The document describes an intelligent transport system solution that incorporates various technologies to build faster, safer, and more eco-friendly transportation systems. It discusses several subsystems, including urban traffic management systems (UTMS), dedicated short range communication (DSRC), automatic traffic enforcement systems (ATES), freeway traffic management systems (FTMS), and toll collection systems (TCS/ETCS). Each subsystem is described in 1-2 pages covering features, system structure, components and functions.
Launching SXnavo the first plug and play Intelligent Transport System with integrated hardware in India. Features include:
Route Management
Transport Scheduling
Automatic Vehicle Location
Operation management System
Automated Fare Collection System
Passenger Information System
Command Control
Business Analytics
Extendable architecture for intelligent navigation systems - CodeCamp16oct2010Codecamp Romania
This document describes an extensible architecture for an intelligent navigation system that can use both radio-based and web-based traffic message channels. It discusses key terms like extensible architecture and intelligent navigation systems. It then provides details on a Continental CTP demonstrator project, comparing radio-based vs. web-based TMC, how the system works with multiple information providers, its software architecture using class diagrams, and system dynamics using sequence diagrams. The presentation aims to explain the project and gather feedback through a question and answer section.
Intelligent Transport System simplified | LogicaCGI
Logica is now part of CGI. Experts behind Intelligent Transport and shape future ITS with clients through involvement with ERTICO, national ITS organisations and innovation centres. We lead the way in large scale ITS systems and services.
This document discusses intelligent transport systems (ITS) and their applications in urban transport. It describes 7 key areas of ITS: (1) traveler information, (2) traffic management, (3) public transport, (4) electronic payment, (5) commercial vehicle operations, (6) emergency management, and (7) vehicle safety and control systems. Each area contains several ITS applications. The document also discusses the physical and logical architectures of ITS, including components, data flows, and standards. The goal is to improve transportation system efficiency, safety, and sustainability through information and communication technologies.
This document provides information about Intelligent Transportation Systems (ITS). It discusses that ITS uses advanced technologies like electronics, communications and sensors to improve transportation outcomes. Some key ITS applications discussed include Vehicle Information and Communication System (VICS) and Advanced Traveler Information System (ATIS). VICS provides real-time traffic and road information to drivers. ATIS provides travelers with information about delays and helps with optimal route selection. The document also outlines various benefits of ITS like reduced congestion, accidents and pollution. It notes that while ITS provides several advantages, high implementation costs are a challenge.
1) The document discusses Bangalore Metropolitan Transport Corporation's implementation of an Intelligent Transport System (ITS) to improve public transportation in Bangalore, India.
2) The ITS includes an electronic ticketing system using over 10,000 machines, a vehicle tracking system with GPS units on 6,500 buses, and a passenger information system with display boards and a mobile app.
3) The goals of the ITS are to increase reliability and use of public transportation, provide real-time passenger information, optimize operations and revenue management, and improve overall service quality.
Intelligent Traffic System for kajang city, Malaysia.Yousef Abujubba
The presentation is illustrating the common traffic difficulties in Kajang area and show suggested intelligent urban design plan to be settled in the future to solve out the traffic jam and rebuild the city to be sustainable.
Launching SXnavo the first plug and play Intelligent Transport System with integrated hardware in India. Features include:
Route Management
Transport Scheduling
Automatic Vehicle Location
Operation management System
Automated Fare Collection System
Passenger Information System
Command Control
Business Analytics
Extendable architecture for intelligent navigation systems - CodeCamp16oct2010Codecamp Romania
This document describes an extensible architecture for an intelligent navigation system that can use both radio-based and web-based traffic message channels. It discusses key terms like extensible architecture and intelligent navigation systems. It then provides details on a Continental CTP demonstrator project, comparing radio-based vs. web-based TMC, how the system works with multiple information providers, its software architecture using class diagrams, and system dynamics using sequence diagrams. The presentation aims to explain the project and gather feedback through a question and answer section.
Intelligent Transport System simplified | LogicaCGI
Logica is now part of CGI. Experts behind Intelligent Transport and shape future ITS with clients through involvement with ERTICO, national ITS organisations and innovation centres. We lead the way in large scale ITS systems and services.
This document discusses intelligent transport systems (ITS) and their applications in urban transport. It describes 7 key areas of ITS: (1) traveler information, (2) traffic management, (3) public transport, (4) electronic payment, (5) commercial vehicle operations, (6) emergency management, and (7) vehicle safety and control systems. Each area contains several ITS applications. The document also discusses the physical and logical architectures of ITS, including components, data flows, and standards. The goal is to improve transportation system efficiency, safety, and sustainability through information and communication technologies.
This document provides information about Intelligent Transportation Systems (ITS). It discusses that ITS uses advanced technologies like electronics, communications and sensors to improve transportation outcomes. Some key ITS applications discussed include Vehicle Information and Communication System (VICS) and Advanced Traveler Information System (ATIS). VICS provides real-time traffic and road information to drivers. ATIS provides travelers with information about delays and helps with optimal route selection. The document also outlines various benefits of ITS like reduced congestion, accidents and pollution. It notes that while ITS provides several advantages, high implementation costs are a challenge.
1) The document discusses Bangalore Metropolitan Transport Corporation's implementation of an Intelligent Transport System (ITS) to improve public transportation in Bangalore, India.
2) The ITS includes an electronic ticketing system using over 10,000 machines, a vehicle tracking system with GPS units on 6,500 buses, and a passenger information system with display boards and a mobile app.
3) The goals of the ITS are to increase reliability and use of public transportation, provide real-time passenger information, optimize operations and revenue management, and improve overall service quality.
Intelligent Traffic System for kajang city, Malaysia.Yousef Abujubba
The presentation is illustrating the common traffic difficulties in Kajang area and show suggested intelligent urban design plan to be settled in the future to solve out the traffic jam and rebuild the city to be sustainable.
The document describes an intelligent traffic management system that uses wireless sensor networks to maximize traffic flow. Sensor data is used to calculate queue lengths and wait times for different traffic phases. The algorithm then determines the phase with the longest wait time and assigns a green light duration between the minimum time needed to clear the queue and the maximum phase time. This adaptive approach aims to reduce average wait times compared to traditional fixed-time traffic signals.
Intelligent Transportation System (ITS) is the modern technique implemented in many developed countries and is under implementation in developing countries like india.This presentation gives a brief idea about ITS.
Intelligent Transportation Systems (ITS) apply information and communication technologies to transportation infrastructure and vehicles to improve safety, productivity, reliability, and other outcomes. ITS technologies are classified as advanced public transport systems, advanced traveler information systems, advanced traffic management systems, automated highway systems, incident management systems, electronic toll collection systems, and advanced warning systems. While ITS offers benefits like speed and travel time improvements and capacity management, it also faces disadvantages such as high costs and difficulties in mixed traffic environments. ITS has potential to help develop efficient transportation in India but widespread adoption remains a challenge.
Intelligent transportation system using wireless sensor networkBrundha Sholaganga
This document discusses using wireless sensor networks for an intelligent transportation system. It aims to gather vehicle data like speed and location using magnetic sensors placed on roads. This data is transmitted using technologies like WPAN and WiFi to process traffic flow and detect open parking spots. Adaptive traffic lights would be controlled based on estimated vehicle density and velocity. Vehicle tracking could also be enabled using RFID sensors and readers. Overall, this wireless approach intends to provide more efficient transportation over traditional methods.
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.
South Yorkshire Intelligent Transport SystemTim Rivett
The document discusses creating an Intelligent Transport System (ITS) for South Yorkshire to help manage congestion issues. Some key points:
- Traffic and car ownership have grown significantly in South Yorkshire in recent years, leading to more congestion.
- An ITS would use technologies like sensors, cameras and variable message signs to monitor traffic flow, detect incidents, and inform travelers of delays or alternatives.
- The goals are to make efficient use of existing infrastructure, manage demand through measures like parking controls, and provide traveler information through different channels.
- Creating a unified ITS could help support an integrated "TravelSouthYorkshire" brand for travel information across modes.
Automatic vehicle location (AVL) systems track and report vehicle locations accurately to help supervise, control, and communicate with vehicles. This helps monitor vehicle status and prevent illegal activities or problems. AVL systems collect data, preprocess it, analyze it, and apply the results. They inform supervisors of vehicle locations and routes, detect accidents, and monitor driver behavior like speeding or taking long breaks. AVL is useful for managing large fleets in industries like shipping, banking, and oil, helping increase profitability. While expensive to install, AVL provides long-term benefits to businesses by keeping track of vehicle conditions and driver actions.
The document discusses intelligent transportation systems (ITS) architecture in Kajang, Malaysia. It provides an overview of ITS, describing how ITS uses technology to improve transportation safety, mobility and efficiency. It then discusses various ITS user services divided into 8 groups and the ITS architecture, which provides a common framework for planning and integrating ITS. This includes the logical architecture defining functions/processes and information flows, and the physical architecture grouping functions into subsystems. It also discusses several ITS components in more detail, including traffic light systems, video detection for traffic lights, smart surveillance systems, and variable message signs (VMS).
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
Advanced Traveler Information Systems (ATIS) provide real-time traffic and navigation information to drivers. It uses sensors and cameras to monitor traffic conditions and congestion. This data is then transmitted to drivers via signs, radio, GPS, and other displays to inform them of delays, accidents, construction, and alternate routes. Implementing ATIS requires high initial costs but can help reduce traffic, provide safety warnings, and improve road conditions once established.
Real time information systems in TransportationAravind Samala
An efficient transport system is essential for sustainable economic development of the country and plays a significant role in promoting national and global integration.
Efficient transport is indispensable to the economic development of nation.
From past few years Intelligent Transportation Systems (ITS) are copiously deployed in the modern transportation systems to efficiently control and manage transportation.
By using certain ITS techniques like Advanced Traveller Information System (ATIS), Automatic Vehicle Location (AVL), Variable Message Service (VMS), etc., real-time information about travel, traffic, cautionary measures are provided.
This document provides an introduction and overview of an Automated Traffic Management System (ATMS). The key points are:
- ATMS aims to ensure smooth traffic flow, increase transportation efficiency, and enhance road safety through real-time traffic monitoring, emergency response coordination, and dynamic message displays.
- The main components of ATMS include emergency call boxes, variable message signs, automatic traffic counters, meteorological data stations, video incident detection systems, radio communication systems, CCTV cameras, and a control room.
- The control room integrates data from all components, monitors traffic and road conditions, controls variable signs, manages incidents and emergencies, and generates reports. It allows operators to oversee the entire
Intelligent Traffic Light control using Embedded SystemsSrijan Singh
This document discusses an intelligent traffic light control system using embedded systems. It begins with an introduction to embedded systems and what differentiates them from general purpose computers. It then discusses how embedded applications are created by writing software, designing hardware, and testing. The document presents intelligent traffic light control as an example application, where traffic lights and car behaviors are optimized using machine learning methods. Traffic lights communicate with cars to minimize average wait times. Reinforcement learning is used to estimate wait times under different light settings. The results showed this approach reduced average waiting times by at least 70% during busy traffic. The conclusion states this intelligent traffic light control offers higher performance than previous controllers and has potential for larger intelligent transportation system applications.
This document discusses Intelligent Transportation Systems (ITS) and how they aim to enhance transportation efficiency and safety. ITS uses sensors, communication technologies, and traffic control to gather data on traffic volume, vehicle classification, speed, delays, and more. This data is then used to manage traffic flow and provide travelers with real-time transportation information. Floating car data is also discussed, which uses GPS or mobile phones in vehicles to anonymously collect location and speed data to monitor traffic conditions across road networks. The goals of ITS include improving safety, reducing congestion, providing travel/transit information to the public, saving costs, and lowering environmental impacts.
This document discusses intelligent transportation systems (ITS). ITS uses advanced technologies like electronics, computers, communications and sensors to provide travelers with important transportation information and improve safety and efficiency. Some benefits of ITS include time savings, better emergency response, reduced crashes, and environmental benefits. ITS technologies discussed include dedicated short-range communications, continuous air interface for vehicle communication, floating car data for traffic monitoring, sensing technologies, and collision avoidance systems. While ITS provides benefits like improved safety and traffic flow, challenges include high costs and difficulties in mixed traffic environments.
This document summarizes a proposed system called Density Based Signal Management in Traffic System that aims to optimize traffic light timing based on real-time traffic density readings. Road Side Units would monitor vehicle density on all sides of an intersection and prioritize which side receives the green light based on current traffic conditions, with the goal of clearing traffic more efficiently. This approach could help reduce traffic jams and delays by dynamically adjusting light timing based on measured vehicle accumulation rather than fixed schedules.
The company presentation summarizes e-Marine's history and focus on smart ship and maritime IoT solutions. It provides an overview of key partnerships and certifications since 2001, current solutions including ISIG and remote monitoring systems, and future goals around autonomous ships leveraging IoT, big data, and artificial intelligence. The presentation also highlights projections for growing domestic and international markets in smart ships and autonomous vessels starting in 2020.
The document discusses Intelligent Transport Systems (ITS). ITS uses advanced technologies like sensors, computers, electronics and GPS to improve transportation efficiency, reliability and safety. The history of ITS development is outlined from the 1960s to present day. Examples of ITS implementations around the world, including in the US, UK and Pakistan, are provided. ITS can benefit drivers, public transport users and pedestrians. Its scope includes vehicle control, traffic management, safety improvements and more. Widespread adoption of ITS in Pakistan could help address its high road fatality rates by allowing better transportation monitoring and control.
Intelligent transport system (its) [autosaved]Krishna Bhola
The document discusses Intelligent Transportation Systems (ITS). ITS uses advanced technologies like wireless communication, computational technologies, and sensing technologies to improve transportation systems by making them more efficient and safer. Some applications of ITS discussed are electronic toll collection, GPS navigation systems, emergency vehicle notification, automatic road enforcement, and dynamic traffic light sequencing. The benefits of ITS include reduced traffic congestion, accidents, and fuel consumption. However, ITS technologies can be costly to implement and maintain.
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.
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.
The document describes an intelligent traffic management system that uses wireless sensor networks to maximize traffic flow. Sensor data is used to calculate queue lengths and wait times for different traffic phases. The algorithm then determines the phase with the longest wait time and assigns a green light duration between the minimum time needed to clear the queue and the maximum phase time. This adaptive approach aims to reduce average wait times compared to traditional fixed-time traffic signals.
Intelligent Transportation System (ITS) is the modern technique implemented in many developed countries and is under implementation in developing countries like india.This presentation gives a brief idea about ITS.
Intelligent Transportation Systems (ITS) apply information and communication technologies to transportation infrastructure and vehicles to improve safety, productivity, reliability, and other outcomes. ITS technologies are classified as advanced public transport systems, advanced traveler information systems, advanced traffic management systems, automated highway systems, incident management systems, electronic toll collection systems, and advanced warning systems. While ITS offers benefits like speed and travel time improvements and capacity management, it also faces disadvantages such as high costs and difficulties in mixed traffic environments. ITS has potential to help develop efficient transportation in India but widespread adoption remains a challenge.
Intelligent transportation system using wireless sensor networkBrundha Sholaganga
This document discusses using wireless sensor networks for an intelligent transportation system. It aims to gather vehicle data like speed and location using magnetic sensors placed on roads. This data is transmitted using technologies like WPAN and WiFi to process traffic flow and detect open parking spots. Adaptive traffic lights would be controlled based on estimated vehicle density and velocity. Vehicle tracking could also be enabled using RFID sensors and readers. Overall, this wireless approach intends to provide more efficient transportation over traditional methods.
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.
South Yorkshire Intelligent Transport SystemTim Rivett
The document discusses creating an Intelligent Transport System (ITS) for South Yorkshire to help manage congestion issues. Some key points:
- Traffic and car ownership have grown significantly in South Yorkshire in recent years, leading to more congestion.
- An ITS would use technologies like sensors, cameras and variable message signs to monitor traffic flow, detect incidents, and inform travelers of delays or alternatives.
- The goals are to make efficient use of existing infrastructure, manage demand through measures like parking controls, and provide traveler information through different channels.
- Creating a unified ITS could help support an integrated "TravelSouthYorkshire" brand for travel information across modes.
Automatic vehicle location (AVL) systems track and report vehicle locations accurately to help supervise, control, and communicate with vehicles. This helps monitor vehicle status and prevent illegal activities or problems. AVL systems collect data, preprocess it, analyze it, and apply the results. They inform supervisors of vehicle locations and routes, detect accidents, and monitor driver behavior like speeding or taking long breaks. AVL is useful for managing large fleets in industries like shipping, banking, and oil, helping increase profitability. While expensive to install, AVL provides long-term benefits to businesses by keeping track of vehicle conditions and driver actions.
The document discusses intelligent transportation systems (ITS) architecture in Kajang, Malaysia. It provides an overview of ITS, describing how ITS uses technology to improve transportation safety, mobility and efficiency. It then discusses various ITS user services divided into 8 groups and the ITS architecture, which provides a common framework for planning and integrating ITS. This includes the logical architecture defining functions/processes and information flows, and the physical architecture grouping functions into subsystems. It also discusses several ITS components in more detail, including traffic light systems, video detection for traffic lights, smart surveillance systems, and variable message signs (VMS).
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
Advanced Traveler Information Systems (ATIS) provide real-time traffic and navigation information to drivers. It uses sensors and cameras to monitor traffic conditions and congestion. This data is then transmitted to drivers via signs, radio, GPS, and other displays to inform them of delays, accidents, construction, and alternate routes. Implementing ATIS requires high initial costs but can help reduce traffic, provide safety warnings, and improve road conditions once established.
Real time information systems in TransportationAravind Samala
An efficient transport system is essential for sustainable economic development of the country and plays a significant role in promoting national and global integration.
Efficient transport is indispensable to the economic development of nation.
From past few years Intelligent Transportation Systems (ITS) are copiously deployed in the modern transportation systems to efficiently control and manage transportation.
By using certain ITS techniques like Advanced Traveller Information System (ATIS), Automatic Vehicle Location (AVL), Variable Message Service (VMS), etc., real-time information about travel, traffic, cautionary measures are provided.
This document provides an introduction and overview of an Automated Traffic Management System (ATMS). The key points are:
- ATMS aims to ensure smooth traffic flow, increase transportation efficiency, and enhance road safety through real-time traffic monitoring, emergency response coordination, and dynamic message displays.
- The main components of ATMS include emergency call boxes, variable message signs, automatic traffic counters, meteorological data stations, video incident detection systems, radio communication systems, CCTV cameras, and a control room.
- The control room integrates data from all components, monitors traffic and road conditions, controls variable signs, manages incidents and emergencies, and generates reports. It allows operators to oversee the entire
Intelligent Traffic Light control using Embedded SystemsSrijan Singh
This document discusses an intelligent traffic light control system using embedded systems. It begins with an introduction to embedded systems and what differentiates them from general purpose computers. It then discusses how embedded applications are created by writing software, designing hardware, and testing. The document presents intelligent traffic light control as an example application, where traffic lights and car behaviors are optimized using machine learning methods. Traffic lights communicate with cars to minimize average wait times. Reinforcement learning is used to estimate wait times under different light settings. The results showed this approach reduced average waiting times by at least 70% during busy traffic. The conclusion states this intelligent traffic light control offers higher performance than previous controllers and has potential for larger intelligent transportation system applications.
This document discusses Intelligent Transportation Systems (ITS) and how they aim to enhance transportation efficiency and safety. ITS uses sensors, communication technologies, and traffic control to gather data on traffic volume, vehicle classification, speed, delays, and more. This data is then used to manage traffic flow and provide travelers with real-time transportation information. Floating car data is also discussed, which uses GPS or mobile phones in vehicles to anonymously collect location and speed data to monitor traffic conditions across road networks. The goals of ITS include improving safety, reducing congestion, providing travel/transit information to the public, saving costs, and lowering environmental impacts.
This document discusses intelligent transportation systems (ITS). ITS uses advanced technologies like electronics, computers, communications and sensors to provide travelers with important transportation information and improve safety and efficiency. Some benefits of ITS include time savings, better emergency response, reduced crashes, and environmental benefits. ITS technologies discussed include dedicated short-range communications, continuous air interface for vehicle communication, floating car data for traffic monitoring, sensing technologies, and collision avoidance systems. While ITS provides benefits like improved safety and traffic flow, challenges include high costs and difficulties in mixed traffic environments.
This document summarizes a proposed system called Density Based Signal Management in Traffic System that aims to optimize traffic light timing based on real-time traffic density readings. Road Side Units would monitor vehicle density on all sides of an intersection and prioritize which side receives the green light based on current traffic conditions, with the goal of clearing traffic more efficiently. This approach could help reduce traffic jams and delays by dynamically adjusting light timing based on measured vehicle accumulation rather than fixed schedules.
The company presentation summarizes e-Marine's history and focus on smart ship and maritime IoT solutions. It provides an overview of key partnerships and certifications since 2001, current solutions including ISIG and remote monitoring systems, and future goals around autonomous ships leveraging IoT, big data, and artificial intelligence. The presentation also highlights projections for growing domestic and international markets in smart ships and autonomous vessels starting in 2020.
The document discusses Intelligent Transport Systems (ITS). ITS uses advanced technologies like sensors, computers, electronics and GPS to improve transportation efficiency, reliability and safety. The history of ITS development is outlined from the 1960s to present day. Examples of ITS implementations around the world, including in the US, UK and Pakistan, are provided. ITS can benefit drivers, public transport users and pedestrians. Its scope includes vehicle control, traffic management, safety improvements and more. Widespread adoption of ITS in Pakistan could help address its high road fatality rates by allowing better transportation monitoring and control.
Intelligent transport system (its) [autosaved]Krishna Bhola
The document discusses Intelligent Transportation Systems (ITS). ITS uses advanced technologies like wireless communication, computational technologies, and sensing technologies to improve transportation systems by making them more efficient and safer. Some applications of ITS discussed are electronic toll collection, GPS navigation systems, emergency vehicle notification, automatic road enforcement, and dynamic traffic light sequencing. The benefits of ITS include reduced traffic congestion, accidents, and fuel consumption. However, ITS technologies can be costly to implement and maintain.
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.
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.
The document describes several smart transportation solutions implemented by CENTIOS in South Korea:
1. An Advanced Traffic Management System (ATMS) that collects traffic data from sensors and cameras and provides information to drivers through variable message signs and an traffic information center.
2. An Automated Traffic Signal Control System (ATSCS) that adjusts traffic light timing in real-time based on vehicle detection systems at intersections.
3. A Bus Information/Management System (BIS/BMS) that provides bus schedule and routing information to drivers and passengers through on-board units and displays at bus stops.
4. A Bus Rapid Transit (BRT) system that has increased transit speeds and citizen satisfaction on
Elecnor Deimos provides the Railways Suite, an integrated software solution for railway operators. The suite includes modules for traffic supervision, passenger information, remote station management, inventory and maintenance, real-time meteorological data, resource location, and supporting technologies. The suite allows operators to monitor traffic in real time, manage passenger flow, control station devices remotely, and generate reports on key performance indicators. It also includes asset management, maintenance management, and real-time GPS tracking of trains, vehicles, people and cargo.
This document discusses intelligent transportation systems (ITS), which use technology to improve transportation safety, mobility, and efficiency. ITS can reduce traffic and congestion through tools like traffic monitoring, route guidance, and smart traffic lights. The document outlines various ITS components and applications that have been implemented in different countries to increase road capacity, reduce travel time and accidents, and lower environmental impact. Challenges to implementing ITS include lack of skilled workers, economic and psychological readiness of regions, and political issues.
This document provides an overview of Intelligent Transport Systems (ITS) including a brief history, applications, and examples of ITS implementations in India. Some key points:
- ITS apply information technologies like sensors and computers to improve transport network operations, acquiring data on traffic and using it to guide traffic, enhance safety, and reduce costs.
- Common ITS applications include traffic monitoring, traveler information systems, vehicle control systems, and public transport management.
- Early ITS development began in the 1960s with systems in the US and Europe, with many countries now implementing ITS technologies and applications.
- India has piloted various ITS such as automatic traffic control systems in major cities, travel
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.
The Modular Vehicle System (MVS) is the latest generation of our on-board communication system, developed for use in public transport vehicles such as: buses, trams, light rail and metros.
However, it can also be used for priority request for emergency vehicles. Its aim is to increase the effectiveness, quality and appeal of public transport by providing accurate and relevant information to passengers, drivers and operators. The current version of the system is the result of more than thirty years’ experience in mobile telematics, based on user requirements and incorporating the latest technology.
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.
This technical seminar presentation provides an overview of Intelligent Transportation Systems (ITS). ITS uses advanced technologies like wireless communications, sensors, and computational systems to improve traffic flow, reduce congestion, and enhance safety. The presentation defines ITS and its components, classifies different types of ITS including advanced traffic management systems, electronic toll collection, and advanced traveler information systems. It discusses the benefits of ITS in reducing congestion and accidents while saving lives, time, and money. The presentation also provides context on implementing ITS in India to improve public transportation and build infrastructure more efficiently.
ITS is the system defined as the electronics, advanced technology, communications or information processing used singly or integrated to enhance safety, mobility, and the economic vitality of the surface transportation system. The Intelligent Transport Systems (ITS) makes automobiles and the road traffic infrastructure intellectual and information-oriented in an integrated way to provide a safe and comfortable traffic system.
This document summarizes an adaptive traffic control system based on an embedded Linux board and image processing. The system uses a Raspberry Pi single board computer and OpenCV to process video frames from a digital camera mounted at an intersection. Vehicle counts on each road are determined using background subtraction and a Kalman filter algorithm. Based on the vehicle densities, different signal times are assigned to each road to improve traffic flow. The system also prioritizes emergency vehicles using GSM and GPS modules. Traffic data is stored on a web server to synchronize signals across intersections. The system aims to provide smoother traffic flow compared to fixed-time traffic signals.
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.
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.
Traffic information systems collect and process current traffic data and disseminate it to users. They can be centralized, with a central authority collecting, processing, and sharing data, or decentralized, where each vehicle collects and shares local data. Key elements include data collection, processing, and dissemination. Decentralized systems avoid issues with centralized systems like limited coverage and high costs. One example is SOTIS, where each vehicle monitors local traffic and shares data with surrounding vehicles via wireless links. This allows comprehensive coverage without fixed infrastructure. Driving route-based visual TIS provides personalized traffic information to each user based on their specific route.
The document discusses several approaches to improving urban infrastructure:
1. Wireless magnetic sensors can be used to monitor traffic flow more cheaply than inductive loops, providing data to optimize traffic signals and assess road damage.
2. An organic traffic control system and dynamic route guidance can significantly reduce traffic delays, especially during incidents, by optimizing traffic light patterns and advising drivers of the best routes.
3. An automated parking system stacks vehicles vertically using mechanical lifts, nearly doubling parking capacity while reducing the land area needed compared to a multi-story parking garage.
The document summarizes smart work zone systems and technologies. It discusses the background and components of smart work zones, examples of large-scale smart work zone projects in Colorado and Illinois, the current state of practice including connected vehicle data projects in Pennsylvania, and future technologies like signal phase and timing systems and queue warning systems using connected vehicles. It also covers policy considerations for when and how to implement smart work zone systems and select appropriate solutions.
The document provides a summary of the final report of the Connected Cruise Control project. The project aimed to develop a system that provides drivers with tactical driving advice based on integrating in-vehicle systems with roadside traffic data. The project addressed questions related to the system architecture, data fusion within vehicles, the impact on traffic flow, functionalities of speed/headway/lane advice, and human-machine interface design. The project resulted in a demonstration system, models for estimating traffic flow, and HMI recommendations. The system architecture is designed to be open, interoperable and flexible to integrate current and future components.
Increasing traffic in major urban regions leads to congestion which challenges cities and urban regions in terms of mobility, pollution and safety. ITS is application of information and communications technology (ICT) to the transport sector in the interests of safer, more sustainable & more efficient movement of goods & people.
The integration of intelligent infrastructure and intelligent vehicles had gained wide acceptance yet understanding the various options without incurring unnecessary expenditure is core in ITS planning and implementation. The presentation explains various ITS portfolios, value chain and life-cycle management with focus on the appropriate level of integration.
Similar to Ls catalog thiet bi tu dong its e_110530 (20)
This document provides a quick start guide for the FED-C Series AC drive. It includes information on safety, wiring, the operating panel, quick setup, standard parameters, troubleshooting, and revision history. The guide contains basic instructions to get started with installation and configuration of the AC drive.
Fed e-quick-start-manual-bientanfuji-dienhathe.comDien Ha The
This quick start guide provides instructions for setting up and operating an inverter. It begins with an overview of product information, including nameplate details and specifications. It then covers wiring, including diagrams for 3-phase and single-phase power supply types. Terminal functions are described for the main circuit and control circuit. The guide presents a timing diagram for the control logic and acceleration/deceleration profiles. It concludes with a step-by-step setup process, including getting familiar with the keypad, setting motor parameters, checking rotation direction, and setting function codes for features like the startup frequency and DC injection braking.
Bảng giá LS 2019 - Bảng giá mới sẽ áp dụng từ ngày 20.0.2019
Để cập nhật các bảng giá mới lĩnh vực thiết bị điện Công
Nghiệp.Quý khách vui lòng vào link bên dưới
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Mitsubishi graphic operation terminal got2000 series parts library bookDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
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Mitsubishi inverter fr-a700-instruction-manualbasic-160425031653Dien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
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Mitsubishi graphic operation terminal got2000 series gt2103 new product releaseDien Ha The
Mitsubishi ,
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Mitsubishi graphic operation terminal got2000 series got mobile function quic...Dien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
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Mitsubishi graphic operation terminal got2000 series drive control interactiv...Dien Ha The
Mitsubishi ,
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Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
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Mitsubishi ,
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Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
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Mitsubishi low voltage ws-v series mccb and elcbDien Ha The
Mitsubishi ,
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Mitsubishi graphic operation terminal got2000 series (concise)Dien Ha The
- Monitor the GOT screen from a remote location.
- Switch screens and operate touch switches.
Control:
- Monitor and operate the GOT from a remote location.
- Switch screens, operate touch switches, change settings, and more.
Number of
simultaneous
connections
1 client
Multiple clients✽1
Screen
switching
Not possible
Possible✽2
Client OS
Windows, Linux, macOS, Android, iOS
Windows, Linux, macOS, Android, iOS
Client software
- Web browser
- Viewer software
- Web browser
- VNC client software✽3
Mitsubishi low voltage ws-v series comparison of previous and new modelsDien Ha The
1. The document compares previous and new models of molded-case circuit breakers and earth-leakage circuit breakers.
2. It outlines differences in dimensions, performance, and specifications between previous W & WS series models and new WS-V series models. Key changes include changes in tripping methods, operating characteristics, dimensions, rated currents, and breaking capacities.
3. Replacement models are identified for previous models, along with any drilling dimension or front plate cutout changes between models. Some models were added or had specifications adjusted.
Mitsubishi ,
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Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
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Mitsubishi low voltage miniature circuit breakers din seriesDien Ha The
Mitsubishi ,
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Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
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Mitsubishi ,
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Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
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Mitsubishi low voltage mccb and elcb(ws-v series) y0720-version 1-mitsuDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
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Mitsubishi inverter freqrol-f700 pj seriesDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
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Mitsubishi inverter catalog-mitsubishi-inverter-option-160426021125Dien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
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Open Channel Flow: fluid flow with a free surfaceIndrajeet sahu
Open Channel Flow: This topic focuses on fluid flow with a free surface, such as in rivers, canals, and drainage ditches. Key concepts include the classification of flow types (steady vs. unsteady, uniform vs. non-uniform), hydraulic radius, flow resistance, Manning's equation, critical flow conditions, and energy and momentum principles. It also covers flow measurement techniques, gradually varied flow analysis, and the design of open channels. Understanding these principles is vital for effective water resource management and engineering applications.
Prediction of Electrical Energy Efficiency Using Information on Consumer's Ac...PriyankaKilaniya
Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
Generative AI Use cases applications solutions and implementation.pdfmahaffeycheryld
Generative AI solutions encompass a range of capabilities from content creation to complex problem-solving across industries. Implementing generative AI involves identifying specific business needs, developing tailored AI models using techniques like GANs and VAEs, and integrating these models into existing workflows. Data quality and continuous model refinement are crucial for effective implementation. Businesses must also consider ethical implications and ensure transparency in AI decision-making. Generative AI's implementation aims to enhance efficiency, creativity, and innovation by leveraging autonomous generation and sophisticated learning algorithms to meet diverse business challenges.
https://www.leewayhertz.com/generative-ai-use-cases-and-applications/
Determination of Equivalent Circuit parameters and performance characteristic...pvpriya2
Includes the testing of induction motor to draw the circle diagram of induction motor with step wise procedure and calculation for the same. Also explains the working and application of Induction generator
Build the Next Generation of Apps with the Einstein 1 Platform.
Rejoignez Philippe Ozil pour une session de workshops qui vous guidera à travers les détails de la plateforme Einstein 1, l'importance des données pour la création d'applications d'intelligence artificielle et les différents outils et technologies que Salesforce propose pour vous apporter tous les bénéfices de l'IA.
Supermarket Management System Project Report.pdfKamal Acharya
Supermarket management is a stand-alone J2EE using Eclipse Juno program.
This project contains all the necessary required information about maintaining
the supermarket billing system.
The core idea of this project to minimize the paper work and centralize the
data. Here all the communication is taken in secure manner. That is, in this
application the information will be stored in client itself. For further security the
data base is stored in the back-end oracle and so no intruders can access it.
2. UTMS (Urban Traffic Management System) 06
DSRC (Dedicated Short Range Communication) 08
ATES (Automatic Traffic Enforcement System) 10
FTMS (Freeway Traffic Management System) 12
TCS/ETCS (Toll Collection System/Electronic Toll Collection System) 16
C . O . N . T . E . N . T . S
FTMS
Freeway Traffic
Management System
UTMS
Urban Traffic
Management System
DSRC
Dedicated Short Range
Communication
ATES
Automatic Traffic
Enforcement System
TCS/ETCS
Toll Collection System/
Electronic Toll Collection
System
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3. Intelligent Transport Systems 02 _ 05
LeadingYouTowardaGreater
Future than You Imagine
LSIS’ transportation system solution helps to build a faster,
safer, more eco-friendly transportation system by
incorporating cutting-edge technologies of electronics,
electricity, control, and information communication fields
into a transportation system, such as UTMS, DSRC, ATES,
FTMS and TCS/ETCS.
Experience our transportation system solution, the fittest of
all in the ever-evolving ubiquitous environment.
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5. Image VDS
CCTV
Signal ControllerSignal Controller
DSRC Controller & AntennaDSRC Controller & Antenna
Multifunctional
Enforcement System
Multifunctional
Enforcement System
VMSVMS
Image VDS
CCTV
FTMS
Freeway Traffic
Management System
UTMS
Urban Traffic
Management System
DSRC
Dedicated Short Range
Communication
ATES
Automatic Traffic
Enforcement System
TCS/ETCS
Toll Collection System/
Electronic Toll Collection
System
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6. Urban Traffic Management SystemUTMS
The UTMS
is a system which, using a number of
devices, collects, operates, and manages
various traffic data of the downtown and
adjacent areas to improve road efficiency,
and to provide road users with more
convenient transportation environment.
Features
“Communication with the Road” enabled by High-Tech System
Developed with cutting-edge technologies, LSIS’ UTMS provides drivers with
more comfortable traffic environment, and operators with more convenient operation environment.
�Enables a center to monitor the traffic conditions of major intersections and other roads
in the city in real-time.
�Detects and responses to traffic congestions and accidents on the road in real time.
�Facilitates the construction of a highly-reliable city transportation management system.
�Monitors the system status and I/O-related on-site operation conditions in real time.
�With full graphic resources, it provides a user environment that allows optimal monitoring
and control of the traffic conditions and the system.
�Supports various operating environments including Unix and Windows.
�Long-term data storage and efficient information management using a relational database.
�Provides a system environment that facilitates building an external linkage system with
other systems.
�Provides various formats of a report to satisfy the user’s needs.
�Provides freeway users with the information of various types – text, image, etc.
– through ARS, web, mobile phone, PDA, etc. (optional)
�Web-based monitoring function (optional)
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7. System Structure
Integrated Operation
System Screen
�Viewing/
management of
traffic information
�History
management
�Management of
statistics and other
information
Status Display
System Operation
Screen
�Display of road and
traffic conditions
�CCTV screen display
�Status display that
suits the user’s
needs.
Web Information
Display Screen
�Road and traffic
conditions
�Traffic accident/
restriction status
�Real-time road
images
�Estimated time to
arrive at the destination
Report Screen
�Daily/monthly/
annual reports
�Access to various
statistics DB data
�Enabling an operator
to write a list that
suits his/her needs
High-tech Traffic
Signal Control Screen
�Real-time remote
control of signals
�Viewing the
information of
each intersection
�Uploading/
downloading of the
intersection DB.
VMSOperationScreen
�Real-time
monitoring of VMS
messages
�Editing of VMS
messages
�Remote control of
on-site VMS
Components
�Main frame
�Integrated operation terminal
�Network devices, etc.
�Traffic signal control system
�Signal control server
(LMS, GMS)
�Vehicle detector (loop), etc.
�Status display (DLP, LCD, etc.)
�Wall Controller, etc.
�Information terminal in a bus/
at a bus stop
�Businformationcollectingdevice,etc.
�Variable Message Signs (VMS)
�VMS Server, etc.
�CCTV camera
�CCTV server, etc.
Integrated
Management System
Subsystem Components Description
Signal Control System
Status Display System
Bus Information
System
Variable Message
Signs (VMS) System
Video Collection
System (CCTV)
�Periodically processes the data collected by detectors and compiles statistics.
�Monitors various system operation statuses and manages the DB.
�Collects real-time traffic conditions data, such as traffic volume, occupancy
rate, speed, etc., from the road, and sends them to the signal control server.
�Processes the collected data according to the signal control algorithm,
and controls the intersection coordination and the timing of each signal
based on the results.
�Monitors the entire road conditions, and displays all the task and status
of the system for an operator.
�Provides road users with useful information using a roadside sign board.
�Collects, processes and provides the bus information in real time.
�Collects and provides the real-time on-site video through CCTVs.
Function
�Collects the traffic conditions data and compiles statistics.
�Monitors the operation status of on-site devices and the system.
�Collects and processes the location/operation data of buses.
�Identifies and responds to traffic congestion, accidents, and restrictions in real time.
�Collects the real-time traffic data of intersections and roads, and operates the optimum signal control.
�Provides immediate reports on various information including traffic and settings information.
�Provides road users with the information of the traffic conditions, accidents, restrictions, etc on a specific section of a road.
�Provides the bus location information, etc. in real time.
Data collection /
processing
Situation response
Information delivery
LMS GMS VMS Server CCTV ServerMPU Firewall
BUS
OBE
Bus Server
Info
Terminal at
Bus Stop
Info Terminal at
in Stop
Collective
Comm.
Device
Collective
Comm.
Device
Loop Detector On-site CCTV
Camera
On-site CCTV
Camera
VMS VMS
Loop Detector
Signal
Controller
Signal
Controller
Collective Comm.
Device
Main Frame
(Main)
Main
Frame
(Standby)
RGB
Matrix
Video Display Control Server
Text
Generator
Wall Controller
Video
Matrix
Backbone
Switch 1
Backbone
Switch 2
Operation
Terminal
Integrated Mngt. System
Signal Control System Variable Message Signs System Video Collection System Bus Information System
Status Display System
Intelligent Transport Systems 06 _ 07
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8. Dedicated Short Range CommunicationDSRC
The DSRC
Powered by roadside equipments capable of short-range two-
way communication, the DSRC collects and processes the data
delivered from hi-pass terminals installed on running vehicles,
and then provides the resulting information to road users.
System Features
So far, the transportation information systems have had adopted the one-way communication with image/loop detectors to collect data, which
put inevitable limitation on the reliability and the usability of the data. The DSRC Transportation Information System, however, can collect
accurate data through hi-pass terminals installed on vehicles, and deliver interactive, diverse content services through the two-way
communication, laying the groundwork for a high-tech transportation environment.
The DSRC Transportation Information System facilitates a high-tech transportation
environment that is more accurate and more intelligent.
Accuracy [99% or higher data reliability]
�99% or higher communication success rate
�99% or higher spatial detection accuracy
�99% or higher accuracy of provided transportation information
Extensibility [A variety of application services available ]
�Hi-pass-equipped vehicle tracking service
�Congestion toll collection function for urban areas
�Parking fee collection function can be added.
�Gas station payment solution can be added.
Affordability [No need for a communication system for each service]
�All is needed is to install roadside equipments.
�Various services can be applied using only one communication platform.
�Reduced cost by employing a Master/Slave structure
(A solar power generator system is applicable. Wireless communication through CDMA.)
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9. Service
Control Unit Antenna Unit
32bit 400 MHz or higher
128MB
128MB
2GB or more (SD Type)
Embedded Real-time OS
-34℃~74℃ (20%~90%)
470×740×287, IP-66 waterproof
Natural convection method
CPU
RAM
Flash Memory
External storage device
OS
Operation Temperature/Humidity
Housing
Cooling method
Item Description
�RF automatic temperature adjustment function
�Covers up to 10 lanes for
information collection
�Software RF output, gain,
and adjustment functions
�Main channel switching
function
5.8GHz (5.795GHz~5.81GHz)
8 MHz
1,024MBps
DC 24V
2 kg
-35℃~55℃
IP-66 waterproof
Broadcasting frequency
Channel bandwidth
Transfer rate
Power
Weight
Operation Temperature
Housing
Performance
Item Description
Real-timeTransportationInformationDeliveryService BIS (Bus Information System) Service Toll Collection Application Services
Intelligent Transport Systems 08 _ 09
DEDICATED SHORT RANGE COMMUNICATION
DSRC
Information delivery to a hi-pass terminal
Information delivery to VMS and IT devices
Information delivery to bus stops
Operation management system
Congestion toll collection
Unmanned parking fee/ gas price collection
�Freeway/arterial road
transportation information VMS
�Bus Information System (BIS)
�In-vehicle display of real-time
transportation information
(A high-pass terminal providing
transportation information)
�Provides reliable real-time road
information using various IT devices
�Provides specialized transportation
information for each section
RF Communication
RF Communication
Antenna
Control Unit
Local Local
Navigation
Hi-pass Terminal
PDF,
Mobile
Phone
Bus Stop
VMS System
PC
KIOSK
Main Transportation
Information Center
Wired or Wireless
Communication
Wired or Wireless
Communication
Information Collection
Information Processing
Information Delivery
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10. Automatic Traffic Enforcement SystemATES
The ATES
is a system which identifies violations of
traffic regulations, such as speed limits,
signals, bus lanes, etc. in real time, and
automatically processes them
administratively.
Features
“The Protector of the Road” for Safe Driving
The high-performance ATES equipped with LSIS’ accumulated technologies
of electronics, information and communications facilitates safer and more pleasant
transportation environments.
�Enforces an 80km speed limit on freeways against freight cars over 1.5 tons
�Simultaneous enforcement of speed limits and bus lanes
�Simultaneous enforcement of speed limits and traffic signals
�In case of traffic congestion, complete compensation for signal interference by a vehicle
in the back in case of traffic congestion
�Stable enforcement of traffic regulations in all seasons and weathers
�Identification of all vehicle registration plates that can be easily changed by upgrades.
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11. System Structure
Image Acquisition/
Identification of a
Violator’s Vehicle
�Acquires the images
of a violator’s vehicle
�Secures and
processes
high-quality images
Easy-to-Use
Maintenance GUI
�Menu configuration
convenient for
on-site use.
�Various H/W
control menus
Vehicle Background
Check
�Automatic/manual
check function
Remote Control of
a Local Controller
�H/W remote control
(to change a target
lane)
�S/W remote control
(to change the
enforced lane)
Real-time
Enforcement Data
Transfer
�Real-time data
transfer
�Communication
control and error
detection
Statistical Data Display
�Displays the annual/
monthly/daily
statistical data
�Displays statistics for
daytime/nighttime.
Components
�DB server
�Vehicle background check
computer
�Speed detection unit
�Image acquisition unit
�Control Unit
�Identification Software
Center System
On-site System
Subsystem Components Description
�Stores the enforcement data for each year, month, day and site.
�Checks/prints/stores the background information of a vehicle that violated
the regulation.
�Provides various statistical reports to suit the user’s needs, and remotely
controls a local controller.
�Acquires high-quality, high-definition images, even of vehicles running at
high speed.
�Minimizes obstruction to drivers’ view caused by lights. Fast recharge.
�Directly controls on-site equipments or check their status.
�Identifies a license plate using acquired images, and send the results to the
center in real time.
�Identifies a license plate in a fast and accurate manner by employing an
efficient identification algorithm.
�Continuous upgrades to identify all versions of license plates.
�Calculates the speed with high reliability by using a loop detector.
�Perfect compensation for abnormal traffic patterns, such as traffic congestions.
Function
�Enforces speed limits in freeways, national roads, and city streets
�Enforces bus lanes in freeways and city streets
�Enforces traffic signals and speed limits in city intersections and crossroads.
Speed enforcement system
Bus lane enforcement system
Multifunctional enforcement system
Image
Acquisition
Unit
Image
Acquisition
Unit
Control Unit
LOOP LOOP
Control Unit
Vehicle Background
Check Computer
Printer Envelope Sealing
Machine
Center Comm. Device
(Terminal Server,
Switching Hub, DSU)
Operation
Terminal
DB Server Disk Array &
Backup Device
Comm. Server
Police Host
Local Control Unit #1 Local Control Unit #N
Comm. Network
Intelligent Transport Systems 10 _ 11
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12. Freeway Traffic Management SystemFTMS
The FTMS
is a system which monitors traffic
conditions, collects the information, and
provides them to freeway users using
vehicle detectors, data processing devices,
etc, to maximize the efficiency and the
capacity of the freeway.
Features
Further Evolved “Ubiquity on the Road”
With faster, more accurate information, LSIS’ high-tech freeway traffic
management system facilitates safe driving and efficient communication on the freeway.
�Allows a center to monitor the freeway conditions of the entire section in real time.
�Automatically detects traffic congestions and incidents in real time, and respond to them in
a rapid, safe manner.
�Facilitates a reliable FTMS that meets the user’s needs.
�Provides real-time monitoring of the system status and I/O-related on-site operation conditions.
�Supports various operating environments including UNIX and Windows.
�Long-term data storage and efficient information management using a relational database.
�Provides a system environment that facilitates building an external linkage system with
other systems.
�Provides various formats of a report to satisfy the user’s needs.
�Provides freeway users with the information of various types – text, image, etc.
– through ARS, web, mobile phone, PDA, etc.
�Web-based monitoring function (optional)
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13. System Structure
Traffic Monitoring
System
�Traffic condition
monitoring screen
�Accident/restriction
monitoring screen
�On-site system
status monitoring
CCTV Operation
Screen
�Monitoring of the
on-site video
�CCTV control
�Video input/
output control
Web Information
Display Screen
�The traffic
conditions
�Traffic accident/
restriction status
�Real-time road
images
Report Screen
�Daily/monthly/
annual reports
�Various statistics DB
reports print-out
�A report that meets
the user’s needs.
VMS Operation
Screen
�Real-time VMS
message monitoring
�VMS message
editing
�Remote control of
the on-site VMS.
Accident/Restriction
Response Screen
�Identification of and
response to traffic
accidents and
restrictions
�Editing and display
of VMS emergency
messages
�Road restriction
status management
Components
�Main frame
�Integrated operation terminal
�Network devices, etc.
�Loop detector
�Image detector
�Ultrashort wave detector, etc.
�Status display (DLP, LCD, etc.)
�Wall Controller, etc.
�Variable Message Signs (VMS)
�VMS Server, etc.
�CCTV camera
�CCTV server, etc.
�Roadside emergency phone
�Keyphone switcher, etc.
�ARS/Web server, etc.
Integrated
Management System
Subsystem Components Description
Vehicle Detection
System (VDS)
Status Display System
Variable Message
Signs (VMS) System
Video Collection
System (CCTV)
Emergency Phone
(EP)
ARS/Web
System
�Processes the data collected by detectors and compiles statistics periodically.
�Monitors the communication conditions and automatically detects traffic
incidents and restrictions.
�Monitors various system operation statuses and manages the DB.
�Collects in real time the traffic conditions data, such as traffic volume,
occupancy rate, speed, from the road, and sends them to the center.
�Monitors the entire road conditions, and displays all the task and status
of the system for an operator.
�Provides road users with useful information using a roadside sign board.
�Collects and provides the real-time on-site video through CCTVs.
�Allows road users to contact the Traffic Information Center from the road
in case of emergency.
�Provides road users with various real-time traffic information through
the ARS or the Internet.
Function
�Collects the traffic condition / system operation data in real time using various devices.
�Processes and provides the data for operators and road users in real time.
�Identifies and responds to unpredicted situations caused by accidents, natural disasters, etc. in real time.
�Identifies and responds to traffic congestion in each section of the road in real time.
�Provides road users with useful traffic information in real time.
�Provides operators with useful road/system operation information in real time.
Data collection /
processing
Situation response
Information delivery
PBX
ARS Server
VDS Server VMS Server
CCTV ServerMPU Phone
Roadside
Emergency Phone
Roadside
Emergency Phone
Emergency
Phone Server
Keyphone
SwitcherCollective
Comm.
Device
Collective
Comm.
Device
Image Detector On-site CCTV On-site CCTV
VMS VMS
Loop Detector
On-site
VDS
Controller
On-site
VDS
Controller
Collective Comm.
Device
Web Server
External
Linked
Server
Main Frame (Main) Main Frame
(Standby)
Operation
Terminal RGB
Matrix
Video Display
Control Server Text Generator
Wall Controller
Video Matrix
Backbone
Switch 1
Backbone
Switch 2
Firewall
Server
ARS/Web System
Vehicle Detection System Variable Message Signs System Video Collection System Emergency Phone System
Integrated Mngt. System Status Display System
Intelligent Transport Systems 12 _ 13
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14. An image detector is a traffic data measuring system which accurately measures the information
(traffic volume, speed, vehicle length, etc.) of a vehicle on the road in real time using a video camera,
and then collects, analyzes, and saves the information at a minimum time unit to provide them
to a VDS server and a host computer.
Features
�Reliable accuracy
�Extensibility in terms of the traffic operation
�Easy adjustment of the detection range
�Simultaneous detection of several vehicles
�Easy maintenance
�Reduced maintenance cost
Applicable Areas
Traffic information collection system, traffic accident auto-detection system, traffic
signal controller, unmanned monitoring system (speeding, traffic signal violation,
etc.), and other ITS-related devices and applications.
Camera Unit
Aluminum, Built-in heater
(temp. management function)
1/4”CCD, NTSC, 570 TV lines or more
F1.4~360, C/CS Mount
Stainless, Loading capacity of 10 kg or more
Camera
Lens
Bracket
Housing
Control Unit
Pentium or higher
128MB or more
4 Serial, 2 Parallel, 1 LAN, 4 Digital I/O
1/100 or less Built-in battery backup function
CPU
RAM
I/F
Real Time Clock
Local Type
Local Type Center Type
Center Type
Centralized
control by a center
On-site controlControl Type
Image Detector
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15. Applicable Areas
Traffic information collection system, traffic accident auto-detection system, traffic
signal controller, unmanned monitoring system (speeding, traffic signal violation,
etc.), and other ITS-related devices and applications.
Features
�Sends the Main Control Center the lane information – traffic volume,
speed, occupancy, vehicle length, etc.
�More-than-95% reliability of the collected information,
such as volume, speed, occupancy, etc.
�Incorporating a 4-channel loop detector card.
�Can be used as a detector to verify the video VDS.
Detection Unit
600m or shorter
A single/multi-layer insulation made
of polyethylene or equivalent
No damage to the outer surface
at the temperature above 200°C
Coating Material
Operation Temperature
Loop Inlet Line
Control Unit
32Bit, 66MHz or more
RS-232C / Ethernet
up to 32 channels (max. 16 lanes)
- 34℃~ +74℃
Stainless
AC220V±10%, 60Hz±1Hz
Upon request from the main device, it
transfers the computed data
required for statistical analysis of the
main device, such as the
average vehicle speed (km/h), traffic
volume (number of vehicles/h),
occupancy rate (%), and the vehicle length.
Analyzes/saves in real time the traffic
parameters at a time interval
predefined by an operator.
In case of initial operation, a short circuit,
or restoration, a self-diagnosis program
checks RAM, ROM, and Watch Dog Time.
CPU
Center Interface
Numberofinputchannels
OperationTemperature
Housing Material
Input Power Voltage
Data Management
Function
Self Diagnosis
Function
Data Collection/
Management Function
Intelligent Transport Systems 14 _ 15
A loop detector is a traffic information collection system which detects the occupancy rate, the speed,
the traffic volume, etc. of a vehicle passing through a loop coil installed on each lane of freeways,
national roads, and city streets. It also saves and analyzes the vehicle information detected by a loop detector
controller, and transfers the information demanded by the center.
Loop Detector
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16. Toll Collection System/
Electronic Toll Collection SystemTCS/ETCS
The TCS
is a system which collects tolls, measures
traffic volume, and carries out all office
tasks related to the toll collection. It also
enforces traffic regulations and gathers
traffic information.
The ETCS
is a system which collects tolls using the
wireless communication between an on-
board unit (OBU) installed on a vehicle and
a roadside antenna, allowing a vehicle to
pass through a tollgate without any hassle.
Features
Fast, Convenient, Unfettered “Low Carbon Oxide Tollgate”
With enhanced reliability, functionality, and extensibility,
LSIS’ TCS/ETCS greatly reduces congestion and wait time at a toll gate.
TCS
�Reduces time necessary to process toll payments to improve users’ convenience
�Accurate, easy toll collection process based on a reliable system
�Minimizes the workforce size by streamlining the work process
�Enables various modes of payments by employing an electronic card (compatible with ETCS)
ETCS
�Eliminates wait time by enabling a driver to make a payment without stopping at the tollgate
�Safe toll collection based on a password authentication method
�Reduces operation cost by adopting an unmanned system.
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17. System Structure
Components
Center server
Vehicle classifier
Vehicle detector
Lane controller
Prepaid ticket reader
Receiptissuingmachine
Anti-evasion system
Toll fare indicator
Office server
Automatic ticket
issuing machine
Ticket reader
IR/RF antenna
Toll terminal
Integrated lane
controller
Weigh-in-motionserver
Evasion server
Photoenforcementdevice
Driver indicator
Common
Closed-/ open-type
Closed-type
Closed-type
Closed-/ open-type
Closed-/ open-type
Closed-/ open-type
Closed-/ open-type
Common
Closed-type
Closed-type
ETCS
Open-type
ETCS
Common
Common
ETCS
ETCS
Headquarter(Center)Equipments
Office Equipments
On-site Equipments
Subsystem Components Description
Processes and stores the collected operation data based on various algorithms
Prepares reports based on the data shared with the lane equipments.
It also stores the data, transfers them to a upper-level computer, etc.
Processes the data transmitted from a weigh-in-motion lane to enforce the weight limit
Stores and processes the data uploaded by the anti-evasion system.
Automatically issues a user with a ticket containing information, such as the
vehicle type, the office number, etc.
Classifies a passing vehicle as Type 1 -6 to provide the information to the lane controller.
Calculates the number of entering vehicles
Processes and stores various data, and controls all the peripheral devices.
Verifies the information on the ticket received from a user, and carries out an
attendant’s responsibilities.
Processes a freeway card, subtracting and printing out the toll fare.
Prints out and issues a receipt showing the information processed by the ticket reader.
Prevents toll evasion by photographing the license plate of a violator’s vehicle.
Indicates the vehicle type and the toll road price.
Processes and stores various data of an open-type road. Controls peripheral
devices and carries out an attendant’s responsibilities.
Oversees every process of ETC-type toll collection and every equipment on a lane.
Complies with the standards for an ETCS Integrated Controller that is compatible
with both IR and RF methods.
A wireless device mounted on a gantry in the lane to communicate with an
IR/RF OBU installed on a vehicle.
Photographs a violator’s vehicle when It passes through a tollgate.
A display that provides necessary information to a driver driving through a lane.
Function
Enables precise toll collection by more than 99.7% accurate categorization of the vehicle type.
Facilitates freeway users to make payments using various methods (cash, credit card, prepaid care, etc.)
Accurate toll collection
Various payment methods
Operation
Terminal
IR/RF Antenna
OBU-equipped
Vehicle
Auto Ticket
Issuing
Machine
Anti-Evasion
System
Toll Fare
Indicator
Toll Fare
Indicator
Driver
Indicator Photo Enforcement
Device
Anti-Evasion System
Vehicle Classifier
Integrated Lane Controller
TRD-8
TRD-8TRD-8
Vehicle
Classifier
Vehicle
Classifier
Lane
Controller
Prepaid
Ticket
Reader
Prepaid
Ticket
Reader
Receipt
Issuing
Machine
Receipt
Issuing
Machine
Ticket Reader
Vehicle
Classifier
Entry Lane Exit Lane Exit Booth
TRD-3
Operation
Terminal
Operation
Terminal
Evasion
Server
Printer
Weigh-in
Motion
Server
Center
Server
Office
Server
Headquarter(Center) Equipments Office Equipments
On-site Equipment
Closed-type TCS
ETCS
Open-type TCS
TCS (Toll Collection System)
Enables fast, accurate toll collection by allowing a driver to make a payment without stopping the car.
Reduces the lane operation cost by adopting an unmanned toll collection system, and minimizes
pollution caused by car idling.
Fast, accurate toll collection
Reduced operation cost
ETCS (Electronic Toll Collection System)
Intelligent Transport Systems 16 _ 17
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18. TCS(Toll Collection System)
The TCS is a cutting-edge system which collects tolls, measures
traffic volume, and carries out all office tasks related to the toll collection.
It also enforces traffic regulations and gathers traffic information.
A system collects tolls which based on used distance
Vehicle Separator
Vehicle Separator
Toll Evasion
Prevention
System
Ticket Reader
Lane Controller
Prepaid Ticket Reader
Receipt Issuing Machine
Toll Fare
Indicator
Vehicle Separator
Wheel Tread/
Width Sensor
Vehicle Height Sensor
Printer
Operation Computer
Office
Server
Printer
Operation Computer
Office
Server
Axle Sensor
Axle Sensor
Vehicle Detector
Vehicle Classifier
Vehicle Detector
Auto Ticket
Issuing Machine
Vehicle Classifier
�Identifies the type of a passing vehicle
�Detects the vehicle height to determine the
appropriate ticket issuing machine
�Classifies a vehicle with more than 99.7%
accuracy
�Treadles durability: more than 10 million axes
(based on the number of passing vehicles)
Vehicle Detector
�Detects an axle, and notifies the lane controller
whether a vehicle has passed or not
�More than 99.9% accuracy when linked
to an axle sensor
Automatic Ticket Issuing Machine
�Automatically issues a ticket
�Controls peripheral devices and
communicates with the office server
�Fast issue of a ticket (less than 1.5 sec.)
�Ethernet communication and easily
extendable memory
�Facilitates easy operation with total
4,500 tickets equipped
Lane Controller
�Processes and stores various data
�Easy operation by adopting a maintenance
panel
�Controls peripheral devices and sends/
receives data to/from the office server
�Ethernet communication and easily
extendable memory
Ticket Reader
�Processes a collected ticket
�Magnetic recording and printing of the
information of a user vehicle.
�Equipped with a durable magnetic head that can
read up to 2 million tickets
�A button can be added by applying a touch panel.
Common Equipments of Closed- and Open-Types
Toll Evasion Prevention System
�Photographs the license plate of a toll evader’s vehicle
�Photo accuracy of more than 97%
�More than 97% TCS connection
�Adjustable camera, lens, and lights to suit the
surrounding environment
Toll Fare Indicator
�Displays the vehicle type and the toll amount to a user
�Displays the toll amount within one second after
reading the ticket
�Self-luminous, high-brightness LED
Closed-Type System www.dienhathe.xyz
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19. Intelligent Transport Systems 18 _ 19
A system collects tolls which based on fixed distance
ETCS(Electronic Toll Collection System)
The ETCS is a system which collects tolls using the wireless
communication between an on-board unit (OBU) installed on a
vehicle and a roadside antenna, allowing a driver to make a
payment without stopping a vehicle.
Toll Evasion
Prevention
System
Toll Terminal
Prepaid Ticket Reader
Receipt Issuing Machine
Toll Fare
Indicator
Printer
Operation Computer
Office
ServerVehicle Separator
External Terminal
1. Gantry 1
2. Gantry 2
3. VMS/LCS
4. Antenna(RF/IR)
5. Photo Enforcement Device
6. Vehicle Classifier
7. Antenna(IR/RF)
8. CD 1
9. CD 2
10. Integrated Lane Controller
11. Driver Indicator
12. Interphone
13. Breaker
14. CCTV Camera
15. Vehicle Detector
Axle Sensor
Vehicle Classifier
�Eliminateswaittimebyenablingadrivertomakeapaymentwithoutstoppingatthetollgate
�Safe toll collection based on a password authentication method
�Reduces operation cost by adopting an unmanned system.
IR/RF Antenna
�Wireless Communication with an
IR/RF type OBU
�Reports the toll collection results
to the lane controller
Vehicle Classifying System
�Component: Vehicle seperator,
Car detector 1,2,3
�Automatically Identifies the type and
location of a passing vehicle
�99.7% accuracy, Treadles durability
More than 10M axes
Driver Indicator
�Indicates the vehicle type and
payment amount
�Indication : LED Display, Siren,
Signal etc
Photo Enforcement Device
�PhotographsthevehicleLicence
plateaviolator’sorauninstalledOBU
�AutomaticallytoSuitthesurraunding
environmentandTransmissiontothe
imageserver
On-Board Unit (OBU)
�Wireless communication device
for the toll collection
�LCD and voice message
�CompatiblewithVariouscardsystem
�Certification : Korean Expressway
Corporation
Integrated Lane Controller
�Controls the authentication
process for toll collection
�Controls peripheral devices
and sends/recieves data to/
from the office server
�Standard : Korean Express-
way Corporation(Can be
designed various standard)
Receipt Issuing Machine
�Issues a toll payment receipt
�Easy-to-operate auto-cutting type
�Detects a shortage of print paper
�A thermal print head durable for
500,000 tickets.
Vehicle Classifier
�Identifies the type of a passing vehicle
�Treadles durability: more than
10 million axes (based on the number of
passing vehicles)
�Classifies a vehicle with more than 99.7%
accuracy
External Terminal
�Enables swipe card payment
�Voice message function and ergonomic
design to make swiping a card more
convenient
�RF antenna durable for 100,000 uses
Toll Terminal
�Processes and stores various data
�Controls peripheral devices and sends/
receivesdata to/from the office server
�Provides an operator interface screen
�Built-in e-card payment function
3
5
7
9
14
15
13
12
11
10
8
6
4
2
1
FeaturesOpen-Type System www.dienhathe.xyz
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20. VViissiioonn 22001155
“How to Grow”
WWoorrlldd CCllaassss 33PP
People/Product/Process
AA CCuullttuurree ooff OOppeennnneessss
Flexibility/Faithfulness/R&R/Harmony
YOU HAVE OUR PROMISE THAT LSIS
WILL ALWAYS BE A COMPANY THAT GROWS
ALONGSIDE ITS CUSTOMERS.
LSIS establishes fast, safe and environmentally-friendly traffic systems by applying highly advanced technologies to them, including electric, electronic,
control, information & telecommunication technologies. As it develops and supplies cutting-edge systems related to traffic management, control, and the
flow of traffic information such as its UTMS (Urban Traffic Management System), DSRC (Dedicated Short Range Communication), ATES (Automatic Traffic
Enforcement System), FTMS (Freeway Traffic Management System) and TCS/ETCS (Toll Collection System) the company is getting a clear picture of what
infrastructure future traffic environment will require before anyone else. Furthermore, LSIS’ ITS (Intelligent Transport System), which was created with a
wide range of systems, brings innovative change to traffic management, ensuring smoother traffic, fewer traffic accidents, shorter operating hours, and
decreased operation & management costs.
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21. Korea is the No. 1 nation in semiconductors and shipbuilding Now,
LSIS will continue the legend in a new field
From low voltage to ultra high voltage, LSIS’s wide-ranging
devices and systems have been recognized worldwide for their
efficient design and superior quality. We have acquired not only
ISO9001 and 14001 certification, but also accreditation from
such testing agencies as KEMA, TUV, CESI, ASTA, and KERI. We
offer only the finest quality products made in accordance with
various international standards, including IEC, UL, ANSI, CCC,
JIS, and KS. LSIS is a total-solution provider of electrical
systems, from engineering, design, manufacturing, installation,
and operation all the way to diagnosis and rationalization.
Head Office �LS Tower, 1026-6, Hogye-dong, Dongan-gu, Anyang-si,
Gyeonggi-do 431-848, Korea �Tel 82-2-2034-4870 _ Fax 82-2-3660-7021
Cheongju Factory �1 Songjeong-dong, Cheongju-si, Chungcheongbuk-do,
361-720, Korea �Tel 82-43-261-6114 _ Fax 82-43-261-6602
Cheonan Factory�181 Samseong-ri, Mokcheon-myeon, Cheonan-si,
Chungcheongnam-do, 330-840, Korea �Tel 82-51-795-6114
Busan Factory �119 Hwajeon-dong, Gangseo-gu, Busan-si, Korea
�Tel 82-41-955-3114 _ Fax 82-41-956-1020
Automation & Advanced Technology R&D Center
�533 Hogye-dong, Dongan-gu, Anyang-si, Gyeonggi-do, 431-749, Korea
�Tel 82-31-450-7114
Electrortechnology R&D Center �1 Songjeong-dong, Cheongju-si,
Chungcheongbuk-do, 361-720, Korea �Tel 82-43-261-6114
Automation R&D Center �181 Samseong-ri, Mokcheon-myeon,
Cheonan-si, Chungcheongnam-do, 330-840, Korea �Tel 82-41-550-8272
Power Testing & Technology Institute �1 Songjeong-dong,
Cheongju-si, Chungcheongbuk-do, 361-720, Korea �Tel 82-43-261-6114
Cheongju Training Institute �1Songjeong-dong, Cheongju-si,
Chungcheongbuk-do, 361-720, Korea �Tel 82-43-268-2631
Electric Power | Electrical Equipment, Electrical Systems
LSIS is Korea’s first PLC, inverter, and DCS developer.
A longstanding pioneer in Korea’s automation industry, LSIS
uses its abundant experience in the industrial facilities sector to
provide the very best control equipment and systems requiring
state-of-the-art technologies. We offer total solutions in
automation through the application of various products.
Automation | Automated Equipment, Industrial IT
Set to play a key role in distribution innovation, our RFID
business provides advanced technologies optimized for
application in our clients’ fields. We operate a reader production
line with an annual output of 100,000 units and a tag production
facility with an annual capacity of 100 million. We are also
building and operating a pilot production line for power
semiconductors, a core component in power electronic devices.
LSIS continues to uncover new business areas, including eco-
friendly energy-saving automobile parts and electrical energy
conversion devices.
New Businesses
Our Power Testing & Technology Institute is a KOLAS-accredited
facility providing world-class testing and evaluation services,
with a wide range of testing equipment including Korea’s first
privately-owned 1,600MVA short circuit tester. Our testing
center offers international credibility through strategic alliances
and mutual recognition of test results with the US’s UL, EU’s CE,
the Netherlands’ KEMA, and Italy’s CESI.
Power Testing & Technology Institute
Intelligent Transport Systems 20 _ 21
Head Office Cheongju Factory
PT&T
Busan FactoryCheonan Factory
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22. Intelligent Transport Systems
LS Tower, 1026-6 Hogye-dong, Dongan-gu, Anyang, Gyeonggi-do, 431-848, Korea
Tel : 82-2-2034-4490 http://www.lsis.biz 2011. 05
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