ECE Projects for Final Year, Embedded Projects in Bangalore, Engineering Projects in Bangalore, Final Year Projects in Vijayanagar, ECE projects in Vijayanagar, Embedded Project institute in Vijayanagar
Electronic voting machine project using 8051 microcontroller is used to develop a electronic machine for
several advantages like security, accuracy etc.
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.
LCD based voting machine using 8051 microcontroller (Sohel Siddique
This project presents an electronic voting machine that displays vote counts on a 16x2 LCD screen using an AT89C51 microcontroller. The voting machine allows users to cast votes for four candidates using tactile switches connected to the microcontroller pins. It stores the vote counts in variables and displays a thank you message after each vote. When the stop button is pressed, it displays the candidate names with their vote counts and then the winner or candidates with a tie.
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.
This document describes a fingerprint-based electronic voting machine (EVM). It consists of a fingerprint scanner, microcontroller, LCD display, keypad, and other components. Voters first register by providing their fingerprint, which is stored in a database. When voting, their fingerprint is scanned and matched to the database to authenticate them before they can cast their vote, preventing illegal voting. This system aims to make the voting process more secure and efficient by leveraging fingerprint authentication technology in the EVM.
This project is designed for electronic voting machine by using the fingerprint identification method.
Here voters thumb impressions are used for identifying the voters.
During voting when the voter keeps his/her thumb in the scanner, the system will check whether it matches with pre stored impressions in the database.
If it matches then system will allow the voter to poll his vote and otherwise prevent the voter from polling.
ADVANTAGES
The main advantages of the systems are,
Providing the preventive measures system for voting.
It completely rules out the chance of invalid votes.
Its use results in reduction of polling time.
Results in fewer problems in electoral preparations, law and order candidates' expenditure.
Provide easy and accurate counting without any mischief at the counting centre.
It is capable of saving considerable printing stationery and transport of large volumes of electoral material.
FUTURE SCOPE OF THE PROJECT
This system can be used for elections since it provide complete security and will provide accurate results and save time and expenditure.
This can be modify by interfacing it with a PC through a serial port in order to provide additional security.
The document discusses the genesis and development of electronic voting machines (EVMs) in India. It outlines how the idea was proposed in 1977 to reduce election costs, and the challenges faced in developing a secure tamper-proof machine that would gain public trust. Two public sector companies worked to develop prototype EVMs, which were tested nationally. Concerns about security and reliability were addressed through various technical and procedural safeguards in the EVM design.
The document presents a presentation on electronic voting machines. It discusses how electronic voting machines work using microcontrollers like the AT89S52 to allow for digital voting and counting of votes. The electronic voting machine consists of four main blocks - a keypad block, display block, microcontroller block, and control switches block. It operates in two modes - voting mode, where voters can cast their digital votes, and counting mode, where the total votes for each candidate can be displayed. Electronic voting machines provide advantages like being economical, time-efficient, and avoiding invalid voting compared to traditional voting methods.
Electronic voting machine project using 8051 microcontroller is used to develop a electronic machine for
several advantages like security, accuracy etc.
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.
LCD based voting machine using 8051 microcontroller (Sohel Siddique
This project presents an electronic voting machine that displays vote counts on a 16x2 LCD screen using an AT89C51 microcontroller. The voting machine allows users to cast votes for four candidates using tactile switches connected to the microcontroller pins. It stores the vote counts in variables and displays a thank you message after each vote. When the stop button is pressed, it displays the candidate names with their vote counts and then the winner or candidates with a tie.
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.
This document describes a fingerprint-based electronic voting machine (EVM). It consists of a fingerprint scanner, microcontroller, LCD display, keypad, and other components. Voters first register by providing their fingerprint, which is stored in a database. When voting, their fingerprint is scanned and matched to the database to authenticate them before they can cast their vote, preventing illegal voting. This system aims to make the voting process more secure and efficient by leveraging fingerprint authentication technology in the EVM.
This project is designed for electronic voting machine by using the fingerprint identification method.
Here voters thumb impressions are used for identifying the voters.
During voting when the voter keeps his/her thumb in the scanner, the system will check whether it matches with pre stored impressions in the database.
If it matches then system will allow the voter to poll his vote and otherwise prevent the voter from polling.
ADVANTAGES
The main advantages of the systems are,
Providing the preventive measures system for voting.
It completely rules out the chance of invalid votes.
Its use results in reduction of polling time.
Results in fewer problems in electoral preparations, law and order candidates' expenditure.
Provide easy and accurate counting without any mischief at the counting centre.
It is capable of saving considerable printing stationery and transport of large volumes of electoral material.
FUTURE SCOPE OF THE PROJECT
This system can be used for elections since it provide complete security and will provide accurate results and save time and expenditure.
This can be modify by interfacing it with a PC through a serial port in order to provide additional security.
The document discusses the genesis and development of electronic voting machines (EVMs) in India. It outlines how the idea was proposed in 1977 to reduce election costs, and the challenges faced in developing a secure tamper-proof machine that would gain public trust. Two public sector companies worked to develop prototype EVMs, which were tested nationally. Concerns about security and reliability were addressed through various technical and procedural safeguards in the EVM design.
The document presents a presentation on electronic voting machines. It discusses how electronic voting machines work using microcontrollers like the AT89S52 to allow for digital voting and counting of votes. The electronic voting machine consists of four main blocks - a keypad block, display block, microcontroller block, and control switches block. It operates in two modes - voting mode, where voters can cast their digital votes, and counting mode, where the total votes for each candidate can be displayed. Electronic voting machines provide advantages like being economical, time-efficient, and avoiding invalid voting compared to traditional voting methods.
The document describes the components and operation of an electronic voting machine (EVM):
1) The EVM consists of a control unit, ballot unit, and interconnecting cable that allow voters to cast votes electronically.
2) The ballot unit displays candidate buttons that voters press to cast their votes, while the control unit is used by polling officials to start and stop the voting process.
3) At the end of voting, polling officials use the control unit to obtain vote counts from the EVM and close the voting process.
The document describes an electronic voting machine project that was developed to address issues with traditional paper ballot voting. The 3 main objectives of the project were to minimize errors in voting, make voting easier, and provide quick results. The electronic voting machine uses a PIC18F452 microcontroller, LCD display, buttons, and EEPROM memory. Voters can cast their encrypted votes by pressing buttons, and results are saved to EEPROM to prevent data loss. This electronic voting machine provides a faster, easier and more accurate method for conducting elections.
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 that uses RFID technology. It contains a RFID reader and transponder to identify voters with RFID cards and allow them to cast votes. An Atmega 16 microcontroller is used as the control unit to process votes and display results. The machine aims to provide a more secure and easy voting process compared to traditional methods. Potential improvements include adding biometric verification of voters, data storage in EEPROM, and connecting multiple voting machines to aggregate results.
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.
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.
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.
FINGER-PRINT BASED ELECTRONIC VOTING MACHINEShakir Rahmani
This document describes an electronic voting machine that uses fingerprint identification. It uses an ARM 7TDMI LPC2148 processor, fingerprint module, LCD display, EEPROM, and other components. The fingerprint module stores voters' thumb impressions in a database and matches inputs during voting. If a match is found, the voter can cast their vote. The system aims to securely identify voters through biometric authentication and prevent invalid voting.
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.
Electronic voting machine using mcu 89s52Saurav Kumar
Electronic voting machine using micro controller 89S52 series of 8051. this project include software code for EVM. this describe the components requirement in evm and also most importantly its working.
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 an electronic voting machine project that uses fingerprint identification. It contains a fingerprint scanner that checks voter thumbprints against a stored database to authenticate voters before allowing them to cast ballots. The system aims to securely identify voters and prevent invalid votes. It explains the technologies used, including a microcontroller, MAX232 converter, and LCD display. Advantages are quick voting, reduced costs, and avoided invalid votes. Limitations include the difficulty of collecting all voter fingerprints and only identifying fingerprints, not persons.
we try to give a biometric secure e voting system and with back end compilations supported by DNA archieves which hav d feature of parallel processing as their inherent nature ...
The document provides an overview of an electronic voting machine project using RFID technology and a microcontroller. Key points:
- Voters will identify themselves with an RFID card read by an RFID reader module. Eligible voters will then be able to cast one vote by pressing a button for their candidate.
- The system includes a microcontroller to check voter eligibility from the RFID code, count votes, and display results. It will trigger an alarm if invalid votes are cast.
- The block diagram outlines the main components: a power supply, voting unit with RFID and microcontroller, confirmation unit like an LED/buzzer, and an LCD display.
- Working details explain how
Cellphone based voting machine project reportDiLip ChauDhary
The document provides information about electronic voting machines and their components. It discusses different voting methods like paper voting, electronic voting machines (EVM), and tele-voting machines (TVM). It describes the components and working of a TVM, including the DTMF receiver that converts analog phone signals to digital for the microcontroller. The document focuses on the power supply circuit and microcontroller used in the TVM.
Credibility of Electronic Voting Machines (EVMs) in India Pranshu Rathee
The document provides an overview of electronic voting machines (EVMs) and voter-verified paper audit trail (VVPAT) in India, including:
1. The history of EVMs in India since their introduction in the 1980s and key events such as court rulings.
2. Details on the current Technical Expert Committee that oversees EVM development and evaluation, composed of experts from top technical institutions.
3. Administrative and technical safeguards for EVM security throughout the electoral process, from manufacturing to storage, involving multiple verification steps and participation of political parties.
This document describes an electronic fingerprint voting system developed as a bachelor's thesis project. The system uses an Arduino Uno microcontroller connected to a fingerprint sensor module to authenticate voters based on their fingerprints. The system was designed to provide a secure voting method and help ensure fair elections. Key aspects of the system include enrolling voter fingerprints, authenticating fingerprints during voting, displaying the voting process and results on an LCD screen, and storing fingerprint data and votes securely. The document outlines the design and testing of the system prototype.
This document discusses the design of a fingerprint identification system using embedded systems technology. It introduces the technologies used and describes the hardware implementation, which includes a microcontroller, fingerprint identification module, switches, pushbuttons, and LCD display. The system collects fingerprint data and codes it to be understood by the microcontroller. It then matches the fingerprint to a database for identity verification. The document outlines advantages like security, time savings, and convenience, as well as potential future applications and scope.
This project aims to design a mobile-based voting machine that allows users to cast their vote by dialing a specific number from a landline or mobile phone and entering their password and vote choice, which will be detected by a DTMF decoder and stored in non-volatile EEPROM memory, with the total votes displayed using a resettable tally counter.
AUTOMATIC VOTING MACHINE-AN ADVANCED MODEL FOR SECURED BIOMETRICS BASED VOTIN...anugulashivani
This document proposes an automatic voting machine model that uses biometrics for secure voting in India. The proposed system uses smart voter cards linked to Aadhaar identification numbers, which would allow voters to authenticate using fingerprint biometrics at automated voting machines. Voters would select candidates on a touchscreen, and fingerprint matching would confirm their identity before casting a vote. This system aims to make voting more accessible, secure and transparent by preventing duplicate votes and verifying that each vote is cast by the correct voter.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
Tv remote controlled pc and devices with password protectionJagadeesh Yadav
This document describes a system to control a computer and connected electrical devices using a TV remote in a secure way with password protection. The system uses an IR receiver to receive signals from the remote and a microcontroller processes the signals and sends commands to control applications running on the computer via serial communication. The remote allows users to control software like media players and browsers from a distance as a more convenient alternative to using a mouse.
The document describes the components and operation of an electronic voting machine (EVM):
1) The EVM consists of a control unit, ballot unit, and interconnecting cable that allow voters to cast votes electronically.
2) The ballot unit displays candidate buttons that voters press to cast their votes, while the control unit is used by polling officials to start and stop the voting process.
3) At the end of voting, polling officials use the control unit to obtain vote counts from the EVM and close the voting process.
The document describes an electronic voting machine project that was developed to address issues with traditional paper ballot voting. The 3 main objectives of the project were to minimize errors in voting, make voting easier, and provide quick results. The electronic voting machine uses a PIC18F452 microcontroller, LCD display, buttons, and EEPROM memory. Voters can cast their encrypted votes by pressing buttons, and results are saved to EEPROM to prevent data loss. This electronic voting machine provides a faster, easier and more accurate method for conducting elections.
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 that uses RFID technology. It contains a RFID reader and transponder to identify voters with RFID cards and allow them to cast votes. An Atmega 16 microcontroller is used as the control unit to process votes and display results. The machine aims to provide a more secure and easy voting process compared to traditional methods. Potential improvements include adding biometric verification of voters, data storage in EEPROM, and connecting multiple voting machines to aggregate results.
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.
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.
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.
FINGER-PRINT BASED ELECTRONIC VOTING MACHINEShakir Rahmani
This document describes an electronic voting machine that uses fingerprint identification. It uses an ARM 7TDMI LPC2148 processor, fingerprint module, LCD display, EEPROM, and other components. The fingerprint module stores voters' thumb impressions in a database and matches inputs during voting. If a match is found, the voter can cast their vote. The system aims to securely identify voters through biometric authentication and prevent invalid voting.
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.
Electronic voting machine using mcu 89s52Saurav Kumar
Electronic voting machine using micro controller 89S52 series of 8051. this project include software code for EVM. this describe the components requirement in evm and also most importantly its working.
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 an electronic voting machine project that uses fingerprint identification. It contains a fingerprint scanner that checks voter thumbprints against a stored database to authenticate voters before allowing them to cast ballots. The system aims to securely identify voters and prevent invalid votes. It explains the technologies used, including a microcontroller, MAX232 converter, and LCD display. Advantages are quick voting, reduced costs, and avoided invalid votes. Limitations include the difficulty of collecting all voter fingerprints and only identifying fingerprints, not persons.
we try to give a biometric secure e voting system and with back end compilations supported by DNA archieves which hav d feature of parallel processing as their inherent nature ...
The document provides an overview of an electronic voting machine project using RFID technology and a microcontroller. Key points:
- Voters will identify themselves with an RFID card read by an RFID reader module. Eligible voters will then be able to cast one vote by pressing a button for their candidate.
- The system includes a microcontroller to check voter eligibility from the RFID code, count votes, and display results. It will trigger an alarm if invalid votes are cast.
- The block diagram outlines the main components: a power supply, voting unit with RFID and microcontroller, confirmation unit like an LED/buzzer, and an LCD display.
- Working details explain how
Cellphone based voting machine project reportDiLip ChauDhary
The document provides information about electronic voting machines and their components. It discusses different voting methods like paper voting, electronic voting machines (EVM), and tele-voting machines (TVM). It describes the components and working of a TVM, including the DTMF receiver that converts analog phone signals to digital for the microcontroller. The document focuses on the power supply circuit and microcontroller used in the TVM.
Credibility of Electronic Voting Machines (EVMs) in India Pranshu Rathee
The document provides an overview of electronic voting machines (EVMs) and voter-verified paper audit trail (VVPAT) in India, including:
1. The history of EVMs in India since their introduction in the 1980s and key events such as court rulings.
2. Details on the current Technical Expert Committee that oversees EVM development and evaluation, composed of experts from top technical institutions.
3. Administrative and technical safeguards for EVM security throughout the electoral process, from manufacturing to storage, involving multiple verification steps and participation of political parties.
This document describes an electronic fingerprint voting system developed as a bachelor's thesis project. The system uses an Arduino Uno microcontroller connected to a fingerprint sensor module to authenticate voters based on their fingerprints. The system was designed to provide a secure voting method and help ensure fair elections. Key aspects of the system include enrolling voter fingerprints, authenticating fingerprints during voting, displaying the voting process and results on an LCD screen, and storing fingerprint data and votes securely. The document outlines the design and testing of the system prototype.
This document discusses the design of a fingerprint identification system using embedded systems technology. It introduces the technologies used and describes the hardware implementation, which includes a microcontroller, fingerprint identification module, switches, pushbuttons, and LCD display. The system collects fingerprint data and codes it to be understood by the microcontroller. It then matches the fingerprint to a database for identity verification. The document outlines advantages like security, time savings, and convenience, as well as potential future applications and scope.
This project aims to design a mobile-based voting machine that allows users to cast their vote by dialing a specific number from a landline or mobile phone and entering their password and vote choice, which will be detected by a DTMF decoder and stored in non-volatile EEPROM memory, with the total votes displayed using a resettable tally counter.
AUTOMATIC VOTING MACHINE-AN ADVANCED MODEL FOR SECURED BIOMETRICS BASED VOTIN...anugulashivani
This document proposes an automatic voting machine model that uses biometrics for secure voting in India. The proposed system uses smart voter cards linked to Aadhaar identification numbers, which would allow voters to authenticate using fingerprint biometrics at automated voting machines. Voters would select candidates on a touchscreen, and fingerprint matching would confirm their identity before casting a vote. This system aims to make voting more accessible, secure and transparent by preventing duplicate votes and verifying that each vote is cast by the correct voter.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
Tv remote controlled pc and devices with password protectionJagadeesh Yadav
This document describes a system to control a computer and connected electrical devices using a TV remote in a secure way with password protection. The system uses an IR receiver to receive signals from the remote and a microcontroller processes the signals and sends commands to control applications running on the computer via serial communication. The remote allows users to control software like media players and browsers from a distance as a more convenient alternative to using a mouse.
This document describes a proposed biometric voting machine that uses fingerprint recognition for voter authentication. The system uses an Arduino microcontroller with an ATmega328 chip for processing. A fingerprint sensor module is connected to authenticate voters based on their fingerprint. If a match is found, the voter can cast a single vote for one candidate. Results are displayed after polling ends when an administrator enters a password. The system aims to provide a more secure and reliable alternative to traditional electronic voting machines.
ECE Projects for Final Year, Embedded Projects in Bangalore, Engineering Projects in Bangalore, Final Year Projects in Vijayanagar, ECE projects in Vijayanagar, Embedded Project institute in Vijayanagar
Presentation of smart voting system.pptxSony235240
This document outlines a proposed smart voting system that uses facial recognition and deep learning technologies. The system aims to allow secure online voting from any location. It would use facial recognition to identify voters, preventing unauthorized voting, and automate vote tallying for instant results. The scope includes user registration, facial verification for voters, and administrative functions. Hardware requirements include a computer with at least an i3 processor and 4GB RAM, while software would use Python, OpenCV, Flask and other libraries. Key functionalities are voter authentication through registration and biometrics, facial recognition of candidates, and a user-friendly interface. Non-functional requirements include performance, security, and maintainability. Block diagrams and use case diagrams illustrate the system architecture and interactions
The Automatic Sorting Machine is used to sort different types of products or commodities based on the barcode provided on them. This gives a provision to reduce the manual effort and hence human error by replacing the conventional methods of sorting in areas involving hectic sorting. The system comes into play in airports and other industrial distribution centres where the products or commodities have to be sorted into batches in order to take them to their respective destination. The products are put on a conveyer system where they are scanned for the particular barcode provided on them. Depending on the barcode, they are placed on the respective carriers automatically where these carriers dispatch them to the corresponding destinations.
Digital simulation tools enable designers to virtually prototype industrial controls engineering, by Don Talend, brand storytelling, content management, and content strategy expert. Industrial controls industry
Abstract ppt slides stalin babau m 116 f1a0471STALIN BABU
This document describes the development of an anti-rigging voting system using smart card technology. The system aims to provide security during elections by issuing each voter a smart card for authentication and identification. Voters insert their smart card into a reader and cast their vote for their preferred candidate using a keypad. The microcontroller records and displays vote counts on an LCD screen. Smart cards store voter data securely and prevent double voting. The system aims to reduce rigging by authenticating each voter and maintaining an accurate vote count.
A Novel Idea on Semi-Automated Operation Theatre Assistance for Doctors Based...theijes
The idea of this article is to develop a robotic assistant for handling surgical instruments in Operation Theatres. Hence it is possible to minimize human intervention in turn the risk of contamination and the probability of human error. The robotic system principally has three functional parts : locomotion controlled by Bluetooth from an android device; rotatory array of medical instruments governed by a stepper motor that functions over a voice input and a robotic arm made of Gripper motor controlled remotely.
The document summarizes the design of a biometric fingerprint attendance system for staff at the Accra Institute of Technology (AIT). It includes an introduction to biometric systems and fingerprint authentication. It then describes the problem of inaccurate manual attendance tracking currently used at AIT. The design concept, components, and circuit diagram of the fingerprint system are presented, including a fingerprint scanner, microcontroller, LCD display, buzzer, LEDs, and voltage regulator. The system was modeled and simulated using PROTEUS software. When tested, the system correctly identified users and tracked their attendance and time. It was concluded that the biometric system could eliminate absenteeism, impersonation and disputes over payment.
This document summarizes a student project that developed an ATM simulator with speech recognition capabilities. The simulator demonstrates basic ATM functions like withdrawals, deposits, and bill payments. Additionally, it allows users to control the simulator and perform transactions using speech in their native language, making the simulator more accessible for rural and illiterate users. The document outlines the current ATM system, problems with accessibility, the proposed speech-enabled simulator, and feasibility analysis. It provides an overview of the project documentation, which details the system design and implementation.
The document describes a project report for an ATM simulator created by Pratik Sarvankar for his university course. The simulator aims to make ATMs more user-friendly, especially for rural users, by allowing it to be controlled by speech in local languages. The simulator demonstrates basic banking services like withdrawals and deposits as well as additional services. It is designed to work in a networked environment like real ATMs and allow speech-based interactions through features like speech synthesis and recognition.
This document summarizes a smart traffic monitoring system project. The system uses CCTV camera feeds to analyze traffic and collect statistical data. It can detect objects like vehicles and their speeds. The data is stored in a cloud-based database. The system sends real-time alerts upon detecting certain objects or conditions. It also allows triggering actions. The project aims to provide traffic insights and analytics to help with planning and decision making. It uses open source technologies like operating systems, databases, and programming languages to build the backend and frontend. The system is tested to meet objectives like real-time alerting and generating data-driven reports.
Controlling Home Appliances adopting Chatbot using Machine Learning ApproachMinhazul Arefin
In the last decades, home automation becomes popular and rapidly increased artificial intelligence-based controlling systems. So, many researchers have been interested in the Internet of things so that every appliance should be autonomous. Smart home technology is one of them. It involves certain electrical and electronic systems in a building with some degree of computerized or automated control. It can control elements of our home environments (e.g. light, fans, electrical devices, and safety systems). We propose an approach that fully controlled the home appliances by chatbot technology. In our research, the system can extract the device name such as light, fan, etc using synonyms. In the device name extraction part, we use Jaro-Winkler string matching algorithms. We have also used the Naive Bayes algorithm to take command for action. Finally, a Firebase-based system connects the users and controls hardware. Our model can control the home appliances from a long distance because we used the wireless fidelity system.
Production System in Artificial Intelligence (AI)
A production system in AI helps create AI-based computer programs. With the help of it, the automation of various types of machines has become an easy task. The types of machines can be a computer, mobile applications, manufacturing tools, or more. The set of rules in a production system in Artificial Intelligence defines the behavior of the machine. It helps the machine respond to the surroundings.
A production system in AI is a type of cognitive architecture that defines specific actions as per certain rules. The rules represent the declarative knowledge of a machine to respond according to different conditions. Today, many expert systems and automation methodologies rely on the rules of production systems.
Global Database
A global database consists of the architecture used as a central data structure. A database contains all the necessary data and information required for the successful completion of a task. It can be divided into two parts as permanent and temporary. The permanent part of the database consists of fixed actions, whereas the temporary part alters according to circumstances.
Learn more about Artificial Neural networks in this insightful Artificial Intelligence Training now!
Production Rules
Production rules in AI are the set of rules that operates on the data fetched from the global database. Also, these production rules are bound with precondition and postcondition that gets checked by the database. If a condition is passed through a production rule and gets satisfied by the global database, then the rule is successfully applied. The rules are of the form A®B, where the right-hand side represents an outcome corresponding to the problem state represented by the left-hand side.
Control System
The control system checks the applicability of a rule. It helps decide which rule should be applied and terminates the process when the system gives the correct output. It also resolves the conflict of multiple conditions arriving at the same time. The strategy of the control system specifies the sequence of rules that compares the condition from the global database to reach the correct result.
Simplicity
The production rule in AI is in the form of an ‘IF-THEN’ statement. Every rule in the production system has a unique structure. It helps represent knowledge and reasoning in the simplest way possible to solve real-world problems. Also, it helps improve the readability and understanding of the production rules.
Problem Characteristics in Artificial Intelligence,
Unit -2 Problem Solving and Searching Techniques
o choose an appropriate method for a particular problem first we need to categorize the problem based on the following characteristics.
Is the problem decomposable into small sub-problems which are easy to solve?
Can solution steps be ignored or undone?
Is the universe of the problem is predictable?
Is a good solution to the problem is absolute or relative?
Is the solution to the problem a state or a path?
What is the role of knowledge in solving a problem using artificial intelligence?
Does the task of solving a problem require human interaction?
1. Is the problem decomposable into small sub-problems which are easy to solve?
Can the problem be broken down into smaller problems to be solved independently?
See also Water Jug Problem in Artificial Intelligence
The decomposable problem can be solved easily.
Example: In this case, the problem is divided into smaller problems. The smaller problems are solved independently. Finally, the result is merged to get the final result.
Is the problem decomposable
2. Can solution steps be ignored or undone?
In the Theorem Proving problem, a lemma that has been proved can be ignored for the next steps.
Such problems are called Ignorable problems.
In the 8-Puzzle, Moves can be undone and backtracked.
Such problems are called Recoverable problems.
In Playing Chess, moves can be retracted.
Such problems are called Irrecoverable problems.
Ignorable problems can be solved using a simple control structure that never backtracks. Recoverable problems can be solved using backtracking. Irrecoverable problems can be solved by recoverable style methods via planning.
3. Is the universe of the problem is predictable?
In Playing Bridge, We cannot know exactly where all the cards are or what the other players will do on their turns.
Uncertain outcome!
For certain-outcome problems, planning can be used to generate a sequence of operators that is guaranteed to lead to a solution.
For uncertain-outcome problems, a sequence of generated operators can only have a good probability of leading to a solution. Plan revision is made as the plan is carried out and the necessary feedback is provided.
4. Is a good solution to the problem is absolute or relative?
The Travelling Salesman Problem, we have to try all paths to find the shortest one.
See also Generate and Test Heuristic Search - Artificial Intelligence
Any path problem can be solved using heuristics that suggest good paths to explore.
For best-path problems, a much more exhaustive search will be performed.
5. Is the solution to the problem a state or a path
The Water Jug Problem, the path that leads to the goal must be reported.
ELEMENTS OF MECHANICAL ENGG. Module 5 MECHATRONICS (1).pptxManjunathtv2
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Fabric design pattern feeding through human machine interface (hmi) for an el...eSAT Journals
Abstract
This work mainly focused on improving performance of a semi-automated weaving loom by replacing conventional cylinder with
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are stored in either SD card or USB memory device in the format of bitmap. All hardware models are simulated and verified
forsemi-automated conventional weaving loom.
Key Words: HMI, Microcontroller, Card, Electronic Jacquard, Solenoid Array, Semi Automated Loom, Fabric Design.
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Lcd based voting machine using 8051 family microcontroller
1. Logic Mind Technologies
Vijayangar (Near Maruthi Medicals), Bangalore-40
Ph: 8123668124 // 8123668066
Title: LCD BASED VOTING MACHINE USING 8051 FAMILY
MICROCONTROLLER
ABSTRACT:
This project is design for the student to make them understand the technology used in a now a
day’s voting machine system, which is used in whole world. These voting machines are equipped
with the CPU, which control the voting machine. The voting machine is programmed for the
specific operation. Every operation on the voting machine is defined is display on the Computer
Monitor.
BLOCK DIAGRAM:
2. PROPOSED SYSTEM:
In this project we try to give the Idea of prototype voting machines. We are using micro
controller AT89S52 for controlling the voting operation. The voting machine is designed for
three Political parties. There is a Monitor display for showing the status of voting by interfacing
the voting machine with the PC. For connecting the voting machine with PC we use the Hyper
Terminal communication system, which are already come with the Window2000XP operating
system.
ADVANTAGES:
Cost effective
Low power consumption
APPLICATIONS:
3. High security voting machine
Visitor counter in hospital
PROJECT FLOW:
First Review:
Literature Survey
Paper Explanation
Design of Project
Project Enhancement explanation
Second Review:
Implementing 40% of Base Paper
Third Review
Implementing Remaining 60% of Base Paper with Future Enhancement
(Modification)
For More Details please contact
Logic Mind Technologies
Vijayangar (Near Maruthi Medicals), Bangalore-40
Ph: 8123668124 // 8123668066
Mail: logicmindtech@gmail.com