Distributed Real-Time Traffic Data Management

As ITS technology evolves, very large volume of traffic data can be obtained in real-time. Traffic data are continuously produced and they can be considered as a kind of stream data. Currently, such traffic data are not maintained permanently because of the storage limitations of operational systems. Therefore, it was impossible to compare temporal historical patterns over long time periods. In this paper, we propose a traffic data management scheme, which can handle historical data as well as current data. The proposed scheme is based on the GALIS architecture, which is a cluster-based distributed computing system architecture that consists of multiple data processors, each dedicated to keeping records relevant to a different geographical zone and a different time zone. Some experimental results showing performance factors are also explained.

[1]  K. H. Kim,et al.  A Cluster-Based TMO-Structured Scalable Approach for Location Information Systems , 2003, 2003 The Ninth IEEE International Workshop on Object-Oriented Real-Time Dependable Systems.

[2]  Ki-Joon Han,et al.  Distributed scalable location data management system based on the GALIS architecture , 2005, 10th IEEE International Workshop on Object-Oriented Real-Time Dependable Systems.

[3]  Nancy L. Nihan,et al.  DETECTING ERRONEOUS LOOP DETECTOR DATA IN A FREEWAY TRAFFIC MANAGEMENT SYSTEM , 1990 .

[4]  Seungyong Park,et al.  Distributed k-NN Query Processing for Location Services , 2007, SEUS.

[5]  Ho Lee,et al.  Long-term location data management for distributed moving object databases , 2006, Ninth IEEE International Symposium on Object and Component-Oriented Real-Time Distributed Computing (ISORC'06).

[6]  K. H. Kim,et al.  TMO-structured cluster-based real-time management of location data on massive volume of moving items , 2003, Proceedings IEEE Workshop on Software Technologies for Future Embedded Systems. WSTFES 2003.

[7]  K. H. Kim,et al.  APIs for Real-Time Distributed Object Programming , 2000, Computer.

[8]  Ki-Joon Han,et al.  TMO-structured distributed location information system prototype , 2005, Eighth IEEE International Symposium on Object-Oriented Real-Time Distributed Computing (ISORC'05).

[9]  K. H. Kim Object Structures for Real-Time Systems and Simulators , 1997, Computer.

[10]  Brian Lee Smith,et al.  Design of Archival Traffic Databases: Quantitative Investigation into Application of Advanced Data Modeling Concepts , 2003 .

[11]  Brian Lee Smith,et al.  Investigation of Extraction, Transformation, and Loading Techniques for Traffic Data Warehouses , 2004 .

[12]  Seong Namkoong,et al.  AN INTEGRATED FRAMEWORK FOR DATA QUALITY MANAGEMENT OF TRAFFIC DATA WAREHOUSES , 2007 .

[13]  Haitham Al-Deek,et al.  New Algorithms for Filtering and Imputation of Real-Time and Archived Dual-Loop Detector Data in I-4 Data Warehouse , 2004 .

[14]  Siddharth Patwardhan,et al.  CDF ARCHIVAL OF LARGE-SCALED ITS DATA FOR EFFICIENT ARCHIVAL, RETRIEVAL, AND PORTABILITY , 2003 .

[15]  K. H. Kim Commanding and reactive control of peripherals in the TMO programming scheme , 2002, Proceedings Fifth IEEE International Symposium on Object-Oriented Real-Time Distributed Computing. ISIRC 2002.