Secure and Efficient Electronic Voting Machine Using IoT

Autor: Ramesh Kalyan G, Bharanidharan K, Menaka p, Nivash M, Praveen Kumar M
Rok vydání: 2023
Předmět:
Zdroj: International Journal for Research in Applied Science and Engineering Technology. 11:1886-1891
ISSN: 2321-9653
Popis: The Secured voting machine is developed to avoid all the apparel conditioning in the election process. Results are blazoned to every individual namer who suggested in the election, this point is lacking in the being electronic voting machine. Vote counting, affect assaying, affect publications are taking further time and also more homemade crimes happens in this process when we use current Electronic Voting Machine. We concentrated on the main issue that namer have to travel to their own native for advancing in the electronlike. The namer must go to the position where their namer ID is registered, also only they allow them to bounce. To develop a compact near field communication device for the choosers to poll their vote in order to have the voting process in a secured and effective introductory conception of this charge is to produce a digital voting system as a way to help to get relieve of defrauding of the homemade voting structures like paper- grounded voting system, in this there is a chance of casting vote further than formerly and prior. The proposed machine is which includes a couple of layers of verifications to insure the trust ability of the device. With the addition of biometric point detector, every namer is entered into the contrivance simplest after being diagnosed and checked with the given database of enlisted choosers. Once the corresponding point is matched with the records handed, the namer will be allowed to do for opting their preferred seeker from the panel of buttons. The final vote is also displayed onto a Liquid Cristal Display for the pride of choosers. The proposed design displays translucency and also carries the characteristic of being independent for the duration of the path of operation.
Databáze: OpenAIRE