This list contains latest IEEE project abstracts based on Raspberry Pi and ARM processor for Electronics and communication, Electronics and Instrumentation, Electrical and Electronics, Information Technology students. This list contains few abstracts only. For more abstracts based on Embedded, Biomedical, Matlab, NS2, VLSI, Java, Android, .NET, PHP, visit www.softroniics.in or Call 9037291113
IEEE RASPBERRY PI PROJECT TITLE 2015-16Spiro Vellore
Spiro Solutions Pvt. Ltd. is a training office located in Vellore, India that offers courses related to Raspberry Pi technology. The document lists 75 Raspberry Pi projects conducted between 2015-2017, including applications for driver assistance, traffic sign detection, indoor sensing, video surveillance, structural health monitoring, and more. The training office contact information is provided at the top.
Automatic Vehicle Entry Exit Log - Senior Year ProjectAhmad Azhar
The document discusses the motivation and design of an automatic number plate recognition system to track vehicles entering and exiting a premises. The key goals of the system are to: 1) Maintain logs of entry/exit times and photos of vehicles, 2) Extract license plate numbers from photos using ANPR, and 3) Provide information like the number of vehicles currently inside and counts over specific time periods. It then describes the hardware components, software, and image processing methods used to achieve these goals in a low-cost and effective manner when deployed at the LUMS campus.
IRJET- Ambulance Detection and Traffic Control SystemIRJET Journal
This document proposes an ambulance detection and traffic control system to reduce traffic congestion delays for emergency vehicles. The system uses a GPS module in ambulances to transmit location data via WiFi to the cloud. This data is then sent to smart traffic control systems equipped with Raspberry Pi computers. The traffic control systems can dynamically adjust traffic light timing based on ambulance locations to provide clear routes for emergency vehicles and reduce response times. The low-cost system has the potential to be implemented across an entire city and decrease casualties from congested traffic situations.
This list contains latest IEEE project abstracts based on Raspberry Pi and ARM processor for Electronics and communication, Electronics and Instrumentation, Electrical and Electronics, Information Technology students. This list contains few abstracts only. For more abstracts based on Embedded, Biomedical, Matlab, NS2, VLSI, Java, Android, .NET, PHP, visit www.softroniics.in or Call 9037291113
IRJET- A Survey on Various Location Tracking SystemsIRJET Journal
This document summarizes 10 research papers on various location tracking systems. It begins by defining location tracking systems and their importance in fields like transportation, security, and more. It then summarizes the key technologies used in location tracking like GPS, GSM, RFID, and Google Maps. The majority of the papers discussed Android-based systems that use GPS signals from smartphones to determine and share a target's location in real-time. Several papers focused on using SMS messages or mobile apps to alert contacts if a target strayed from their planned route or moved outside a predefined area. Overall, the document provides an overview of different techniques for real-time person and object tracking using wireless technologies and location-based services.
The main objective of our project is to provide an optimum solution to the traffic hazards and the road accidents. According to this project when a vehicle meets with an accident, immediately vibration sensor will detect the signal and sends it to ARM controller. Microcontroller sends the alert message through the GSM MODEM including the location to police control room or a rescue team. So the police can immediately trace the location through the GPS MODEM after receiving the information.
IRJET- GPS Based Vehicle Tracking and Monitoring System - A Solution for Tran...IRJET Journal
This document describes a GPS-based vehicle tracking and monitoring system using Arduino. The system uses a GPS module to obtain location data and a GSM module to send the location to authorized users via SMS. When a registered user texts the system, it replies with the vehicle's current latitude and longitude, which can be viewed on a map. The system is intended to help with vehicle security, tracking salespeople, and monitoring private drivers. It provides location updates every 10 seconds while the vehicle is moving.
IEEE PROJECTS 2014
one crore projects is a leading Guide for ieee Projects and real time projects Works Provider.
It has been provided Lot of Guidance for Thousands of Students & made them more beneficial in all Technology Training.
IEEE RASPBERRY PI PROJECT TITLE 2015-16Spiro Vellore
Spiro Solutions Pvt. Ltd. is a training office located in Vellore, India that offers courses related to Raspberry Pi technology. The document lists 75 Raspberry Pi projects conducted between 2015-2017, including applications for driver assistance, traffic sign detection, indoor sensing, video surveillance, structural health monitoring, and more. The training office contact information is provided at the top.
Automatic Vehicle Entry Exit Log - Senior Year ProjectAhmad Azhar
The document discusses the motivation and design of an automatic number plate recognition system to track vehicles entering and exiting a premises. The key goals of the system are to: 1) Maintain logs of entry/exit times and photos of vehicles, 2) Extract license plate numbers from photos using ANPR, and 3) Provide information like the number of vehicles currently inside and counts over specific time periods. It then describes the hardware components, software, and image processing methods used to achieve these goals in a low-cost and effective manner when deployed at the LUMS campus.
IRJET- Ambulance Detection and Traffic Control SystemIRJET Journal
This document proposes an ambulance detection and traffic control system to reduce traffic congestion delays for emergency vehicles. The system uses a GPS module in ambulances to transmit location data via WiFi to the cloud. This data is then sent to smart traffic control systems equipped with Raspberry Pi computers. The traffic control systems can dynamically adjust traffic light timing based on ambulance locations to provide clear routes for emergency vehicles and reduce response times. The low-cost system has the potential to be implemented across an entire city and decrease casualties from congested traffic situations.
This list contains latest IEEE project abstracts based on Raspberry Pi and ARM processor for Electronics and communication, Electronics and Instrumentation, Electrical and Electronics, Information Technology students. This list contains few abstracts only. For more abstracts based on Embedded, Biomedical, Matlab, NS2, VLSI, Java, Android, .NET, PHP, visit www.softroniics.in or Call 9037291113
IRJET- A Survey on Various Location Tracking SystemsIRJET Journal
This document summarizes 10 research papers on various location tracking systems. It begins by defining location tracking systems and their importance in fields like transportation, security, and more. It then summarizes the key technologies used in location tracking like GPS, GSM, RFID, and Google Maps. The majority of the papers discussed Android-based systems that use GPS signals from smartphones to determine and share a target's location in real-time. Several papers focused on using SMS messages or mobile apps to alert contacts if a target strayed from their planned route or moved outside a predefined area. Overall, the document provides an overview of different techniques for real-time person and object tracking using wireless technologies and location-based services.
The main objective of our project is to provide an optimum solution to the traffic hazards and the road accidents. According to this project when a vehicle meets with an accident, immediately vibration sensor will detect the signal and sends it to ARM controller. Microcontroller sends the alert message through the GSM MODEM including the location to police control room or a rescue team. So the police can immediately trace the location through the GPS MODEM after receiving the information.
IRJET- GPS Based Vehicle Tracking and Monitoring System - A Solution for Tran...IRJET Journal
This document describes a GPS-based vehicle tracking and monitoring system using Arduino. The system uses a GPS module to obtain location data and a GSM module to send the location to authorized users via SMS. When a registered user texts the system, it replies with the vehicle's current latitude and longitude, which can be viewed on a map. The system is intended to help with vehicle security, tracking salespeople, and monitoring private drivers. It provides location updates every 10 seconds while the vehicle is moving.
IEEE PROJECTS 2014
one crore projects is a leading Guide for ieee Projects and real time projects Works Provider.
It has been provided Lot of Guidance for Thousands of Students & made them more beneficial in all Technology Training.
IRJET- Smart Accident Detection and Emergency Notification System using IoT a...IRJET Journal
This document describes a smart accident detection and emergency notification system using IoT and mobile computing. The system uses MEMS sensors to detect vehicle vibrations during an accident and ultrasonic sensors to calculate distance. It then sends accident location data like coordinates, time, and angle of impact to emergency contacts via GSM module. This is intended to reduce response time and save lives by quickly notifying authorities and loved ones after a crash when emergency services are lacking. The system architecture incorporates sensors, microcontroller, GPS, GSM and modules for user registration, location updating, and accident notification.
The paper describe a practical model for routing and tracking of mobile vehicles in a large area outdoor environment based on the Global positioning system (GPS) and Global system for mobile communication (GSM). The supporting device GPS continuously move with the car and will calculate the co-ordinates of each position and when required by the owner it can be communicated with the help of GSM modem which is installed in both Transmitter and receiver section. GSM modem is controlled by a 32 bit ARM7 LPC2148. The device will collect position to supervised center by the SMS (Short Message Service) or GPRS (General Package radio service) and which can be located in the Google Earth and so the current position of the car can be known.
IoT BASED VEHICLE TRACKING AND TRAFFIC SURVIELLENCE SYSTEMjohn solomon j
ii
ABSTRACT GPS is one of the technologies that are used in a huge number of applications today. One of the applications is tracking your vehicle and keeps regular monitoring on them. This tracking system can inform you the location and route travelled by vehicle, and that information can be observed from any other remote location. It also includes the web application that provides you exact location of target and the exact speed the vehicle is moving which is used to generate bills for over speeding automatically. This system enables us to track target in any weather conditions. This system uses GPS and Zigbee technologies. This includes the hardware part which comprises of GPS, Zigbee, ATmega microcontroller and software part is used for interfacing all the required modules and a web application is also developed at the client side and visualize data from IoT. Main objective is to design a system that can be easily installed and to provide platform for further enhancement. KEYWORDS GPS, ZigBee, Tracking System, IoT
iii
ACCIDENT PREVENTION AND DETECTION SYSTEManand bedre
This document describes a student project to develop an Accident Prevention and Detection System (APDS) mobile application. The application uses GPS to track vehicle speed and location. If the speed exceeds a preset limit, the app will sound an alarm. If the user does not respond, emergency contacts will be notified. It will also detect sudden drops in speed and alert nearby hospitals. The goal is to reduce response times and save lives in the event of a vehicular accident. A group of students at K. K. Wagh Polytechnic are developing the Android app under faculty guidance with sponsorship from Sumago Infotech.
GPS based Advanced Vehicle Tracking and Vehicle Control SystemMashood Mukhtar
Security systems and navigators have always been a
necessity of human‟s life. The developments of advanced
electronics have brought revolutionary changes in these fields. In this paper, we will present a vehicle tracking system that employs a GPS module and a GSM modem to find the location of a vehicle and offers a range of control features. To complete the design successfully, a GPS unit, two relays, a GSM Modem and two MCU units are used. There are five features introduced in the project. The aim of this project is to remotely track a vehicle‟s location, remotely switch ON and OFF the vehicle‟s ignition system and remotely lock and unlock the doors of the vehicle. An SMS message is sent to the tracking system and the system responds to the users request by performing appropriate actions. Short text messages are assigned to each of these features. A webpage is specifically designed to view the vehicle‟s location on Google maps. By using relay based control concept introduced in this paper, number of control features
such as turning heater on/off, radio on/off etc. can be
implemented in the same fashion.
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IRJET - A Real-Time Pothole Detection Approach for a Safety Transportation Sy...IRJET Journal
This document proposes a real-time pothole detection system to improve transportation safety. The system uses an accelerometer sensor to detect potholes by measuring deviations in road surface acceleration. An onboard GPS module provides the location of detected potholes. This location data, along with light and noise readings from an LDR and microphone, is uploaded to the cloud and plotted on Google Maps. The goal is to reduce accidents caused by unexpected potholes by making drivers aware of their locations.
IRJET - Intelligent Traffic Control System using Centralized System for Emerg...IRJET Journal
This document proposes an intelligent traffic control system that uses a centralized system to clear traffic for emergency vehicles like ambulances. The system includes smart traffic signals connected to a centralized cloud-based system that monitors all signals on a route. An Android mobile app provides the ambulance's destination to the centralized system. The system determines the shortest route and priority of each signal to instruct signals to turn green in advance of the ambulance's arrival, allowing it to pass through intersections without delays. The goal is to reduce travel times for ambulances and save lives by preventing traffic jams from delaying their progress.
The document describes a study that used Faster R-CNN, a deep learning approach, to detect road objects like vehicles, pedestrians, and traffic signs in Bangladesh. The researchers collected images to train a neural network to identify 19 object classes. Their model achieved 86.42% accuracy and was able to detect objects in various lighting and traffic conditions, though it struggled when objects were extremely close together. The study aims to help analyze traffic and potentially assist autonomous vehicles in Bangladesh.
IRJET- Density based Traffic Controller with Defaulter Identification using IoTIRJET Journal
This document describes a density-based traffic controller system that uses IoT to adjust traffic light timing based on traffic density detected by IR sensors, and identify vehicles that run red lights. The system uses Arduino and NodeMCU with IR sensors to detect traffic density and adjust the green light time from 3 to 6 seconds during heavy traffic. When a vehicle runs a red light, an IR sensor triggers a camera connected to NodeMCU to capture an image of the vehicle's license plate, which is sent to a monitoring device and displayed on a webpage along with date and time of the violation. The goal is to reduce traffic congestion by dynamically adjusting light timing based on real-time traffic conditions, and identify vehicles that violate red lights
IJRET-V1I1P4 - Vehicle Tracking System Using GPS Tracking MethodISAR Publications
A vehicle tracking system is an electronic device installed in a vehicle to enable the owner
or a third party to track the vehicle's location.Multi-tracking system is a real time tracking platform
which uses integration of technologies such as GPS.The device installed in the vehicle
continuously moves and other related information at each position and then transmit to tracking
server, thus storing it in the database. Currently almost of the public having an own vehicle, theft is
happening on parking and sometimes driving insecurity places. The safe of vehicles is extremely
essential for public vehicles. As more devices become GPS enabled, accuracy will increase and the
system's scale and global reach will benefit everyone. Wireless technology promises to be a key
element in any long-term solution. This design will continuously monitor a moving Vehicle and
report the status of the Vehicle on demand
Keywords — GPS Tracking System, Vehicle Tracker , Security System .
Fingerprint Based Smart Pay and Accident Alert SystemIJTET Journal
Over the last few decades, the usage of public transportation is attracted by most of the people. The increase in passenger count has made ticket ending and vehicular monitoring a complex task. In addition to this, frequent accidents occur due to overload of passengers and these accidents are not cognizant to the rescuers. Therefore advancement in technology could be instigated to overcome these issues. This system is an advanced approach to the existing system of ticketing through RFID cards. The fingerprint based smart pay and accident alert is the proposed system wherein ticketing is automated and the travelling cost is debited from the concerned bank or the suggested system where the user holds an account. To avoid illegal entry, the passenger count is monitored with the effective utilization of IR sensor. The ignition of the vehicle is stopped whenever the passenger count exceeds the maximum value. The accident alert system finds its application in the proposed methodology with the support of GPS and GSM. Whenever an accident occurs, the location of the vehicle will be sent as a message with a link provided to the emergency vehicles, control room and a private message will be sent to the trusted contact of each of the passengers. Thereby many fellow lives could be saved. This system would also be an excellent replacement to the traditional ticketing system.
The document proposes a smart monitoring system for automobiles using IoT. It uses sensors connected to an Arduino board to monitor various vehicle components. The Arduino feeds sensor readings to a Raspberry Pi gateway and then to a server via Ethernet. If readings exceed thresholds, the server sends alerts to users by SMS. It also allows emergency requests if the vehicle breaks down. The service center can track vehicle status and location through a website. The system aims to promote vehicle safety and maintenance through low-cost, real-time monitoring of components.
11.design and implementation of vehicle tracking system using gpsAlexander Decker
This document summarizes a research paper on the design and implementation of a vehicle tracking system using GPS. The system uses an in-vehicle unit with sensors and a GPS receiver to track the location of the vehicle. The location data is transmitted to a remote tracking server using GSM/GPRS. The tracking server stores the location information in a database and makes it available online to authorized users. The system is intended to provide vehicle security features like anti-theft tracking and monitoring of door open/close status. The paper describes the hardware and software design of both the in-vehicle unit and tracking server.
vehicle traking based on GSM/GPS using 8051Sagar Parmar
This document is a synopsis for a student project on a GSM/GPS-based vehicle tracking system. It includes an abstract describing the system components like an AT89C2051 microcontroller, LCD display, RS-232 interface, GPS and GSM modems. The system uses the GPS modem to get location coordinates and sends them via GSM modem as SMS messages containing a Google Maps link to track the vehicle's location. It was submitted by three students for their Bachelor's degree and approved by examiners and their guide.
A GPS tracking system is a common way of getting real-time vehicle location data. GPS technology is often employed in modern car tracking systems, however other forms of autonomous vehicle location technologies can also be used. A GPS tracking system comprised of hardware, open-source software, a web server, and an easy-to-manage user interface via a web server with Google Map was presented. The goal of this project is to develop and build a hand-held wireless GPS tracking device that can be tracked remotely via the Internet. There are three parts to this research. A mobile device with GPS and a wireless Internet connection is the first component. Our hardware project, which contains an LCD, GPS, GSM, Arduino Uno, and sensor linked to service, is the second portion.
Design and implementation of vehicle tracking system using gpsAlexander Decker
This document describes the design and implementation of a vehicle tracking system using GPS. The system uses an in-vehicle unit with sensors and a GPS receiver to determine the vehicle's location, and a GSM/GPRS modem to transmit the location data via SMS or TCP/IP to a remote tracking server. The tracking server stores the location information in a database and makes it available through a web interface to authorized users. The system is intended to help curb vehicle theft by allowing owners to track a stolen vehicle and alert authorities.
This document describes a bus tracking system that uses GPS and GSM modules to track the location of buses in real-time and provide that information to users. The system hardware installed on buses uses a GPS module to detect location and a GSM module to send the location data to the cloud. An Android mobile app then allows users to view buses' current locations on a map. The system aims to address issues with public transportation systems like not knowing arrival times or available seats. It provides real-time bus tracking to improve the user experience.
This document describes a vehicle tracking and monitoring system that uses GPS, GSM, and a microcontroller to track vehicles in real-time. It consists of three main parts: a vehicle unit with a GPS/GSM modem that collects location data and sends it to a server, fixed base stations that receive and forward data to a data center, and a database and software that stores location information and allows users to view vehicle locations on digital maps via the internet. The system also includes modules to detect driver drowsiness using eye blink sensors, alert drivers to traffic signal violations and speed limits using RF technology, and trigger alerts if vehicle components are removed to prevent theft. The project report presenting this system is organized into five chapters covering introduction
Design and Implementation for Trucks Tracking System Using GPS Based on Seman...ijtsrd
This paper proposed design and implementation of trucks tracking system using GPS based on semantic web for vehicle tracking in real time. In-vehicle unit and a tracking server is used. The information is transmitted to tracking server using GSM/GPRS modem on GSM network by using SMS or using direct TCP/IP connection with tracking server through GPRS. The received SMS contain longitude and latitude that are used to locate the vehicle on the Google maps. Tracking server also has GSM/GPRS modem that receives vehicle location information via GSM network and stores this information in database. It has been explored that most of the GPS based tracking systems are user friendly, cost effective, reliable and can be easily validated through different experiments and simulations which means that tracking system will send notifications periodically to the main station about the current position of the vehicle . Moreover those tracking notifications (GPS) will be stored in the database for future revising or generating required reports.. The tracking system will be better for cars, trucks, trailers, railways, containers and boats that can be traced using GPS vehicle tracking. Yasser Ahmed Nada"Design and Implementation for Trucks Tracking System Using GPS Based on Semantic Web" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-4 , June 2017, URL: http://www.ijtsrd.com/papers/ijtsrd169.pdf http://www.ijtsrd.com/computer-science/artificial-intelligence/169/design-and-implementation-for-trucks-tracking-system-using-gps-based-on-semantic-web/yasser-ahmed-nada
This document summarizes an anti-theft system project for automobiles that uses an embedded chip, GSM network, and GPS. The system sends a text message to the user whenever the vehicle is accessed. It allows the user to track the vehicle's location on Google Earth. The user can turn off the vehicle remotely if intruders try to start it by blocking the gas line. This provides a safe and efficient way to report emergencies like crashes or engine failures.
vehicle tracking using gsm and gps with arduino and lcdHamed Raza
This document outlines a GPS and GSM-based vehicle tracking system that provides real-time location information. The system uses GPS to obtain location coordinates and sends them via GSM to a caretaker. It consists of an onboard module in the vehicle with an ARM processor, GPS receiver, and GSM transmitter. The GPS receiver receives location coordinates from satellites and sends them to the ARM controller, which then transmits the data to the caretaker using the GSM module. If an accident occurs, the controller will also activate a buzzer. The system provides accurate, real-time vehicle tracking at a low cost and with minimal power consumption.
IRJET- Smart Accident Detection and Emergency Notification System using IoT a...IRJET Journal
This document describes a smart accident detection and emergency notification system using IoT and mobile computing. The system uses MEMS sensors to detect vehicle vibrations during an accident and ultrasonic sensors to calculate distance. It then sends accident location data like coordinates, time, and angle of impact to emergency contacts via GSM module. This is intended to reduce response time and save lives by quickly notifying authorities and loved ones after a crash when emergency services are lacking. The system architecture incorporates sensors, microcontroller, GPS, GSM and modules for user registration, location updating, and accident notification.
The paper describe a practical model for routing and tracking of mobile vehicles in a large area outdoor environment based on the Global positioning system (GPS) and Global system for mobile communication (GSM). The supporting device GPS continuously move with the car and will calculate the co-ordinates of each position and when required by the owner it can be communicated with the help of GSM modem which is installed in both Transmitter and receiver section. GSM modem is controlled by a 32 bit ARM7 LPC2148. The device will collect position to supervised center by the SMS (Short Message Service) or GPRS (General Package radio service) and which can be located in the Google Earth and so the current position of the car can be known.
IoT BASED VEHICLE TRACKING AND TRAFFIC SURVIELLENCE SYSTEMjohn solomon j
ii
ABSTRACT GPS is one of the technologies that are used in a huge number of applications today. One of the applications is tracking your vehicle and keeps regular monitoring on them. This tracking system can inform you the location and route travelled by vehicle, and that information can be observed from any other remote location. It also includes the web application that provides you exact location of target and the exact speed the vehicle is moving which is used to generate bills for over speeding automatically. This system enables us to track target in any weather conditions. This system uses GPS and Zigbee technologies. This includes the hardware part which comprises of GPS, Zigbee, ATmega microcontroller and software part is used for interfacing all the required modules and a web application is also developed at the client side and visualize data from IoT. Main objective is to design a system that can be easily installed and to provide platform for further enhancement. KEYWORDS GPS, ZigBee, Tracking System, IoT
iii
ACCIDENT PREVENTION AND DETECTION SYSTEManand bedre
This document describes a student project to develop an Accident Prevention and Detection System (APDS) mobile application. The application uses GPS to track vehicle speed and location. If the speed exceeds a preset limit, the app will sound an alarm. If the user does not respond, emergency contacts will be notified. It will also detect sudden drops in speed and alert nearby hospitals. The goal is to reduce response times and save lives in the event of a vehicular accident. A group of students at K. K. Wagh Polytechnic are developing the Android app under faculty guidance with sponsorship from Sumago Infotech.
GPS based Advanced Vehicle Tracking and Vehicle Control SystemMashood Mukhtar
Security systems and navigators have always been a
necessity of human‟s life. The developments of advanced
electronics have brought revolutionary changes in these fields. In this paper, we will present a vehicle tracking system that employs a GPS module and a GSM modem to find the location of a vehicle and offers a range of control features. To complete the design successfully, a GPS unit, two relays, a GSM Modem and two MCU units are used. There are five features introduced in the project. The aim of this project is to remotely track a vehicle‟s location, remotely switch ON and OFF the vehicle‟s ignition system and remotely lock and unlock the doors of the vehicle. An SMS message is sent to the tracking system and the system responds to the users request by performing appropriate actions. Short text messages are assigned to each of these features. A webpage is specifically designed to view the vehicle‟s location on Google maps. By using relay based control concept introduced in this paper, number of control features
such as turning heater on/off, radio on/off etc. can be
implemented in the same fashion.
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IRJET - A Real-Time Pothole Detection Approach for a Safety Transportation Sy...IRJET Journal
This document proposes a real-time pothole detection system to improve transportation safety. The system uses an accelerometer sensor to detect potholes by measuring deviations in road surface acceleration. An onboard GPS module provides the location of detected potholes. This location data, along with light and noise readings from an LDR and microphone, is uploaded to the cloud and plotted on Google Maps. The goal is to reduce accidents caused by unexpected potholes by making drivers aware of their locations.
IRJET - Intelligent Traffic Control System using Centralized System for Emerg...IRJET Journal
This document proposes an intelligent traffic control system that uses a centralized system to clear traffic for emergency vehicles like ambulances. The system includes smart traffic signals connected to a centralized cloud-based system that monitors all signals on a route. An Android mobile app provides the ambulance's destination to the centralized system. The system determines the shortest route and priority of each signal to instruct signals to turn green in advance of the ambulance's arrival, allowing it to pass through intersections without delays. The goal is to reduce travel times for ambulances and save lives by preventing traffic jams from delaying their progress.
The document describes a study that used Faster R-CNN, a deep learning approach, to detect road objects like vehicles, pedestrians, and traffic signs in Bangladesh. The researchers collected images to train a neural network to identify 19 object classes. Their model achieved 86.42% accuracy and was able to detect objects in various lighting and traffic conditions, though it struggled when objects were extremely close together. The study aims to help analyze traffic and potentially assist autonomous vehicles in Bangladesh.
IRJET- Density based Traffic Controller with Defaulter Identification using IoTIRJET Journal
This document describes a density-based traffic controller system that uses IoT to adjust traffic light timing based on traffic density detected by IR sensors, and identify vehicles that run red lights. The system uses Arduino and NodeMCU with IR sensors to detect traffic density and adjust the green light time from 3 to 6 seconds during heavy traffic. When a vehicle runs a red light, an IR sensor triggers a camera connected to NodeMCU to capture an image of the vehicle's license plate, which is sent to a monitoring device and displayed on a webpage along with date and time of the violation. The goal is to reduce traffic congestion by dynamically adjusting light timing based on real-time traffic conditions, and identify vehicles that violate red lights
IJRET-V1I1P4 - Vehicle Tracking System Using GPS Tracking MethodISAR Publications
A vehicle tracking system is an electronic device installed in a vehicle to enable the owner
or a third party to track the vehicle's location.Multi-tracking system is a real time tracking platform
which uses integration of technologies such as GPS.The device installed in the vehicle
continuously moves and other related information at each position and then transmit to tracking
server, thus storing it in the database. Currently almost of the public having an own vehicle, theft is
happening on parking and sometimes driving insecurity places. The safe of vehicles is extremely
essential for public vehicles. As more devices become GPS enabled, accuracy will increase and the
system's scale and global reach will benefit everyone. Wireless technology promises to be a key
element in any long-term solution. This design will continuously monitor a moving Vehicle and
report the status of the Vehicle on demand
Keywords — GPS Tracking System, Vehicle Tracker , Security System .
Fingerprint Based Smart Pay and Accident Alert SystemIJTET Journal
Over the last few decades, the usage of public transportation is attracted by most of the people. The increase in passenger count has made ticket ending and vehicular monitoring a complex task. In addition to this, frequent accidents occur due to overload of passengers and these accidents are not cognizant to the rescuers. Therefore advancement in technology could be instigated to overcome these issues. This system is an advanced approach to the existing system of ticketing through RFID cards. The fingerprint based smart pay and accident alert is the proposed system wherein ticketing is automated and the travelling cost is debited from the concerned bank or the suggested system where the user holds an account. To avoid illegal entry, the passenger count is monitored with the effective utilization of IR sensor. The ignition of the vehicle is stopped whenever the passenger count exceeds the maximum value. The accident alert system finds its application in the proposed methodology with the support of GPS and GSM. Whenever an accident occurs, the location of the vehicle will be sent as a message with a link provided to the emergency vehicles, control room and a private message will be sent to the trusted contact of each of the passengers. Thereby many fellow lives could be saved. This system would also be an excellent replacement to the traditional ticketing system.
The document proposes a smart monitoring system for automobiles using IoT. It uses sensors connected to an Arduino board to monitor various vehicle components. The Arduino feeds sensor readings to a Raspberry Pi gateway and then to a server via Ethernet. If readings exceed thresholds, the server sends alerts to users by SMS. It also allows emergency requests if the vehicle breaks down. The service center can track vehicle status and location through a website. The system aims to promote vehicle safety and maintenance through low-cost, real-time monitoring of components.
11.design and implementation of vehicle tracking system using gpsAlexander Decker
This document summarizes a research paper on the design and implementation of a vehicle tracking system using GPS. The system uses an in-vehicle unit with sensors and a GPS receiver to track the location of the vehicle. The location data is transmitted to a remote tracking server using GSM/GPRS. The tracking server stores the location information in a database and makes it available online to authorized users. The system is intended to provide vehicle security features like anti-theft tracking and monitoring of door open/close status. The paper describes the hardware and software design of both the in-vehicle unit and tracking server.
vehicle traking based on GSM/GPS using 8051Sagar Parmar
This document is a synopsis for a student project on a GSM/GPS-based vehicle tracking system. It includes an abstract describing the system components like an AT89C2051 microcontroller, LCD display, RS-232 interface, GPS and GSM modems. The system uses the GPS modem to get location coordinates and sends them via GSM modem as SMS messages containing a Google Maps link to track the vehicle's location. It was submitted by three students for their Bachelor's degree and approved by examiners and their guide.
A GPS tracking system is a common way of getting real-time vehicle location data. GPS technology is often employed in modern car tracking systems, however other forms of autonomous vehicle location technologies can also be used. A GPS tracking system comprised of hardware, open-source software, a web server, and an easy-to-manage user interface via a web server with Google Map was presented. The goal of this project is to develop and build a hand-held wireless GPS tracking device that can be tracked remotely via the Internet. There are three parts to this research. A mobile device with GPS and a wireless Internet connection is the first component. Our hardware project, which contains an LCD, GPS, GSM, Arduino Uno, and sensor linked to service, is the second portion.
Design and implementation of vehicle tracking system using gpsAlexander Decker
This document describes the design and implementation of a vehicle tracking system using GPS. The system uses an in-vehicle unit with sensors and a GPS receiver to determine the vehicle's location, and a GSM/GPRS modem to transmit the location data via SMS or TCP/IP to a remote tracking server. The tracking server stores the location information in a database and makes it available through a web interface to authorized users. The system is intended to help curb vehicle theft by allowing owners to track a stolen vehicle and alert authorities.
This document describes a bus tracking system that uses GPS and GSM modules to track the location of buses in real-time and provide that information to users. The system hardware installed on buses uses a GPS module to detect location and a GSM module to send the location data to the cloud. An Android mobile app then allows users to view buses' current locations on a map. The system aims to address issues with public transportation systems like not knowing arrival times or available seats. It provides real-time bus tracking to improve the user experience.
This document describes a vehicle tracking and monitoring system that uses GPS, GSM, and a microcontroller to track vehicles in real-time. It consists of three main parts: a vehicle unit with a GPS/GSM modem that collects location data and sends it to a server, fixed base stations that receive and forward data to a data center, and a database and software that stores location information and allows users to view vehicle locations on digital maps via the internet. The system also includes modules to detect driver drowsiness using eye blink sensors, alert drivers to traffic signal violations and speed limits using RF technology, and trigger alerts if vehicle components are removed to prevent theft. The project report presenting this system is organized into five chapters covering introduction
Design and Implementation for Trucks Tracking System Using GPS Based on Seman...ijtsrd
This paper proposed design and implementation of trucks tracking system using GPS based on semantic web for vehicle tracking in real time. In-vehicle unit and a tracking server is used. The information is transmitted to tracking server using GSM/GPRS modem on GSM network by using SMS or using direct TCP/IP connection with tracking server through GPRS. The received SMS contain longitude and latitude that are used to locate the vehicle on the Google maps. Tracking server also has GSM/GPRS modem that receives vehicle location information via GSM network and stores this information in database. It has been explored that most of the GPS based tracking systems are user friendly, cost effective, reliable and can be easily validated through different experiments and simulations which means that tracking system will send notifications periodically to the main station about the current position of the vehicle . Moreover those tracking notifications (GPS) will be stored in the database for future revising or generating required reports.. The tracking system will be better for cars, trucks, trailers, railways, containers and boats that can be traced using GPS vehicle tracking. Yasser Ahmed Nada"Design and Implementation for Trucks Tracking System Using GPS Based on Semantic Web" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-4 , June 2017, URL: http://www.ijtsrd.com/papers/ijtsrd169.pdf http://www.ijtsrd.com/computer-science/artificial-intelligence/169/design-and-implementation-for-trucks-tracking-system-using-gps-based-on-semantic-web/yasser-ahmed-nada
This document summarizes an anti-theft system project for automobiles that uses an embedded chip, GSM network, and GPS. The system sends a text message to the user whenever the vehicle is accessed. It allows the user to track the vehicle's location on Google Earth. The user can turn off the vehicle remotely if intruders try to start it by blocking the gas line. This provides a safe and efficient way to report emergencies like crashes or engine failures.
vehicle tracking using gsm and gps with arduino and lcdHamed Raza
This document outlines a GPS and GSM-based vehicle tracking system that provides real-time location information. The system uses GPS to obtain location coordinates and sends them via GSM to a caretaker. It consists of an onboard module in the vehicle with an ARM processor, GPS receiver, and GSM transmitter. The GPS receiver receives location coordinates from satellites and sends them to the ARM controller, which then transmits the data to the caretaker using the GSM module. If an accident occurs, the controller will also activate a buzzer. The system provides accurate, real-time vehicle tracking at a low cost and with minimal power consumption.
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Leveraging Smartphone Cameras for Collaborative Road AdvisoriesMuthu Samy
This document discusses leveraging smartphone cameras mounted on windshields for collaborative road advisories. Specifically, it introduces SignalGuru, a service that uses cameras on mounted smartphones to detect and predict traffic signal schedules. This allows applications like Green Light Optimal Speed Advisory (GLOSA) to provide speed recommendations to avoid stops at red lights. SignalGuru was tested in two deployments and achieved accurate predictions within 0.66 seconds for fixed signals and 2.45 seconds for adaptive signals. Using GLOSA, vehicle fuel consumption was reduced by an average of 20.3% when drivers followed the speed recommendations.
Sybian Technologies Pvt Ltd
Final Year Projects & Real Time live Projects
JAVA(All Domains)
DOTNET(All Domains)
ANDROID
EMBEDDED
VLSI
MATLAB
Project Support
Abstract, Diagrams, Review Details, Relevant Materials, Presentation,
Supporting Documents, Software E-Books,
Software Development Standards & Procedure
E-Book, Theory Classes, Lab Working Programs, Project Design & Implementation
24/7 lab session
Final Year Projects For BE,ME,B.Sc,M.Sc,B.Tech,BCA,MCA
PROJECT DOMAIN:
Cloud Computing
Networking
Network Security
PARALLEL AND DISTRIBUTED SYSTEM
Data Mining
Mobile Computing
Service Computing
Software Engineering
Image Processing
Bio Medical / Medical Imaging
Contact Details:
Sybian Technologies Pvt Ltd,
No,33/10 Meenakshi Sundaram Building,
Sivaji Street,
(Near T.nagar Bus Terminus)
T.Nagar,
Chennai-600 017
Ph:044 42070551
Mobile No:9790877889,9003254624,7708845605
Mail Id:sybianprojects@gmail.com,sunbeamvijay@yahoo.com
Cloud Based Autonomous Vehicle NavigationWilliam Smith
This document proposes a cloud-based autonomous vehicle control and navigation system that allows vehicles to cooperatively sense obstacles and avoid traffic. It involves the following:
1. RC cars equipped with sensors and microprocessors that can detect obstacles and communicate with a remote server via cloud.
2. A remote server runs an algorithm to determine the optimal path for each vehicle based on its location and destination, using real-time sensor data from vehicles about obstacles.
3. The system aims to scale to large numbers of autonomous vehicles by distributing sensing and control - vehicles only need to sense their environment and follow path instructions from the remote server.
This document describes an active bus tracking and recommendation system that uses IoT and machine learning. The system includes hardware components like a NodeMCU board and GPS module installed on buses to track their real-time locations. The locations are sent to a cloud-hosted database via an internet connection. A machine learning server analyzes the data to recommend routes and buses to users via an Android app. It generates recommendations using content-based and collaborative filtering based on factors like distance, ratings, and other users' preferences. The system aims to help users make better travel decisions by providing real-time bus tracking and optimized transportation recommendations.
IRJET- Vehicle Detection and Tracking System IoT based: A ReviewIRJET Journal
This document reviews vehicle detection and tracking systems using IoT technologies like Raspberry Pi. It discusses how previous studies have used GPS, GSM, and other sensors to track vehicle location in real-time and identify issues with those approaches. The document proposes a new vehicle tracking system that uses Raspberry Pi connected to a 3G/4G USB dongle to obtain location data and send it to the cloud for representation on a map. This provides real-time tracking while aiming to reduce costs and power consumption compared to other methods.
This document summarizes an article about developing an automatic smart parking system using Internet of Things technology. It describes a system that uses Raspberry Pi and cameras to detect available parking spaces and send that data to a server. Users can then check the server to see availability and get navigated to the nearest open spot, reducing time spent searching and traffic congestion. The system is designed to be low-cost compared to existing sensors-based parking solutions. It outlines the components, including centralized server, Raspberry Pi units with cameras, and user devices to access information.
IRJET- IoT based Vehicle Tracking using GPSIRJET Journal
This document describes a vehicle tracking system using GPS and an Android application. It aims to reduce waiting times for bus students by informing them of bus arrival and departure times in real-time. The system uses GPS devices in buses to track their locations and an Android app to update students. It discusses how embedded systems and GPS work, and reviews previous research on bus tracking systems. The document outlines the system design, including how the Android app integrates maps and utilizes GPS, GSM, and a centralized database. It concludes the proposed system could resolve issues with current manual tracking while improving transportation services.
IRJET- Intelligent Car Parking System commanded by Android ApplicationIRJET Journal
This document proposes an intelligent car parking system using a Raspberry Pi, QR codes, and an Android application. The system aims to automate the parking and unparking of cars to reduce human intervention and the time required for finding empty slots. Users can check parking availability in real-time using the mobile app and reserve slots. Infrared sensors connected to the Raspberry Pi detect occupied/empty slots, and the information is periodically updated to the server database and mobile app. The system is designed to provide more efficient parking operations and enhance the user experience.
The document describes a proposed smart parking system called D-PARK that uses Bluetooth Low Energy (BLE) beacons for high-resolution localization of parking spots. It analyzes sensor and signal data from mobile devices to determine user and vehicle status for parking services. The system achieves 95% accuracy in locating a parking spot within the second guess using BLE beacon signals analyzed at different scanning intervals. It also detects user intent through status sensing and cloud analysis to provide an improved parking experience.
IOT Based Smart Ambulance Monitoring System with Traffic Light ControlIRJET Journal
This document describes an IoT-based smart ambulance monitoring system with traffic light control. The system uses an Arduino UNO, GPS Neo 6M module, and SIM 300A GSM module to send the ambulance's real-time location via text message to the traffic control room and hospital. This allows the traffic control room to clear routes for the ambulance by controlling traffic lights on its path. The goal is to help ambulances reach the hospital faster in emergency situations to save more lives.
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This document presents a comparative analysis of different image denoising techniques using wavelet transforms. It analyzes methods for removing Gaussian noise and speckle noise from degraded images using adaptive wavelet thresholding, including neighbor shrinkage, sure shrinkage, bivariate shrinkage, and block shrinkage. The performance of these techniques is evaluated based on peak signal-to-noise ratio and mean squared error for standard test images contaminated with different types of noise.
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Cloud armor:Supporting Reputation-Based Trust Management for Cloud Servicemuhammed jassim k
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We are providing short term in industrial training, internship and inplant training for Btech/Bsc/MCA/MTech students. Attached is the list of Topics for Mechanical, Automobile and Mechatronics areas.
MD MANIKANDAN-9037291113,04954021113
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At Softroniics we provide job oriented training for freshers in IT sector. We are Pioneers in all leading technologies like Android, Java, .NET, PHP, Python, Embedded Systems, Matlab, NS2, VLSI etc. We are specializiling in technologies like Big Data, Cloud Computing, Internet Of Things (iOT), Data Mining, Networking, Information Security, Image Processing, Mechanical, Automobile automation and many other. We are providing long term and short term internship also.
We are providing short term in industrial training, internship and inplant training for Btech/Bsc/MCA/MTech students. Attached is the list of Topics for Mechanical, Automobile and Mechatronics areas.
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4.weather based smart watering system using soil sensor and gsmmuhammed jassim k
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MD MANIKANDAN-9037291113,04954021113
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At Softroniics we provide job oriented training for freshers in IT sector. We are Pioneers in all leading technologies like Android, Java, .NET, PHP, Python, Embedded Systems, Matlab, NS2, VLSI etc. We are specializiling in technologies like Big Data, Cloud Computing, Internet Of Things (iOT), Data Mining, Networking, Information Security, Image Processing, Mechanical, Automobile automation and many other. We are providing long term and short term internship also.
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Energy-Efficient intelligent street lighting system using traffic-adaptive co...muhammed jassim k
At Softroniics we provide job oriented training for freshers in IT sector. We are Pioneers in all leading technologies like Android, Java, .NET, PHP, Python, Embedded Systems, Matlab, NS2, VLSI etc. We are specializiling in technologies like Big Data, Cloud Computing, Internet Of Things (iOT), Data Mining, Networking, Information Security, Image Processing, Mechanical, Automobile automation and many other. We are providing long term and short term internship also.
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At Softroniics we provide job oriented training for freshers in IT sector. We are Pioneers in all leading technologies like Android, Java, .NET, PHP, Python, Embedded Systems, Matlab, NS2, VLSI etc. We are specializiling in technologies like Big Data, Cloud Computing, Internet Of Things (iOT), Data Mining, Networking, Information Security, Image Processing, Mechanical, Automobile automation and many other. We are providing long term and short term internship also.
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At Softroniics we provide job oriented training for freshers in IT sector. We are Pioneers in all leading technologies like Android, Java, .NET, PHP, Python, Embedded Systems, Matlab, NS2, VLSI etc. We are specializiling in technologies like Big Data, Cloud Computing, Internet Of Things (iOT), Data Mining, Networking, Information Security, Image Processing, Mechanical, Automobile automation and many other. We are providing long term and short term internship also.
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At Softroniics we provide job oriented training for freshers in IT sector. We are Pioneers in all leading technologies like Android, Java, .NET, PHP, Python, Embedded Systems, Matlab, NS2, VLSI etc. We are specializiling in technologies like Big Data, Cloud Computing, Internet Of Things (iOT), Data Mining, Networking, Information Security, Image Processing, Mechanical, Automobile automation and many other. We are providing long term and short term internship also.
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33. dynamic resource allocation using virtual machinesmuhammed jassim k
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An automated dynamic offset for network selection in heterogeneous networksmuhammed jassim k
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ALTERDROID:Differential fault Analysis of Obfuscated Smartphone Malwaremuhammed jassim k
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A location-and Diversity aware News feed system for mobile usermuhammed jassim k
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Hierarchical supervisory control system for pe vs participating in frequency ...muhammed jassim k
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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.
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.
Temple of Asclepius in Thrace. Excavation resultsKrassimira Luka
The temple and the sanctuary around were dedicated to Asklepios Zmidrenus. This name has been known since 1875 when an inscription dedicated to him was discovered in Rome. The inscription is dated in 227 AD and was left by soldiers originating from the city of Philippopolis (modern Plovdiv).
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
Philippine Edukasyong Pantahanan at Pangkabuhayan (EPP) CurriculumMJDuyan
(𝐓𝐋𝐄 𝟏𝟎𝟎) (𝐋𝐞𝐬𝐬𝐨𝐧 𝟏)-𝐏𝐫𝐞𝐥𝐢𝐦𝐬
𝐃𝐢𝐬𝐜𝐮𝐬𝐬 𝐭𝐡𝐞 𝐄𝐏𝐏 𝐂𝐮𝐫𝐫𝐢𝐜𝐮𝐥𝐮𝐦 𝐢𝐧 𝐭𝐡𝐞 𝐏𝐡𝐢𝐥𝐢𝐩𝐩𝐢𝐧𝐞𝐬:
- Understand the goals and objectives of the Edukasyong Pantahanan at Pangkabuhayan (EPP) curriculum, recognizing its importance in fostering practical life skills and values among students. Students will also be able to identify the key components and subjects covered, such as agriculture, home economics, industrial arts, and information and communication technology.
𝐄𝐱𝐩𝐥𝐚𝐢𝐧 𝐭𝐡𝐞 𝐍𝐚𝐭𝐮𝐫𝐞 𝐚𝐧𝐝 𝐒𝐜𝐨𝐩𝐞 𝐨𝐟 𝐚𝐧 𝐄𝐧𝐭𝐫𝐞𝐩𝐫𝐞𝐧𝐞𝐮𝐫:
-Define entrepreneurship, distinguishing it from general business activities by emphasizing its focus on innovation, risk-taking, and value creation. Students will describe the characteristics and traits of successful entrepreneurs, including their roles and responsibilities, and discuss the broader economic and social impacts of entrepreneurial activities on both local and global scales.
Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
"Learn about all the ways Walmart supports nonprofit organizations.
You will hear from Liz Willett, the Head of Nonprofits, and hear about what Walmart is doing to help nonprofits, including Walmart Business and Spark Good. Walmart Business+ is a new offer for nonprofits that offers discounts and also streamlines nonprofits order and expense tracking, saving time and money.
The webinar may also give some examples on how nonprofits can best leverage Walmart Business+.
The event will cover the following::
Walmart Business + (https://business.walmart.com/plus) is a new shopping experience for nonprofits, schools, and local business customers that connects an exclusive online shopping experience to stores. Benefits include free delivery and shipping, a 'Spend Analytics” feature, special discounts, deals and tax-exempt shopping.
Special TechSoup offer for a free 180 days membership, and up to $150 in discounts on eligible orders.
Spark Good (walmart.com/sparkgood) is a charitable platform that enables nonprofits to receive donations directly from customers and associates.
Answers about how you can do more with Walmart!"
Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
1. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
RASPBERRY PI and ARM based
PROJECTS
1. An emergency rescue dispatch system for road vehicles for instant notification of
road accidents and post crash analysis.
Our research has been targeted towards building an integrated system for emergency
rescue services in the event of a road accident. The project focuses on building an
infrastructure which vehicle safety authorities can implement to enhance the reporting of
vehicle crashes, provide post-crash analysis using motion sensors, record of the event in
images and reduce the time it takes for emergency rescueto arrive at the crash location. We
have achieved this using existing cellular network infrastructure already in place and also using
GPS to pinpoint the exact location of the crash and send that data to anemergencyrescue
authority (such as Hospital, Fire Department, Police) using GSM text service. Our target was to
build a low cost device that everyone can afford and use in their vehicles.
2. Design and development of android mobile based bus tracking system.
Tracking of organization buses while moving on highway is a crucial task. A person
patiently waiting for the bus may want to enquire about the position of current location of
the bus. Phone discussion is not always possible due to traffic disturbances. Further it
involves variant costs due to the calls and message service over phone and the person in
the busmay get annoyed if he gets multiple calls from people boarding that bus.Mobile
based Bus Tracking System provides a solution to this problem which helps anyone to
retrieve the location of the bus without calling or disturbing the person travelling in the
2. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
bus. The people boarding the busand the coordinators of the bus should own an android
driven mobilephone with internet connectivity. The Global Positioning System (GPS)
supports in area following with backing of Global Standard for Mobile(GSM) in cellular
telephone to report transport area information again to the servers. Continuously, this
shows where transports are on a guide and evaluation the entry time and separation with
reference to holding up stop by utilizing propelled gimmicks of Internet. The function of
proposedsystem is to provide an economical, flexible and reliable system for bustracking.
3. GPS based real time Emergency Aid System with analysis of latency in satellite
communication
Around 4.2 million people commute by vehicles every day. The breakdowns and accidents
augment the traffic woes, adding to the misery of these commuters. In order to obtain
control over these situations, immediate assistance should be extended. This paper
proposes an `Emergency Aid System (EAS) and Remote tracking of Vehicles', which ensures
prompt assistance in case of unfortunate events like accidents and breakdowns. This is
possible by sending an SMS to the nearest service aid station via 2G technology. The
systemimplements latest technology of GSM modem with a sufficient baud rate and a GPS
antenna that continuously tracks the coordinates of the vehicle. The complete analysis of the
system, along with the study of timetaken (latency) in exchanging the data between the GPS
antenna andSatellite is studied and the results are presented.
4. Vehicle location finder using Global position system and Global System for Mobile
Each year, the number of stolen vehicle is on the rise. Usually, to prevent theft, a physical
type countermeasure is used such as padlock, disk break lock and other more which is a
preventive action but it is not enough safe. The objective of this study is to create a
controllable systemthat can display the location of vehicle using Global position system
(GPS) to pin point the location and Global System for Mobile (GSM) as a mean for
3. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
communicating with the vehicle for ease of finding after a theft attempt. The system is made
to test the accuracy of the location that is send to the user when the vehicle is in motion and
stationary in the city and suburb. The system is made by combining a micro controller with
GPS and GSM, then comparing it with other similar device available in the market like Garmin
and a reference website to find the radius of error. The study of proposed device begins by
studying IEEE journal about alternative product and the vehicle itself. The hardware and
program development is done by research and trial and error as the controller do not
interact with both module at the same time, after successfully programming both module, it
is combined into a single program with addition of interrupt program. The experiment is
done in three set of tests so that the system accuracy can be determine when stationary and
in motion on vehicle, output controlling is the test to determine if the controller can be made
into anti-theft system. The result of the test concludes that the system can provide standard
GPS coordinate when requested via Short Message Service (SMS). The system can also
beused to control an actuator
5. Real time metropolitan bus positioning system design using GPS and GSM
The Real Time Bus Monitoring and Passenger Information bus tracking device is a
standalone system designed to display the real-time locations of the buses in metropolitan
city. This system will enable the tracking device to obtain GPS data of the bus locations, which
will then be transferred to a centralized control unit by using GSM and then transmitted to a
bus stop and displayed on the GLCD as per the passenger's request. The existing systems find it
inconvenient to reschedule their times in events of a vehicle break down and congestion of
roads. This causes uncertainty to passengers about the arrival time of buses. But the proposed
real time bus monitoring system can overcome these disadvantages of the already existing
systems.
4. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
6. ARM11 based RFID access control system with Live Image Capture
7. Optical Flow Motion Detection on Raspberry Pi
This paper presents the implementation of Optical Flow Motion Detection algorithm on
Raspberry Pi.The Lucas- Kanade method was chosen for the implementation. The
algorithm works by comparing two successive image frames. To find out a displaced
object, the algorithm tries to guess the direction of displaced object rather than scanning
the second image for the matching pixel. This can be done by solving for the optical flow
vector by assuming that the vector will be similar to a small neighbourhood surrounding
the pixel. The algorithm was simulated using Python OpenCV. The implementation of
Lucas- Kanade algorithm was successfully done on Raspberry Pi.
8. The design and implementation of circuit breaker on-line monitoring device
This paper designed a circuit breaker on-line monitoring system based on S3C2440A core
controller. With the high speed and high precision extended A/D, this device can sample
signals on real time. It is fast, easy networking and convenient for remote data transmission by
Ethernet. The embedded linux operating system, which can be cut arbitrarily and easy to
translate, is used in this device. This monitoring system has complete functions, and has the
advantages of user management and real-time multitasking. Tests show that the system can
sample quickly and accurately, and transmit data fast and safely. System's anti-interference
ability is strong, performance is stabilized and the bit error rate is low. So, it is better than the
traditional 485 communication way
9. Raspberry Pi based interactive home automation system through E-mail
Automation is becoming more and more popular day by day due to its numerous
advantages. This can be achieved by local networking or by remote control. This paper
5. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
aims at designing a basic home automation application on Raspberry Pi through reading
the subject of E-mail and the algorithm for the same has been developed in python
environment which is the default programming environment provided by Raspberry Pi.
Results show the efficient implementation of proposed algorithm for home automation.
LEDs were used to indicate the switching action.
10. Design of a solar tracking system for renewable energy
In this paper, a solar tracking system for renewable energy is designedand built to collect
free energy from the sun, store it in the battery, and convert this energy to alternating
current (AC). This makes the energyusable in standard-sized homes as a supplemental
source of power or as an independent power source. The system is designed to respond to
its environment in the shortest amount of time. Any source of error at both the software
and the hardware level is eliminated, or at least controlled. The system is tested for
realtime responsiveness, reliability, stability, and safety. The system is designed to be
stable while it is operating. It is alsodesigned to be resistant to weather, temperature and
minor mechanical stresses. Furthermore, the system is fail-safe; it can recover from
failures or at least indicate that it is in that condition
11. A plug-n-play internet enabled platform for real time image processing
A plug-n-play internet enabled platform for real time simulation of imageprocessing
algorithms (like CNN) is demonstrated on the Bit by Bitplatform. The prototyping platform
uses Raspberry Pi, thereby enablingcollaboration and sharing of the image processing
simulation experiments and results over the internet. These algorithms can be applied to the
realtime captured images and results are displayed instantly over the internetor via email
6. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
12. Real Time Operating System on embedded linux with ultrasonic sensor for mobile
robot
This research goal is to analyze Real Time Operating System (RTOS) performance on
Single Board Computer for wheeled mobile robot. RTOS have better system response than
General Purpose Operating System(GPOS), this system response is important for mobile
robot, for examplemobile robot should stop as soon as possible when the sensor detect the
wall. RTOS system analysis on SBC covers several points such as, distance measurement
precision resulted by the sensor, the value of latency resulted, and data renewal process due
to system interaction on the environment surrounding by ultrasonic sensor. Achieved results
show RTOS with Qt-based program and using multithread is well implemented on the SBC,
proven by the robot's ability to respond less than 1 second. This result can be accounted as
soft real time system. Cyclictest results for proving RTOS and GPOS (General Purpose
Operating System) performance shows average latency difference between both systemsare
up to 300us where RTOS are only 9 us.
13. Smart home automation system for energy efficient housing
This paper presents a concept and implementation of modern smartmonitoring and
control system for building automatization. The system is designed to enable significant
reduction of energy consumption and carbon footprint by increasing the energy efficiency
of the building under control. The system consists of a Linux-based remotely accessible
main embedded control unit, a custom designed programmable logic controller named
littlePLC, and a propriatery low-power Wireless Sensor Network (WSN). The energy flow
is optimized by using a Model Predictive Control (MPC) algorithm that runs on the main
control unit. The main control unit communicates with littlePLC, which serves as an
interface that controls the parameters and state of HVAC systems in the building. The
7. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
feedback information for MPC is gathered by means of the WSN, which consists of various
sensor node types, such as temperature, air pressure, humidity, VOC and CO2. The WSN
nodes are connected in a star type network topology, with a communication HUB connected to
the main control unit. The information gathered by WSN are used in the MPC algorithm in
order to calculate and estimate the requirements for heat corrections, with respect to
ventilation and weather predictions.
14. Liquid level control of Coca-Cola bottles using an automated system
This paper describes the automation process of filling level control forCoca-Cola bottles,
through digital image processing. To perform this, anautomated system was implemented on
ODroidX2, on the Ubuntu distribution, Linux. In addition, the creation of a prototype that
simulates the physical conditions of the plant, located in the city of Bucaramanga. The
automated system has embedded software developed in python, which determines whether
the bottle has the right level of liquid. If thelevel is incorrect the system automatically rejects
the bottle
15. Design of tracked robot with remote control for surveillance
For specific purpose, tracked robot that can be controlled remotely and able to acquire
images from environment is very important, for example in rescuing disaster victims. We
propose architecture for Raspberry pi and AVR-based mobile robot that can be controlled
by low cost remotecontroller Integrated Circuits(IC) and able to avoid obstacles using
ultrasonic distance sensor. This prototype also can be used for education and research in
the university. We evaluate the performance of the robotin terms of the distance and the
capability to deliver video streaming from the output raspberry pi and 2.4 GHz Video
transmitter.
8. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
16. Design of Greenhouse Temperature Detection System Based on Linear Offset
Interference
The agricultural industry continues to expand to a large scale, and the number of
greenhouse is increasing. In order to improve the production, the control of the
greenhouse is extremely important. The greenhouseenvironment system is complex, and
the mutual coupling between the various environmental factors is surviving. Therefore,
the conventionaltemperature detection and control method is difficult to provide optimal
environmental temperature for vegetables and other crops. Aimed to detect the greenhouse
temperature, and provide a basis for effective and accurate control of greenhouse
temperature, an effective and improvedgreenhouse temperature detection system is designed
based on linearoffset interference principle. The detected interference fringes are collected in
video. The collected images are loaded in the embeddedsystem through the data and image
processing technology. The peripheral support circuit of embedded core processor is designed.
Thelinear model of fringe travel and the temperature is established based onlinear offset
interference. The image acquisition is processed for theinterferencefringe by CCD camera, and
the images are transmitted in the core controller. The core controller takes the ARM9
embedded chip S3C2410 as the processing chip. It is has better advantages of parallel
processing and real-time performance than the traditional DS18B20temperature controller,
which meets to the temperature control requirements of greenhouse. The fringe travel value
is obtained with processing on thermal image. And the temperature value of thegreenhouse is
obtained precisely. Experiment is taken on 10 different test points, and experiment results
show that the accuracy is maintained in the range of 0.02, the system and temperature
detection method has prospective application value in agricultural production and
greenhousecultivation
9. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
17. Design and implementation of a low-cost embedded Linux gateway for smart home
health monitoring
Many wireless sensor network applications require a gateway device to interface with
services running on the Internet. Because of the software complexity involved in this
device, it is often realized using a real-time operating system running on an application
processor. Most systems burden the user with developing the protocol handling and
device configuration and management inside the application. In this paper, we present the
Angelos Gateway - a turnkey, low-cost, Linux-powered WSNgateway that provides a socket-
based environment for rapid network-enabled application development. Experimental results
demonstrate
that the proposed device is capable of high-throughput packet I/O confirming the efficacy of
the proposed implementation.
18. Face identification implementation in a standalone embedded system
In this paper is described an embedded system for face identification. The system, running
on FPGA, is built around LEON3 processor and consists of several IP (Intellectual
Property) modules designed as AMBA bus peripherals. The face detection is accelerated
with the help of a hardware module while the face recognition is entirely executed in
software. The face detection hardware accelerator module is reconfigurable and can share
its internal resources (memory, multiplier, integer square root unit) with the LEON3
processor. The system has been designed on the criteria of resources optimization, low
power consumption and improved operation speed
10. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
19. Android based smart home system with control via Bluetooth and internet
connectivity
Automation plays an important role in today's human life and people's life is gradually
changing with smart living due to modern technology development and Android
Smartphone. This paper presents a low-costSmart Living System, which
uses Android based User Interface for controlof home appliances. Connection to the smart
living system can be made from the designed app via Bluetooth or internet connection. It
also integrates home security and alert system.
20. Automated electric meter reading and monitoring system using zigbee-integrated
raspberry Pi single board computer via Modbus
In recent years, automated meter reading systems (AMR) are being utilized in most
developed countries like the United States and other European countries. The advantages
these electric metering system offers make it a more accurate measuring device than the
conventional electro mechanical meter reading system being used in developing countries
like the Philippines. AMRs capacity to automatically transmit data realtime increases the
reliability of this metering system, unlike electromechanical meters which occasionally
make use of previous readings as a basis of the consumer's current billing. It also puts
consumers at a disadvantage as the accuracy of power consumption readings is being
compromised. The integration of ZigBee protocol in singleboard computer Raspberry Pi,
through the programming language Python, has successfully facilitated the reading and
wireless transmission of the voltage or power consumption of the user. Through Python,
the raw data transmitted to the coordinator ZigBee is then converted to a CSV file, the data
type required by the MySQL database for the received data to be uploaded in the website
11. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
21. Using of Raspberry Pi for data acquisition from biochemical analyzers
A large number of analyses performed in a biochemical laboratory requires that results of
these analyses are automatically acquired from analyzers which can be of different types
and produced by various producers. Automatic data acquisition prevents errors which are
possible if results are manually transcribed into reports for patients. Beside this, acquired
results are saved in database from where they are available to be used in electronic health
record (EHR). Above requirement resulted in development of a solution for data
acquisition from heterogeneous laboratory analyzers. Here we present the solution which
is based on minicomputer Raspberry Pi model B, Raspbian OS, Mono Framework and a
.NET Framework 4.0 console application written in C# programming language. Proposed
solution is tightly connected with medical information system MEDIS.NET and with
laboratory information system LabIS. In order to test whole concept we developed a
laboratory simulator which completely implements protocol for biochemical analyzers.
The emphasis is on an inexpensive solution which connects a large number of
heterogeneous analyzers at a biochemical laboratory
22. Bluetooth communication using a touch screen interface with the Raspberry Pi
The Raspberry Pi is a low cost single-board computer which has recently become very
popular. In this paper we showcase our attempt at building a low cost stand-alone device
which transmits data using the RaspberryPi with Bluetooth and has a resistive touch screen
display providing a user interface. The Raspberry Pi is controlled by a modified version of
Debian Linux optimized for the ARM architecture. The display contains a graphical user
interface which provides various fields for data entry via an onscreen keyboard. Also, various
fields were provided to display data obtained from a remote host. 23. Development of Fire
alarm system using Raspberry Pi and Arduino Uno
12. SOFTRONIICS
Embedded PROJECT ABSTRACTS
(Automotive, Biomedical, Robotics, Biometric, Eco- Friendly,Biomedical,GSM,GPRS,BLUETOOTH,ZIGBEE)
SOFTRONIICS WWW.SOFTRONIICS.IN
An iso certified company CALL: 9037291113
CALICUT || PALAKKAD || COIMBATORE 04954021113
The proposed Fire alarm system is a real-time monitoring system that detects the
presence of smoke in the air due to fire and captures images via a camera installed inside a
room when a fire occurs. The embeddedsystems used to develop his fire alarm system are
Raspberry Pi andArduino Uno. The key feature of the system is the ability to remotely send an
alert when a fire is detected. When the presence of smoke is detected, the system will display
an image of the room state in a webpage. The system will need the user confirmation to report
the event to the Firefighter using Short Message Service (SMS). The advantage ofusing this
system is it will reduce the possibility of false alert reported to the Firefighter. The camera will
only capture an image, so this system will consume a little storage and power.
24. GPS data logger using Linux single board computer
25. Number plate recognition and automatic gate opening system using Raspberry Pi
26. Image processing based Vehicle Number plate recognition and alerting system
27. Design and development of online weather station and data upload to cloud in
internet of things.
28. Web-browser controller robot using the Raspberry pi With this project, we
demonstrate how to control a robot directly from the browser of any computer,
tablet, or phone.
29. Twitter weather station Raspberry Pi weather and time station that Tweets the
temperature and the time, using Python.
30. Raspberry Pi based Home Automation.
31. Sixth Sense Technology for Home automation.