealing, data accumulation, and result declaration by using the adjustable block chain method. This paper claims to apprehend the security and data management challenges in block chain and provides an improved manifestation of the electronic voting process.

Aim:

           We are presenting a new e-Voting System with Face Verification that will overcome the drawbacks of the current voting methods that are used in India.

Abstract:

         Currently, the voting system in India is in efficient and vulnerable to outer threats, the only thing that the security checks is a voter ID card, which these days are faked by many. It is slow and counting the votes manually can take a long time. In some rural areas, where there is not much security available, polling booths are captured and often most ballots are destroyed. So, the development of such a system which is online will cut out these possibilities and many votes can be saved through this system even if such incidents occur. Most voting systems are not transparent enough; this makes it very difficult for the government to gain voters' trust. The reason behind the failure of the traditional and current digital voting system is that it can be easily exploited. The primary objective is to resolve problems of the traditional and digital voting system, which include any kind of mishap or injustice during the process of voting. Block chain technology can be used in the voting system to have a fair election and reduce injustice. The electronic voting has emerged over time as a replacement to the paper-based voting to reduce the redundancies and inconsistencies. The historical perspective presented in the last two decades suggests that it has not been so successful due to the security and privacy   observed over time. This paper suggests a framework by using effective hashing techniques to ensure the security of the data. The concept of block creation and block sealing is introduced in this paper. The introduction of a block sealing concept helps in making the block chain adjustable to meet the need of the polling process. The use of consortium block chain is suggested, which ensures that the block chain is owned by a governing body (e.g., election commission), and no unauthorized access can be made from outside. The framework proposed in this paper discusses the effectiveness of the polling process, hashing algorithms' utility, contract and block creation and sealing, data accumulation, and result declaration by using the adjustable block chain method. This paper claims to apprehend the security and data management challenges in block chain and provides an improved manifestation of the electronic voting process.

Proposed System

The proposed system is the face Verified online voting system with Face Verification using Block chain Address. It determines the particular voter by his/her Block chain Address   whether he/she is a valid voter or not. It allows particular voter to cast the vote online. The polling process continues until the voting time ends and  update the database in the server. Face Verification online voting system uses Block chain Address   to retrieve the complete details about the voter. And the votes are stored in a block chain server and viewed to the public this ensure a trustworthy environment.

Advantage

  • Voter can cast their votes from anywhere in the country without visiting to voting booths, in highly secured way.
  • This will increase the voting percentage in India and reduces the cost of voting process.
  • By using Face Verification it provides enough security which reduces the false votes.
  • The collection of the results is done from the stored data on the blocks through the significant organization of the nodes in the block chain.

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Package Includes

Software Projects Includes

  1. Demo  Video
  2. Abstract
  3. Base paper
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  7. Source Code
  8. Screen Shots
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  10. Reference Papers
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The Delivery time for software projects is 2 -3 working days. Some of the software projects will require Hardware interface. Please go through the hardware Requirements in the abstract carefully. The Hardware will take 7-8 Working Days

 

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  1. Demo  Video
  2. Abstract
  3. Base paper
  4. Full Project PPT
  5. Datasheets
  6. Circuit Diagrams
  7. Source Code
  8. Screen Shots & Photos
  9. Software Links
  10. Reference Papers
  11. Lit survey
  12. Full Project Documentation
  13. Online support


The Delivery time for Hardware projects is 7-8 working days.

   

Mini Projects: Software Includes

  1. Demo  Video
  2. Abstract
  3. Base paper
  4. Full Project PPT
  5. UML Diagrams
  6. SRS
  7. Source Code
  8. Screen Shots
  9. Software Links
  10. Reference Papers
  11. Full Project Documentation
  12. Online support

 

The Delivery time for software Miniprojects is 2 -3 working days.

 

Mini Projects - Hardware includes

  1. Demo  Video
  2. Abstract
  3. PPT
  4. Datasheets
  5. Circuit Diagrams
  6. Source Code
  7. Screen Shots & Photos
  8. Software Links
  9. Reference Papers
  10. Full Project Documentation
  11. Online support

The Delivery time for Hardware Mini projects is 7-8 working days.