The document describes a proposed bicycle sharing system. Some key points:
- The system allows users to borrow bicycles from docking stations located around the city and return them to any station.
- Bicycles are unlocked from the dock using a smartphone app which requires payment information. GPS tracks bicycle locations.
- The proposed system uses QR codes on bicycle locks to unlock/lock bikes at docking stations. A servo motor is controlled by the QR code scan.
- Users can find the nearest stations and available bikes using the mobile app, which also provides ride details like time and cost.
The document describes a smart parking system that uses IoT sensors in parking spots to detect availability in real-time and send this information to a mobile app. This allows drivers to easily find empty spots instead of driving around searching. The system aims to reduce traffic and pollution while improving the urban parking experience. It outlines the goals of more efficient parking, reduced congestion and time savings for drivers. The document also discusses components, challenges, case studies and future developments of smart parking systems.
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 proposed smart parking system that uses sensors and a mobile app to monitor parking space availability and allow users to reserve spaces. The system would help reduce traffic and congestion by letting drivers know where parking is available. Sensors attached to parking spaces would monitor occupancy and transmit that data through a network to the app. Users could search for available spaces near their destination, reserve a space, and pay for it through the app. The system aims to make parking easier and more efficient for drivers in urban areas.
IRJET- IoT based Traffic Congestion Monitoring and Management SystemIRJET Journal
This document presents a proposed IOT-based traffic congestion monitoring and management system that uses RFID technology. The system aims to provide clear paths (green waves) for emergency vehicles by turning traffic lights green on their route. It can also track stolen vehicles when they pass through traffic lights. The system uses RFID tags on vehicles to identify vehicle type and detect stolen vehicles. Sensors monitor traffic levels and an IOT unit communicates with a control unit to adjust traffic light patterns in real-time based on vehicle density. This is intended to reduce congestion and response times for emergency vehicles. The proposed system is evaluated as being economically effective for traffic management.
1) The document proposes a wireless solution for license plate recognition using E-Lins' H685 industrial 4G/5G cellular router.
2) The solution utilizes the H685 router and wireless cameras to detect vehicle information and license plate data at entrances and exits, upload the data to the router, and send an integrated data package to the vehicle management center.
3) This allows vehicle managers to monitor and track vehicles in real-time from anywhere for analysis and automated vehicle information classification, storage and management to improve accuracy and efficiency.
Urban road traffic safety is an important branch of urban public traffic safety. The capturing system based on 5G router solves the networking difficulties.
IRJET- Intelligent Transportation System for Disabled PeoplesIRJET Journal
This document discusses the development of an intelligent transportation system to improve mobility for disabled individuals. It proposes a system using RFID, ultrasonic sensors, and a traffic signal setup controlled by a microcontroller. When a disabled person in a wheelchair comes near an intersection, their RFID tag will trigger the traffic light to change to red, stopping traffic and allowing them to cross safely. The system aims to address transportation challenges faced by disabled individuals and help them travel more independently. It analyzes needs of disabled travelers and presents a prototype model and working principles of the proposed intelligent transportation solution.
The document describes a proposed bicycle sharing system. Some key points:
- The system allows users to borrow bicycles from docking stations located around the city and return them to any station.
- Bicycles are unlocked from the dock using a smartphone app which requires payment information. GPS tracks bicycle locations.
- The proposed system uses QR codes on bicycle locks to unlock/lock bikes at docking stations. A servo motor is controlled by the QR code scan.
- Users can find the nearest stations and available bikes using the mobile app, which also provides ride details like time and cost.
The document describes a smart parking system that uses IoT sensors in parking spots to detect availability in real-time and send this information to a mobile app. This allows drivers to easily find empty spots instead of driving around searching. The system aims to reduce traffic and pollution while improving the urban parking experience. It outlines the goals of more efficient parking, reduced congestion and time savings for drivers. The document also discusses components, challenges, case studies and future developments of smart parking systems.
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 proposed smart parking system that uses sensors and a mobile app to monitor parking space availability and allow users to reserve spaces. The system would help reduce traffic and congestion by letting drivers know where parking is available. Sensors attached to parking spaces would monitor occupancy and transmit that data through a network to the app. Users could search for available spaces near their destination, reserve a space, and pay for it through the app. The system aims to make parking easier and more efficient for drivers in urban areas.
IRJET- IoT based Traffic Congestion Monitoring and Management SystemIRJET Journal
This document presents a proposed IOT-based traffic congestion monitoring and management system that uses RFID technology. The system aims to provide clear paths (green waves) for emergency vehicles by turning traffic lights green on their route. It can also track stolen vehicles when they pass through traffic lights. The system uses RFID tags on vehicles to identify vehicle type and detect stolen vehicles. Sensors monitor traffic levels and an IOT unit communicates with a control unit to adjust traffic light patterns in real-time based on vehicle density. This is intended to reduce congestion and response times for emergency vehicles. The proposed system is evaluated as being economically effective for traffic management.
1) The document proposes a wireless solution for license plate recognition using E-Lins' H685 industrial 4G/5G cellular router.
2) The solution utilizes the H685 router and wireless cameras to detect vehicle information and license plate data at entrances and exits, upload the data to the router, and send an integrated data package to the vehicle management center.
3) This allows vehicle managers to monitor and track vehicles in real-time from anywhere for analysis and automated vehicle information classification, storage and management to improve accuracy and efficiency.
Urban road traffic safety is an important branch of urban public traffic safety. The capturing system based on 5G router solves the networking difficulties.
IRJET- Intelligent Transportation System for Disabled PeoplesIRJET Journal
This document discusses the development of an intelligent transportation system to improve mobility for disabled individuals. It proposes a system using RFID, ultrasonic sensors, and a traffic signal setup controlled by a microcontroller. When a disabled person in a wheelchair comes near an intersection, their RFID tag will trigger the traffic light to change to red, stopping traffic and allowing them to cross safely. The system aims to address transportation challenges faced by disabled individuals and help them travel more independently. It analyzes needs of disabled travelers and presents a prototype model and working principles of the proposed intelligent transportation solution.
IRJET- Intelligent Transportation System for Disabled PeoplesIRJET Journal
This document discusses the development of an intelligent transportation system to improve mobility for disabled individuals. It proposes a system using RFID, ultrasonic sensors, and a microcontroller embedded in a robotic wheelchair model. The system would automatically detect the wheelchair approaching an intersection and change the traffic signal to red, allowing the disabled person to cross safely. It analyzes pedestrian accident data to motivate the need for such a system. The goal is to facilitate independent travel for disabled and elderly individuals through application of new technologies.
IoT for wheel alignment monitoring systemIJECEIAES
A great deal of previous research into wheel alignment has focused on techniques of the alignment, which involve big, bulky and high cost to maintain. Even though several approaches are required, the works are tedious and only performed in spacious area and trained mechanics. IoT is the alternatives due to the evolution of smartphone with numerous sensors to support and assist the research and development for IoT applications in vehicles. In this work, smaller and portable wheel alignment monitoring system is introduced by using communication protocol between sensors, microcontroller and mobile phone application. Thus, graphical user interface (GUI) is utilized to the system via wireless communication technology using TCP/IP Communication Protocol. The system has been tested to suit the functioning architecture system for the wheel alignment to provide the user awareness on early detection of wheel misalignment. In addition, the application has been successfully integrated with Android mobile application via TCP/IP communication protocol and view the results in smart phone in real-time.
The document describes the design of a bike sharing system using an Android application. It includes information on the motivation, problem definition, literature survey, software requirements specification, system design, and results. The system allows users to register through the app, book bikes by entering their location and destination, and view the shortest route and real-time location tracking. It is intended to make bike sharing more convenient and reduce dependency on taxis for short trips. The design covers modules, use cases, database structure, and screenshots of the app interface.
The internet of things (IoT) is a steadily growing billion-dollar market largely driven by companies undergoing digitization for greater efficiency and transparency, as well as by 5G and emerging applications like smart cities. Satellite’s inherent capabilities — such as its ability to reach remote areas, its ability to scale, to extend coverage for other providers — make it an essential part of a hybrid network needed to support an interoperable IoT system.
A study of remotely booking slot for vehicle using Internet of Things IJECEIAES
Internet Of Things (IoT) is a continually growing area which aids us to unite diverse objects. The proposed system exhibits the universal notion of utilizing cloud-based intellectual automotive car parking facilities in smart cities as a notable implementation of the IoT. The RFID technology is used in this system along with suitable IoT protocols to evade human interference, which reduces the cost. Information is bartered using readers and tags. Open Service Gateways can be effectively used for this module. This system established on the consequence of IoT and the purposes are solving the chaos, bewilderment, and extensive backlogs in parking spaces. The proposed work aims to solve these problems and offer car drivers a hassle-free and instantaneous car parking experience. A Raspberry Pi would act as a mini-computer in our system. A suitable smallest path methodology would be cast-off to obtain the shortest distance between the user and every car park in the system. Hence, the pausing time of the user is decreased. This work furthermore includes the practice of remotely booking of a slot with the collaboration of android application exercising smartphones for the communication between the Smart Parking system and the user.
IRJET - A Design Thinking based Smart Parking System for Vehicle Parking ...IRJET Journal
This document proposes an IoT-based smart parking system that uses various sensors and communication technologies. IR sensors would detect whether a parking space is occupied and send that data via GSM/GPRS modules to a microcontroller. The availability of free spaces and their locations would then be communicated to users through a mobile application. This would help both users in finding parking more efficiently and owners in managing parking resources better. The system aims to address common parking issues in cities by providing real-time data on spaces and guiding users to available spots using an online interface.
All throughout APAC the landscape is changing and presenting a need for smart mobility. Read more in detail to learn how businesses can seize opportunities with the right IT strategy and the right partnership.
Flutter Mobile Application for Car ParkingIRJET Journal
- The document discusses the development of a Flutter mobile application for car parking reservations.
- It aims to help users easily view available parking spots and book reservations, resolving issues of finding parking in congested areas.
- The application allows users to see various parking locations, check availability, and reserve spots for a specified time period. It also provides additional user functions.
ARDUINO BASED CAR PARKING SYSTEM USING WOKWI SIMULATORIRJET Journal
The document describes a proposed Arduino-based smart parking system using IoT technologies. It would use ultrasonic sensors connected to Arduino microcontrollers to detect available parking spaces. The Arduino devices would send this parking availability data via wireless communication to a central server. Users could access real-time parking space information through a mobile app or web interface. The system aims to improve parking management and efficiency by optimizing space usage and reducing congestion compared to traditional methods.
fINAL SMART CITYseamless communication and collaboration between citizens and...sol zem
The document discusses goals and implementation of smart city initiatives, including smart governance, digitalization, security, and environmental monitoring. Key elements are upgrading internet infrastructure, establishing digital systems for documents and inter-office communication, deploying CCTV cameras on smart poles to improve safety and traffic, and using data analytics to optimize city services and engage citizens. Challenges include ensuring qualified human resources, financial resources, and coordination across institutions to address the complexity of smart city projects.
Informatics and infotainment system for Smart E-Bike using Raspberry PiIRJET Journal
This document describes the development of an informatics and infotainment system for a smart electric bike using a Raspberry Pi. Sensors like a speedometer, GPS, accelerometer, and gyroscope are used to collect riding data like speed, location, and lean angles. The data is logged to a database and transmitted to a web server via WiFi. A dashboard display is created using HTML/CSS to show the rider metrics in real-time. The collected data can be analyzed later to view speed over time, path traveled, and vehicle motion. The system aims to integrate vehicle data collection and processing for intelligent transportation systems development.
The Smart Parking Solutions makes use of sensing devices such as vehicle counting equipment, cameras, sensors installed in pavements, etc. to discover occupancy of the parking lot. The strong sensing systems are being built to examine and transfer the data to the database in real-time.
The system increases the accessibility of parking with the use of sensors. The sensors placed in the pavement of the selected parking spaces to recognize if a parking slot is occupied or vacant.
Sensors communicate with the gateway and that data will be pushed to the cloud. Sensors then immediately show the availability of parking slots. This can be viewed on the Mobile APP or the sensors placed on the parking slots so drives can easily identify the space.
Faststream’s Intelligent Parking Solutions use the full potential of digitalization: smart sensors, intelligent software, and clever analysis of the available data. The system eliminates unnecessary parking-related traffic and ensures optimum utilization of urban parking facilities. This saves time, reduces the environmental impact of traffic, and improves the quality of life in the city.
A REVIEW ON IOT IN TRANSPORTATION SECTORNancy Ideker
This document provides a review of how Internet of Things (IoT) technology can be applied in the transportation sector. It discusses the opportunities that IoT presents to address complex issues in transportation systems. The key aspects covered include:
1. The architecture of an IoT system for transportation, which consists of 5 layers - application, sensing, communication, service, and infrastructure layers.
2. Examples of IoT applications in transportation like logistics, toll payment systems, vehicle tracking, supply chain management, and smart vehicle technologies.
3. The benefits of implementing IoT in transportation include optimized routes, demand-based services, improved public safety, and reduced fuel costs through efficiency.
The document describes a proposed smart car parking system using IoT technologies. Sensors in parking lots would monitor available spaces and cameras would automatically recognize license plates during registration. Parking data would be collected and analyzed to inform drivers of space availability and car status. The system aims to optimize parking utilization, increase safety, and decrease management costs. It could be implemented using a mix of local RF mesh networks and cellular connectivity. Potential business models for companies providing the IoT solution include revenue sharing, product-as-a-service, and transactional models. Key challenges involve ensuring reliable sensor and camera function amid interference and protecting privacy and data.
TADSummit, Simfony: Building a Global IoT Service Provider using Programmable...Alan Quayle
Simfony: Building a Global IoT Service Provider using Programmable Telecoms
Stefan Anghel, Product Architect, Simfony Mobile
Where does IoT make sense? Cutting through the hype to real business and real solutions.
Review of the IoT Landscape, understanding the enablers and ecosystem.
Simfony's IoT Platform: an M2M focused MVNO. Delivering solutions to business problems.
The Future of IoT service providers.
IRJET- IoT based Multi Sensory System to Enhance Railway SafetyIRJET Journal
This document summarizes a research paper on an IoT-based multisensory system to enhance railway safety. The proposed system uses infrared and ultrasonic sensors placed on opposite sides of railway tracks to establish optical and acoustic links. When a train arrives, its details are checked against a database. The system then measures parameters like rainfall, temperature, fog, humidity and route vibrations. It calculates the allowable speed for the train based on these parameters and sends it to the loco pilot's display. The information is also sent to the database and to the next arriving train. This multisensory system can enhance railway safety by monitoring conditions and providing real-time speed guidance to loco pilots.
management system live gps tracking system.pptx21ccu104
The document proposes a car management and live GPS tracking system that overcomes limitations of existing systems. The proposed system provides real-time vehicle tracking through integration of GPS, GSM, and IoT technologies. It allows users to track location, fuel entries, services, and repairs online. Real-time monitoring, enhanced security like geofencing, integration with other systems, and detailed reports provide benefits over manual and standalone tracking methods. The system requires hardware including an Intel i3 processor and 8GB RAM as well as software like MySQL, Apache, and front-end technologies.
IOT in transportation can improve passenger experiences, safety, and efficiency. IOT connects physical devices like vehicles, infrastructure, and mobile devices to the internet. This allows transportation systems to gather more data which can transform industries by improving traveler experiences, smart road management, parking, safety monitoring, and more. Key applications of IOT in transportation include fleet management, public transit management, smart inventory, asset utilization tracking, and geo-fencing. IOT connectivity in vehicles and infrastructure will change transportation by allowing vehicle-to-vehicle communication and connection to infrastructure for improved navigation, remote access features, and traffic optimization.
IRJET- Intelligent Transportation System for Disabled PeoplesIRJET Journal
This document discusses the development of an intelligent transportation system to improve mobility for disabled individuals. It proposes a system using RFID, ultrasonic sensors, and a microcontroller embedded in a robotic wheelchair model. The system would automatically detect the wheelchair approaching an intersection and change the traffic signal to red, allowing the disabled person to cross safely. It analyzes pedestrian accident data to motivate the need for such a system. The goal is to facilitate independent travel for disabled and elderly individuals through application of new technologies.
IoT for wheel alignment monitoring systemIJECEIAES
A great deal of previous research into wheel alignment has focused on techniques of the alignment, which involve big, bulky and high cost to maintain. Even though several approaches are required, the works are tedious and only performed in spacious area and trained mechanics. IoT is the alternatives due to the evolution of smartphone with numerous sensors to support and assist the research and development for IoT applications in vehicles. In this work, smaller and portable wheel alignment monitoring system is introduced by using communication protocol between sensors, microcontroller and mobile phone application. Thus, graphical user interface (GUI) is utilized to the system via wireless communication technology using TCP/IP Communication Protocol. The system has been tested to suit the functioning architecture system for the wheel alignment to provide the user awareness on early detection of wheel misalignment. In addition, the application has been successfully integrated with Android mobile application via TCP/IP communication protocol and view the results in smart phone in real-time.
The document describes the design of a bike sharing system using an Android application. It includes information on the motivation, problem definition, literature survey, software requirements specification, system design, and results. The system allows users to register through the app, book bikes by entering their location and destination, and view the shortest route and real-time location tracking. It is intended to make bike sharing more convenient and reduce dependency on taxis for short trips. The design covers modules, use cases, database structure, and screenshots of the app interface.
The internet of things (IoT) is a steadily growing billion-dollar market largely driven by companies undergoing digitization for greater efficiency and transparency, as well as by 5G and emerging applications like smart cities. Satellite’s inherent capabilities — such as its ability to reach remote areas, its ability to scale, to extend coverage for other providers — make it an essential part of a hybrid network needed to support an interoperable IoT system.
A study of remotely booking slot for vehicle using Internet of Things IJECEIAES
Internet Of Things (IoT) is a continually growing area which aids us to unite diverse objects. The proposed system exhibits the universal notion of utilizing cloud-based intellectual automotive car parking facilities in smart cities as a notable implementation of the IoT. The RFID technology is used in this system along with suitable IoT protocols to evade human interference, which reduces the cost. Information is bartered using readers and tags. Open Service Gateways can be effectively used for this module. This system established on the consequence of IoT and the purposes are solving the chaos, bewilderment, and extensive backlogs in parking spaces. The proposed work aims to solve these problems and offer car drivers a hassle-free and instantaneous car parking experience. A Raspberry Pi would act as a mini-computer in our system. A suitable smallest path methodology would be cast-off to obtain the shortest distance between the user and every car park in the system. Hence, the pausing time of the user is decreased. This work furthermore includes the practice of remotely booking of a slot with the collaboration of android application exercising smartphones for the communication between the Smart Parking system and the user.
IRJET - A Design Thinking based Smart Parking System for Vehicle Parking ...IRJET Journal
This document proposes an IoT-based smart parking system that uses various sensors and communication technologies. IR sensors would detect whether a parking space is occupied and send that data via GSM/GPRS modules to a microcontroller. The availability of free spaces and their locations would then be communicated to users through a mobile application. This would help both users in finding parking more efficiently and owners in managing parking resources better. The system aims to address common parking issues in cities by providing real-time data on spaces and guiding users to available spots using an online interface.
All throughout APAC the landscape is changing and presenting a need for smart mobility. Read more in detail to learn how businesses can seize opportunities with the right IT strategy and the right partnership.
Flutter Mobile Application for Car ParkingIRJET Journal
- The document discusses the development of a Flutter mobile application for car parking reservations.
- It aims to help users easily view available parking spots and book reservations, resolving issues of finding parking in congested areas.
- The application allows users to see various parking locations, check availability, and reserve spots for a specified time period. It also provides additional user functions.
ARDUINO BASED CAR PARKING SYSTEM USING WOKWI SIMULATORIRJET Journal
The document describes a proposed Arduino-based smart parking system using IoT technologies. It would use ultrasonic sensors connected to Arduino microcontrollers to detect available parking spaces. The Arduino devices would send this parking availability data via wireless communication to a central server. Users could access real-time parking space information through a mobile app or web interface. The system aims to improve parking management and efficiency by optimizing space usage and reducing congestion compared to traditional methods.
fINAL SMART CITYseamless communication and collaboration between citizens and...sol zem
The document discusses goals and implementation of smart city initiatives, including smart governance, digitalization, security, and environmental monitoring. Key elements are upgrading internet infrastructure, establishing digital systems for documents and inter-office communication, deploying CCTV cameras on smart poles to improve safety and traffic, and using data analytics to optimize city services and engage citizens. Challenges include ensuring qualified human resources, financial resources, and coordination across institutions to address the complexity of smart city projects.
Informatics and infotainment system for Smart E-Bike using Raspberry PiIRJET Journal
This document describes the development of an informatics and infotainment system for a smart electric bike using a Raspberry Pi. Sensors like a speedometer, GPS, accelerometer, and gyroscope are used to collect riding data like speed, location, and lean angles. The data is logged to a database and transmitted to a web server via WiFi. A dashboard display is created using HTML/CSS to show the rider metrics in real-time. The collected data can be analyzed later to view speed over time, path traveled, and vehicle motion. The system aims to integrate vehicle data collection and processing for intelligent transportation systems development.
The Smart Parking Solutions makes use of sensing devices such as vehicle counting equipment, cameras, sensors installed in pavements, etc. to discover occupancy of the parking lot. The strong sensing systems are being built to examine and transfer the data to the database in real-time.
The system increases the accessibility of parking with the use of sensors. The sensors placed in the pavement of the selected parking spaces to recognize if a parking slot is occupied or vacant.
Sensors communicate with the gateway and that data will be pushed to the cloud. Sensors then immediately show the availability of parking slots. This can be viewed on the Mobile APP or the sensors placed on the parking slots so drives can easily identify the space.
Faststream’s Intelligent Parking Solutions use the full potential of digitalization: smart sensors, intelligent software, and clever analysis of the available data. The system eliminates unnecessary parking-related traffic and ensures optimum utilization of urban parking facilities. This saves time, reduces the environmental impact of traffic, and improves the quality of life in the city.
A REVIEW ON IOT IN TRANSPORTATION SECTORNancy Ideker
This document provides a review of how Internet of Things (IoT) technology can be applied in the transportation sector. It discusses the opportunities that IoT presents to address complex issues in transportation systems. The key aspects covered include:
1. The architecture of an IoT system for transportation, which consists of 5 layers - application, sensing, communication, service, and infrastructure layers.
2. Examples of IoT applications in transportation like logistics, toll payment systems, vehicle tracking, supply chain management, and smart vehicle technologies.
3. The benefits of implementing IoT in transportation include optimized routes, demand-based services, improved public safety, and reduced fuel costs through efficiency.
The document describes a proposed smart car parking system using IoT technologies. Sensors in parking lots would monitor available spaces and cameras would automatically recognize license plates during registration. Parking data would be collected and analyzed to inform drivers of space availability and car status. The system aims to optimize parking utilization, increase safety, and decrease management costs. It could be implemented using a mix of local RF mesh networks and cellular connectivity. Potential business models for companies providing the IoT solution include revenue sharing, product-as-a-service, and transactional models. Key challenges involve ensuring reliable sensor and camera function amid interference and protecting privacy and data.
TADSummit, Simfony: Building a Global IoT Service Provider using Programmable...Alan Quayle
Simfony: Building a Global IoT Service Provider using Programmable Telecoms
Stefan Anghel, Product Architect, Simfony Mobile
Where does IoT make sense? Cutting through the hype to real business and real solutions.
Review of the IoT Landscape, understanding the enablers and ecosystem.
Simfony's IoT Platform: an M2M focused MVNO. Delivering solutions to business problems.
The Future of IoT service providers.
IRJET- IoT based Multi Sensory System to Enhance Railway SafetyIRJET Journal
This document summarizes a research paper on an IoT-based multisensory system to enhance railway safety. The proposed system uses infrared and ultrasonic sensors placed on opposite sides of railway tracks to establish optical and acoustic links. When a train arrives, its details are checked against a database. The system then measures parameters like rainfall, temperature, fog, humidity and route vibrations. It calculates the allowable speed for the train based on these parameters and sends it to the loco pilot's display. The information is also sent to the database and to the next arriving train. This multisensory system can enhance railway safety by monitoring conditions and providing real-time speed guidance to loco pilots.
management system live gps tracking system.pptx21ccu104
The document proposes a car management and live GPS tracking system that overcomes limitations of existing systems. The proposed system provides real-time vehicle tracking through integration of GPS, GSM, and IoT technologies. It allows users to track location, fuel entries, services, and repairs online. Real-time monitoring, enhanced security like geofencing, integration with other systems, and detailed reports provide benefits over manual and standalone tracking methods. The system requires hardware including an Intel i3 processor and 8GB RAM as well as software like MySQL, Apache, and front-end technologies.
IOT in transportation can improve passenger experiences, safety, and efficiency. IOT connects physical devices like vehicles, infrastructure, and mobile devices to the internet. This allows transportation systems to gather more data which can transform industries by improving traveler experiences, smart road management, parking, safety monitoring, and more. Key applications of IOT in transportation include fleet management, public transit management, smart inventory, asset utilization tracking, and geo-fencing. IOT connectivity in vehicles and infrastructure will change transportation by allowing vehicle-to-vehicle communication and connection to infrastructure for improved navigation, remote access features, and traffic optimization.
Similar to 4g Router with Ethernet Helps Intelligent Supervision of Shared Bicycles (20)
Building a Raspberry Pi Robot with Dot NET 8, Blazor and SignalRPeter Gallagher
In this session delivered at NDC Oslo 2024, I talk about how you can control a 3D printed Robot Arm with a Raspberry Pi, .NET 8, Blazor and SignalR.
I also show how you can use a Unity app on an Meta Quest 3 to control the arm VR too.
You can find the GitHub repo and workshop instructions here;
https://bit.ly/dotnetrobotgithub
Google Calendar is a versatile tool that allows users to manage their schedules and events effectively. With Google Calendar, you can create and organize calendars, set reminders for important events, and share your calendars with others. It also provides features like creating events, inviting attendees, and accessing your calendar from mobile devices. Additionally, Google Calendar allows you to embed calendars in websites or platforms like SlideShare, making it easier for others to view and interact with your schedules.
4g Router with Ethernet Helps Intelligent Supervision of Shared Bicycles
1. 4g Router with Ethernet Helps Intelligent Supervision of Shared Bicycles
As a new form of sharing economy, shared bicycles not only solve the problem of citizens' "last
mile" travel, but also directly change the way people travel with their advantages of
convenience and environmental protection.
The construction of a self-service shared bicycle system can facilitate the daily travel needs of
residents, such as commuting, going out, and playing. The shared bicycle rental service
consists of three parts: rental sites, management centers, and customer service sites. The
rental sites are distributed in different areas of the city and are in a closed state. Operators
need to know the vehicle rental status of each site in real time, and realize remote scheduling
and real-time monitoring, in order to better promote and apply shared bicycles. With the
increase of rental points, using information technology to manage public bicycle rental has
become an inevitable choice for operators. However, shared bicycle operators lack relevant
technical support and need professionals to maintain and improve the system, resulting in
high management and maintenance costs, high operational difficulty, and full of loopholes.
Moreover, there may be two different management systems in the same city, and the data of
each management system site is not interoperable, so that shared bicycles cannot be
borrowed and returned across systems, which becomes the weakness of rental site
management and operation; use traditional VPN or private network to realize rental
background The data exchange method has high requirements on the network environment,
is expensive, and is complex to deploy.
A simple and easy-to-deploy industrial 4G router solution is proposed for a series of problems
in the operation and management of shared bicycles.
Industrial-grade routers are widely used in various industries as the communication
equipment of the Internet of Things network layer, and have brought a lot of convenience to
various industries. Aiming at the difficulties of shared bicycle rental management and data
synchronization, through the E-Lins industrial 4G router, wireless networking and remote
management in various areas of the city are conveniently and quickly realized.
Deploy the 4G industrial router in the communication management system of the background
control center and the management system of each rental site, and then set up a remote
virtual network through simple configuration on the web page, and the management system
2. data of each rental point in the city can be quickly connected to the background control center
to realize Remote data synchronization, such as data transmission of intelligent parking
column system and clearing system, synchronization of monitoring screen data, and data
transmission of other application systems.
The E-Lins 4g router with ethernet solution has the advantages of large-scale networking,
unlimited deployment distance, unaffected by on-site environmental factors, short
construction period, support for multiple networking methods, and small investment,
providing technical support for cross-regional data transmission; It provides reliable data
support for the management, maintenance and operation of operators, effectively improving
the management level of shared bicycle rental and the economic benefits of operators.