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
Siemens SCADA and Siemens PLC, both will let you understand the industrial world and future technology of tomorrow today. Students who opt this course will able to open and scalable SCADA system. This is actually the solution that is capable of managing ever-increasing amounts of data and archiving them over the large term.
How I Learned To Stop Worrying And Love the Smart MeterzeroSteiner
The document discusses attacking smart meters. It provides background on smart meter infrastructure and explains why attackers may target smart meters for information or access. It then demonstrates how to access smart meters wired through an optical probe using the open source Termineter framework, which implements protocols like C12.18 and C12.19 to read and write meter data tables. A demo of the Termineter tool is shown, and future work like Zigbee integration is discussed.
The document discusses biometric access control solutions for data center cabinets that can produce an indisputable audit trail. It describes a system using swing handles integrated with fingerprint readers at cabinet doors to unambiguously identify individuals accessing sensitive data and hardware. This system adheres to government regulations by continuously monitoring and logging access while preventing unauthorized access. Management software provides centralized user management, system configuration and real-time monitoring of the biometric access control system across multiple locations.
This document lists electronics projects that can be done using Matlab, including an RFID indoor positioning system, an auto switching magnetic door lock system, and a microcontroller based face recognition system. It discusses key fields like embedded systems, power electronics, and RFID. Major electronic domains covered are digital systems, hybrid microcircuits, semiconductor technology, embedded systems, and agri electronics. Contact information is provided to learn more.
This document discusses embedded systems. It defines an embedded system as a special purpose computer used inside devices. Embedded systems have several key components: embedded hardware like microcontrollers, embedded operating systems, device drivers, and communication stacks. Challenges in developing embedded systems include low cost, high performance, and efficiency. Examples of applications are appliances, communication equipment, transportation systems, factory automation, and medical devices. Future trends include adaptive cruise control, telemedicine, security, telematics, and Bluetooth applications.
Keypad Based Bank Locker Security System Using Gsm TechnologyIJRES Journal
Banking is one of the sectors where technology and advancements in technologies have not been utilized to the fullest potential. In the security systems even today very old practices are followed that can be made lot better using technologies like GSM which is easily usable and also easy to implement at a consumer level. In this project we propose a GSM based secure access which can provide a sophisticated theft alert system for bank locker system. This system contains microcontroller, keypad, GSM module and LCD display. By using keypad we need to enter the password that is provided to the authenticated persons. If the password entered is wrong then the GSM network converts the digital information into airborne signals and SMS is transferred to the registered mobile number. This system offers better solution for the bank security system and it will also help us to track the person who tried to open the locker without the permission and proper authentication.
Siemens SCADA and Siemens PLC, both will let you understand the industrial world and future technology of tomorrow today. Students who opt this course will able to open and scalable SCADA system. This is actually the solution that is capable of managing ever-increasing amounts of data and archiving them over the large term.
How I Learned To Stop Worrying And Love the Smart MeterzeroSteiner
The document discusses attacking smart meters. It provides background on smart meter infrastructure and explains why attackers may target smart meters for information or access. It then demonstrates how to access smart meters wired through an optical probe using the open source Termineter framework, which implements protocols like C12.18 and C12.19 to read and write meter data tables. A demo of the Termineter tool is shown, and future work like Zigbee integration is discussed.
The document discusses biometric access control solutions for data center cabinets that can produce an indisputable audit trail. It describes a system using swing handles integrated with fingerprint readers at cabinet doors to unambiguously identify individuals accessing sensitive data and hardware. This system adheres to government regulations by continuously monitoring and logging access while preventing unauthorized access. Management software provides centralized user management, system configuration and real-time monitoring of the biometric access control system across multiple locations.
This document lists electronics projects that can be done using Matlab, including an RFID indoor positioning system, an auto switching magnetic door lock system, and a microcontroller based face recognition system. It discusses key fields like embedded systems, power electronics, and RFID. Major electronic domains covered are digital systems, hybrid microcircuits, semiconductor technology, embedded systems, and agri electronics. Contact information is provided to learn more.
This document discusses embedded systems. It defines an embedded system as a special purpose computer used inside devices. Embedded systems have several key components: embedded hardware like microcontrollers, embedded operating systems, device drivers, and communication stacks. Challenges in developing embedded systems include low cost, high performance, and efficiency. Examples of applications are appliances, communication equipment, transportation systems, factory automation, and medical devices. Future trends include adaptive cruise control, telemedicine, security, telematics, and Bluetooth applications.
Keypad Based Bank Locker Security System Using Gsm TechnologyIJRES Journal
Banking is one of the sectors where technology and advancements in technologies have not been utilized to the fullest potential. In the security systems even today very old practices are followed that can be made lot better using technologies like GSM which is easily usable and also easy to implement at a consumer level. In this project we propose a GSM based secure access which can provide a sophisticated theft alert system for bank locker system. This system contains microcontroller, keypad, GSM module and LCD display. By using keypad we need to enter the password that is provided to the authenticated persons. If the password entered is wrong then the GSM network converts the digital information into airborne signals and SMS is transferred to the registered mobile number. This system offers better solution for the bank security system and it will also help us to track the person who tried to open the locker without the permission and proper authentication.
Functions and features network managementFlightcase1
Network management is the process of administering and managing computer networks. Various services provided by this discipline include fault analysis, performance management, provisioning of networks, maintaining the quality of service.
This document provides an overview of home automation. It defines home automation as the automatic control of household appliances, security systems, lighting, and HVAC systems using electronic devices and software. The document discusses why home automation is useful by allowing for remote and seamless control of home functions from devices like smartphones. It then describes how home automation works using sensors, controllers, and actuators connected to devices like cameras, motion detectors, temperature sensors, and Arduino boards. The document outlines some common components of home automation systems like Bluetooth modules, microcontrollers, relays, and Android apps. It lists advantages like savings, safety, and convenience and gives examples of applications such as smart kitchens, security systems, health monitoring, and irrigation control
This document describes a microcontroller-based timer project. It provides background on the company Future Robotix, which designs embedded systems using microcontrollers like the AVR and MCS51 families. Embedded systems are integral computer systems found in devices like cell phones, cars, and medical equipment. The project uses an 8051 microcontroller as the control unit and interfaces it with switches and a buzzer. The microcontroller counts down the time and triggers the buzzer when the timer expires. Keil software is used for programming the 8051 microcontroller.
The document defines an embedded system as a special-purpose computer system that is completely encapsulated within a larger device it controls. An embedded system combines both hardware and software to perform dedicated functions for applications like industrial automation, transportation, consumer electronics, and other areas. Examples of embedded systems include appliances, avionics systems, automotive control systems, medical equipment, telecommunications equipment, and many other common devices that are not general-purpose computers.
This document proposes a biometric-based secure access system for bank lockers that uses fingerprint authentication for security. The system contains a microcontroller, keypad, biometric fingerprint module, and LCD display. It works by requiring users to enter a password via the keypad to open the door initially, then authenticate via fingerprint to access the main locker area. This dual authentication provides better security than traditional systems and can also track unauthorized access attempts to alert banks of potential thefts.
Mimic infotech Company Presentation R-1ABHIJIT UNDRE
Mimic Infotech Pvt Ltd is an instrumentation and software solutions provider that offers services such as field instrumentation, virtual instrumentation, control systems, embedded systems, SCADA systems, PLCs, sensors, transducers, electrical instrumentation, material supply, consultation, industrial trainings, customized software, data acquisitions, remote monitoring, energy monitoring, report generation, data management, machine data acquisition, OPC server selection, OPC server integration, software consultation, UI design, and HMI development. The company serves industries including automotive, defense, aerospace, pharmaceuticals, food and beverages, power transmission and distribution, process industries, oil and gas, and educational institutes.
SCADA systems are used to monitor and control industrial processes that occur across geographically dispersed locations. They involve remote terminal units collecting field data and sending it back to a central control room via a communications system. This enables operators to view real-time data and remotely control processes from a central location for more efficient, reliable and safer operations. Common applications of SCADA systems include power generation and distribution, manufacturing, water and waste management, and buildings.
Embedded Systems (18EC62) – Embedded System Components (Module 3)Shrishail Bhat
Lecture Slides for Embedded Systems (18EC62) - Embedded System Components (Module 3) for VTU Students
Contents
Embedded Vs General computing system, Classification of Embedded systems, Major applications and purpose of ES. Elements of an Embedded System (Block diagram and explanation), Differences between RISC and CISC, Harvard and Princeton, Big and Little Endian formats, Memory (ROM and RAM types), Sensors, Actuators, Optocoupler, Communication Interfaces (I2C, SPI, IrDA, Bluetooth, Wi-Fi, Zigbee only)
How one leading developer of SCADA (Supervisory Control and Data Acquisition) software has applied their knowledge to innovate a powerful IoT (Internet of Things) development platform.
Remote administration of bms through android applicationeSAT Journals
This document summarizes a research paper on remotely administering a Building Management System (BMS) through an Android application. It discusses how sensor data from a building is sent over GPRS to a server where it is stored in a database. An Android app allows remote control and monitoring of building parameters by communicating with the server over TCP/IP. The system uses a microcontroller-based Building Management Device to collect data from sensors and send it to the server via a GPRS modem. This allows centralized monitoring and control of building functions like lighting, temperature and security from any location.
This document describes a home and office security system. The system uses sensors to detect intrusions and sends alerts. It consists of a microcontroller, MAX232 for serial communication, sensors and a power supply. The microcontroller monitors the sensors and sends intrusion data to a PC. The PC graphically displays intrusion locations in red. The system provides security for homes, offices and other locations in a low-cost and simple way.
SCADA systems are used to monitor and control processes in various fields like manufacturing and utilities. It collects data from sensors, transmits it to a central computer which stores the information. The SCADA system consists of hardware for input/output signals, controllers, networks, a graphical user interface, and communication tools. It gathers data, transfers it, delivers it, and handles processes. SCADA is well-suited for tasks like weather monitoring and power plant control. It provides benefits like increased quality, lower costs, easy integration, and capital investment protection by allowing remote monitoring and control. Common industries that use SCADA include manufacturing, facilities, energy, water, and transit.
Scada Industrial Control Systems Penetration Testing Yehia Mamdouh
Scada Industrial Control Systems Penetration Testing
Start from Types of Scada Networks, then Penetration testing, finally what Security should be follow
Embedded systems combine both hardware and software to form an integral part of a larger system or machine. They are designed to perform specific tasks, such as controlling an engine or processing signals in real time, without human intervention. Examples include processors in cars, robots, televisions, and consumer electronics. Embedded systems have a long design life cycle that involves acquiring components, testing and certifying the system, planning logistics and repairs, and potentially upgrading the system over time. Many embedded systems now also connect to the internet, allowing consumer products and industrial equipment to access online services. Common application areas of embedded systems include the military, automotive, medical, telecommunications, consumer, and industrial sectors.
Topics covered in this presentation:
What is an Embedded system ?
What are MISRA C rules ?
MISRA C conformance and deviations
Tools for MISRA C conformance
Embedded Security Rules
A SCADA system collects sensor data from manufacturing facilities and plants, transmits it to a central computer system for storage. It consists of hardware for input/output signals, controllers, networks, a graphical user interface, and communication tools. The user interface displays information to operators and allows them to control the system. SCADA systems are used to gather information, transfer and deliver data, and control processes for tasks ranging from weather monitoring to nuclear power plant management. They are suited for situations where direct human control is impractical and provide benefits like increased quality, reduced costs, easy integration, capital investment protection, and real-time process monitoring. SCADA is commonly used in manufacturing, facilities, utilities, water/sewage
An embedded system can be thought of as a computer hardware system having software embedded in it. It is a microcontroller or microprocessor based system which is designed to perform a specific task. An embedded system has hardware, application software, and a real-time operating system (RTOS) that supervises the application software and provides mechanisms to control latencies according to a fixed plan. Embedded systems are single-functioned, tightly constrained, reactive, real-time systems based on microprocessors with limited memory that are connected and combine both hardware and software.
This document describes a home automation project that allows controlling home appliances like a TV, refrigerator, and lights using a personal computer. A PC is interfaced with a microcontroller via an RS232 cable. The microcontroller is connected to relays that switch appliances on and off. Home automation provides network connectivity between computers, appliances, and subsystems like HVAC and security. The project allows remote control and monitoring of appliances for convenience and energy savings.
The aim of this project is to control the electrical appliances through a personal computer (PC). With this system, one can control the electrical appliances ON/OFF by just being seated at one place using a PC.
Functions and features network managementFlightcase1
Network management is the process of administering and managing computer networks. Various services provided by this discipline include fault analysis, performance management, provisioning of networks, maintaining the quality of service.
This document provides an overview of home automation. It defines home automation as the automatic control of household appliances, security systems, lighting, and HVAC systems using electronic devices and software. The document discusses why home automation is useful by allowing for remote and seamless control of home functions from devices like smartphones. It then describes how home automation works using sensors, controllers, and actuators connected to devices like cameras, motion detectors, temperature sensors, and Arduino boards. The document outlines some common components of home automation systems like Bluetooth modules, microcontrollers, relays, and Android apps. It lists advantages like savings, safety, and convenience and gives examples of applications such as smart kitchens, security systems, health monitoring, and irrigation control
This document describes a microcontroller-based timer project. It provides background on the company Future Robotix, which designs embedded systems using microcontrollers like the AVR and MCS51 families. Embedded systems are integral computer systems found in devices like cell phones, cars, and medical equipment. The project uses an 8051 microcontroller as the control unit and interfaces it with switches and a buzzer. The microcontroller counts down the time and triggers the buzzer when the timer expires. Keil software is used for programming the 8051 microcontroller.
The document defines an embedded system as a special-purpose computer system that is completely encapsulated within a larger device it controls. An embedded system combines both hardware and software to perform dedicated functions for applications like industrial automation, transportation, consumer electronics, and other areas. Examples of embedded systems include appliances, avionics systems, automotive control systems, medical equipment, telecommunications equipment, and many other common devices that are not general-purpose computers.
This document proposes a biometric-based secure access system for bank lockers that uses fingerprint authentication for security. The system contains a microcontroller, keypad, biometric fingerprint module, and LCD display. It works by requiring users to enter a password via the keypad to open the door initially, then authenticate via fingerprint to access the main locker area. This dual authentication provides better security than traditional systems and can also track unauthorized access attempts to alert banks of potential thefts.
Mimic infotech Company Presentation R-1ABHIJIT UNDRE
Mimic Infotech Pvt Ltd is an instrumentation and software solutions provider that offers services such as field instrumentation, virtual instrumentation, control systems, embedded systems, SCADA systems, PLCs, sensors, transducers, electrical instrumentation, material supply, consultation, industrial trainings, customized software, data acquisitions, remote monitoring, energy monitoring, report generation, data management, machine data acquisition, OPC server selection, OPC server integration, software consultation, UI design, and HMI development. The company serves industries including automotive, defense, aerospace, pharmaceuticals, food and beverages, power transmission and distribution, process industries, oil and gas, and educational institutes.
SCADA systems are used to monitor and control industrial processes that occur across geographically dispersed locations. They involve remote terminal units collecting field data and sending it back to a central control room via a communications system. This enables operators to view real-time data and remotely control processes from a central location for more efficient, reliable and safer operations. Common applications of SCADA systems include power generation and distribution, manufacturing, water and waste management, and buildings.
Embedded Systems (18EC62) – Embedded System Components (Module 3)Shrishail Bhat
Lecture Slides for Embedded Systems (18EC62) - Embedded System Components (Module 3) for VTU Students
Contents
Embedded Vs General computing system, Classification of Embedded systems, Major applications and purpose of ES. Elements of an Embedded System (Block diagram and explanation), Differences between RISC and CISC, Harvard and Princeton, Big and Little Endian formats, Memory (ROM and RAM types), Sensors, Actuators, Optocoupler, Communication Interfaces (I2C, SPI, IrDA, Bluetooth, Wi-Fi, Zigbee only)
How one leading developer of SCADA (Supervisory Control and Data Acquisition) software has applied their knowledge to innovate a powerful IoT (Internet of Things) development platform.
Remote administration of bms through android applicationeSAT Journals
This document summarizes a research paper on remotely administering a Building Management System (BMS) through an Android application. It discusses how sensor data from a building is sent over GPRS to a server where it is stored in a database. An Android app allows remote control and monitoring of building parameters by communicating with the server over TCP/IP. The system uses a microcontroller-based Building Management Device to collect data from sensors and send it to the server via a GPRS modem. This allows centralized monitoring and control of building functions like lighting, temperature and security from any location.
This document describes a home and office security system. The system uses sensors to detect intrusions and sends alerts. It consists of a microcontroller, MAX232 for serial communication, sensors and a power supply. The microcontroller monitors the sensors and sends intrusion data to a PC. The PC graphically displays intrusion locations in red. The system provides security for homes, offices and other locations in a low-cost and simple way.
SCADA systems are used to monitor and control processes in various fields like manufacturing and utilities. It collects data from sensors, transmits it to a central computer which stores the information. The SCADA system consists of hardware for input/output signals, controllers, networks, a graphical user interface, and communication tools. It gathers data, transfers it, delivers it, and handles processes. SCADA is well-suited for tasks like weather monitoring and power plant control. It provides benefits like increased quality, lower costs, easy integration, and capital investment protection by allowing remote monitoring and control. Common industries that use SCADA include manufacturing, facilities, energy, water, and transit.
Scada Industrial Control Systems Penetration Testing Yehia Mamdouh
Scada Industrial Control Systems Penetration Testing
Start from Types of Scada Networks, then Penetration testing, finally what Security should be follow
Embedded systems combine both hardware and software to form an integral part of a larger system or machine. They are designed to perform specific tasks, such as controlling an engine or processing signals in real time, without human intervention. Examples include processors in cars, robots, televisions, and consumer electronics. Embedded systems have a long design life cycle that involves acquiring components, testing and certifying the system, planning logistics and repairs, and potentially upgrading the system over time. Many embedded systems now also connect to the internet, allowing consumer products and industrial equipment to access online services. Common application areas of embedded systems include the military, automotive, medical, telecommunications, consumer, and industrial sectors.
Topics covered in this presentation:
What is an Embedded system ?
What are MISRA C rules ?
MISRA C conformance and deviations
Tools for MISRA C conformance
Embedded Security Rules
A SCADA system collects sensor data from manufacturing facilities and plants, transmits it to a central computer system for storage. It consists of hardware for input/output signals, controllers, networks, a graphical user interface, and communication tools. The user interface displays information to operators and allows them to control the system. SCADA systems are used to gather information, transfer and deliver data, and control processes for tasks ranging from weather monitoring to nuclear power plant management. They are suited for situations where direct human control is impractical and provide benefits like increased quality, reduced costs, easy integration, capital investment protection, and real-time process monitoring. SCADA is commonly used in manufacturing, facilities, utilities, water/sewage
An embedded system can be thought of as a computer hardware system having software embedded in it. It is a microcontroller or microprocessor based system which is designed to perform a specific task. An embedded system has hardware, application software, and a real-time operating system (RTOS) that supervises the application software and provides mechanisms to control latencies according to a fixed plan. Embedded systems are single-functioned, tightly constrained, reactive, real-time systems based on microprocessors with limited memory that are connected and combine both hardware and software.
This document describes a home automation project that allows controlling home appliances like a TV, refrigerator, and lights using a personal computer. A PC is interfaced with a microcontroller via an RS232 cable. The microcontroller is connected to relays that switch appliances on and off. Home automation provides network connectivity between computers, appliances, and subsystems like HVAC and security. The project allows remote control and monitoring of appliances for convenience and energy savings.
The aim of this project is to control the electrical appliances through a personal computer (PC). With this system, one can control the electrical appliances ON/OFF by just being seated at one place using a PC.
Password based circuit breaker control to ensure electricPraveen Kumar V
This document describes a password-based circuit breaker control system to ensure the safety of electric line workers. The system uses a PIC16F877A microcontroller and requires a line worker to enter a password to turn the circuit breaker on or off. This allows the line worker to safely repair power lines by turning off the supply, completing repairs, and then returning to the substation to turn the power back on by entering the correct password. The system indicators and password entry is controlled by the microcontroller.
This password based circuit breaker is built by using 8051 mirocontroller to control a circuit breaker with help of a password only. It provides a solution for the safety of maintenance staff like lineman.
Edgefxkits.com has a wide range of electronic projects ideas that are primarily helpful for ECE, EEE and EIE students and the ideas can be applied for real life purposes as well.
Edgefx 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
This document provides contact information for Prateek Technologies and lists 190 embedded systems, robotics, and other technology projects they have completed or can complete. It includes their address, phone numbers, email and website. The projects listed cover a wide range of applications including industrial automation, medical devices, transportation, security, and more. This document is marked as for private circulation only.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
The document discusses the evolution of process control systems from early pneumatic and analog electronic implementations to modern digital implementations using distributed control systems (DCS). It describes the key components and advantages of DCS, including flexibility, reliability, and the ability to implement advanced digital control strategies. DCS networks allow different control modes and distributed control for large, complex processes.
This document discusses Supervisory Control and Data Acquisition (SCADA) systems and Programmable Logic Controllers (PLCs). It describes the typical architecture of a three-layer SCADA system, including a supervisory control layer, process control layer, and field instrumentation layer. The process control layer often uses PLCs to control devices and sensors are in the field instrumentation layer. Benefits of SCADA systems include increased reliability, lower costs, and assisting operators with decision making, while disadvantages include high initial costs and security issues from internet accessibility.
This document discusses wireless accessibility for industrial process control and monitoring. It provides an overview of the evolution from wired control systems to current wireless solutions. Specifically, it describes how cable replacement using wireless technologies can eliminate wiring while maintaining functionality. It also discusses different wireless standards such as Wi-Fi, Bluetooth, and ZigBee and their applications in industrial control. Some successful real-world examples of cable replacement are also mentioned.
This document provides an overview of programmable controllers, including what they are, how they work, and the different types. It defines programmable controllers as miniature industrial computers that contain hardware and software to perform control functions. The two main sections are the central processing unit (CPU) and input/output interface. The CPU controls all activity by reading inputs, executing programs stored in memory, and writing outputs. Common types are programmable logic controllers (PLCs), PC-based controls, and programmable automation controllers (PACs). Choosing the right controller depends on factors like the application, number of inputs/outputs, environmental conditions, and compatibility with existing systems.
My thesis work on Cognitive automation of Electric appliancesAkhil Reddy Rondla
Throwback everyone felt anxious and perilous towards the home appliances switching to overcome these complications, in past days we had ample technologies are came into the market like person detector sensor, remote operation and clap to on the appliances etc. even though the lot of members are felt atrocious towards the operation of home appliances to mitigate all those issues, we came up with an outstanding technology at present the world is being like an instant work and instant output and comes to our project is voice controlling home automation system using Bluetooth technology through this application we should sound off commands like TV is on or TV is off likewise all the appliances using 8051 family microcontroller. Bluetooth modules are more reliable, secure and low power modules and these modules do not require line of sight also. We can use mobile Bluetooth by developing some applications or we can use normal USB Bluetooth dongles by connecting to PC.
Industrial automation using gsm (full paper)Mahira Banu
This document describes an industrial automation system that uses GSM technology. A PSOC microcontroller is interfaced with sensors, actuators, and a GSM modem to monitor and control industrial processes remotely via SMS messages. The system allows maintenance officers to receive sensor data and send control commands from anywhere to optimize monitoring and reduce costs. PSOC can implement complex control systems and interfaces due to its programmable analog and digital blocks. The GSM network provides reliable communication between the automated industrial system and remote users.
The document is a project report submitted by three students - Dhiraj Machhindra Bhalerao, Chetan Santosh Chavan, and Akshay Rajendra Fiske - to North Maharashtra University in partial fulfillment of the requirements for a Bachelor of Engineering degree in Electrical Engineering. The project aims to develop a touch screen home automation system under the guidance of Prof. G. K. Andurkar. The report includes sections on introduction, literature survey, system development, performance methodology, conclusions, and references.
This document provides an overview of power system automation and SCADA (Supervisory Control and Data Acquisition) systems. It defines SCADA and describes its typical components like HMIs, RTUs, PLCs and communication infrastructure. It also outlines applications of SCADA in power generation, distribution and transmission systems. Benefits of SCADA include increased efficiency, reliability and reduced manual labor through remote monitoring and control of power systems. The document concludes that SCADA provides a common framework for experiment control and ensures consistent operator experience across different parts of complex power systems.
gui based device controller using matlab Major presentationPalak Sinha
major presentation on graphical user interface developing in matlab to control the device control like arduino output , for extending it to home automation etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
This document provides a report on industrial automation based on programmable logic controllers (PLCs) and supervisory control and data acquisition (SCADA) systems. It includes an introduction to industrial automation, PLCs, and SCADA. The report was submitted in partial fulfillment of a Bachelor of Technology degree in electrical engineering and covers automation technologies used from June to July 2014 during an internship.
1. The document discusses a distributed computer control system for industrial processes. In the system, remote stations take turns having supervisory control over a communications link in a predetermined sequence. When a remote station's turn is over, it transmits a message and the next station takes control.
2. The system uses programmable logic controllers (PLCs) connected over a network to control industrial devices in a distributed, decentralized manner. This offers more flexibility and scalability than a centralized system. Small, intelligent PLCs gather local data and share it across the network.
3. The invention relates to industrial control systems with multiple remotely located process control units connected by a communications link. Each remote unit sequentially takes supervisory
1. The document discusses a distributed computer control system for industrial process control. It describes a system where remote stations are interconnected by a communications link and each remote station takes turns having supervisory control over the link according to a predetermined order.
2. It also discusses programmable logic controllers (PLCs) used in industrial control systems. PLCs generally have a central processing unit and input/output modules. Industry is moving toward more distributed control systems using smaller PLCs and network technologies.
3. The document covers data link communication in distributed control systems. It describes a system where each remote station sequentially assumes control of the communication link and aims to achieve high reliability information transfer between stations.
This document describes the design and implementation of a microcontroller-based system to monitor and control home appliances. The system uses an AT89C52 microcontroller interfaced with a PC running Visual Basic 6.0 software via a serial port. The microcontroller monitors the current drawn by two electrical sockets using an analog-to-digital converter. It can also switch the sockets on and off under control of the PC interface. The system provides over/under voltage protection for loads and overcurrent protection for each socket.
The document provides an overview of programmable logic controllers (PLCs), including their history, advantages over relay control systems, components, and classes. PLCs are specialized computers used to control machines and processes through logical decision-making and output control. They offer benefits like increased reliability, flexibility, communication capabilities, and easier troubleshooting compared to relay controls. A PLC consists of a central processing unit, input/output section, power supply, and programming device.
Power point presentation on Industrial AutomationJaiPrakash337
This document summarizes a seminar presentation on industrial automation. It discusses automation tools like PLCs and SCADA used to automate industrial processes. It defines automation and describes the advantages it provides like improved accuracy, reduced costs, and increased production. PLCs are described as programmable devices that can automate industrial tasks by reading sensor inputs, running user-defined logic, and controlling outputs. SCADA systems allow remote monitoring and control of distributed industrial processes. The document outlines the components and applications of PLCs and SCADA and concludes that combining them provides an effective way to safely operate and monitor industrial machines.
This document describes a system for automating power house control using wireless communication. The system uses microcontrollers, wireless modules like Zigbee, and a web interface to remotely monitor and control power outlets. Sensors measure current and send data to a server module over Zigbee. The system can automatically cut off power if a bill is unpaid or if overload is detected. A software module with PHP, JavaScript etc. allows users to view power status on internet-connected devices. The wireless system is low-cost, low data rate, self-healing and provides energy usage information to users for power management remotely.
Power house automation using wireless communicationeSAT Journals
Abstract The design is established for the automation of power house system. It shows how to remotely control and monitor power, automatically cut-off power on a single click using micro-controller based switches, wireless hardware module and web user interface during the shortage of power for power management or when bill is not paid. Web user interface shows complete information and power status of consumer stored in database; the data in a database is collected from remote module. To implement this, the wireless technologies used are IR module, zigbee module and server module through internet, PDA using graphical user interface and through smart phones. Static state relay for controlling power on/off outlets and sensors used to sense electric current being used by electric outlets. To measure power a measuring circuit senses the current and sends back a signal to the server module through zigbee the measured data is stored in embedded board and they are designed to become aware of any overload and to send a message to the circuit breaker for safety. PHP, JavaScript, html, CSS are used here to design a web user interface to provide a user-friendly operation of electric outlets. The proposed power outlet monitors the power consumption for the predetermined time and to completely cut-off power supply when the monitored power is below threshold. To efficiently manage the power outlets, the zigbee has several on board switches to wake up the power outlets and control them. The wireless communication module integrates several ac power sockets and a plug-in low power microcontroller performs power on/off switching of sockets. This system is used for power saving purpose and using wireless communication includes low cost, low data rate, self healing system and provides energy usage information to user on internet. The device works online so all the data are received in real time and the whole power system in home area can be managed in the remote area.
Keywords: Power house system, Switches, Relays, Wireless technology, HyperTerminal, Wamp Server, Net beans.
Similar to Pc based electrical appliance control system (20)
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
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
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
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
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
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
This document describes an embedded real-time clock based industrial device control system developed by Logic Mind Technologies. The system uses a PIC microcontroller interfaced with a DS1307 real-time clock chip to programmatically switch on heavy machinery and devices only during needed time periods, in order to reduce electrical energy wastage. A 3V battery is connected to the real-time clock to avoid disturbances from power failures. The system provides control switches to enter required timings and displays the alarm times and current time on a 2x16 LCD. It was developed as a solution for industrial sites where machinery operates and wastes power during time periods with low worker activity.
This document describes an embedded system for real-time patient monitoring of heartbeat and temperature. The system uses biosensors and a PIC16F877A microcontroller to continuously monitor patients' vital signs. The microcontroller analyzes the sensor data and stores results in a database. It can also trigger an alarm if any abnormal readings are detected. The proposed system aims to offer more powerful and flexible monitoring than current wired solutions, supporting up to 20 patients with low-cost, low-power dual-mode monitoring in real-time. It uses MPLAB C software to implement the processes and discuss results.
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
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
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
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 Vijaynagar
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 Vijaynagar
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 Vijaynagar
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 Vijaynagar
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 Vijaynagar
This document describes a bi-directional visitor counter circuit that uses infrared (IR) sensors to count the number of people entering and exiting a room. The circuit uses two sets of IR sensors with an IR LED and photo transistor at each end to detect movement. When a person passes through the sensor, it interrupts the IR light and the microcontroller detects the signal change and increases or decreases the count. The system displays the in and out counts on an LCD and can help monitor visitor numbers in places like auditoriums, halls, and museums without human intervention at a low cost.
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
ACEP Magazine edition 4th launched on 05.06.2024Rahul
This document provides information about the third edition of the magazine "Sthapatya" published by the Association of Civil Engineers (Practicing) Aurangabad. It includes messages from current and past presidents of ACEP, memories and photos from past ACEP events, information on life time achievement awards given by ACEP, and a technical article on concrete maintenance, repairs and strengthening. The document highlights activities of ACEP and provides a technical educational article for members.
Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapte...University of Maribor
Slides from talk presenting:
Aleš Zamuda: Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapter and Networking.
Presentation at IcETRAN 2024 session:
"Inter-Society Networking Panel GRSS/MTT-S/CIS
Panel Session: Promoting Connection and Cooperation"
IEEE Slovenia GRSS
IEEE Serbia and Montenegro MTT-S
IEEE Slovenia CIS
11TH INTERNATIONAL CONFERENCE ON ELECTRICAL, ELECTRONIC AND COMPUTING ENGINEERING
3-6 June 2024, Niš, Serbia
International Conference on NLP, Artificial Intelligence, Machine Learning an...gerogepatton
International Conference on NLP, Artificial Intelligence, Machine Learning and Applications (NLAIM 2024) offers a premier global platform for exchanging insights and findings in the theory, methodology, and applications of NLP, Artificial Intelligence, Machine Learning, and their applications. The conference seeks substantial contributions across all key domains of NLP, Artificial Intelligence, Machine Learning, and their practical applications, aiming to foster both theoretical advancements and real-world implementations. With a focus on facilitating collaboration between researchers and practitioners from academia and industry, the conference serves as a nexus for sharing the latest developments in the field.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
Advanced control scheme of doubly fed induction generator for wind turbine us...
Pc based electrical appliance control system
1. Logic Mind Technologies
Vijayangar (Near Maruthi Medicals), Bangalore-40
Ph: 8123668124 // 8123668066
Title: PC BASED ELECTRICAL APPLIANCE CONTROL SYSTEM
ABSTRACT:
With advancement of technology things are becoming simpler and easier for us.
Automated systems are being preferred over manual system. PC based control
systems are highly reliable, accurate and time saving systems. They provide
number of features like quick data storage, transfer data and data securities which
helps in industries to work in sufficient manner. A microcontroller based controller
is designed to control a number of electrical equipment. To control and monitor
connected equipment through the PC.
PROPOSED SYSTEM:
In this paper, a PC based system which will control various devices like Motor,
Light, and Fan etc. Designed a GUI (Graphical User Interface) on the PC and
which helps to give command to the system. Microcontroller is used in order to
receive commands from PC and accordingly control the devices connected to it. In
this way this system is completely controlled by PC. When the power is ON
initially, all IC’s & relays get resets. Once any Button is pressed by user through
computer control device window (GUI), computer will send command to
Microcontroller with the help of standard serial communication protocol (RS 232).
And through microcontroller relay operation take place & according that home
appliance works.
BLOCK DIAGRAM:
2. ADVANTAGES:
This paper can be effectively and conveniently utilized for the controlof
different appliances.
As this paper could be extended to control number of devices, this could be
used for computerization of an office, home, or a firm. The circuit is simple
and the working mechanism could be easily understood.
It is able to know the status of the device to be controlled.
The program to controlthe appliances is written in C language which is
more user friendly and easy to understand than other programming
languages
In today’s world there is high a demand for PC based controlsystem
because of its various advantages over manual control system.
APPLICATIONS:
Home appliance control
Industrial control
3. 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