Intelligent Transportation System applications in Kaohsiung City: Difference between revisions

From OpenCommons
Jump to navigation Jump to search
m (1 revision imported)
No edit summary
 
(4 intermediate revisions by the same user not shown)
Line 1: Line 1:
{{ActionCluster
{{ActionCluster
 
|image=Kaohsiung MRT Red Line Train.jpg
| title            = The Intelligent Transportation System applications in Kaohsiung City
|team=Chunghwa Telecom,  International Integrated Systems, THI Consultants, Sunsky International, SOCHAMP Tech
 
|leader=Ching-Fu Chen
| team             = Chunghwa Telecom Co. Ltd,  International Integrated Systems, Inc. (IISI), THI Consultants lnc., Sunsky International. Ltd, SOCHAMP Tech Co. Ltd
|imagecaption=Kaohsiung Rapid Transit
 
|municipalities=Kaohsiung Taiwan
| leader           = Ching-Fu Chen
|status=Ready for Public Announcement
| email            = cfchen99@mail.ncku.edu.tw
|description=Create an intelligent traffic monitoring system connected to real-time Traffic Information System to reduce traffic congestion and raise the road safety in the city. Including telecom big data analysis for plan of traffic improvement strategy, congestion prediction and alert, intelligent parking guidance and Cooperative Vehicle-Infrastructure System for intersection safety.
| image            =
|challenges=* Predict the future traffic status and apply relief plan before congestion occur is critical.
| imagecaption     =  
| municipalities   = Kaohsiung City, Taiwan
| status           = Ready for Public Announcement  
| website          =
| download          =
 
| description       =  
Create an intelligent traffic monitoring system connected to real-time Traffic Information System to reduce traffic congestion and raise the road safety in the city. Including telecom big data analysis for plan of traffic improvement strategy, congestion prediction and alert, intelligent parking guidance and Cooperative Vehicle-Infrastructure System for intersection safety.
 
| challenges       =  
* Predict the future traffic status and apply relief plan before congestion occur is critical.
* Monitor the status of vehicles approaching intersection then give warning information can reduce collision events
* Monitor the status of vehicles approaching intersection then give warning information can reduce collision events
 
|solutions=* This project will adopt cellular-based vehicle probe  (CVP) to realize the OD behavior, machine learning algorithm to predict future traffic, microwave sensing technique to monitor and prevent road intersection accident.
 
|requirements=* Develop and assemble project team
| solutions             =  
* This project will adopt cellular-based vehicle probe  (CVP) to realize the OD behavior, machine learning algorithm to predict future traffic, microwave sensing technique to monitor and prevent road intersection accident.  
 
 
| requirements       =  
* Develop and assemble project team
* Create scope and requirements, project plan  
* Create scope and requirements, project plan  
* Gain stakeholder and government support.
* Gain stakeholder and government support.
Line 37: Line 20:
# System integration and testing
# System integration and testing
* Run and measurement of the system performance and the defined KPIs
* Run and measurement of the system performance and the defined KPIs
 
|kpi=* The error between predict estimation and real travel time is less than 5%
| kpi               =  
* The error between predict estimation and real travel time is less than 5%
* Average travel time reduction for target area is less than 10%
* Average travel time reduction for target area is less than 10%
 
|measurement=* Measurement of estimate travel time, compared to real travel time will use the RFID (eTag) detection method.
 
| measurement       =  
* Measurement of estimate travel time, compared to real travel time will use the RFID (eTag) detection method.
* Measurement of the average travel time for specific route, compare the before and after will use the cellular-based vehicle probe technology.
* Measurement of the average travel time for specific route, compare the before and after will use the cellular-based vehicle probe technology.
 
|standards=* For road intersection safety, the system requires interoperable road side units including microwave vehicle sensors, traffic signal controller, and alarm message display panel.  
| standards         =  
* For road intersection safety, the system requires interoperable road side units including microwave vehicle sensors, traffic signal controller, and alarm message display panel.  
* For future traffic prediction, a standardized process is required for defining response plan for predictive road congestion
* For future traffic prediction, a standardized process is required for defining response plan for predictive road congestion
* The procedure of system setup for the intersection safety is standardized including site survey, road side unit installation, system parameters configuration. Thus it is easily replicated to the other intersections.
* The procedure of system setup for the intersection safety is standardized including site survey, road side unit installation, system parameters configuration. Thus it is easily replicated to the other intersections.
* A tangible benefits of traffic management system is essential and will be continuously supported by government.
* A tangible benefits of traffic management system is essential and will be continuously supported by government.
 
|cybersecurity=TBD
 
|impacts=* Reduction of traffic congestion.   
| cybersecurity         =  
 
| impacts                 =  
* Reduction of traffic congestion.   
* Improving driving environment for road user.
* Improving driving environment for road user.
 
|demonstration=The demonstration of intelligent traffic monitoring system in Kaohsiung City, including :
| demonstration       =
The demonstration of intelligent traffic monitoring system in Kaohsiung City, including :
# The pilot run of application of telecom big data analysis for traffic planning and the traffic prediction algorithm apply in highway environment, and  
# The pilot run of application of telecom big data analysis for traffic planning and the traffic prediction algorithm apply in highway environment, and  
# The vehicle collision prevention system of the dangerous intersection.  
# The vehicle collision prevention system of the dangerous intersection.
 
|chapter=Intelligent Transportation
 
|supercluster=Transportation
| supercluster           = Transportation
|year=2017
| year                   = 2017
|title=The Intelligent Transportation System applications in Kaohsiung City
 
|email=cfchen99@mail.ncku.edu.tw
}}
}}

Latest revision as of 23:42, January 24, 2023


Intelligent Transportation System applications in Kaohsiung City
GCTC logo 344x80.png
Kaohsiung MRT Red Line Train.jpg
Kaohsiung Rapid Transit
Team Organizations Chunghwa Telecom
International Integrated Systems
THI Consultants
Sunsky International
SOCHAMP Tech
Team Leaders Ching-Fu Chen
Participating Municipalities Kaohsiung Taiwan
Status Ready for Public Announcement
Document None

Description

Create an intelligent traffic monitoring system connected to real-time Traffic Information System to reduce traffic congestion and raise the road safety in the city. Including telecom big data analysis for plan of traffic improvement strategy, congestion prediction and alert, intelligent parking guidance and Cooperative Vehicle-Infrastructure System for intersection safety.

Challenges

  • Predict the future traffic status and apply relief plan before congestion occur is critical.
  • Monitor the status of vehicles approaching intersection then give warning information can reduce collision events

Solutions

  • This project will adopt cellular-based vehicle probe (CVP) to realize the OD behavior, machine learning algorithm to predict future traffic, microwave sensing technique to monitor and prevent road intersection accident.

Major Requirements

  • Develop and assemble project team
  • Create scope and requirements, project plan
  • Gain stakeholder and government support.
  • Create application development team
  • Develop system
  1. Analyze and develop system architecture
  2. History data collection, data analysis, prediction modeling
  3. Road side units setup and testing
  4. System integration and testing
  • Run and measurement of the system performance and the defined KPIs

Performance Targets

Key Performance Indicators (KPIs) Measurement Methods
  • The error between predict estimation and real travel time is less than 5%
  • Average travel time reduction for target area is less than 10%
  • Measurement of estimate travel time, compared to real travel time will use the RFID (eTag) detection method.
  • Measurement of the average travel time for specific route, compare the before and after will use the cellular-based vehicle probe technology.

Standards, Replicability, Scalability, and Sustainability

  • For road intersection safety, the system requires interoperable road side units including microwave vehicle sensors, traffic signal controller, and alarm message display panel.
  • For future traffic prediction, a standardized process is required for defining response plan for predictive road congestion
  • The procedure of system setup for the intersection safety is standardized including site survey, road side unit installation, system parameters configuration. Thus it is easily replicated to the other intersections.
  • A tangible benefits of traffic management system is essential and will be continuously supported by government.

Cybersecurity and Privacy

TBD

Impacts

  • Reduction of traffic congestion.
  • Improving driving environment for road user.

Demonstration/Deployment

The demonstration of intelligent traffic monitoring system in Kaohsiung City, including :

  1. The pilot run of application of telecom big data analysis for traffic planning and the traffic prediction algorithm apply in highway environment, and
  2. The vehicle collision prevention system of the dangerous intersection.
Retrieved from "https://opencommons.org/index.php?title=Intelligent_Transportation_System_applications_in_Kaohsiung_City&oldid=12184"