Sans Innovations provides various embedded system solutions including:
1. Voice control systems, pollution monitoring for vehicles, vehicle theft prevention, and GSM vehicle immobilization.
2. Additional solutions include ATM theft prevention, greenhouse monitoring, medicine reminders, industrial safety and security, and automatic power saving systems for industries.
3. Sans Innovations also works on solar tracking systems, fuel vending machines, energy management systems, wireless voting machines, and more.
This document contains a list of over 100 potential embedded system project titles across various domains including anti-theft systems, home automation, energy metering, assistive technologies, industrial automation, biomedical applications, and more. It also includes titles related to various wireless technologies like RFID, GPS, GSM, and Zigbee. The document provides contact information for the company ECWAY TECHNOLOGIES which helps develop some of these projects.
This document contains a list of 253 proposed embedded system projects with brief titles. The projects cover a wide range of applications including industrial automation and control, home automation, security, transportation, healthcare, education, and more. They involve technologies such as wireless communication protocols like Zigbee, RFID, Bluetooth, GSM; microcontrollers; sensors; and integration of embedded systems with other devices. The goal is to provide students with ideas for projects that apply embedded concepts to real-world problems.
This document lists 190 wireless project ideas involving technologies like GSM, GPS, ZigBee, WiFi and RFID. Many of the projects involve using these wireless technologies for security, monitoring and control applications in various domains including home automation, industrial automation, agriculture, transportation and healthcare. Common applications proposed include security systems, remote monitoring and control of electrical devices, irrigation control, vehicle tracking and industrial automation.
The document lists 50 potential embedded system project titles across various domains including: anti-theft systems, home automation, energy metering, assistive technologies, street lighting, garage management, substation monitoring, access control systems, agriculture monitoring, security systems, industrial monitoring, vehicle systems, biomedical applications, physical parameter monitoring, voice-integrated applications, and general applications. The projects involve technologies like microcontrollers, RFID, GPS, GSM, instrumentation, wireless communication, ARM, and focus on areas like home, industrial, agricultural, medical, transportation applications of embedded systems.
This document lists over 150 embedded systems project ideas implemented on microcontrollers like 8051, AVR, and ARM7. The projects are categorized into areas like wireless sensor networks, Android & Bluetooth, Zigbee/Bluetooth, MEMS, GSM, GPS, fingerprint, RFID, solar, CAN, Ethernet, and touch screen. They include ideas for home automation, industrial automation, medical devices, robotics, agriculture, and more. All projects are designed for implementation on common microcontroller platforms.
11.arduino android bluetooth home control + app - hc-05 4 - ac light's 2 ...svsembedded
This document contains descriptions of 147 projects related to Internet of Things (IoT), embedded systems, and Arduino/ESP32. The projects cover a wide range of applications including smart home automation, environmental monitoring, healthcare, transportation, security, and more. Sensors, microcontrollers, and wireless communication technologies like Bluetooth and WiFi are incorporated in many of the projects to collect and transmit real-time data over the IoT.
This document contains a list of over 100 potential embedded system project titles across various domains including anti-theft systems, home automation, energy metering, assistive technologies, industrial automation, biomedical applications, and more. It also includes titles related to various wireless technologies like RFID, GPS, GSM, and Zigbee. The document provides contact information for the company ECWAY TECHNOLOGIES which helps develop some of these projects.
This document contains a list of 253 proposed embedded system projects with brief titles. The projects cover a wide range of applications including industrial automation and control, home automation, security, transportation, healthcare, education, and more. They involve technologies such as wireless communication protocols like Zigbee, RFID, Bluetooth, GSM; microcontrollers; sensors; and integration of embedded systems with other devices. The goal is to provide students with ideas for projects that apply embedded concepts to real-world problems.
This document lists 190 wireless project ideas involving technologies like GSM, GPS, ZigBee, WiFi and RFID. Many of the projects involve using these wireless technologies for security, monitoring and control applications in various domains including home automation, industrial automation, agriculture, transportation and healthcare. Common applications proposed include security systems, remote monitoring and control of electrical devices, irrigation control, vehicle tracking and industrial automation.
The document lists 50 potential embedded system project titles across various domains including: anti-theft systems, home automation, energy metering, assistive technologies, street lighting, garage management, substation monitoring, access control systems, agriculture monitoring, security systems, industrial monitoring, vehicle systems, biomedical applications, physical parameter monitoring, voice-integrated applications, and general applications. The projects involve technologies like microcontrollers, RFID, GPS, GSM, instrumentation, wireless communication, ARM, and focus on areas like home, industrial, agricultural, medical, transportation applications of embedded systems.
This document lists over 150 embedded systems project ideas implemented on microcontrollers like 8051, AVR, and ARM7. The projects are categorized into areas like wireless sensor networks, Android & Bluetooth, Zigbee/Bluetooth, MEMS, GSM, GPS, fingerprint, RFID, solar, CAN, Ethernet, and touch screen. They include ideas for home automation, industrial automation, medical devices, robotics, agriculture, and more. All projects are designed for implementation on common microcontroller platforms.
11.arduino android bluetooth home control + app - hc-05 4 - ac light's 2 ...svsembedded
This document contains descriptions of 147 projects related to Internet of Things (IoT), embedded systems, and Arduino/ESP32. The projects cover a wide range of applications including smart home automation, environmental monitoring, healthcare, transportation, security, and more. Sensors, microcontrollers, and wireless communication technologies like Bluetooth and WiFi are incorporated in many of the projects to collect and transmit real-time data over the IoT.
Final Year IEEE Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE Projects, Academic Final Year IEEE Projects 2013, Academic Final Year IEEE Projects 2014, IEEE JAVA, .NET Projects, 2013 IEEE JAVA, .NET Projects, 2013 IEEE JAVA, .NET Projects in Chennai, 2013 IEEE JAVA, .NET Projects in Trichy, 2013 IEEE JAVA, .NET Projects in Karur, 2013 IEEE JAVA, .NET Projects in Erode, 2013 IEEE JAVA, .NET Projects in Madurai, 2013 IEEE JAVA, .NET Projects in Salem, 2013 IEEE JAVA, .NET Projects in Coimbatore, 2013 IEEE JAVA, .NET Projects in Tirupur, 2013 IEEE JAVA, .NET Projects in Bangalore, 2013 IEEE JAVA, .NET Projects in Hydrabad, 2013 IEEE JAVA, .NET Projects in Kerala, 2013 IEEE JAVA, .NET Projects in Namakkal, IEEE JAVA, .NET Image Processing, IEEE JAVA, .NET Face Recognition, IEEE JAVA, .NET Face Detection, IEEE JAVA, .NET Brain Tumour, IEEE JAVA, .NET Iris Recognition, IEEE JAVA, .NET Image Segmentation, Final Year JAVA, .NET Projects in Pondichery, Final Year JAVA, .NET Projects in Tamilnadu, Final Year JAVA, .NET Projects in Chennai, Final Year JAVA, .NET Projects in Trichy, Final Year JAVA, .NET Projects in Erode, Final Year JAVA, .NET Projects in Karur, Final Year JAVA, .NET Projects in Coimbatore, Final Year JAVA, .NET Projects in Tirunelveli, Final Year JAVA, .NET Projects in Madurai, Final Year JAVA, .NET Projects in Salem, Final Year JAVA, .NET Projects in Tirupur, Final Year JAVA, .NET Projects in Namakkal, Final Year JAVA, .NET Projects in Tanjore, Final Year JAVA, .NET Projects in Coimbatore, Final Year JAVA, .NET Projects in Bangalore, Final Year JAVA, .NET Projects in Hydrabad, Final Year JAVA, .NET Projects in Kerala, Final Year JAVA, .NET IEEE Projects in Pondichery, Final Year JAVA, .NET IEEE Projects in Tamilnadu, Final Year JAVA, .NET IEEE Projects in Chennai, Final Year JAVA, .NET IEEE Projects in Trichy, Final Year JAVA, .NET IEEE Projects in Erode, Final Year JAVA, .NET IEEE Projects in Karur, Final Year JAVA, .NET IEEE Projects in Coimbatore, Final Year JAVA, .NET IEEE Projects in Tirunelveli, Final Year JAVA, .NET IEEE Projects in Madurai, Final Year JAVA, .NET IEEE Projects in Salem, Final Year JAVA, .NET IEEE Projects in Tirupur, Final Year JAVA, .NET IEEE Projects in Namakkal, Final Year JAVA, .NET IEEE Projects in Tanjore, Final Year JAVA, .NET IEEE Projects in Coimbatore, Final Year JAVA, .NET IEEE Projects in Bangalore, Final Year JAVA, .NET IEEE Projects in Hydrabad, Final Year JAVA, .NET IEEE Projects in Kerala, Final Year IEEE MATLAB Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE MATLAB Projects, Academic Final Year IEEE MATLAB Projects 2013, Academic Final Year IEEE MATLAB Projects 2014, IEEE MATLAB Projects, 2013 IEEE MATLAB Projects, 2013 IEEE MATLAB Projects in Chennai, 2013 IEEE MATLAB Projects in Trichy, 2013 IEEE MATLAB Projects in Karur, 2013 IEEE MATLAB Projects in Erode, 2013 IEEE MATLAB Projects in Madurai, 2013 IEEE MATLAB
The document describes various projects developed by ESYS INDIA INSTITUTE ELECTRONICS TRAINING CENTRE using ARM processors and communication technologies. It includes over 60 projects using ARM and over 250 circuit ideas covering areas like home automation, security, wireless communication, and industrial applications. The circuits allow control and monitoring of devices remotely using technologies like Bluetooth, WiFi, GSM and provide solutions for sectors like healthcare, transportation and agriculture.
The document lists over 100 microcontroller, biometric, biomedical, GSM and mobile, RFID, robotics, wireless, and PC based projects that can be undertaken. The projects span various domains including home automation, security, industrial control, medical monitoring, and more. Contact information is provided for the website www.projectsatbangalore.com and emails to obtain more details about the projects.
List of Major and Minor Projects for
1. Electronics
2. Internet of Things
3. Robotics
4. Wireless Communication
5. Bluetooth, RF, RFID, FIngerprint, IR
6. GSM, GPS, WIFI, XBee
Refer the list and develop your final year project
IEEE BASED EMBEDDED SYSTEMS ECE/EEE/BIOMEDICAL PROJECTS CHENNAI/TRICHY/SALEMASHOKKUMAR RAMAR
The document lists 183 potential project ideas in embedded systems and related fields proposed by MAAS TECH between 2012-2013. The projects focus on areas like wireless communication, robotics, automation, security, medical devices, renewable energy, and more. Many involve integrating microcontrollers with technologies like Bluetooth, Zigbee, GSM, and interfacing systems with PCs or over the internet. Common applications included home, industrial and agricultural automation, healthcare monitoring, traffic control, and more.
IEEE PROJECTS EMBEDDED SYSTEMS-EMBEDDED SYSTEMS IEEE PROJECTS-MAASTECH CHENNAIASHOKKUMAR RAMAR
The document lists 183 potential project ideas in embedded systems and related fields proposed by MAAS TECH between 2012-2013. The projects focus on areas like wireless communication, robotics, automation, security, medical devices, renewable energy, and more. Many involve integrating microcontrollers with technologies like Bluetooth, Zigbee, GSM, and interfacing systems with PCs or over the internet. Common applications included home, industrial and agricultural automation, healthcare monitoring, traffic control, and more.
Final Year IEEE Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE Projects, Academic Final Year IEEE Projects 2013, Academic Final Year IEEE Projects 2014, IEEE JAVA, .NET Projects, 2013 IEEE JAVA, .NET Projects, 2013 IEEE JAVA, .NET Projects in Chennai, 2013 IEEE JAVA, .NET Projects in Trichy, 2013 IEEE JAVA, .NET Projects in Karur, 2013 IEEE JAVA, .NET Projects in Erode, 2013 IEEE JAVA, .NET Projects in Madurai, 2013 IEEE JAVA, .NET Projects in Salem, 2013 IEEE JAVA, .NET Projects in Coimbatore, 2013 IEEE JAVA, .NET Projects in Tirupur, 2013 IEEE JAVA, .NET Projects in Bangalore, 2013 IEEE JAVA, .NET Projects in Hydrabad, 2013 IEEE JAVA, .NET Projects in Kerala, 2013 IEEE JAVA, .NET Projects in Namakkal, IEEE JAVA, .NET Image Processing, IEEE JAVA, .NET Face Recognition, IEEE JAVA, .NET Face Detection, IEEE JAVA, .NET Brain Tumour, IEEE JAVA, .NET Iris Recognition, IEEE JAVA, .NET Image Segmentation, Final Year JAVA, .NET Projects in Pondichery, Final Year JAVA, .NET Projects in Tamilnadu, Final Year JAVA, .NET Projects in Chennai, Final Year JAVA, .NET Projects in Trichy, Final Year JAVA, .NET Projects in Erode, Final Year JAVA, .NET Projects in Karur, Final Year JAVA, .NET Projects in Coimbatore, Final Year JAVA, .NET Projects in Tirunelveli, Final Year JAVA, .NET Projects in Madurai, Final Year JAVA, .NET Projects in Salem, Final Year JAVA, .NET Projects in Tirupur, Final Year JAVA, .NET Projects in Namakkal, Final Year JAVA, .NET Projects in Tanjore, Final Year JAVA, .NET Projects in Coimbatore, Final Year JAVA, .NET Projects in Bangalore, Final Year JAVA, .NET Projects in Hydrabad, Final Year JAVA, .NET Projects in Kerala, Final Year JAVA, .NET IEEE Projects in Pondichery, Final Year JAVA, .NET IEEE Projects in Tamilnadu, Final Year JAVA, .NET IEEE Projects in Chennai, Final Year JAVA, .NET IEEE Projects in Trichy, Final Year JAVA, .NET IEEE Projects in Erode, Final Year JAVA, .NET IEEE Projects in Karur, Final Year JAVA, .NET IEEE Projects in Coimbatore, Final Year JAVA, .NET IEEE Projects in Tirunelveli, Final Year JAVA, .NET IEEE Projects in Madurai, Final Year JAVA, .NET IEEE Projects in Salem, Final Year JAVA, .NET IEEE Projects in Tirupur, Final Year JAVA, .NET IEEE Projects in Namakkal, Final Year JAVA, .NET IEEE Projects in Tanjore, Final Year JAVA, .NET IEEE Projects in Coimbatore, Final Year JAVA, .NET IEEE Projects in Bangalore, Final Year JAVA, .NET IEEE Projects in Hydrabad, Final Year JAVA, .NET IEEE Projects in Kerala, Final Year IEEE MATLAB Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE MATLAB Projects, Academic Final Year IEEE MATLAB Projects 2013, Academic Final Year IEEE MATLAB Projects 2014, IEEE MATLAB Projects, 2013 IEEE MATLAB Projects, 2013 IEEE MATLAB Projects in Chennai, 2013 IEEE MATLAB Projects in Trichy, 2013 IEEE MATLAB Projects in Karur, 2013 IEEE MATLAB Projects in Erode, 2013 IEEE MATLAB Projects in Madurai, 2013 IEEE MATLAB
IEEE PROJECTS 2012 FOR ECE-TRICHY/TANJAORE/NAGAPATTINAM-IEEE PROJECTS 2012ASHOKKUMAR RAMAR
The document lists 155 project ideas related to embedded systems, wireless communication, robotics, biomedical engineering, renewable energy, and industrial automation. The projects involve areas such as wireless sensor networks, patient monitoring, home automation, process control, and power distribution monitoring using technologies like Zigbee, Bluetooth, RFID, and PLC.
IEEE BASED ZIGBEE,RFID,FINGERPRINT PEOJECTS-LATEST IEEE PROJECTS LISTASHOKKUMAR RAMAR
The document lists over 150 project ideas related to embedded systems, wireless communication, robotics, biomedical engineering, renewable energy, and industrial automation. The projects involve using technologies like microcontrollers, RFID, fingerprint recognition, solar power, and more. Application areas include hospital automation, patient monitoring, home automation, industrial control systems, and agricultural monitoring.
IEEE PROJECTS 2012 FOR EEE-LATEST EEE PROJECTS TITLES&ABSTRACTASHOKKUMAR RAMAR
The document lists 114 project ideas in various fields including embedded systems, wireless communication, biomedical, robotics, renewable energy, and power systems. The projects involve using technologies such as microcontrollers, RFID, fingerprint recognition, solar power, and wireless sensors. Application areas include hospital automation, environmental monitoring, assistive devices, home automation, industrial automation, and electric power distribution.
Final year project for ece in mangalore 9448847874
IEEE Developers Labs is a Electronic Design Services (EDS) for VLSI / EMBEDDED and MATLAB, delivering a wide variety of end- to -end services, including design, development, & testing for customers around the world. With proven expertise across multiple domains such as Consumer Electronics Market, Infotainment, Office Automation, Mobility and Equipment Controls.
IEEE Developers Labs is managed by Engineers / Professionals possessing significant industrial experience across various application domains and engineering horizontals.Our engineers have expertise across a wide range of technologies, to the engineering efforts of our clients. Leveraging standards based components and investments in dedicated test lab infrastructure, we offer innovative, flexible and cost-effective services and solutions.
http://ieeedeveloperslabs.in/
This document lists 173 engineering projects related to electronics, computer science, instrumentation, biomedical, and robotics fields. The projects involve various sensors and technologies including fingerprint recognition, infrared sensors, accelerometers, temperature sensors, GSM, RFID, ZigBee, and more. Many of the projects relate to automation, security, and control applications for homes, industries, vehicles, and more. The document also provides contact information for the Electronics Research Centre that is offering these projects.
This document presents the concept of a wireless power theft monitoring system to address the problem of power theft in Uganda. Power theft results in significant financial losses for utility providers annually. The proposed system would detect power theft using current sensors before and after the meter to compare voltages and detect discrepancies. If theft is detected, power would be disconnected and a message sent via GSM to notify authorities. The document outlines the types of power losses, methods of theft, details of the prototype designed and tested, and concludes that implementing such a system could help reduce losses from theft.
This document proposes a power theft detection system consisting of a transformer type detection system, smart wireless transmitter and receiver, and display. It aims to reduce energy wastage by detecting power theft without human control in order to save time and labor costs, and maximize profits for the electricity authority. Power theft is currently estimated at 30% in Nepal and negatively impacts customers, grids, and the national economy. The proposed automated system would help monitor customers and identify theft through a methodology involving power supply, rectification, encoding, transmission, reception, decoding, and display of information.
This document describes a wireless power theft monitoring system and indication at a local substation. It includes chapters on hardware components like the energy meter, sensors, microcontroller, RF transmitter and receiver. It also covers the software used, including Kiel μVision and C programming. The working of the system is explained, with the consumer side transmitting data to the substation side via RF. Results and future work are discussed. The aim is to design a system to detect electricity theft and backtrack the location using radio frequency technology.
Presentation embeded system in automobile aditya ( edited again)Aditya Porwal
An embedded system is some combination of computer hardware and software, either fixed in capability or programmable, that is specifically designed for a particular function. Industrial machines,Automobiles, medical equipment, cameras, household appliances, airplanes, vending machines and toys (as well as the more obvious cellular phone and PDA) are among the myriad possible hosts of an embedded system. Embedded systems that are programmable are provided with programming interfaces, and embedded systems programming is a specialized occupation.
- For the design of embedded automotive systems, the entire vehicle system is usually split up into four different functional areas, which could be separated during the design phase:
Chassis
Drive-train
Body
Telematics
This document discusses using PLCs for automatic meter reading and detecting power theft. It proposes installing a secondary digital energy meter chip that records energy usage and compares it to the main meter. If a difference is detected, an error signal would be sent over the PLC network. The system would help detect illegal electricity usage like tampering with meters or bypassing them. PLC provides an economical way to transmit meter data and detect theft while minimizing distribution losses.
Bioenergy draws on a wide range of potential feedstock materials: forestry and agricultural residues and wastes of many sorts, as well as material grown specifically for energy purposes. The raw materials can be converted to heat for use in buildings and industry, to electricity, or into gaseous or liquid fuels, which can be used in transport, for example. This degree of flexibility is unique amongst the different forms of renewable energy.
Final Year IEEE Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE Projects, Academic Final Year IEEE Projects 2013, Academic Final Year IEEE Projects 2014, IEEE JAVA, .NET Projects, 2013 IEEE JAVA, .NET Projects, 2013 IEEE JAVA, .NET Projects in Chennai, 2013 IEEE JAVA, .NET Projects in Trichy, 2013 IEEE JAVA, .NET Projects in Karur, 2013 IEEE JAVA, .NET Projects in Erode, 2013 IEEE JAVA, .NET Projects in Madurai, 2013 IEEE JAVA, .NET Projects in Salem, 2013 IEEE JAVA, .NET Projects in Coimbatore, 2013 IEEE JAVA, .NET Projects in Tirupur, 2013 IEEE JAVA, .NET Projects in Bangalore, 2013 IEEE JAVA, .NET Projects in Hydrabad, 2013 IEEE JAVA, .NET Projects in Kerala, 2013 IEEE JAVA, .NET Projects in Namakkal, IEEE JAVA, .NET Image Processing, IEEE JAVA, .NET Face Recognition, IEEE JAVA, .NET Face Detection, IEEE JAVA, .NET Brain Tumour, IEEE JAVA, .NET Iris Recognition, IEEE JAVA, .NET Image Segmentation, Final Year JAVA, .NET Projects in Pondichery, Final Year JAVA, .NET Projects in Tamilnadu, Final Year JAVA, .NET Projects in Chennai, Final Year JAVA, .NET Projects in Trichy, Final Year JAVA, .NET Projects in Erode, Final Year JAVA, .NET Projects in Karur, Final Year JAVA, .NET Projects in Coimbatore, Final Year JAVA, .NET Projects in Tirunelveli, Final Year JAVA, .NET Projects in Madurai, Final Year JAVA, .NET Projects in Salem, Final Year JAVA, .NET Projects in Tirupur, Final Year JAVA, .NET Projects in Namakkal, Final Year JAVA, .NET Projects in Tanjore, Final Year JAVA, .NET Projects in Coimbatore, Final Year JAVA, .NET Projects in Bangalore, Final Year JAVA, .NET Projects in Hydrabad, Final Year JAVA, .NET Projects in Kerala, Final Year JAVA, .NET IEEE Projects in Pondichery, Final Year JAVA, .NET IEEE Projects in Tamilnadu, Final Year JAVA, .NET IEEE Projects in Chennai, Final Year JAVA, .NET IEEE Projects in Trichy, Final Year JAVA, .NET IEEE Projects in Erode, Final Year JAVA, .NET IEEE Projects in Karur, Final Year JAVA, .NET IEEE Projects in Coimbatore, Final Year JAVA, .NET IEEE Projects in Tirunelveli, Final Year JAVA, .NET IEEE Projects in Madurai, Final Year JAVA, .NET IEEE Projects in Salem, Final Year JAVA, .NET IEEE Projects in Tirupur, Final Year JAVA, .NET IEEE Projects in Namakkal, Final Year JAVA, .NET IEEE Projects in Tanjore, Final Year JAVA, .NET IEEE Projects in Coimbatore, Final Year JAVA, .NET IEEE Projects in Bangalore, Final Year JAVA, .NET IEEE Projects in Hydrabad, Final Year JAVA, .NET IEEE Projects in Kerala, Final Year IEEE MATLAB Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE MATLAB Projects, Academic Final Year IEEE MATLAB Projects 2013, Academic Final Year IEEE MATLAB Projects 2014, IEEE MATLAB Projects, 2013 IEEE MATLAB Projects, 2013 IEEE MATLAB Projects in Chennai, 2013 IEEE MATLAB Projects in Trichy, 2013 IEEE MATLAB Projects in Karur, 2013 IEEE MATLAB Projects in Erode, 2013 IEEE MATLAB Projects in Madurai, 2013 IEEE MATLAB
The document describes various projects developed by ESYS INDIA INSTITUTE ELECTRONICS TRAINING CENTRE using ARM processors and communication technologies. It includes over 60 projects using ARM and over 250 circuit ideas covering areas like home automation, security, wireless communication, and industrial applications. The circuits allow control and monitoring of devices remotely using technologies like Bluetooth, WiFi, GSM and provide solutions for sectors like healthcare, transportation and agriculture.
The document lists over 100 microcontroller, biometric, biomedical, GSM and mobile, RFID, robotics, wireless, and PC based projects that can be undertaken. The projects span various domains including home automation, security, industrial control, medical monitoring, and more. Contact information is provided for the website www.projectsatbangalore.com and emails to obtain more details about the projects.
List of Major and Minor Projects for
1. Electronics
2. Internet of Things
3. Robotics
4. Wireless Communication
5. Bluetooth, RF, RFID, FIngerprint, IR
6. GSM, GPS, WIFI, XBee
Refer the list and develop your final year project
IEEE BASED EMBEDDED SYSTEMS ECE/EEE/BIOMEDICAL PROJECTS CHENNAI/TRICHY/SALEMASHOKKUMAR RAMAR
The document lists 183 potential project ideas in embedded systems and related fields proposed by MAAS TECH between 2012-2013. The projects focus on areas like wireless communication, robotics, automation, security, medical devices, renewable energy, and more. Many involve integrating microcontrollers with technologies like Bluetooth, Zigbee, GSM, and interfacing systems with PCs or over the internet. Common applications included home, industrial and agricultural automation, healthcare monitoring, traffic control, and more.
IEEE PROJECTS EMBEDDED SYSTEMS-EMBEDDED SYSTEMS IEEE PROJECTS-MAASTECH CHENNAIASHOKKUMAR RAMAR
The document lists 183 potential project ideas in embedded systems and related fields proposed by MAAS TECH between 2012-2013. The projects focus on areas like wireless communication, robotics, automation, security, medical devices, renewable energy, and more. Many involve integrating microcontrollers with technologies like Bluetooth, Zigbee, GSM, and interfacing systems with PCs or over the internet. Common applications included home, industrial and agricultural automation, healthcare monitoring, traffic control, and more.
Final Year IEEE Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE Projects, Academic Final Year IEEE Projects 2013, Academic Final Year IEEE Projects 2014, IEEE JAVA, .NET Projects, 2013 IEEE JAVA, .NET Projects, 2013 IEEE JAVA, .NET Projects in Chennai, 2013 IEEE JAVA, .NET Projects in Trichy, 2013 IEEE JAVA, .NET Projects in Karur, 2013 IEEE JAVA, .NET Projects in Erode, 2013 IEEE JAVA, .NET Projects in Madurai, 2013 IEEE JAVA, .NET Projects in Salem, 2013 IEEE JAVA, .NET Projects in Coimbatore, 2013 IEEE JAVA, .NET Projects in Tirupur, 2013 IEEE JAVA, .NET Projects in Bangalore, 2013 IEEE JAVA, .NET Projects in Hydrabad, 2013 IEEE JAVA, .NET Projects in Kerala, 2013 IEEE JAVA, .NET Projects in Namakkal, IEEE JAVA, .NET Image Processing, IEEE JAVA, .NET Face Recognition, IEEE JAVA, .NET Face Detection, IEEE JAVA, .NET Brain Tumour, IEEE JAVA, .NET Iris Recognition, IEEE JAVA, .NET Image Segmentation, Final Year JAVA, .NET Projects in Pondichery, Final Year JAVA, .NET Projects in Tamilnadu, Final Year JAVA, .NET Projects in Chennai, Final Year JAVA, .NET Projects in Trichy, Final Year JAVA, .NET Projects in Erode, Final Year JAVA, .NET Projects in Karur, Final Year JAVA, .NET Projects in Coimbatore, Final Year JAVA, .NET Projects in Tirunelveli, Final Year JAVA, .NET Projects in Madurai, Final Year JAVA, .NET Projects in Salem, Final Year JAVA, .NET Projects in Tirupur, Final Year JAVA, .NET Projects in Namakkal, Final Year JAVA, .NET Projects in Tanjore, Final Year JAVA, .NET Projects in Coimbatore, Final Year JAVA, .NET Projects in Bangalore, Final Year JAVA, .NET Projects in Hydrabad, Final Year JAVA, .NET Projects in Kerala, Final Year JAVA, .NET IEEE Projects in Pondichery, Final Year JAVA, .NET IEEE Projects in Tamilnadu, Final Year JAVA, .NET IEEE Projects in Chennai, Final Year JAVA, .NET IEEE Projects in Trichy, Final Year JAVA, .NET IEEE Projects in Erode, Final Year JAVA, .NET IEEE Projects in Karur, Final Year JAVA, .NET IEEE Projects in Coimbatore, Final Year JAVA, .NET IEEE Projects in Tirunelveli, Final Year JAVA, .NET IEEE Projects in Madurai, Final Year JAVA, .NET IEEE Projects in Salem, Final Year JAVA, .NET IEEE Projects in Tirupur, Final Year JAVA, .NET IEEE Projects in Namakkal, Final Year JAVA, .NET IEEE Projects in Tanjore, Final Year JAVA, .NET IEEE Projects in Coimbatore, Final Year JAVA, .NET IEEE Projects in Bangalore, Final Year JAVA, .NET IEEE Projects in Hydrabad, Final Year JAVA, .NET IEEE Projects in Kerala, Final Year IEEE MATLAB Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE MATLAB Projects, Academic Final Year IEEE MATLAB Projects 2013, Academic Final Year IEEE MATLAB Projects 2014, IEEE MATLAB Projects, 2013 IEEE MATLAB Projects, 2013 IEEE MATLAB Projects in Chennai, 2013 IEEE MATLAB Projects in Trichy, 2013 IEEE MATLAB Projects in Karur, 2013 IEEE MATLAB Projects in Erode, 2013 IEEE MATLAB Projects in Madurai, 2013 IEEE MATLAB
IEEE PROJECTS 2012 FOR ECE-TRICHY/TANJAORE/NAGAPATTINAM-IEEE PROJECTS 2012ASHOKKUMAR RAMAR
The document lists 155 project ideas related to embedded systems, wireless communication, robotics, biomedical engineering, renewable energy, and industrial automation. The projects involve areas such as wireless sensor networks, patient monitoring, home automation, process control, and power distribution monitoring using technologies like Zigbee, Bluetooth, RFID, and PLC.
IEEE BASED ZIGBEE,RFID,FINGERPRINT PEOJECTS-LATEST IEEE PROJECTS LISTASHOKKUMAR RAMAR
The document lists over 150 project ideas related to embedded systems, wireless communication, robotics, biomedical engineering, renewable energy, and industrial automation. The projects involve using technologies like microcontrollers, RFID, fingerprint recognition, solar power, and more. Application areas include hospital automation, patient monitoring, home automation, industrial control systems, and agricultural monitoring.
IEEE PROJECTS 2012 FOR EEE-LATEST EEE PROJECTS TITLES&ABSTRACTASHOKKUMAR RAMAR
The document lists 114 project ideas in various fields including embedded systems, wireless communication, biomedical, robotics, renewable energy, and power systems. The projects involve using technologies such as microcontrollers, RFID, fingerprint recognition, solar power, and wireless sensors. Application areas include hospital automation, environmental monitoring, assistive devices, home automation, industrial automation, and electric power distribution.
Final year project for ece in mangalore 9448847874
IEEE Developers Labs is a Electronic Design Services (EDS) for VLSI / EMBEDDED and MATLAB, delivering a wide variety of end- to -end services, including design, development, & testing for customers around the world. With proven expertise across multiple domains such as Consumer Electronics Market, Infotainment, Office Automation, Mobility and Equipment Controls.
IEEE Developers Labs is managed by Engineers / Professionals possessing significant industrial experience across various application domains and engineering horizontals.Our engineers have expertise across a wide range of technologies, to the engineering efforts of our clients. Leveraging standards based components and investments in dedicated test lab infrastructure, we offer innovative, flexible and cost-effective services and solutions.
http://ieeedeveloperslabs.in/
This document lists 173 engineering projects related to electronics, computer science, instrumentation, biomedical, and robotics fields. The projects involve various sensors and technologies including fingerprint recognition, infrared sensors, accelerometers, temperature sensors, GSM, RFID, ZigBee, and more. Many of the projects relate to automation, security, and control applications for homes, industries, vehicles, and more. The document also provides contact information for the Electronics Research Centre that is offering these projects.
This document presents the concept of a wireless power theft monitoring system to address the problem of power theft in Uganda. Power theft results in significant financial losses for utility providers annually. The proposed system would detect power theft using current sensors before and after the meter to compare voltages and detect discrepancies. If theft is detected, power would be disconnected and a message sent via GSM to notify authorities. The document outlines the types of power losses, methods of theft, details of the prototype designed and tested, and concludes that implementing such a system could help reduce losses from theft.
This document proposes a power theft detection system consisting of a transformer type detection system, smart wireless transmitter and receiver, and display. It aims to reduce energy wastage by detecting power theft without human control in order to save time and labor costs, and maximize profits for the electricity authority. Power theft is currently estimated at 30% in Nepal and negatively impacts customers, grids, and the national economy. The proposed automated system would help monitor customers and identify theft through a methodology involving power supply, rectification, encoding, transmission, reception, decoding, and display of information.
This document describes a wireless power theft monitoring system and indication at a local substation. It includes chapters on hardware components like the energy meter, sensors, microcontroller, RF transmitter and receiver. It also covers the software used, including Kiel μVision and C programming. The working of the system is explained, with the consumer side transmitting data to the substation side via RF. Results and future work are discussed. The aim is to design a system to detect electricity theft and backtrack the location using radio frequency technology.
Presentation embeded system in automobile aditya ( edited again)Aditya Porwal
An embedded system is some combination of computer hardware and software, either fixed in capability or programmable, that is specifically designed for a particular function. Industrial machines,Automobiles, medical equipment, cameras, household appliances, airplanes, vending machines and toys (as well as the more obvious cellular phone and PDA) are among the myriad possible hosts of an embedded system. Embedded systems that are programmable are provided with programming interfaces, and embedded systems programming is a specialized occupation.
- For the design of embedded automotive systems, the entire vehicle system is usually split up into four different functional areas, which could be separated during the design phase:
Chassis
Drive-train
Body
Telematics
This document discusses using PLCs for automatic meter reading and detecting power theft. It proposes installing a secondary digital energy meter chip that records energy usage and compares it to the main meter. If a difference is detected, an error signal would be sent over the PLC network. The system would help detect illegal electricity usage like tampering with meters or bypassing them. PLC provides an economical way to transmit meter data and detect theft while minimizing distribution losses.
Bioenergy draws on a wide range of potential feedstock materials: forestry and agricultural residues and wastes of many sorts, as well as material grown specifically for energy purposes. The raw materials can be converted to heat for use in buildings and industry, to electricity, or into gaseous or liquid fuels, which can be used in transport, for example. This degree of flexibility is unique amongst the different forms of renewable energy.
This document describes a proposed system for wirelessly monitoring power theft. A microcontroller would be interfaced with a meter and sensors to detect abnormal power usage. If power theft is detected, it would trigger a relay to cut power and send a wireless message to alert authorities. The goal is to reduce losses from power theft by identifying exact locations of theft in real-time.
1. Power theft is a major problem in India, costing billions of rupees annually. Common methods of theft include tampering with meters, bypassing meters, and illegal taps of distribution lines.
2. Technical solutions proposed to detect power theft include electronic tamper detection meters, pre-payment meters, plastic meter enclosures, and using programmable logic controllers (PLCs) and GSM networks to automatically read meters and detect anomalies.
3. A PLC-based system would install meters with PLC modules high on power poles to transmit usage data through power lines to displays in homes, while a second meter verifies usage to detect theft. GSM networks could also enable automatic remote meter reading to
Ppt power theft identification and detection using gsmradha krishna
This document describes a project to identify and locate power theft using GSM. It includes a block diagram and description of the components used, including a microcontroller, GSM module, touch sensor, LCD display, and buzzer. The system works by detecting unauthorized access to the power supply through the touch sensor and sending an SMS using the GSM module to alert authorities. It aims to reduce power theft in India in an optimized and automated way. Some limitations are that it requires power and a large-scale implementation would take time, but it can effectively curb theft by detecting locations.
Embedded systems play a key role in modern automobiles, controlling many safety and convenience features. They combine hardware and software to perform dedicated tasks. Examples of embedded systems in cars include airbags, anti-lock braking systems, adaptive cruise control, traction control and stability control. These systems use sensors and microprocessors to monitor conditions in real-time and activate features like airbags during a crash or apply brakes to individual wheels to maintain control on slippery roads. Embedded systems are critical for advanced driver assistance technologies and fully autonomous vehicles of the future.
This document proposes a microcontroller-based wireless power theft monitoring system. The system uses wireless sensor nodes connected to consumers, transformers, and transmission lines to monitor power usage. If differences are detected between measured and reported usage, it could indicate power theft. The system aims to reduce energy wastage and theft by detecting where illegal usage occurs and notifying authorities. Some limitations are an inability to identify exact theft locations or individuals, and potential challenges implementing on a large scale.
This document lists over 200 potential project titles for embedded systems projects in various domains including non-IEEE projects, robotic projects, RFID projects, GSM projects, GPS projects, wireless projects, ARM based projects, biomedical applications, gyroscope/gesture recognition projects, physical parameter based projects, voice integrated applications, and general applications. The project titles provide ideas for students and engineers to develop embedded systems to solve problems in many fields.
This document provides a list of over 100 potential embedded systems project titles in various categories including non-IEEE embedded projects, robotic based projects, RFID based projects, GSM based projects, GPS based projects, and RF/Zigbee/Bluetooth based projects. The document is advertising the services of ECWAY TECHNOLOGIES, an engineering company located in various cities in India that specializes in IEEE projects and software developments for embedded systems. Contact information including phone numbers and a website are provided at the bottom.
This document provides a list of over 100 project titles for embedded systems projects in various categories such as non-IEEE embedded projects, robotic based projects, RFID based projects, GSM based projects, GPS based projects, RF/Zigbee/Bluetooth based projects, ARM based projects, biomedical applications, gyroscope/gesture recognition, physical parameter based projects, voice integrated applications, and general applications. It also provides contact information for ECWAY TECHNOLOGIES, an organization that offers IEEE projects and software developments.
This document provides a list of over 100 project titles for embedded systems projects in various categories such as non-IEEE embedded projects, robotic based projects, RFID based projects, GSM based projects, GPS based projects, RF/Zigbee/Bluetooth based projects, ARM based projects, biomedical applications, gyroscope/gesture recognition, physical parameter based projects, voice integrated applications, and general applications. It also provides contact information for ECWAY TECHNOLOGIES, an organization that offers IEEE projects and software developments.
This document provides a list of over 100 potential embedded systems project titles in various categories including non-IEEE embedded projects, robotic based projects, RFID based projects, GSM based projects, GPS based projects, and RF/Zigbee/Bluetooth based projects. The document is advertising the services of ECWAY TECHNOLOGIES, an engineering company located in various cities in India that specializes in IEEE projects and software developments related to embedded systems. Contact information including phone numbers and a website are provided at the bottom.
IGSLabs is a company located in Bangalore, India. We have being recognized as a quality provider of hardware and software solutions for the students in order carry out their academic Projects.
We offer academic projects at various academic levels ranging from graduates to masters (Diploma, BCA, BE, M.Tech, MCA, M.Sc (CS/IT)). As a part of our vision to provide hands-on experience to the students we invite them from the stream of Electronics, Instrumentation, Computer Science & Information Science to carry out their academic project work at our facility under the guidance of industry experts. The students will be working as Project Trainees.
Note – You can download Project titles, IEEE-2013 Project Synopsis related materials from www.makefinalyearproject.com
For more details contact 09590544567 / 080-32486499 or Mail us: nandu@igslabs.com
Contact:
Nandu
Project Director
IGSLabs Technologies Pvt Ltd,
No: 19, MN Complex, 2nd Cross,
Sampige Main Road, Malleswaram
Bangalore- 560003.
Phone No: 9590544567 / 080-32486499
Email: nandu@igslabs.com , projects@igslabs.com
www.makefinalyearproject.com
Land Mark: Near Mantri Mall
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.
MAAS TECH is an embedded solutions company based in India that was started in August 2002. It provides training and projects related to embedded systems, PIC microcontrollers, and other topics. It conducts both in-person instructor-led training courses and in-plant training programs. MAAS TECH also undertakes various projects for students and is looking to hire qualified professionals. The document provides lists of example projects related to wireless communication, voice recognition, bio-medical applications, robotics, security, and process control.
FINAL YEAR PROJECTS NELLORE GUNDUR TIRUPPATHI@MAASTECHASHOKKUMAR RAMAR
The document provides information about MAAS TECH, an embedded solution provider started in August 2002. It offers training programs in embedded systems using PIC microcontrollers. Courses are held at its premises and include topics like electronics, computer languages, and projects involving wireless communication, biomedical systems, and more. MAAS TECH also conducts in-plant training and certification courses. It is looking to hire qualified professionals. The document lists various project examples in areas like wireless technologies, voice recognition, biomedical systems, and more that students can implement.
This document lists 60 mini projects related to various engineering fields such as ECE, EEE, E&I, Biomedical, and Mechatronics. The projects involve developing control systems using technologies like GSM, GPS, RF, ultrasonic, and Zigbee for applications such as home automation, traffic monitoring, security, medical devices, energy metering, and more. Contact information is provided at the end for students to get more details on the projects and training opportunities.
Diploma Embedded project center in trichy, diploma 8051 embedded project cent...R Gopi
This document lists 63 project titles for diploma students in electronics and communication engineering, electrical and electronics engineering, and electronics and instrumentation engineering. The titles cover a wide range of topics including automation systems for homes, industries and vehicles using technologies such as microcontrollers, RF communication, wireless sensors, GPS and more. Example projects include automatic street light control, speed control of DC motors, attendance systems, remote appliance control, security systems and more.
LATEST IEEE BASED EMBEDDED SYSTEMS PROJECTS TITLES 2012-MAASTECHASHOKKUMAR RAMAR
MAAS TECH is an embedded solutions provider that was started in August 2002. It provides training and acts as a service provider in the embedded industry. MAAS TECH conducts instructor-led training programs on topics like electronics and computer languages. It develops embedded system projects using PIC microcontrollers. MAAS TECH also conducts in-plant training and certification courses. It is looking to hire qualified professionals.
The document lists 180 embedded projects developed by Sans Innovations. The projects are categorized into embedded projects, robotics projects, RFID based embedded projects, GSM based embedded projects, and embedded IEEE papers. They include projects related to various domains such as industrial automation, home automation, traffic control, healthcare, security, and more. Sans Innovations provides contact information for those interested in these embedded development solutions.
The document lists 63 potential ARM based projects across various domains including industrial monitoring, military applications, transportation, health monitoring, home automation, robotics, agriculture, and more. The projects involve using ARM processors and technologies like Android, Bluetooth, GSM, GPS, wireless sensors networks, and more for tasks like drowsiness detection, parameter plotting, encryption, tracking systems, irrigation control, surveillance, and remote monitoring of various parameters.
The document lists 72 microcontroller and embedded system projects including time and access control systems using RFID or I-Button techniques, office automation systems using RFID, traffic light controllers, vehicle security and tracking systems using GPS and GSM, irrigation control systems using GSM, wireless sensor networks for monitoring temperature and other industrial parameters, flexible sensor applications for gesture control and appliances, and various wireless embedded systems using technologies like Bluetooth, Zigbee, RF and CAN bus protocols. The projects cover areas like security, automation, transportation, industrial monitoring, agriculture, medical, assistive technologies and more.
IEEE PROJECTS 2012 FOR EEE-TRICHY/TANJAORE/NAGAPATTINAM/THIRUVARURASHOKKUMAR RAMAR
The document lists 155 project ideas related to embedded systems, wireless communication, robotics, biomedical engineering, renewable energy, and industrial automation. The projects involve areas such as wireless sensor networks, patient monitoring, home automation, process control, and power distribution monitoring using technologies like Zigbee, Bluetooth, RFID, and PLC.
The document lists 95 potential projects based on communication technologies. The projects cover a wide range of applications including security systems, robotics, transportation, medical monitoring, agriculture, and more. Many of the projects involve integrating communication protocols like Bluetooth, Zigbee, GSM, and WiFi with sensors, microcontrollers and other devices to enable remote monitoring and control of systems.
The document outlines 150 potential embedded system projects related to various applications including automation, robotics, security, transportation, healthcare, agriculture, and more. The projects involve technologies such as ARM, Android, GSM, Bluetooth, WiFi, Zigbee, and others. Example projects include an automated train safety system, robotic arm controller using haptics, ATM transactions without debit cards, and gesture-based mouse control.
it describes the bony anatomy including the femoral head , acetabulum, labrum . also discusses the capsule , ligaments . muscle that act on the hip joint and the range of motion are outlined. factors affecting hip joint stability and weight transmission through the joint are summarized.
How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
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How to Make a Field Mandatory in Odoo 17Celine George
In Odoo, making a field required can be done through both Python code and XML views. When you set the required attribute to True in Python code, it makes the field required across all views where it's used. Conversely, when you set the required attribute in XML views, it makes the field required only in the context of that particular view.
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
A review of the growth of the Israel Genealogy Research Association Database Collection for the last 12 months. Our collection is now passed the 3 million mark and still growing. See which archives have contributed the most. See the different types of records we have, and which years have had records added. You can also see what we have for the future.
Beyond Degrees - Empowering the Workforce in the Context of Skills-First.pptxEduSkills OECD
Iván Bornacelly, Policy Analyst at the OECD Centre for Skills, OECD, presents at the webinar 'Tackling job market gaps with a skills-first approach' on 12 June 2024
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UPRAHUL
This Dissertation explores the particular circumstances of Mirzapur, a region located in the
core of India. Mirzapur, with its varied terrains and abundant biodiversity, offers an optimal
environment for investigating the changes in vegetation cover dynamics. Our study utilizes
advanced technologies such as GIS (Geographic Information Systems) and Remote sensing to
analyze the transformations that have taken place over the course of a decade.
The complex relationship between human activities and the environment has been the focus
of extensive research and worry. As the global community grapples with swift urbanization,
population expansion, and economic progress, the effects on natural ecosystems are becoming
more evident. A crucial element of this impact is the alteration of vegetation cover, which plays a
significant role in maintaining the ecological equilibrium of our planet.Land serves as the foundation for all human activities and provides the necessary materials for
these activities. As the most crucial natural resource, its utilization by humans results in different
'Land uses,' which are determined by both human activities and the physical characteristics of the
land.
The utilization of land is impacted by human needs and environmental factors. In countries
like India, rapid population growth and the emphasis on extensive resource exploitation can lead
to significant land degradation, adversely affecting the region's land cover.
Therefore, human intervention has significantly influenced land use patterns over many
centuries, evolving its structure over time and space. In the present era, these changes have
accelerated due to factors such as agriculture and urbanization. Information regarding land use and
cover is essential for various planning and management tasks related to the Earth's surface,
providing crucial environmental data for scientific, resource management, policy purposes, and
diverse human activities.
Accurate understanding of land use and cover is imperative for the development planning
of any area. Consequently, a wide range of professionals, including earth system scientists, land
and water managers, and urban planners, are interested in obtaining data on land use and cover
changes, conversion trends, and other related patterns. The spatial dimensions of land use and
cover support policymakers and scientists in making well-informed decisions, as alterations in
these patterns indicate shifts in economic and social conditions. Monitoring such changes with the
help of Advanced technologies like Remote Sensing and Geographic Information Systems is
crucial for coordinated efforts across different administrative levels. Advanced technologies like
Remote Sensing and Geographic Information Systems
9
Changes in vegetation cover refer to variations in the distribution, composition, and overall
structure of plant communities across different temporal and spatial scales. These changes can
occur natural.
LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UP
IEEE Embedded projects 2013-2014
1. Sans Innovations
EMBEDDED SYSTEM
1 Voice based device control system
2 Pollution monitoring caused by automobile exhaust gases and vehicle identification
3 Theft vehicle ignition control and tracking system
4 GSM based vehicle immobilization system for prevent the vehicle theft
5 GSM based ATM theft prevention system
6 Green house monitoring system
7 Coal helmet
8 Medicine reminder
9 Industrial safety and security system using GSM
10 Automatic electrical machines power saving system in industrial conveyers
11 Environmental monitoring and control system for industries
12 Automation and energy management system for home and large industries using GSM
13 Solar tracking system for optimal power generation
14 Fully automated and secured fuel vending machine
15 Development of energy management and warning system for resident
16 Wireless voting machine
17 Mobile remote for industries / home
18 Vehicle accident prevention system based on eye blink and alcohol sensor
19 GSM and GPS based missile launcher monitoring and DTMF based control robot
20 Human detection by live body sensing robot
21 Fire fighting robot
22 Pick & place robot for object color sensing
23 Wireless robot for metal/ bomb detection
24 Path finding & line follower robot
25 Voice robot
26 Self roaming robot
27 GPS based intelligent robot with shortest path identification
28 Ultrasonic based path planning for the blind with voice/alarm
29 E number plate
30 Webcam based threat detector
31 Electronic seal security of shipping container
32 Automated wheel chair
33 Ship navigation & boarder check system
34 RFID attendance system
35 Passive infrared sensor for bank security system
36 Students monitoring systems (e-id) using radio frequency identification
37 GSM based automobile locker
38 Paperless smart notice board
39 High-tech vehicle
40 Helping to collect train timing information using RFID and GSM
41 Finger print based license verification system
42 Embedded based web server
43 Cryptography for secured communication
44 GPS based soldier monitoring and tracking system using GSM
45 RFID location finder
46 GSM based smart information system for public
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
2. Sans Innovations
47 Hand talk
48 Smartphone-based vehicle-to-driver/environment interaction System for motorcycles
49 Employee surveillance systems
50 Smart shopping system
51 RFID based passport verification
52 Solar energy based cell phone charger
53 Prepaid system for internet
54 RFID based ration card
55 Agriculture based wet and dry control for pump and warning to remote destination
56 Zonal based speed control system for vehicles
57 Automatic street light control using RTC
58 Wireless train stage announcement system
59 Traffic priority based ambulance
60 Voice based bus recognized system for visually challenged
61 Electronic declutching system for footboard safety
62 Intelligent car parking system
63 Density based traffic light controller
64 Vehicle accident identification system
65 Bus help line system for public
66 Train collision avoidance system
67 LPG leakage detection with automatic valve shutdown system
68 Mobile phone pay charger
69 Digital dash board
70 Toll gate control system using RFID
71 Wireless patient heart beat monitoring and voice intimation
72 Vehicle fuel theft detection system
73 RFID based health card
74 RFID based license recognition for intelligent transport system
75 Security architecture for RFID application in home environment
76 Unmanned railway gate
77 Automatic college bell using RTC
78 Furnace monitoring and control system
79 Digital heartbeat and temperature monitoring
80 Smart ticketing system
81 Fuzzy logic based quality-controlled conveyor with identification of good and bad
product
82 Two factor authentication
83 Innovative approach for energy saving automatic lab
84 Centralized wireless monitoring in textile industries
85 Adding new functions to the remote airfield lighting system
86 Combined scheduling of ultrasound and GPS signal based guidance system for blind
87 Bottle filling system
88 Automatic change over for three phase
89 Emergency power shutdown management systems
90 First fault announcing system
91 Prepaid energy meter
92 Automatic load sharing system
93 Power theft indicating system to E.B
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
3. Sans Innovations
94 Industrial data acquisition system using GSM
95 Mobile based plugging, jogging, forward and reverse of dc motor
96 Wireless energy meter
97 GSM based 3 phase power management and failure indication system
98 Power factor correction
99 Transmission line multiple fault detection and indication to substation using RF signal
100 Watt-hour meter
101 Voice based pick and place robot.
102 Solar operated mobile robot
103 Applications of Wireless Sensor Networks in the Oil, Gas and Resources Industries
104 Computer controlled vehicle
105 Windmill monitoring using pc
106 DTMF based student mark announcement system
107 Smoke detection system
108 Prepaid system for internet
109 Production monitoring in industries using Embedded system
110 Multipurpose robot
111 Electrical substation scrutinizing system
112 Embedded based earthquake robot using wireless
113 Remote industrial security system
114 Maximum demand preventer
115 UART communication based industrial device control
116 Pc to pc communication using wireless
117 Road Safety System
118 Driver’s Safety alert for prevent accident
119 Energy saving highway light automatic switches.
120 Wireless distribution transformer monitoring
121 I2C based distributed embedded system
122 μc to μc Communication with LCD usingMSSP.
123 Metal detector in industries
124 Digital energy meter with unit recorder.
125 Vehicle Over speed indication controlling system.
126 Emergency power rescue.
127 Intelligent car security system using dynamic generation of security code.
128 Electronic personal computer (pc) Privacy control system
129 Bi directional dc motor speed control
130 PWM based dc motor speed control.
131 Automatic speed control of vehicle in Pedestrian crossing zones
132 Smart card based location finder
133 An efficient way of avoiding multilane vehicle departure system.
134 Embedded web server
135 Public address system with specific target speech processing technique
136 Programmable multi channel water level controller.
137 Sleep monitor
138 Change maker
139 Bus token display system with voice
140 I2c based multi zone temperature monitoring
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
4. Sans Innovations
141 Embedded E book
142 User friendly library
143 Spy Robot
144 EB Billing through SMS
145 On line vehicle tracking by using GPS & GSM
146 RFID based system for class room identification for visually challenged
147 Finger print based license and RFID RC book verification
148 Industrial Pollution detection and warning system
149 I2c based multi zone thermal monitoring
150 Prepaid card for petrol bunk
151 Talking key pad for dump peoples
152 GPS and GSM based military security system
153 RFID based Ignition System for Vehicles
154 Electronic radar for military application
155 Voice based motor speed and direction control
156 SMS based industrial disaster avoiding system
157 Target tracking using wireless RFID network
IEEE EMBEDDED SYSTEM
1 Network lifetime maximization and localized routing tradeoff in wireless sensor
networks(2013)
2 Redundancy Resolution of the Human Arm and an Upper Limb Exoskeleton(2013)
3 A smart prepaid energy metering system to control electricity theft (2013)
4 Efficient Object Localization Using Sparsely Distributed Passive RFID Tags (2013)
5 Maximum Power Point Tracking Control for Photovoltaic System Using Adaptive
Neuro- Fuzzy “ANFIS”(2013)
6 Speech recognition based wireless automation of home loads with fault
identification for physically challenged- April 2012
7 Zigbee Mac Wireless Network Implementation using aRemote Virtual Interface
8 Intelligent energy management system for smart offices- Jan. 2012
9 Low-cost, high-accuracy, state estimation for vehiclecollision
prevention system-April 2012
10 A new method for monitoring of distribution transformers -May 2012
11 Wireless and Pyroelectric Sensory Fusion System for Indoor Human/Robot Localization
and Monitoring
12 A Wearable Inertial Sensor Node for Body Motion Analysis
13 Multi-channel Wireless Mesh Networks Test-Bed with Embedded Systems
14 A novel cost-effective architecture and deployment strategy for integrated RFID and
WSN systems
15 Advances and challenges of wireless body area networks for healthcare applications
16 In-building lighting management system with wireless communications
17 Design and Implementation ofWireless Obstacle Detection System for Safe
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
5. Sans Innovations
Locomotion
18 Metal mine underground safety monitoring system based on WSN
19 Wireless sensor networks for fire emergency and gas detection
20 ZigBee routing algorithm based on energy awareness and energy balance
21 Centralized Heart Rate Monitoring Telemetry System using ZigBee WSN
22 Realization of intelligence monitoring system based on remote sensor technology
23 Design and Implementation of a Family Living Supporting System Based on ZigBee
24 Remote management and control system for LED based plant factory using ZigBee
and Internet
25 Bus Monitoring System Based On Zigbee And GPRS
26 Parking spaces detection in indoor environments based on Zigbee
27 Zigbee Based Energy Efficient Outdoor Lighting Control System
28 Design of Automatic Meter Reading based on Zigbee
29 Securing the ZigBee Protocol in the Smart Grid
30 An intelligent self-adjusting sensor for smart home services based on ZigBee
communications
31 A New Method for Detecting Leaks in Underground Water Pipelines( IEEE-2012)
32 Efficient Implementation of RFID Mutual Authentication Protocol ( IEEE-2012)
33 Traffic-aware Design of a High Speed Intrusion Detection System( IEEE-2012)
34 Minimum Fuel Control Strategy in Automated Car-Following Scenarios( IEEE-
2012)
35 Automatic Ambulance Rescue System( IEEE-2012)
36 Mobility tracking using GPS, Cell ID( IEEE-2012)
37 A Compact Remote Monitoring System for a Three-Phase 10-kVA Energy-
Efficient Switchable Distribution Transformer ( IEEE-2012)
38 Design & implementation of industrial N/W monitoring protocol for networked
industrial sensor( IEEE-2012)
39 A new approach for simulation & modeling of autonomous production( IEEE-
2012)
40 Evidence collection from car black boxes using smart phones( IEEE-2012)
41 Design & implementation of remote home security system based wsns and GSM
technologies( IEEE-2012)
42 Building lighting automation through the integration of dali with wireless sensor
network( IEEE-2012)
43 A Low Power Wireless Sensor Network for Gully Pot Monitoring in Urban
Catchments ( IEEE-2012)
44 auto monitoring energy efficient wireless sensor network systems for grape farm
lands ( IEEE-2012)
45 Secret key generation exploiting channelCharacteristics in wireless
communications ( IEEE-2011)
46 Security framework for wireless communications in smart distribution grid(
IEEE-2011)
47 Soa distributed operating system for managing embedded devices in home and
building automation( IEEE-2011)
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
6. Sans Innovations
48 The robot usesWireless bluetooth technology to communicate and coordinate with
the host computer. ( IEEE-2011)
49 Evaluation of Bluetooth Hands-Free profile for sensors applications in smart phone
platforms
50 Model-based development of user-centric automation and assistive
devices/systems ( IEEE-2011)
51 Design and implementation of a home embedded surveillance system with ultra-low
alert power( IEEE-2011)
52 Design of remote monitoring system for aquaculture cages based on 3g networks
and arm-android embedded system( IEEE-2011)
53 Door phone embedded system for voice based user identification and verification
platform( IEEE-2011)
54 Self-recognition of vehicle position using uhf passive rfid tags( IEEE-2011)
55 An integrated embedded solution for vehicle communication & control( IEEE-
2011)
56 Automated urban drinking water supply control and water theft identification
system ( IEEE-2011)
57 Soa distributed operating system for managing embedded devices in home and
building automation( IEEE-2011)
58 The robot usesWireless bluetooth technology to communicate and coordinate with
the host computer. ( IEEE-2011)
59 Coordination and risk analysis of vmi supply chains with rfid technology( IEEE-
2011)
60 Model-based development of user-centric automation and assistive
devices/systems ( IEEE-2011)
61 Design and implementation of a home embedded surveillance system with ultra-low
alert power( IEEE-2011)
62 Design of remote monitoring system for aquaculture cages based on 3g networks
and arm-android embedded system( IEEE-2011)
63 Door phone embedded system for voice based user identification and verification
platform( IEEE-2011)
64 Self-recognition of vehicle position using uhf passive rfid tags( IEEE-2011)
65 An integrated embedded solution for vehicle communication & control( IEEE-
2011)
66 Automated urban drinking water supply control and water theft identification
system ( IEEE-2011)
67 Micro-controller Based On-Board Diagnostic (OBD) System for Non-OBD
Vehicles ( IEEE-2011)
68 Mobile Sensor Navigation using Rapid RF-based Angle of Arrival Localization( IEEE-
2011)
69 Road Nail: Intelligent Road Marking System ( IEEE-2011)
70 IPv6-based Hierarchical Middleware for Efficient Home Control through a Global
Network ( IEEE-2011)
71 The Comprehensive Gateway Model for Diverse Environmental Monitoring Upon
Wireless Sensor Network ( IEEE-2011)
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
7. Sans Innovations
72 Design and implementation of a home embedded surveillance system with ultra-low alert
power ( IEEE-2011)
73 LocON: A location based services platform to improve airport safety ( IEEE-2011)
74 Cooperative Maneuvering in Close Environments Among Cyber cars and Dual-Mode
Cars ( IEEE-2011)
75 Home automation and security for mobile devices ( IEEE-2011)
76 Design and development of microcontroller based electronic queue control systems (
IEEE-2011)
77 Design and implementation of pyro electric infra red based security system ( IEEE-2011)
78 A Laboratory Test bed for Embedded Fuzzy Control ( IEEE-2011)
79 A microcontroller-based multi-function solar tracking system
( IEEE-2011)
80 Weighing System of Fruit-Transportation Gyrocar Based on ARM ( IEEE-2011)
81 A Novel Light-Sensor-Based Information Transmission System for Indoor Positioning
and Navigation ( IEEE-2011)
82 A Data Acquisition System for Methane Drainage Based on ARM and FPGA ( IEEE-
2011)
83 The Intelligent Embedded Control Warning System for Car Reversing ( IEEE-2011)
84 Autonomous Pedestrian Collision Avoidance Using a Fuzzy Steering Controller ( IEEE-
2011)
85 Blind assistant navigation system ( IEEE-2011)
86 A mobile GPRS-sensors array for air pollution monitoring
( IEEE-2010)
87 Combined Scheduling Of Ultrasound And GPS Signals In A Wearable ZIGBEE-Based
Guidance System For The Blind ( IEEE-2010)
88 Design and Implementation of an Embedded Mobile Navigation System ( IEEE-2010)
89 Application of GPS and Infrared for Car Navigation in Foggy Condition to Avoid
Accident ( IEEE-2010)
90 Remote Monitoring System for Oil Wells Based on GPRS Technology ( IEEE-2010)
91 Wireless Health Monitoring System( IEEE-2010)
92 Distributed multiple human tracking with wireless binary pyroelectric infrared (PIR)
sensor networks ( IEEE-2010)
93 Smartphone-Based Vehicle-to-Driver/Environment Interaction System for Motorcycles (
IEEE-2010)
94 The prediction and forecast of coal floor water-inrush based on GIS: A case study on the
I-1 mining district in the 5# coal mine in Pingdingshan area ( IEEE-2010)
95 Performance analysis of "fast-moving" RFID tags in state-of-the-art high-speed railway
systems ( IEEE-2010)
96 design and implement a home surveillance system based on an embedded system with
multiple ultrasonic sensor ( IEEE-2010)
97 RFID and GSM Technology Building Intelligent Relief Supplies Distribution and
Monitoring System ( IEEE-2010)
98 Design and realization of mobile information collection module in logistic Internet Of
Things Unified Information System ( IEEE-2010)
99 2G-RFID-based E-healthcare System ( IEEE-2010)
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
8. Sans Innovations
100 An Embedded Systems Approach to Monitor Green House ( IEEE-2010)
101 Preliminary Measurements with an Intelligent Shopping Cart
102 An Intelligent Secure and Privacy-Preserving Parking Scheme through Vehicular
Communications ( IEEE-2010)
103 Design of a Scalable Interactive Table System with Power Line Communication ( IEEE-
2010)
104 A Collaborative Multiagent Taxi-Dispatch System(IEEE-2010)
105 The Application of E-S on Shipping Monitoring and Control
106 RFID-based Hospital Real-time Patient Management System
107 Application of ZigBee for Pollution Monitoring Caused by Automobile Exhaust Gases(
IEEE-2009)
108 Security Architecture for RFID Application in Home Environment ( IEEE-2009)
109 Boarding School Students Monitoring Systems (E-ID) Using Radio Frequency
Identification ( IEEE-2009)
110 An Ear-Lead Ecg Based Smart Sensor System With Voice Biofeedback For Daily
Activity Monitoring ( IEEE-2009)
111 A Unified Framework of Data Exchange Mechanism in
an Intelligent Transportation System ( IEEE-2009)
112 A Modular Cost-Effective Mobile Robot navigation system ( IEEE-2009)
113 On-Line Automatic Switching of Consumers’ Connections for Improved Performance of
A Distribution feeder ( IEEE-2009)
114 Research and Development of the Remote I/O Data Acquisition System Based on
Embedded ARM Platform ( IEEE-2009)
115 A novel Approach on the Hydrologic Remote Measurement System in Coalmining
Industry ( IEEE-2008)
116 A Low-cost Intelligent Gas Sensing Device for Military Applications ( IEEE-2008)
117 An Application of Detection Function for the Eye Blinking Detection( IEEE-2008)
118 Power Monitoring and Control for Electric Home Appliances Based on Power Line
Communication ( IEEE-2008)
119 Remote Sensing and Control of an Irrigation System Using a Distributed Wireless
Sensor Network ( IEEE-2008)
120 Coordination and risk analysis of vmi supply chains with rfid technology(
IEEE-2011)
ROBOTICS
ROB101 Wireless Robot different motion control
ROB102 Fire Fighting Robot through wireless communication
ROB103 Multipurpose robot for industry.
ROB104 Metal detector in industries.
ROB105 Telephone Operated Robot with help of DTMF
ROB106 Fire sensing Robot and control through in home /industry.
ROB107 PC based Robot for different position control.
ROB108 Fabrication of pneumatic pick and place Robot in textile industry.
ROB109 Solar panel Tracking Robot
ROB110 House cleaning Robot to reduce the man power.
ROB111 Mine detecting Robot
ROB112 Efficient irrigation system using wireless water feeding robot.
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
9. Sans Innovations
ROB113 Object Tracking Robot using Sensor.
ROB114 Artificial intelligent (Fuzzy logic)based Automatic path finding Robot
ROB115 Intelligent Robot in industry.
ROB116 Line follower Robot Spy Eye.
ROB117 Wireless Industrial security RobotWith CCTV Camera
ROB118 Design and Development of Bomb Detecting Robot
ROB119 Gas Detection Robot for Atomic Power Stations.
ROB120 Material Handling Robot in industry.
ROB121 Earth Quack Robots using sensor.
ROB122 Microcontroller based multipurpose stepper motor action controller for
Robots.
ROB123 Path finding & line follower ROBOT
ROB124 PC based intelligent robot
ROB125 Gas detection robot.
RFID BASED EMBEDDED PROJECTS
RFID101 RFID based License Verification System
RFID102 RF ID based Attendance card system
RFID103 RF ID based Smart card system
RFID104 RF ID based Security system
RFID105 RF ID based banking Application system
RFID106 RFID based passport verification system
RFID107 RFID based Voting machine
RFID108 RFID based internet access control
RFID109 RFID Based Guard patrolling system with Handheld Device
RFID110 RFID based Vehicle Authentication
RFID111 RFID based toll gate control
RFID112 RFID based (cryptography) Secure Transmission of Sensitive data
RFID113 RFID based hospital database management system
RFID114 RFID based shopping trolley
RFID115 RFID based Library Management System
RFID116 RFID based reservation system
RFID117 RFID based production security system
RFID118 RFID based automatic car parking system
RFID119 RFID based ration card
RFID120 RFID based prepaid energy meter
RFID121 RFID based health card
RFID122 RFID based door opening and closing system
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
10. Sans Innovations
RFID123 RFID based ration card
RFID124 Tracking of Airport Bag gages Using RFID
RFID125 RFID based train tracking system
RFID126 RFID based access control system
RFID127 A RFID-based Material Tracking Information System 2007
RFID128 An approach to security & privacy of RFID system For supply chain
RFID129 Autonomous Navigation Of RFID Sensing Robots (Information Ensuring
For RFID130 RFIDThbeaVseidsuLaollcyaItimonpamiraenda)gement 2008
RFID131 Speed Adjustment Algorithm for an RFID Reader and Conveyor Belt
RFID132 STyhseteemlecPtrerofnoircmpiansgspDoyrtnaamndicthFerafmuteudreSoloftgteodveArlnomhaen2t0-08issued RFID-based identification
RFID133 (TIhEeEREemseaarrc2h00o7n)Blind Navigation System Based on RFID 2007
RFID134 Intelligent Parallel Parking of a Car-like Mobile Robot Using RFID
RFID135 TReFcIhDn-oBlaosgeyd2I0n0t7elligent Books Shelving System 2007
RFID136 Increasing throughput & personalizing the examination process in
RFID137 -uHnievlperinsigtietsoucsoinllge cRtFtIrDaffic information using RFID tag implemented on
RFID138 uRrFbIaDn-bbaussedfohrotmraeffaicppinlifaonrcmesatcioonnt2r0o0l 6
RFID139 Mobile phone based RFID architecture for secure electronic payments
RFID140 uRsFinIDg RbaFsIeDdcvreehdiictlecasredcus r(IitEyEfoEr2c0a0r7a)nd mobile based locking system
RFID141 An Intelligent Mobile Robot Navigation Technique Using RFID Technology
RFID142 2H0e0l8ping to collect traffic information using RFID tag implemented on
urban-bus for traffic information 2006
GSM BASED EMBEDDED PROJECTS
GSM101 GSM based vehicle accident identification system.
GSM102 GSM based ATM theft identification system.
GSM103 GSM based industrial data acquisition system.
GSM104 GSM based vehicle immobilization system.
GSM105 GSM based fault reorganization system in power transmission system.
GSM106 GPS based Vehicle Tracking System and guided robot to the target with
shortest path estimation.
GSM107 EB Billing through SMS.
GSM108 Environmental monitoring through SMS.
GSM109 GSM based Road safety system.
GSM110 GSM Intelligent security system for home
GSM111 GSM based Electricity theft identification system.
GSM112 GSM based drunken drive identification system.
GSM113 GSM based blood pressure identification system.
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
11. Sans Innovations
GSM114 GSM based patient heart beat checking machine.
GSM115 GSM based mine detecting robot.
GSM116 GSM based fire sensing Robot.
GSM117 GSM based earth quack identification system.
GSM118 GSM based fuel vending.
GSM119 Prepaid Energy meter with GSM.
GSM120 GSM based energy meter.
GSM121 Train Status Detection System
GSM122 Distributed Supervisor System of Heat Supply Network Based on GSM
Platform 2006
GSM123 A Remote Measurement and Control System for Greenhouse Based On
GSM-SMS (IEEE Jul 2007)
GSM124 An On-Line Monitoring System of Temperature of Conductors And Fittings
Based On SMS (IEEE 2008)
GSM125 Design and implementation of a wireless remote Data Acquisition System
for mobile applications(IEEE may 2005)
GSM126 On line vehicle tracking by using GPS & GSM (IEEE-dec-2004)
GSM127 Monitoring and transmission of heavy vehicle Parameters using fixed
cellular terminal GSM128 GSM-based mob(iIleEEteElea-pmro2n0it0o4r)ing and management System for inter-GSM129
cAitrieesalp-tuibmliecretrmaontsepocortnattrioolnasr(cIhEiEteEctauprre 2u0si0n4g)Mobile communication (IEEE
GSM130 aGuSgM20m05o)bile phone based automobile security system ( IEEE 2000)
GSM131 The GSM-based location system for the long-distance freight (IEEE July
GSM132 SMS bas2e0d06h)ome appliance control
GSM133 SMS based universal motor speed control
GSM134 SMS based dc motor speed control system
GSM135 SMS based security System
GSM136 GSM controlled industrial controller
GSM137 GSM controlled industrial monitor
GSM138 Call based home appliance controller
GSM139 Automatic taxi trip sensing & indicating system Through GSM
GSM140 Remote control of industrial machines based on GSM Technology
GSM141 Mine detection vehicle for defense using GSM
GSM142 SMS based industrial disaster system
GSM143 Security breach information for unauthorized entry Based on mobile
GSM144 tIencdhunsitqruiael furnace monitor system using mobile phone
GSM145 SMS based banking security system
GSM146 Engine monitoring through mobile phone
GSM147 Mobile and smart card based voting system
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com
12. Sans Innovations
GSM148 Railway accident monitoring system
GSM149 SMS based weather report monitoring system
GSM150 Remote sales terminal networking
GSM151 GSM and GPS interface for human tracking system
GSM152 Data acquisition system with GSM modem
GSM153 Accident identification system with auto dialer
GSM154 Bank security system with auto dialer
GSM155 SMS based printer
GSM156 SMS based home security system
GSM157 Coin based SMS sender and mobile phone charger
GSM158 Locker security system with SMS informer
GSM159 SMS controlled debit/credit card
GSM160 Accident identifier with SMS informer
GSM161 Mobile based home automation
GSM162 RFID based vehicle security for car and mobile based Locking system
GSM163 solar based cell phone charger with coin pay system
GSM164 Mobile tracking system by using GPS and GSM
GSM165 Production Safety Locker
GSM166 GSM based vehicle security and thief locking system
GSM167 Mobile based automatic robotic Control
GSM168 GSM Based Irrigation monitoring and Control System
GSM169 GSM Controlled Intelligent Robot
GSM170 Password Protected GSM Based Device Control
GSM171 Student Arriving Leaving Safety Message Service System with GSM
GSM172 GSM Based Smart Information System For Lost ATM Cards.
GSM173 GSM based missile launcher
GSM174 GSM based live body sensing Robot
GSM175 GSM based vehicle breaking system / ignition control system
GSM176 GSM based fuel vending machine
GSM177 GSM based System access pretension system
GSM178 Result announcing system through SMS
GSM179 First fault announcing system through SMS
GSM180 GSM based internet access control
GSM181 GSM based Secure Transmission of Sensitive data
For Contact: 9843064229, 04274041413. Email: sanssalem@gmail.com