An innovative smart road iot presentationTashmitaBanik
Smart Road is a project by ANAS to create an innovative, technology-enabled road infrastructure. The road will provide connectivity through WiFi access points to allow vehicles and users to exchange information. It will also use technologies like Internet of Things sensors, drones, and renewable energy generation to monitor the road infrastructure and traffic conditions in real-time. The goal is to improve road safety, traffic management, and provide new services to drivers through their smartphones. However, some risks need to be addressed regarding technology failures, data privacy, and the integration of these new systems with existing road infrastructure.
The document discusses the concept of a "Smart Road" which uses various technologies to create an integrated transportation system. It aims to provide connectivity between users and vehicles through technologies like WiFi along the road. This would allow for services like safety alerts, traffic info, and navigation assistance. Sensors in vehicles and along the road could monitor conditions. Renewable energy stations called "Green Islands" would power facilities every 30km. Drones would provide infrastructure monitoring. The goal is a sustainable transportation network that is safe, efficient, and provides real-time information.
This document presents an overview of Intelligent Transportation Systems (ITS) by Thakkar Jayshiv M. It discusses problems with current transportation systems like traffic congestion and accidents. ITS uses technologies like GPS, electronic toll collection, and vehicle sensors to provide real-time traffic information and improve safety. The presentation covers various ITS applications, benefits like reduced congestion and costs, and challenges including high equipment costs. It concludes that implementing ITS can help solve India's growing transportation problems.
Online Accessable Traffic Control System for Urban Areas Using Embedded Syste...IJSRD
During recent years traffic congestion is become a serious problem in almost all cities. Due to the high density of traffic, pedestrians find it difficult to cross the road. Even though several advanced strategic plans are introduced to regulate the traffic but due to lack of provision for on- road pedestrian crossing, rate of accidents become very high. One such provision is given is elevated path for pedestrian to cross the road, but the elderly person finds it difficult to use that. Hence an idea is proposed to help the elderly people by giving provision for on- road pedestrian crossing in high density traffic areas like near schools, hospitals, markets, etc. which reduces the accidents rate also. To implement this, here an additional time delay is introduced in the traffic signal for pedestrian crossing in addition to vehicle crossing in all possible direction. Additionally, provision is given to track the vehicle which violates the traffic rules and to clear the traffic for emergency vehicles. All the above said three parameters can be simulated by using PROTEUS software.
The document discusses Intelligent Transportation Systems (ITS). ITS uses information and communication technologies to improve transportation outcomes like safety, productivity, travel reliability and more. Key ITS technologies discussed include wireless communications, computational technologies, floating car data collection, inductive loop detection, and video vehicle detection. Example ITS applications mentioned are emergency vehicle notification, automatic road enforcement, variable speed limits, collision avoidance systems, and dynamic traffic light sequencing.
Intelligent Transportation System (ITS) refers to the application of advanced technologies to transportation infrastructure and vehicles to improve safety, efficiency, and sustainability in transportation systems. ITS encompasses a wide range of technologies, including sensors, communication systems, data analytics, and automation. Here are some key components and applications of ITS:
Traffic Management: ITS includes systems for monitoring and managing traffic flow, such as traffic signal control, dynamic message signs, and variable speed limits. These systems can help optimize traffic flow, reduce congestion, and improve safety.
Vehicle-to-Infrastructure (V2I) Communication: V2I communication enables vehicles to communicate with roadside infrastructure, such as traffic signals and roadway sensors. This allows for real-time traffic information, traffic signal prioritization for emergency vehicles, and warning messages about road hazards.
Vehicle-to-Vehicle (V2V) Communication: V2V communication enables vehicles to communicate with each other, exchanging information about their speed, position, and trajectory. This technology can help prevent accidents by providing drivers with warnings about potential collisions and allowing for coordinated actions, such as cooperative adaptive cruise control.
Advanced Driver Assistance Systems (ADAS): ADAS use sensors and onboard computing to assist drivers in various tasks, such as lane-keeping assistance, adaptive cruise control, and automatic emergency braking. These systems enhance safety by providing warnings and assistance to drivers in potentially dangerous situations.
Intelligent Infrastructure: ITS includes the integration of sensors and smart devices into transportation infrastructure, such as bridges, tunnels, and highways. These sensors can monitor structural health, detect environmental conditions, and provide real-time information for maintenance and operation.
Smart Parking Systems: ITS includes technologies for managing and optimizing parking, such as sensor-based parking availability detection, electronic payment systems, and guidance systems that direct drivers to available parking spaces.
Traveler Information Systems: ITS provides travelers with real-time information about traffic conditions, public transportation schedules, and alternative routes through dynamic message signs, smartphone apps, and websites. This information helps travelers make informed decisions and plan their routes more efficiently.
Freight and Logistics Management: ITS includes systems for tracking and managing freight shipments, optimizing supply chain logistics, and coordinating freight movements to reduce congestion and improve efficiency in freight transportation.
Overall, Intelligent Transportation Systems play a crucial role in improving the safety, efficiency, and sustainability of transportation networks by leveraging advanced technologies to enhance infrastructure, vehicles.
IMPORTANCE OF COMPUTERS IN TRANSPORTATION GROUP15.pptxOgunmolaTunde
Computers play a vital role across all modes of transportation. In road transportation, computers are used in intelligent transportation systems to reduce traffic congestion and improve safety. Some applications of intelligent transportation systems include electronic toll collection, automatic vehicle identification, and traffic signal control. Rail transportation also relies heavily on computer systems for passenger reservation, ticketing, timetables, and real-time train tracking. Air traffic control also depends on computers for air traffic management, communication between pilots and controllers, and airport services like baggage handling and passenger screening. Similarly, water transportation utilizes vessel monitoring systems and intelligent water transportation systems to enhance safety monitoring. Overall, computers have significantly improved the efficiency, safety, and user experience across all sectors of the transportation industry.
An innovative smart road iot presentationTashmitaBanik
Smart Road is a project by ANAS to create an innovative, technology-enabled road infrastructure. The road will provide connectivity through WiFi access points to allow vehicles and users to exchange information. It will also use technologies like Internet of Things sensors, drones, and renewable energy generation to monitor the road infrastructure and traffic conditions in real-time. The goal is to improve road safety, traffic management, and provide new services to drivers through their smartphones. However, some risks need to be addressed regarding technology failures, data privacy, and the integration of these new systems with existing road infrastructure.
The document discusses the concept of a "Smart Road" which uses various technologies to create an integrated transportation system. It aims to provide connectivity between users and vehicles through technologies like WiFi along the road. This would allow for services like safety alerts, traffic info, and navigation assistance. Sensors in vehicles and along the road could monitor conditions. Renewable energy stations called "Green Islands" would power facilities every 30km. Drones would provide infrastructure monitoring. The goal is a sustainable transportation network that is safe, efficient, and provides real-time information.
This document presents an overview of Intelligent Transportation Systems (ITS) by Thakkar Jayshiv M. It discusses problems with current transportation systems like traffic congestion and accidents. ITS uses technologies like GPS, electronic toll collection, and vehicle sensors to provide real-time traffic information and improve safety. The presentation covers various ITS applications, benefits like reduced congestion and costs, and challenges including high equipment costs. It concludes that implementing ITS can help solve India's growing transportation problems.
Online Accessable Traffic Control System for Urban Areas Using Embedded Syste...IJSRD
During recent years traffic congestion is become a serious problem in almost all cities. Due to the high density of traffic, pedestrians find it difficult to cross the road. Even though several advanced strategic plans are introduced to regulate the traffic but due to lack of provision for on- road pedestrian crossing, rate of accidents become very high. One such provision is given is elevated path for pedestrian to cross the road, but the elderly person finds it difficult to use that. Hence an idea is proposed to help the elderly people by giving provision for on- road pedestrian crossing in high density traffic areas like near schools, hospitals, markets, etc. which reduces the accidents rate also. To implement this, here an additional time delay is introduced in the traffic signal for pedestrian crossing in addition to vehicle crossing in all possible direction. Additionally, provision is given to track the vehicle which violates the traffic rules and to clear the traffic for emergency vehicles. All the above said three parameters can be simulated by using PROTEUS software.
The document discusses Intelligent Transportation Systems (ITS). ITS uses information and communication technologies to improve transportation outcomes like safety, productivity, travel reliability and more. Key ITS technologies discussed include wireless communications, computational technologies, floating car data collection, inductive loop detection, and video vehicle detection. Example ITS applications mentioned are emergency vehicle notification, automatic road enforcement, variable speed limits, collision avoidance systems, and dynamic traffic light sequencing.
Intelligent Transportation System (ITS) refers to the application of advanced technologies to transportation infrastructure and vehicles to improve safety, efficiency, and sustainability in transportation systems. ITS encompasses a wide range of technologies, including sensors, communication systems, data analytics, and automation. Here are some key components and applications of ITS:
Traffic Management: ITS includes systems for monitoring and managing traffic flow, such as traffic signal control, dynamic message signs, and variable speed limits. These systems can help optimize traffic flow, reduce congestion, and improve safety.
Vehicle-to-Infrastructure (V2I) Communication: V2I communication enables vehicles to communicate with roadside infrastructure, such as traffic signals and roadway sensors. This allows for real-time traffic information, traffic signal prioritization for emergency vehicles, and warning messages about road hazards.
Vehicle-to-Vehicle (V2V) Communication: V2V communication enables vehicles to communicate with each other, exchanging information about their speed, position, and trajectory. This technology can help prevent accidents by providing drivers with warnings about potential collisions and allowing for coordinated actions, such as cooperative adaptive cruise control.
Advanced Driver Assistance Systems (ADAS): ADAS use sensors and onboard computing to assist drivers in various tasks, such as lane-keeping assistance, adaptive cruise control, and automatic emergency braking. These systems enhance safety by providing warnings and assistance to drivers in potentially dangerous situations.
Intelligent Infrastructure: ITS includes the integration of sensors and smart devices into transportation infrastructure, such as bridges, tunnels, and highways. These sensors can monitor structural health, detect environmental conditions, and provide real-time information for maintenance and operation.
Smart Parking Systems: ITS includes technologies for managing and optimizing parking, such as sensor-based parking availability detection, electronic payment systems, and guidance systems that direct drivers to available parking spaces.
Traveler Information Systems: ITS provides travelers with real-time information about traffic conditions, public transportation schedules, and alternative routes through dynamic message signs, smartphone apps, and websites. This information helps travelers make informed decisions and plan their routes more efficiently.
Freight and Logistics Management: ITS includes systems for tracking and managing freight shipments, optimizing supply chain logistics, and coordinating freight movements to reduce congestion and improve efficiency in freight transportation.
Overall, Intelligent Transportation Systems play a crucial role in improving the safety, efficiency, and sustainability of transportation networks by leveraging advanced technologies to enhance infrastructure, vehicles.
IMPORTANCE OF COMPUTERS IN TRANSPORTATION GROUP15.pptxOgunmolaTunde
Computers play a vital role across all modes of transportation. In road transportation, computers are used in intelligent transportation systems to reduce traffic congestion and improve safety. Some applications of intelligent transportation systems include electronic toll collection, automatic vehicle identification, and traffic signal control. Rail transportation also relies heavily on computer systems for passenger reservation, ticketing, timetables, and real-time train tracking. Air traffic control also depends on computers for air traffic management, communication between pilots and controllers, and airport services like baggage handling and passenger screening. Similarly, water transportation utilizes vessel monitoring systems and intelligent water transportation systems to enhance safety monitoring. Overall, computers have significantly improved the efficiency, safety, and user experience across all sectors of the transportation industry.
transportation is the back bone of countries economical development. providing good and effective transportation facility will help in developing countries economy. transportation will save time, money, and work can be done easily. intelligent transportation system provides more benefits to the nation.
The document discusses intelligent transportation systems (ITS), which use information and communication technologies to improve transportation safety and efficiency. ITS technologies include wireless communications, sensors, and computational tools. Key ITS applications mentioned are GPS, traffic and transit management systems, emergency management, and electronic toll collection. The document outlines advantages like reduced congestion and accidents, and disadvantages such as high costs and potential hacking risks.
Inter-vehicle communication allows vehicles to communicate important safety and traffic information with each other. It has the potential to help avoid many vehicle collisions. However, securing vehicle communications presents challenges regarding privacy, real-time communication needs, and the large scale of vehicle networks. Effective inter-vehicle communication architectures require addressing issues such as secure routing, resilience to denial of service attacks, and balancing privacy and accountability. With further research and development, inter-vehicle communication could support applications like cooperative driving, hazard warnings, and traffic optimization to improve road safety and efficiency.
The document discusses Intelligent Transportation Systems (ITS), which use information and communication technologies to improve transportation outcomes such as safety, productivity, reliability and more. ITS technologies can include wireless communications, computational technologies, floating car data collection using cellular signals, and sensing technologies like inductive loops and video detection. The document outlines several ITS applications including emergency notification systems, automatic road enforcement, collision avoidance systems and more. Benefits of ITS include reduced accidents, time savings, lower emissions and costs.
Presentation on INTELLIGENT TRANSPORT SYSTEM by jaswinder singhJaswinder Singh
This document provides an overview of Intelligent Transportation Systems (ITS). It defines ITS as using information and communication technologies to improve transportation outcomes like safety, productivity, travel reliability and choices. ITS aims to address issues caused by increasing traffic congestion. It discusses various intelligent transport technologies like sensors, wireless communication and computational tools. It also describes ITS applications for emergency notification, road enforcement, variable speed limits and collision avoidance. Finally, it provides examples of planned ITS implementations in Chandigarh, India involving GPS vehicle tracking and a passenger information display system.
Module 3 Intelligent Transport Systems.pptxSilasChaudhari
1. The document discusses Intelligent Transport Systems (ITS) and provides details about various ITS technologies and applications. It covers topics like smart vehicles, fuels, GIS, GPS, navigation systems, traffic management, mobility services, and e-ticketing.
2. Key aspects of ITS mentioned include improving mobility and safety, reducing congestion, improving traffic flow, minimizing environmental impacts, and enhancing safety. Technologies discussed include vehicle-to-vehicle and vehicle-to-cloud connectivity, electric vehicles, and alternative fuels like biofuels and hydrogen cells.
3. GIS has an important role in ITS for applications like transportation planning, traffic modeling, accident analysis, route planning, and environmental impact assessment.
Fiber Optic Network For Transportation Industry ApplicationsSun Telecom
Fiber optic networks are critical for ITS. It can help the transportation industry with high-speed internet connectivity, high reliability, high security, and long-reaching coverage.
intelligent transport system bgsbu coetjunaid bashir
This document discusses intelligent transportation systems (ITS) and their potential benefits. ITS uses information and communication technologies to improve transportation outcomes like safety, productivity, travel reliability and informed choices. Interest in ITS stems from problems caused by increasing traffic congestion. Common ITS technologies discussed include sensors, video detection, wireless communications and floating car data. Applications mentioned are electronic toll collection, eCall for emergency response, and automatic road enforcement using cameras. Benefits of ITS include reductions in accidents, travel time savings, lower emissions and fuel use, and lower agency costs.
The document discusses intelligent transportation systems (ITS) and their potential benefits for India. ITS uses information and communication technologies to improve transportation system efficiency and safety. Rapid economic growth and rising vehicle ownership in India are exacerbating issues like traffic congestion. ITS technologies like electronic toll collection, GPS, and transit information systems could help reduce congestion and travel times while improving the flow of traffic and traveler information. While ITS has benefits, there are also challenges to implementation like high costs and integration difficulties. Widespread adoption of ITS has the potential to boost economic development and quality of life in India by addressing transportation problems.
Intelligent transportation systems (ITS) apply sensing, analysis, control and communication technologies to improve transportation safety, mobility and efficiency. ITS components include wireless communication, computational technologies, sensing technologies like inductive loops, video and Bluetooth detection, and radar detection. ITS applications provide benefits like better accident management through emergency notification systems, enhanced traffic management with automatic road enforcement and variable speed limits, and collision avoidance systems.
Project roadways and railways in intelligent transportation system a case studyAnupamaSingh332122
The document discusses intelligent transportation systems (ITS) and their application to roadways and railways in India. It provides an overview of various ITS technologies like wireless communication, floating car data collection using GPS and cellular networks, video detection systems, and inductive loop detection. These technologies help modernize transportation through applications such as emergency notification, automatic road enforcement, variable speed limits, and collision avoidance. The document also discusses some of the pros of ITS, such as improving traffic safety by monitoring conditions, reducing infrastructure damage by identifying overloaded vehicles, and improving traffic control through adaptive traffic light systems.
Modern transportation is rapidly evolving as smart technologies are
incorporated. This improvement enhances efficiency and security and provides a more sustainable and straightforward experience.
Intelligent Transportation Systems (ITS) use communications and electronic technologies to improve transportation safety, mobility, and productivity. ITS includes 16 types of technologies divided into intelligent infrastructure and vehicle systems. Infrastructure systems use sensors and control devices to manage traffic on roads, freeways, and transit. Vehicle systems provide driver assistance, collision avoidance, and collision notification to prevent accidents. The goal of ITS is to achieve improved safety, reduced congestion, increased mobility, and economic and environmental benefits.
Why it’s Needed?
Traffic congestion-insufficient road development-growing number of vehicles.
Low speed, increased accident rates, increased fuel consumption, and increased pollution.
Impossible to build enough new roads or to meet the demand.
These explore the concepts that treat highway systems and the vehicles that use them as integrated system. Among them is the concept of Intelligent Transportation Systems.
The goal of I T S is to improve the transportation system to make it more efficient and safer by use of information, communications and control technologies.
India is going through a period of drastic change in the transportation area due to:
Rapidly growing economy.
Insufficient and inadequate public transportation system.
Rising vehicle ownership levels.
ITS PARTS
I T S ARCHITECTURE
· Framework for planning, defining, and integrating intelligent transportation systems.
Benefits of Architecture
Reduces time and resources required to integrate the technologies to local needs
Helps identify agencies and jurisdictions & seeks their participation
COMMUNICATION SYSTEMS
Effective and efficient operation of transit systems relies on a communications infrastructure and vehicle-based communications technologies.
Communications systems are used to transmit voice and data between transit vehicles and operation centers, and to transmit commands between operators and technologies.
Transit communications systems are comprised mostly of wireless technologies and applications.
FLEET MANAGEMENT AND OPERATIONS
These includes separate technologies often are combined in various software packages, which allow for the integration of many different transit functions.
GIS allows transit agencies to accurately track where demand is located in their service area.
APPLICATIONS OF I T S
ELECTRONIC TOLL COLLECTION(E T C)
GLOBAL POSITIONING SYSTEM(G P S)
ADVANCED TRAVELLER INFORMATION SYSTEM(ATIS)
IN-VEHICLE TRANSIT INFORMATION SYSTEM
AUTOMATIC PASSENGER COUNTER
ADVANTAGES OF I T S
Improved safety
Better traffic flow
Lower travel cost
Better environmental quality
Increased business activity
Greater user acceptance
Better travel information
Better planning information
DISADVANTAGES OF I T S
Difficult to use in mixed traffic
Preliminary difficulties in understanding
ITS equipments costly
The control system software could be hacked by hackers
www.wikipedia.com
www.answers.com
www.howstuffworks.com
www.tech-faq.com
www.thetravelinsider.info
http://www.itsoverview.its.dot.
http://www.transport systems.com
http://www.mountain-plains.org
Way to green intelligent traffic control with vanetIAEME Publication
This document summarizes a paper that explores using vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication through vehicular ad-hoc networks (VANETs) to intelligently control traffic flow and enhance safety. The system would use sensors in vehicles and at intersections to detect vehicle and pedestrian positions in real-time. This information would be shared through VANET to dynamically schedule traffic lights based on current traffic conditions, warn drivers of obstacles or pedestrians, and efficiently schedule emergency vehicles. The goal is to create a smarter traffic system that improves traffic flow while enhancing safety for both drivers and pedestrians.
Cooperative systems offer a universal way for roadside equipment to communicate with vehicles. It provides open connectivity, as promoted by the European Commission. And it also allows multiple applications, to run side by side.
This document discusses the application of geographic information systems (GIS) and remote sensing in modern transportation systems. It defines remote sensing and GIS, introduces intelligent transportation systems (ITS) and the technologies involved like wireless communications, computational technologies, and sensing technologies. It then describes some ITS applications such as advanced traffic management using variable message signs, electronic toll collection, route guidance, and traveler information systems. Benefits of ITS are also highlighted such as time savings, reduced crashes, collision avoidance, and environmental benefits.
International Upcycling Research Network advisory board meeting 4Kyungeun Sung
Slides used for the International Upcycling Research Network advisory board 4 (last one). The project is based at De Montfort University in Leicester, UK, and funded by the Arts and Humanities Research Council.
Visual Style and Aesthetics: Basics of Visual Design
Visual Design for Enterprise Applications
Range of Visual Styles.
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Challenges and Opportunities of Mobile Design
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Similar to Earthquake resistance building an marvel challenge engineering
transportation is the back bone of countries economical development. providing good and effective transportation facility will help in developing countries economy. transportation will save time, money, and work can be done easily. intelligent transportation system provides more benefits to the nation.
The document discusses intelligent transportation systems (ITS), which use information and communication technologies to improve transportation safety and efficiency. ITS technologies include wireless communications, sensors, and computational tools. Key ITS applications mentioned are GPS, traffic and transit management systems, emergency management, and electronic toll collection. The document outlines advantages like reduced congestion and accidents, and disadvantages such as high costs and potential hacking risks.
Inter-vehicle communication allows vehicles to communicate important safety and traffic information with each other. It has the potential to help avoid many vehicle collisions. However, securing vehicle communications presents challenges regarding privacy, real-time communication needs, and the large scale of vehicle networks. Effective inter-vehicle communication architectures require addressing issues such as secure routing, resilience to denial of service attacks, and balancing privacy and accountability. With further research and development, inter-vehicle communication could support applications like cooperative driving, hazard warnings, and traffic optimization to improve road safety and efficiency.
The document discusses Intelligent Transportation Systems (ITS), which use information and communication technologies to improve transportation outcomes such as safety, productivity, reliability and more. ITS technologies can include wireless communications, computational technologies, floating car data collection using cellular signals, and sensing technologies like inductive loops and video detection. The document outlines several ITS applications including emergency notification systems, automatic road enforcement, collision avoidance systems and more. Benefits of ITS include reduced accidents, time savings, lower emissions and costs.
Presentation on INTELLIGENT TRANSPORT SYSTEM by jaswinder singhJaswinder Singh
This document provides an overview of Intelligent Transportation Systems (ITS). It defines ITS as using information and communication technologies to improve transportation outcomes like safety, productivity, travel reliability and choices. ITS aims to address issues caused by increasing traffic congestion. It discusses various intelligent transport technologies like sensors, wireless communication and computational tools. It also describes ITS applications for emergency notification, road enforcement, variable speed limits and collision avoidance. Finally, it provides examples of planned ITS implementations in Chandigarh, India involving GPS vehicle tracking and a passenger information display system.
Module 3 Intelligent Transport Systems.pptxSilasChaudhari
1. The document discusses Intelligent Transport Systems (ITS) and provides details about various ITS technologies and applications. It covers topics like smart vehicles, fuels, GIS, GPS, navigation systems, traffic management, mobility services, and e-ticketing.
2. Key aspects of ITS mentioned include improving mobility and safety, reducing congestion, improving traffic flow, minimizing environmental impacts, and enhancing safety. Technologies discussed include vehicle-to-vehicle and vehicle-to-cloud connectivity, electric vehicles, and alternative fuels like biofuels and hydrogen cells.
3. GIS has an important role in ITS for applications like transportation planning, traffic modeling, accident analysis, route planning, and environmental impact assessment.
Fiber Optic Network For Transportation Industry ApplicationsSun Telecom
Fiber optic networks are critical for ITS. It can help the transportation industry with high-speed internet connectivity, high reliability, high security, and long-reaching coverage.
intelligent transport system bgsbu coetjunaid bashir
This document discusses intelligent transportation systems (ITS) and their potential benefits. ITS uses information and communication technologies to improve transportation outcomes like safety, productivity, travel reliability and informed choices. Interest in ITS stems from problems caused by increasing traffic congestion. Common ITS technologies discussed include sensors, video detection, wireless communications and floating car data. Applications mentioned are electronic toll collection, eCall for emergency response, and automatic road enforcement using cameras. Benefits of ITS include reductions in accidents, travel time savings, lower emissions and fuel use, and lower agency costs.
The document discusses intelligent transportation systems (ITS) and their potential benefits for India. ITS uses information and communication technologies to improve transportation system efficiency and safety. Rapid economic growth and rising vehicle ownership in India are exacerbating issues like traffic congestion. ITS technologies like electronic toll collection, GPS, and transit information systems could help reduce congestion and travel times while improving the flow of traffic and traveler information. While ITS has benefits, there are also challenges to implementation like high costs and integration difficulties. Widespread adoption of ITS has the potential to boost economic development and quality of life in India by addressing transportation problems.
Intelligent transportation systems (ITS) apply sensing, analysis, control and communication technologies to improve transportation safety, mobility and efficiency. ITS components include wireless communication, computational technologies, sensing technologies like inductive loops, video and Bluetooth detection, and radar detection. ITS applications provide benefits like better accident management through emergency notification systems, enhanced traffic management with automatic road enforcement and variable speed limits, and collision avoidance systems.
Project roadways and railways in intelligent transportation system a case studyAnupamaSingh332122
The document discusses intelligent transportation systems (ITS) and their application to roadways and railways in India. It provides an overview of various ITS technologies like wireless communication, floating car data collection using GPS and cellular networks, video detection systems, and inductive loop detection. These technologies help modernize transportation through applications such as emergency notification, automatic road enforcement, variable speed limits, and collision avoidance. The document also discusses some of the pros of ITS, such as improving traffic safety by monitoring conditions, reducing infrastructure damage by identifying overloaded vehicles, and improving traffic control through adaptive traffic light systems.
Modern transportation is rapidly evolving as smart technologies are
incorporated. This improvement enhances efficiency and security and provides a more sustainable and straightforward experience.
Intelligent Transportation Systems (ITS) use communications and electronic technologies to improve transportation safety, mobility, and productivity. ITS includes 16 types of technologies divided into intelligent infrastructure and vehicle systems. Infrastructure systems use sensors and control devices to manage traffic on roads, freeways, and transit. Vehicle systems provide driver assistance, collision avoidance, and collision notification to prevent accidents. The goal of ITS is to achieve improved safety, reduced congestion, increased mobility, and economic and environmental benefits.
Why it’s Needed?
Traffic congestion-insufficient road development-growing number of vehicles.
Low speed, increased accident rates, increased fuel consumption, and increased pollution.
Impossible to build enough new roads or to meet the demand.
These explore the concepts that treat highway systems and the vehicles that use them as integrated system. Among them is the concept of Intelligent Transportation Systems.
The goal of I T S is to improve the transportation system to make it more efficient and safer by use of information, communications and control technologies.
India is going through a period of drastic change in the transportation area due to:
Rapidly growing economy.
Insufficient and inadequate public transportation system.
Rising vehicle ownership levels.
ITS PARTS
I T S ARCHITECTURE
· Framework for planning, defining, and integrating intelligent transportation systems.
Benefits of Architecture
Reduces time and resources required to integrate the technologies to local needs
Helps identify agencies and jurisdictions & seeks their participation
COMMUNICATION SYSTEMS
Effective and efficient operation of transit systems relies on a communications infrastructure and vehicle-based communications technologies.
Communications systems are used to transmit voice and data between transit vehicles and operation centers, and to transmit commands between operators and technologies.
Transit communications systems are comprised mostly of wireless technologies and applications.
FLEET MANAGEMENT AND OPERATIONS
These includes separate technologies often are combined in various software packages, which allow for the integration of many different transit functions.
GIS allows transit agencies to accurately track where demand is located in their service area.
APPLICATIONS OF I T S
ELECTRONIC TOLL COLLECTION(E T C)
GLOBAL POSITIONING SYSTEM(G P S)
ADVANCED TRAVELLER INFORMATION SYSTEM(ATIS)
IN-VEHICLE TRANSIT INFORMATION SYSTEM
AUTOMATIC PASSENGER COUNTER
ADVANTAGES OF I T S
Improved safety
Better traffic flow
Lower travel cost
Better environmental quality
Increased business activity
Greater user acceptance
Better travel information
Better planning information
DISADVANTAGES OF I T S
Difficult to use in mixed traffic
Preliminary difficulties in understanding
ITS equipments costly
The control system software could be hacked by hackers
www.wikipedia.com
www.answers.com
www.howstuffworks.com
www.tech-faq.com
www.thetravelinsider.info
http://www.itsoverview.its.dot.
http://www.transport systems.com
http://www.mountain-plains.org
Way to green intelligent traffic control with vanetIAEME Publication
This document summarizes a paper that explores using vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication through vehicular ad-hoc networks (VANETs) to intelligently control traffic flow and enhance safety. The system would use sensors in vehicles and at intersections to detect vehicle and pedestrian positions in real-time. This information would be shared through VANET to dynamically schedule traffic lights based on current traffic conditions, warn drivers of obstacles or pedestrians, and efficiently schedule emergency vehicles. The goal is to create a smarter traffic system that improves traffic flow while enhancing safety for both drivers and pedestrians.
Cooperative systems offer a universal way for roadside equipment to communicate with vehicles. It provides open connectivity, as promoted by the European Commission. And it also allows multiple applications, to run side by side.
This document discusses the application of geographic information systems (GIS) and remote sensing in modern transportation systems. It defines remote sensing and GIS, introduces intelligent transportation systems (ITS) and the technologies involved like wireless communications, computational technologies, and sensing technologies. It then describes some ITS applications such as advanced traffic management using variable message signs, electronic toll collection, route guidance, and traveler information systems. Benefits of ITS are also highlighted such as time savings, reduced crashes, collision avoidance, and environmental benefits.
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2. What is a Smart Road ?
2
It is a completely integrated way to everyday life where there is no
discontinuity in the behaviors and in times, it means ......
zero distanceand spaceextension
It is an environment that recognizes and includes any user ……
friendly
It is….
sustainable
3. What is a Smart Road?
SECURITY
INFORMATION
COMFORT
CONNECTIVITY
3
4. High prices
Technology can fail
The system does not work
Computer systems may be violated
Unclear attribution of responsibility
Integration with infrastructures
lacking this kind of technology
Driving not equal to that
of a human being
Data privacy
Must learn how to use
this specific technology
High Medium Low None
Safe driving
Fuel savings
Insurancesavings
More comfortable driving experience
Lesstraffic
Time saving
Relax while driving
Use of new technologies
People without a drivers license
Work in the car
Sleep in the car
PROS
Medium Low None
High
Smart Road is Autonomous Driving
CONS
4
5. Smart Road Vision
A safe road, with Advanced Driver Assistance Systems, Autonomous Driving and
Intelligent Transport Systems
Connectivity with Users and Vehicles
Structural health monitoring
Info-mobility in real time
Green T
echnology
Sustenaibility
5
6. Smart Road Is For
A wired road to give and receive information
Green Island to provide renewable energy every 30 km
Drones in every green island for monitoring and rescue
Hot Spot WIFI every 300 meters for a connection via Smartphone
Vehicle and road dialogue systems for self-driving and truck platooning
Road information, weather conditions, alternative routes, directly by car
SOS on Board via Smartphone
Intelligent highway access management
Real time Info-mobility for traffic flows management
Increasing of security level
Infrastructure monitoring via Internet of Things
7. Exchange of information between users and infrastructure. Access
Points distributed along the road infrastructure for reliable
connections with mobile devices in motion at motorway speeds
CONNECTIVITY
Wi-Fi
in motion
7
Wi-Fi
Vehicle T
o Infrastructure
DSRC- ETSIITS-G5
Exchange of information between vehicles and
infrastructure:
• OBU (On Board Unit): equipment for Wi-Fi connectivity
on board the vehicle
• RSU (Road Side Unit): equipment for Wi-Fi connectivity
distributed throughout the road infrastructure
8. Moving Wi-fi
Clients can now use
according to traffic laws
SAFETY
8
various services, safely and
INFO-MOBILITY
WEATHER CONDITIONS
SOS ON BOARD
LOGISTIC SERVICES
All services are available through APPs which will ONLY be
activated in voice mode while vehicles are moving,
offering full usability when the vehicles are motionless
9. Speed
Acceleration / Deceleration
T
emperature, Pression,Humidity
Localization (Gps)
Magnetic Sensor
Tilt Sensor
Proximity,light (phone usage)
Phone Provider and Network (3G, 4G,…)
Language/Nationality
Mobile Device Model
Operating System
SmartPhone Sensing
9
10. Wi-Fi Eleven P and The European Strategy on C-ITS Systems
Applications Categories Applications Tasks Day C-ITS Services List
Active Road Safety
Assisted Driving/ Road Safety
Information
Signaling the presence of emergency vehicles Day 1 C-ITS Services List
Signaling the presence of slow-moving vehicle Day 1 C-ITS Services List
Collision alert nearby interchange Day 1 C-ITS Services List
Signaling the presence of Motocycle
Assisted Driving/ Warning
Signalling
Electronic emergency stop light Day 1 C-ITS Services List
Against-traffic-flow driving alert
Signaling the presence of vehicle involved in accident Day 1 C-ITS Services List
Signaling the presence of broken-up vehicle Day 1 C-ITS Services List
Traffic Conditions Day 1 C-ITS Services List
Detection of any road sign violation Day 1 C-ITS Services List
Signaling the presence of construction site Day 1 C-ITS Services List
Alert risk of accident Day 1 C-ITS Services List
Data from the vehicle / dangerous place
Data from the vehicle / rainfall
Data from the vehicle / road friction
Data from the vehicle / visibility
Data from the vehicle / wind
Traffic Efficiency
Speed Management Notification of speed limits Day 1 C-ITS Services List
Cooperative Navigation
Traffic information and recommended road routes Day 1.5 C-ITS Services List
Signalling road sections closed / Alternative routes Day 1.5 C-ITS Services List
Assisted navigation
Repetition of road signs in the vehicle Day 1.5 C-ITS Services List
Local Cooperative Services
Services based on location
monitoring
Notification of points of interest Day 1.5 C-ITS Services List
Automatic parking areas access control and management Day 1.5 C-ITS Services List
Internet Services Connectivity Services
Insurance/ Financial services Day 1.5 C-ITS Services List
Vehicles fleet management
11
11. "Smart" Surveillance Activities with detection of hazardous events and critical
situations on the road and traffic data, equipped with a remote focus function,
with the capacity of taking footage day and night in all weather conditions
T
raffic Flow condition
Traffic Congestion
Motionless vehicle (accident, etc.)
Slow vehicle
Vehicle moving in the opposite direction
Pedestrian on the road
Smoke or Fog on the road
Thing on the road
Automatic number plate recognition
Lane change
real-time traffic (average speed, traffic data,
lane occupancy, vehicle classification, etc.).
Kemler code plate recognition
INFORMATION FROM ROAD
15. Video Monitoring System
provide real-time images of the surrounding area, allowing authorities to
monitor traffic flow and conditions in real-time and identify incidents as they
occur.
16. Connected Traffic Light System
As opposed to conventional traffic lights, smart traffic light systems integrate
the aforementioned sensor and connected video monitoring technologies to
account for intersection wait times, vehicle speed, and/or pedestrian traffic.
Intelligent traffic light systems incorporate artificial intelligence (AI) and
Machine Learning (ML) processes to enable computer vision, optical character
recognition (OCR), and reinforcement learning.
17. Real-time information on roadwork areas, routes, access and road
maintenance operations that restrict traffic and can create queues or critical
situation to road users.
A device equipped with a GPS position sensor, triaxial accelerometer, capable of
detecting collisions/ rollovers/ change of position and on/off manual switches. The
device will communicate data by means of wireless systems with the ability to remotely
communicate its position at least every hour and at every change of position.
INFORMATION FROM ROAD
19. DRONES
Drones can play an important role in
monitoring the infrastructure and/or road
conditions, since they can fly to otherwise
«inaccessible areas» and take high-
resolution footage.
Also, in case of emergencies, drones can
quickly reach the location where assistance
is needed and can deliver emergency kits
to rescuers, such as portable defibrillators.
21. Real-time management and control via IOT (Internet of Things) of the
road infrastructure and its new technologies.
Weigh in Motion
Tunnel
Smart Gate
Bridge
Weather
Conditions
Road Platform
Hydrological
Conditions
Hazardous
Goods
IoT
22. Intelligent management of tunnels through the Smart Tunnel methodology
"dynamic" risk analyses
is based on
It is a tool that allows the operator to verify the security level of tunnels, on well-defined
timeframes, depending on the infrastructure’s actual operating conditions, the current state
of works and installations
GATEWAY
Security Level
Calculation
Real Time
Middle Time
Long Time
Link
Smart Tunnel
23. The Green Island is a multi-technology site for
the generation and transformation of energy
from renewable sources (photovoltaic, small
wind systems).
It allows each segment of the infrastructure to
generate its own power supply through an
electrical distribution system that maximises
energy efficiency by ensuring lower operating
costs.
Electric charging stations, drones charging and landing
stations will be installed on site.
Green Island
24. Advantages Of Smart Road Technology
1. By monitoring traffic flow and adjusting signals and lane assignments
accordingly, smart roads can alleviate congestion and reduce commute
times.
2. Smart road technologies can detect accidents, hazards, and adverse
weather conditions in real-time, allowing for immediate response and safer
driving conditions.
3. Integrated sensors and communication systems optimize transportation
networks, reducing fuel consumption and emissions by minimizing idling and
congestion.
4. Smart road technology can monitor the condition of roads and bridges,
identifying areas in need of repair or maintenance before they become safety
hazards.
25. 5. Smart road systems provide drivers with real-time information on traffic
conditions, road closures, and alternative routes, improving navigation and
reducing travel times.
6. Smart roads are essential for the safe deployment of autonomous vehicles,
providing the necessary infrastructure for communication and navigation.
7. Smart road systems generate vast amounts of data that can be analyzed to
improve transportation planning, infrastructure design, and public
safety initiatives.