The document summarizes the history, development, features, and operation of electronic voting machines (EVMs) used in India. It discusses how the concept of EVMs was proposed in 1977 to reduce election costs. Public sector companies developed prototype machines that were tested from 1980 onward. The final EVM design incorporates tamper-proof hardware and software to securely store votes. An EVM has a ballot unit for voting and a control unit for administering the process. Nearly 1 million machines have been deployed, with a low failure rate, saving around $40 million compared to paper ballots.
This document describes a mini project on an electronic voting machine developed by students of the Department of Electronics and Instrumentation Engineering. The electronic voting machine uses a microcontroller and consists of keypad, LCD display, control switches, and other components. It allows for voting in either voting or counting mode and stores votes for candidates electronically rather than using paper ballots. The system aims to make the voting process more efficient and secure compared to traditional paper-based voting.
Electronic voting machine project using 8051 microcontroller is used to develop a electronic machine for
several advantages like security, accuracy etc.
This document provides information about electronic voting machines (EVMs) used in India. It discusses how EVMs work, their components like the ballot unit and control unit, and the sequence of operations using the buttons on the control unit. Images show different parts of the EVM like the display screens and internal components. The document also briefly mentions awareness programs conducted to demonstrate EVMs and the process for counting votes cast using EVMs.
This document describes an electronic voting machine (EVM) created by students. It includes:
1) A brief history of voting machines, including early mechanical machines and the introduction of electronic versions.
2) The key components of the EVM, including a microcontroller, LCD display, power supply, and control switches.
3) Details on the operation of the EVM, which allows users to vote, has modes for voting and counting votes, and indicates selections with sound.
4) Advantages like reduced costs, time and manpower needed compared to traditional voting methods. Disadvantages include potential security issues and needing external storage.
The document describes an electronic voting machine that consists of four main blocks: a keypad block, microcontroller block, display block, and control switches block. The microcontroller used is an 8051 which receives input from the keypad and displays output on the LCD screen. The machine has two modes - voting mode and counting mode - which are selected using toggle switches. It allows for convenient, secure, and time-efficient voting and counting while avoiding issues like invalid voting. An open development process could help improve the quality and security of electronic voting systems.
fingerprint based electronic voting machinesanthu652
This document presents a finger print based voting machine that uses finger print identification to allow voters to cast their votes. It consists of a microcontroller, finger print module, EEPROM, LCD display, and other components. The finger print module extracts features from the voter's finger print and matches it to stored templates to verify identities. If matched, the voter can cast their vote which is stored in EEPROM. The system aims to provide secure voting using biometric identification while overcoming issues with other methods like EVM machines. It is presented as having advantages like being cost effective, time efficient, and preventing invalid votes.
This document describes a fingerprint-based electronic voting system that uses biometrics for voter authentication. The system stores fingerprint images of registered voters and scans fingerprints on election day to verify identities before allowing votes to be cast. If the scanned fingerprint matches a stored image, the voter can enter to vote. Otherwise, the system alerts that the voter cannot vote. The system is designed to prevent rigging in elections by authenticating voters through their fingerprints.
The document summarizes the history, development, features, and operation of electronic voting machines (EVMs) used in India. It discusses how the concept of EVMs was proposed in 1977 to reduce election costs. Public sector companies developed prototype machines that were tested from 1980 onward. The final EVM design incorporates tamper-proof hardware and software to securely store votes. An EVM has a ballot unit for voting and a control unit for administering the process. Nearly 1 million machines have been deployed, with a low failure rate, saving around $40 million compared to paper ballots.
This document describes a mini project on an electronic voting machine developed by students of the Department of Electronics and Instrumentation Engineering. The electronic voting machine uses a microcontroller and consists of keypad, LCD display, control switches, and other components. It allows for voting in either voting or counting mode and stores votes for candidates electronically rather than using paper ballots. The system aims to make the voting process more efficient and secure compared to traditional paper-based voting.
Electronic voting machine project using 8051 microcontroller is used to develop a electronic machine for
several advantages like security, accuracy etc.
This document provides information about electronic voting machines (EVMs) used in India. It discusses how EVMs work, their components like the ballot unit and control unit, and the sequence of operations using the buttons on the control unit. Images show different parts of the EVM like the display screens and internal components. The document also briefly mentions awareness programs conducted to demonstrate EVMs and the process for counting votes cast using EVMs.
This document describes an electronic voting machine (EVM) created by students. It includes:
1) A brief history of voting machines, including early mechanical machines and the introduction of electronic versions.
2) The key components of the EVM, including a microcontroller, LCD display, power supply, and control switches.
3) Details on the operation of the EVM, which allows users to vote, has modes for voting and counting votes, and indicates selections with sound.
4) Advantages like reduced costs, time and manpower needed compared to traditional voting methods. Disadvantages include potential security issues and needing external storage.
The document describes an electronic voting machine that consists of four main blocks: a keypad block, microcontroller block, display block, and control switches block. The microcontroller used is an 8051 which receives input from the keypad and displays output on the LCD screen. The machine has two modes - voting mode and counting mode - which are selected using toggle switches. It allows for convenient, secure, and time-efficient voting and counting while avoiding issues like invalid voting. An open development process could help improve the quality and security of electronic voting systems.
fingerprint based electronic voting machinesanthu652
This document presents a finger print based voting machine that uses finger print identification to allow voters to cast their votes. It consists of a microcontroller, finger print module, EEPROM, LCD display, and other components. The finger print module extracts features from the voter's finger print and matches it to stored templates to verify identities. If matched, the voter can cast their vote which is stored in EEPROM. The system aims to provide secure voting using biometric identification while overcoming issues with other methods like EVM machines. It is presented as having advantages like being cost effective, time efficient, and preventing invalid votes.
This document describes a fingerprint-based electronic voting system that uses biometrics for voter authentication. The system stores fingerprint images of registered voters and scans fingerprints on election day to verify identities before allowing votes to be cast. If the scanned fingerprint matches a stored image, the voter can enter to vote. Otherwise, the system alerts that the voter cannot vote. The system is designed to prevent rigging in elections by authenticating voters through their fingerprints.
This document outlines the components, operation, and advantages/disadvantages of an electronic voting machine (EVM) system using an 8051 microcontroller. The key components of the EVM include an 8051 microcontroller, LCD display, control switches, and input keys. It operates by displaying voting modes and counting totals, with authority switches to control the voting process. Advantages include lower cost and time requirements compared to traditional systems, while disadvantages include needing external memory chips and a continuous power supply.
This document contains a project report on an electronic voting machine (EVM) developed using an 8952 microcontroller. It includes an introduction to the project, an acknowledgement section, table of contents, pin descriptions of the 8952 microcontroller, a block diagram of the EVM system and its working, an explanation of the EVM circuit diagram, the software coding for the EVM in C language, and sections on advantages/disadvantages, applications, future scope and bibliography. The project aims to prototype a voting machine that allows voters to cast votes for candidates using microswitches, counts and displays the total votes, and is controlled using the 8952 microcontroller interfaced with a PC via hyperterminal communication.
This document provides a summary of an industrial project on a four way traffic control system implemented using an FPGA. The project was completed by Ameesha Singh and Chetan Dabral for their Bachelor of Technology degree in Electronics and Communication Engineering from Mahatma Gandhi Mission's College of Engineering and Technology, affiliated with Dr. A.P.J. Abdul Kalam Technical University. The project aims to design a traffic light controller using Verilog HDL that can manage traffic flow at a four road intersection through sequencing the red, yellow, and green lights. Xilinx ISE Project Navigator and iSIM simulator were used for the design, simulation, and testing of the traffic light controller system implemented on an FPGA
The document proposes a mobile voting system using iris recognition and cryptography. Voters would register through a website providing identification details. On voting day, authenticated voters would receive an encrypted SMS with candidate lists. Voters would select a candidate and the vote would be encrypted before transmission. The system aims to increase voter participation and security while reducing costs compared to traditional voting methods. However, mobile voting systems also face challenges regarding security, reliability, and preventing multiple votes.
Four way traffic light conrol using VerilogUtkarsh De
This presentation summarizes the history and development of traffic lights. It discusses how the first traffic light was installed in London in 1868 [1]. It then provides details on the typical light sequences of red, yellow, and green [2]. The presentation goes on to describe how a basic four-way traffic light system can be modeled using a state diagram and Verilog code [3]. It concludes by discussing how more advanced traffic light controllers can help improve urban traffic flow.
This document describes a student project to create a traffic light controller using an AT89C51 microcontroller. It provides background on the history of traffic lights, descriptions of red, yellow, and green light meanings. The project components include an AT89C51 microcontroller, LED lights, resistors, capacitors, and a crystal oscillator. The microcontroller is programmed to automatically change the LED light signals after a time interval by setting the corresponding port pins high and low. The motivation is that it is a basic microcontroller application. There is opportunity to enhance it to control signals automatically based on sensor detection of traffic density.
This presentation gives an overview of the PIC micro-controllers. Additionally, it describes the advantages, disadvantages and applications of these micro-controllers. It also explains real-world projects that are possible using the PIC micro-controllers.
Gesture control robot using accelerometer pptRajendra Prasad
This document describes a gesture control robot project that uses an accelerometer. The aim of the project is to control the movements and directions of vehicles like airplanes, trains and cars using MEMS technology. The transmitter module uses an accelerometer, comparator, encoder and RF transmitter. The receiver module uses an RF receiver, decoder, microcontroller and actuator motor driver. The accelerometer provides analog data about movement in the X, Y and Z directions. The comparator and encoder convert the analog data for transmission. The RF modules transmit and receive the signals. The microcontroller processes the received data and the actuator converts it to control vehicle movements based on hand gestures detected by the accelerometer.
This document provides an introduction to key concepts in comparative politics and political science. It defines comparative politics as the study of domestic politics, institutions, and conflicts across different countries using empirical and comparative methods. Some key terms discussed include nation, state, nation-state, types of political regimes, factors that cause democratization, and differences between liberal democracies and illiberal democracies. It also distinguishes between procedural and substantive definitions of democracy.
We provide you the Latest Digital Electronic Projects for Electronics Engineering Students. You can choose the best of your choice and interest from the list of topics we suggested. All new project ideas that are appearing focuses to improve the knowledge of Engineering students.
https://www.elprocus.com
Visit our page to get more ideas on Latest Digital Electronic Projects for Electronics Engineering Students these ideas developed by professionals.
Elprocus provides free verified electronic projects kits around the world with abstracts, circuit diagrams, and free electronic software. We provide guidance manual for Do It Yourself Kits (DIY) with the modules at best price along with free shipping.
The document provides information about an industrial training project completed by Sudeep Giri at Insulators and Electricals Ltd. It includes an acknowledgement, preface, and table of contents. The content covers topics like the company background, software used, automation, PLC components, programming languages, and a motor start/stop example. It aims to describe PLC programming through ladder logic based on the training received.
The document describes how to interface a 1-Wire device to a PIC microcontroller and provides an overview of the 1-Wire communication protocol. It explains the basic operations of reset, write 0 bit, write 1 bit, and read bit. It also provides code examples for 1-Wire functions to initialize communication and transfer data. The 1-Wire protocol uses a single data line with defined timing to communicate between a master and slave device.
This document describes the design of a finite state machine (FSM) to control a simple washing machine. The washing machine has 6 states: off, fill water 1, drain 1, fill water 2, rinse, and drain 2. The FSM will use 3 D-flip flops to represent the 3 state bits and control the water inlet, drum motor speed, and other functions based on the current state. Block diagrams, state diagrams, truth tables, and logic circuits are provided to illustrate the FSM design.
This document discusses motion sensing technology. It begins by defining a sensor and describing motion sensors, which detect movement. The main types of motion sensors are active sensors, which emit and detect signals, and passive sensors, which detect infrared radiation. Motion sensing has applications in security, lighting, and games. The document explores specific motion sensing technologies like infrared, ultrasonic, and microwave sensors. It also discusses the use of motion sensors in mobile devices and games like the Kinect. In conclusion, the document states that while important for gaming now, motion sensing will have more impact in non-gaming applications.
The 8279 is a general purpose keyboard display controller chip that interfaces keyboards and displays with CPUs. It has separate keyboard and display segments that scan keyboards, detect key presses, and put data from the CPU onto displays. This allows the CPU to be free for other tasks instead of having to periodically poll keyboards and refresh displays. The 8279 supports various keyboard and display modes to interface different types of keyboards and displays through a single chip.
This document summarizes the implementation of a 7-segment digital clock on an FPGA board. It describes the problem statement of creating a digital clock, hardware and software requirements, and an overview of the implementation process. A top-down design approach is used, with counter modules to increment the seconds, minutes, and hours displayed on the clock based on an internal clock signal. Code examples are provided for the counter modules and resulting digital clock output.
Electronic voting machines (EVMs) are used in Indian elections to record votes. The EVM displays candidates' names and party symbols. Voters cast their vote by pressing the button next to their chosen candidate. After polling ends, the EVMs are sealed and stored securely until counting begins on the announced date. The candidate who receives the most votes in a constituency is declared the winner. EVMs were first used in 50 polling stations in Kerala in 1982 but required a law change before nationwide adoption, which occurred in the late 1980s and early 1990s. EVMs save paper, are cost-effective, and reduce vote counting and result declaration times. However, some argue they have security and software issues and lack voter-verified
This document discusses the use of technology in elections in India. It describes how elections were previously conducted using paper ballots and how electronic voting machines (EVMs) were introduced between 1998-2001. It provides details on the types of EVMs used, how they work, and their advantages over paper ballots, such as reducing environmental impact, costs, and possibilities of fake votes. However, it also notes disadvantages are that EVMs could be vulnerable to hacking.
This document outlines the components, operation, and advantages/disadvantages of an electronic voting machine (EVM) system using an 8051 microcontroller. The key components of the EVM include an 8051 microcontroller, LCD display, control switches, and input keys. It operates by displaying voting modes and counting totals, with authority switches to control the voting process. Advantages include lower cost and time requirements compared to traditional systems, while disadvantages include needing external memory chips and a continuous power supply.
This document contains a project report on an electronic voting machine (EVM) developed using an 8952 microcontroller. It includes an introduction to the project, an acknowledgement section, table of contents, pin descriptions of the 8952 microcontroller, a block diagram of the EVM system and its working, an explanation of the EVM circuit diagram, the software coding for the EVM in C language, and sections on advantages/disadvantages, applications, future scope and bibliography. The project aims to prototype a voting machine that allows voters to cast votes for candidates using microswitches, counts and displays the total votes, and is controlled using the 8952 microcontroller interfaced with a PC via hyperterminal communication.
This document provides a summary of an industrial project on a four way traffic control system implemented using an FPGA. The project was completed by Ameesha Singh and Chetan Dabral for their Bachelor of Technology degree in Electronics and Communication Engineering from Mahatma Gandhi Mission's College of Engineering and Technology, affiliated with Dr. A.P.J. Abdul Kalam Technical University. The project aims to design a traffic light controller using Verilog HDL that can manage traffic flow at a four road intersection through sequencing the red, yellow, and green lights. Xilinx ISE Project Navigator and iSIM simulator were used for the design, simulation, and testing of the traffic light controller system implemented on an FPGA
The document proposes a mobile voting system using iris recognition and cryptography. Voters would register through a website providing identification details. On voting day, authenticated voters would receive an encrypted SMS with candidate lists. Voters would select a candidate and the vote would be encrypted before transmission. The system aims to increase voter participation and security while reducing costs compared to traditional voting methods. However, mobile voting systems also face challenges regarding security, reliability, and preventing multiple votes.
Four way traffic light conrol using VerilogUtkarsh De
This presentation summarizes the history and development of traffic lights. It discusses how the first traffic light was installed in London in 1868 [1]. It then provides details on the typical light sequences of red, yellow, and green [2]. The presentation goes on to describe how a basic four-way traffic light system can be modeled using a state diagram and Verilog code [3]. It concludes by discussing how more advanced traffic light controllers can help improve urban traffic flow.
This document describes a student project to create a traffic light controller using an AT89C51 microcontroller. It provides background on the history of traffic lights, descriptions of red, yellow, and green light meanings. The project components include an AT89C51 microcontroller, LED lights, resistors, capacitors, and a crystal oscillator. The microcontroller is programmed to automatically change the LED light signals after a time interval by setting the corresponding port pins high and low. The motivation is that it is a basic microcontroller application. There is opportunity to enhance it to control signals automatically based on sensor detection of traffic density.
This presentation gives an overview of the PIC micro-controllers. Additionally, it describes the advantages, disadvantages and applications of these micro-controllers. It also explains real-world projects that are possible using the PIC micro-controllers.
Gesture control robot using accelerometer pptRajendra Prasad
This document describes a gesture control robot project that uses an accelerometer. The aim of the project is to control the movements and directions of vehicles like airplanes, trains and cars using MEMS technology. The transmitter module uses an accelerometer, comparator, encoder and RF transmitter. The receiver module uses an RF receiver, decoder, microcontroller and actuator motor driver. The accelerometer provides analog data about movement in the X, Y and Z directions. The comparator and encoder convert the analog data for transmission. The RF modules transmit and receive the signals. The microcontroller processes the received data and the actuator converts it to control vehicle movements based on hand gestures detected by the accelerometer.
This document provides an introduction to key concepts in comparative politics and political science. It defines comparative politics as the study of domestic politics, institutions, and conflicts across different countries using empirical and comparative methods. Some key terms discussed include nation, state, nation-state, types of political regimes, factors that cause democratization, and differences between liberal democracies and illiberal democracies. It also distinguishes between procedural and substantive definitions of democracy.
We provide you the Latest Digital Electronic Projects for Electronics Engineering Students. You can choose the best of your choice and interest from the list of topics we suggested. All new project ideas that are appearing focuses to improve the knowledge of Engineering students.
https://www.elprocus.com
Visit our page to get more ideas on Latest Digital Electronic Projects for Electronics Engineering Students these ideas developed by professionals.
Elprocus provides free verified electronic projects kits around the world with abstracts, circuit diagrams, and free electronic software. We provide guidance manual for Do It Yourself Kits (DIY) with the modules at best price along with free shipping.
The document provides information about an industrial training project completed by Sudeep Giri at Insulators and Electricals Ltd. It includes an acknowledgement, preface, and table of contents. The content covers topics like the company background, software used, automation, PLC components, programming languages, and a motor start/stop example. It aims to describe PLC programming through ladder logic based on the training received.
The document describes how to interface a 1-Wire device to a PIC microcontroller and provides an overview of the 1-Wire communication protocol. It explains the basic operations of reset, write 0 bit, write 1 bit, and read bit. It also provides code examples for 1-Wire functions to initialize communication and transfer data. The 1-Wire protocol uses a single data line with defined timing to communicate between a master and slave device.
This document describes the design of a finite state machine (FSM) to control a simple washing machine. The washing machine has 6 states: off, fill water 1, drain 1, fill water 2, rinse, and drain 2. The FSM will use 3 D-flip flops to represent the 3 state bits and control the water inlet, drum motor speed, and other functions based on the current state. Block diagrams, state diagrams, truth tables, and logic circuits are provided to illustrate the FSM design.
This document discusses motion sensing technology. It begins by defining a sensor and describing motion sensors, which detect movement. The main types of motion sensors are active sensors, which emit and detect signals, and passive sensors, which detect infrared radiation. Motion sensing has applications in security, lighting, and games. The document explores specific motion sensing technologies like infrared, ultrasonic, and microwave sensors. It also discusses the use of motion sensors in mobile devices and games like the Kinect. In conclusion, the document states that while important for gaming now, motion sensing will have more impact in non-gaming applications.
The 8279 is a general purpose keyboard display controller chip that interfaces keyboards and displays with CPUs. It has separate keyboard and display segments that scan keyboards, detect key presses, and put data from the CPU onto displays. This allows the CPU to be free for other tasks instead of having to periodically poll keyboards and refresh displays. The 8279 supports various keyboard and display modes to interface different types of keyboards and displays through a single chip.
This document summarizes the implementation of a 7-segment digital clock on an FPGA board. It describes the problem statement of creating a digital clock, hardware and software requirements, and an overview of the implementation process. A top-down design approach is used, with counter modules to increment the seconds, minutes, and hours displayed on the clock based on an internal clock signal. Code examples are provided for the counter modules and resulting digital clock output.
Electronic voting machines (EVMs) are used in Indian elections to record votes. The EVM displays candidates' names and party symbols. Voters cast their vote by pressing the button next to their chosen candidate. After polling ends, the EVMs are sealed and stored securely until counting begins on the announced date. The candidate who receives the most votes in a constituency is declared the winner. EVMs were first used in 50 polling stations in Kerala in 1982 but required a law change before nationwide adoption, which occurred in the late 1980s and early 1990s. EVMs save paper, are cost-effective, and reduce vote counting and result declaration times. However, some argue they have security and software issues and lack voter-verified
This document discusses the use of technology in elections in India. It describes how elections were previously conducted using paper ballots and how electronic voting machines (EVMs) were introduced between 1998-2001. It provides details on the types of EVMs used, how they work, and their advantages over paper ballots, such as reducing environmental impact, costs, and possibilities of fake votes. However, it also notes disadvantages are that EVMs could be vulnerable to hacking.
E-voting allows voters to cast ballots electronically. While it provides advantages like accessibility, e-voting also presents security risks if machines are hacked that could influence election outcomes. To address this, some propose using voter-verifiable paper ballots that print votes for voters to confirm, or encrypting votes separately to enable faster recounts. However, e-voting machines remain unreliable overall, so the security problems outweigh the advantages despite efforts to improve security.
The document discusses electronic voting machines (EVMs). An EVM consists of a control unit and balloting unit connected by a 5-meter cable. The balloting unit allows voters to cast votes via labeled buttons, while the control unit stores vote counts and displays results. Electronic voting uses electronic means for casting and counting votes, either through standalone EVMs or computers connected to the internet. Paper ballots were previously handwritten pieces of paper supplied by political parties. EVMs provide advantages like ease of use, voting secrecy, and preventing invalid votes, but also have disadvantages such as security issues, unequal internet access, needing external storage chips and a continuous power supply, and not being proportional.
Electronic voting machines (EVMs) are used in elections to modernize the voting process and reduce invalid votes and ensure voting secrecy. EVMs are microcontroller-based devices that allow for quick and accurate counting of votes. In contrast, paper ballot machines involved manually marking candidates on paper, which made cheating easier and counting votes harder due to the potential for mistakes. Voting is important because it is a citizen's right, allows people to enact change through their representation, and ensures that every vote is counted in the election process.
E-voting technology provides an alternative to traditional paper-based voting through online and electronic means. It allows voters to cast ballots over the internet from any location. E-voting aims to provide instant results, make voting more convenient, and help increase voter turnout. However, some security and reliability concerns remain regarding online voting and ensuring the integrity of election results. Further encryption, verification methods, and testing of different e-voting systems is still needed.
Electronic voting machines (EVMs) were introduced in India in the late 1990s as an alternative to paper ballots. EVMs make it easier for voters to see candidates and cast their vote, and some include voice support for visually impaired voters. However, physically challenged people have complained that touchscreens are not always accurate. While EVMs reduce counting time, some trust the traditional paper ballot more because high technology is vulnerable to hacking. Paper ballots do not risk elections being hacked but require manual counting and do not allow for automation. They also make it difficult for physically challenged voters to cast private votes without assistance.
Electronic voting machines allow voters to cast their ballots electronically rather than using paper. Voters identify themselves using thumbprint scans, and the machine will only allow someone to vote if their print matches what is on file. E-voting is more economical than traditional methods as it requires less manpower and helps avoid invalid votes. However, it also presents security issues as votes are stored electronically, requires continuous power, and could allow votes to be traced back to individuals due to the lack of verification of paper ballots.
IRJET- Biometric based Electronic Voting Machine (EVM) using Arduino IDEIRJET Journal
This document describes a biometric-based electronic voting machine that uses fingerprint authentication via an Arduino system. It aims to improve security and provide convenient voting access using fingerprint identification. The system captures voters' fingerprints using a sensor and matches them to a database of registered voters. It then allows voters to cast their encrypted votes, which are transmitted to a PC. This aims to prevent fraud and ensure each voter only votes once. It provides a 3-sentence summary of the document.
This document describes a minor project presentation for an online voting system created by a team of 4 students. The proposed system aims to allow Indian citizens over 18 to vote online through a centralized database maintained by the Election Commission of India. It authenticates users by matching their information to the database. Users can register online and then login to vote using a username and password. The system is intended to overcome limitations of existing online and electronic voting systems like physical security and vote tampering. It uses fingerprint verification for identification and provides administrators and users modules to manage the system and voting process. It also includes a vote counting module to calculate and display results.
Impressive smart card based electronic voting systemeSAT Journals
Abstract
The impressive smart card based electronic voting system is introduced to ensure apposite voting procedures and voting counts. This idea prevents the illegal acts against the voting system and provides the voter authentication in an effective manner. This proposal plans to provide a fortification for each and every votes. It entirely changes the status of the election process and ensures the integrity of electoral system. The primary idea of this paper is to make the voters as to have a trust in election through the methods of taking fingerprint and providing a smart card to each user to promise their uniqueness in the voting system and reduces the work of election committee. At the same time the result of the election process will be automatically declared to the public. With the help of this method, the person can vote from any election booth easily.
Keywords- Electronic voting system, authentication, biometric fingerprinting method, smart card
This document describes an online voting system with the following key points:
1. The system allows voters to cast their votes online through SMS confirmation instead of in-person to address issues like rigging, insecure polling stations, and inefficient personnel.
2. It has modules for admin, voters, and candidates with features like login, profile management, candidate information, and viewing poll results.
3. An ER diagram outlines the database structure with entities for voters, candidates, and positions.
4. The proposed system aims to make the voting process more reliable, faster, and accurate than existing manual systems. It allows remote voting by NRI and military voters unable to vote in-person.
An electronic voting machine (EVM) is used for electronic voting. It consists of two units - a control unit and a balloting unit, which are connected by a cable. The control unit is kept with the presiding officer. The EVM was developed in 1989 by the Election Commission of India in collaboration with Bharat Electronics Limited and Electronics Corporation of India Limited. One of the main advantages of the EVM is that it eliminates the need to print and distribute millions of paper ballots.
The document proposes developing an online voting system in India to increase voter turnout and reduce the influence of money and power in elections. It suggests providing every registered voter with an electronic voter ID card to cast votes from anywhere using telecom networks. A portable electronic voting device would be distributed per family, containing a fingerprint scanner, screen and buttons. Voters would insert their ID card, verify identity, view candidate profiles and cast secure votes to a central database. This system aims to make voting more convenient and accessible, while increasing transparency and reducing corruption in the electoral process.
Biometric System Based Electronic Voting Machine Using Arm9 MicrocontrollerIOSR Journals
This document describes a proposed biometric system for an electronic voting machine that uses fingerprint authentication with an ARM9 microcontroller. The system aims to enhance security over existing EVMs by identifying voters through fingerprint matching instead of manual verification of ID cards. It discusses the components used, including an ARM9 microcontroller, KY-M6 fingerprint sensor module, and MAX232 for serial communication. The proposed system stores voter fingerprints during enrollment and matches them during voting to authenticate voters and prevent multiple votes. If validated, the voter can then cast their vote which is displayed and results can be viewed later through the centralized server.
This document describes a proposed biometric system for an electronic voting machine that uses fingerprint authentication with an ARM9 microcontroller. The system aims to enhance security over existing EVMs by identifying voters through fingerprint matching instead of manual verification of ID cards. It discusses the components used, including an ARM9 microcontroller, KY-M6 fingerprint sensor module, and MAX232 for serial communication. The proposed system stores voter fingerprints during enrollment and matches them during voting to authenticate voters and prevent multiple votes. If validated, the voter can then cast their vote which is displayed and results can be viewed later through the central server.
This document proposes an e-voting system that uses eye retina scanning and radio waves to securely transmit vote counts to a remote server. The current system relies on electronic voting machines at each booth that are vulnerable to tampering and technical issues. The proposed system aims to authenticate voters through biometric scanning and eliminate the risks of manipulating physical voting machines or their transportation by storing vote counts on a remote server.
The document provides information about India's electronic voting machine (EVM) system. It discusses:
- The genesis of the EVM system, beginning in 1977 to address costs of paper ballots and increase transparency. Public sector companies developed prototype machines that were tested nationally.
- Technological features of EVM include a tamper-proof microprocessor with permanent software, redundant memory storage, and ability to conduct multiple simultaneous polls.
- The voting process using EVM is designed to be simple, secret, and prevent invalid votes. Results can be tallied and announced quickly.
- Over 1 million machines were deployed for the 2004 national election. EVMs provide significant cost savings over paper ballots and have gained acceptance
IRJET- Smart and Secured Voting System using Magnetic Stripe Voter ID Card an...IRJET Journal
This document proposes a smart and secure electronic voting system using magnetic stripe voter ID cards and cloud storage. Voter details like name, fingerprint, and a unique ID card number would be stored in a cloud database. At polling stations, voters would insert their magnetic stripe ID card into a reader to authenticate their identity. If verified, they would provide a fingerprint match for additional authentication before an electronic voting machine is activated for them to cast their vote. Cast votes would be directly stored in a separate cloud database for fast results tabulation. The system aims to make voting more secure, efficient and transparent through biometric authentication and cloud-based digital vote recording and storage.
AADHAR based Electronic Voting Machine using Arduino - reviewakshay hebbar
This paper describes an online electoral system for Indian election is proposed for the first time. The voting system is managed in a easier way as all the users should login by Aadhar card number and password and click on his/her favorable candidates to cast the vote. This features a larger security in the sense that voter high security password is confirmed before the vote is accepted in the main database of ECI. The extra feature of the model is that the voter will ensure if his/her vote has gone to correct candidate/party. The votes are going to be done automatically, therefore saving an enormous time and facultative ECI to announce the result at intervals a very short period.
M-ticket is a digital ticket securely stored in your BookMyShow account and accessible on your Smartphone. When your event is M-ticket only, your ticket(s) will not be available in printed form or emailed to you. Enter the venue.
Income level as defined by GNI per capita. Method of estimation: World Development Indicators database: Low income is $1 045 or less, middle income is $1 046 to $12 745, high income is $12 745 or more.
Mobile Money Transfer (MMT). Services whereby customers use their mobile device to send and receive monetary value - or more simply put, to transfer money electronically from one person to another using a mobile phone.
Mobile browser. A mobile browser, also called a micro browser, mini browser, or wireless internet browser, is a web browser designed for use on a mobile device such as a mobile phone or PDA
Social media is an internet bassed form of communication social media platforms allow users to have conversations share information and create web content.
The main objective of the Indian factories act,1948 are to regulate the working condition in factories,to regulate health, safety welfare and annual leave and enact special provision in respect of young person work in the factories.
The Employees' State Insurance Act (ESI Act) of 1948 was the first social security legislation passed in independent India. It provides cash and medical benefits to employees in cases of sickness, maternity, employment injury, and disablement. The aim is to provide economic security to people working in certain factories and establishments. The ESI scheme's major social security benefits include medical care for employees and their families, as well as sickness, maternity, disablement, and dependent benefits. Employment injury is defined as a personal injury to an employee caused by an accident or occupational disease arising from or in the course of employment, whether within or outside India.
The document discusses the risks and stress faced by police officers. It notes that firing guns as part of their job is difficult and dangerous, as they must focus on a single target. It also explains that the criminal justice system and occupational stress can cause physical and psychological issues for police like high blood pressure, stomach problems, aches and pains. Finally, it provides some precautions officers can take like wearing bulletproof vests, exercising daily, maintaining a sleep schedule, and picking up hobbies like yoga to help manage stress.
How to Setup Warehouse & Location in Odoo 17 InventoryCeline George
In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.
How to Manage Your Lost Opportunities in Odoo 17 CRMCeline George
Odoo 17 CRM allows us to track why we lose sales opportunities with "Lost Reasons." This helps analyze our sales process and identify areas for improvement. Here's how to configure lost reasons in Odoo 17 CRM
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This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
How to Build a Module in Odoo 17 Using the Scaffold MethodCeline George
Odoo provides an option for creating a module by using a single line command. By using this command the user can make a whole structure of a module. It is very easy for a beginner to make a module. There is no need to make each file manually. This slide will show how to create a module using the scaffold method.
2. INTRODUCTION TO E.V.M
• It is a reliable machine for conducting
election.
• Has mainly 2 units: ballot and control
units, joined by a five-meter cable.
• Operates on a special battery.
• Tamper-proof.
• Information recorded is retained in
memory even when the battery is
removed.
• Electronic voting machines are mostly
used by the developed countries to
count the votes during the general
elections.
3. ELECTRONIC MACHINE (EVM)
• EVM were first used in 70- Parur
assembly constituency of Kerala in
the year 1982.
• EVM do not require electricity evm
run on an ordinary battery assembled
by Bharat electronics limited/
electronics corporation of India
limited.
4. ADVANTAGE OF E.V.M MACHINE
• MO demises the election process.
• User friendly- can be used even by
illiterates.
• Simple to operate and can be installed
in a short time.
• Preserves voting secrecy.
• No scope for invalid votes.
• facilitates quick and accurate counting-
possible to declare result
instantaneously.
• Re-usable by simply erasing votes
recorded in earlier poll.
5. DISADVANTAGES OF E.V.M MACHINE
• Requires to build up correct database of
civilians/user in advance
• It’s a costly affair & time taking process
• We have to use external chip to store
the votes
• Security issues and unequal internet
access
• We had provide continuous power
supply
• It is not proportional
• Minority’s choice, not the majority’s
6. PAPER BALLOT VS EVM
• Election in India by using electronic voting
machines (EVMs) started more than 30 years
after getting independence.
• Till then only paper ballots were used. Finding
that there were used.
• Finding that there were many malpractices like
vote rigging, forged voting, booth capturing, too
much time consumed in getting the paper
ballots packed and to avoid the wastage of tons
of paper during election process, election
commission of India thought of alternate and
better way of using voting rights by citizens.
7. VOTING SYSTEM COMPONENTS
• DRE(Direct Recording Electronic) voting machine:
device to record the voter’s choice.
• VVPAT(Voter-Verified Paper Audit trail): Paper
based record of the choice selected by the voter.
• EMS(Election Management System): system
responsible for the initialization of the components that
collect the votes and also for the final tallying of the
votes.
• OPTICAL SCANNER: an optical reader that counts
votes cast on paper ballots.
• DTD(data transport device): storage device to
transfer data between different components of the
system.