Korean Journal of Remote Sensing (대한원격탐사학회지)

Korean Society of Remote Sensing (대한원격탐사학회)
권호 표지
DOI QR코드

DOI QR Code

Automatic Road Extraction by Gradient Direction Profile Algorithm (GDPA) using High-Resolution Satellite Imagery: Experiment Study

  • Lee, Ki-Won (Information Engineering Div., Hansung University) ;
  • Yu, Young-Chul (Department of Geosciences, Chungnam National University) ;
  • Lee, Bong-Gyu (Information Engineering Div., Hansung University)
  • Published : 2003.10.01
Download PDF
⟨ Previous Next ⟩

Abstract

In times of the civil uses of commercialized high-resolution satellite imagery, applications of remote sensing have been widely extended to the new fields or the problem solving beyond traditional application domains. Transportation application of this sensor data, related to the automatic or semiautomatic road extraction, is regarded as one of the important issues in uses of remote sensing imagery. Related to these trends, this study focuses on automatic road extraction using Gradient Direction Profile Algorithm (GDPA) scheme, with IKONOS panchromatic imagery having 1 meter resolution. For this, the GDPA scheme and its main modules were reviewed with processing steps and implemented as a prototype software. Using the extracted bi-level image and ground truth coming from actual GIS layer, overall accuracy evaluation and ranking error-assessment were performed. As the processed results, road information can be automatically extracted; by the way, it is pointed out that some user-defined variables should be carefully determined in using high-resolution satellite imagery in the dense or low contrast areas. While, the GDPA method needs additional processing, because direct results using this method do not produce high overall accuracy or ranking value. The main advantage of the GDPA scheme on road features extraction can be noted as its performance and further applicability. This experiment study can be extended into practical application fields related to remote sensing.

Keywords

References

  1. Presentation to the NCRST Addresing Multi-centerline Representation Issues: From a Transportation Engineering Prspectives Han,K.
  2. PE&RS v.63 Semi-automatic Linear Feature Extraction by Dynamic Programming and LSB-Snakes Gruen,A.;H.Li
  3. Int. Jour. of Remote Sensing v.20 A Thinning-based Method for Recognizing and Extracting Peri-Urban Road Networks from SPOT Panhromatic Images Karathanassi,V.;C.Lossifidis;D.Rokos
  4. PE&RS v.63 Commercial Application for High Resolution Geo-spatial Imagery Khuen,B.
  5. Korean Jour. of Remote Sensing v.18 no.5 Prototyping of Some Indexes Extraction for Transportatio Reference Planning using Remotely Sensed Imageries Lee,K. https://doi.org/10.7780/kjrs.2002.18.5.263
  6. CLEM Specialist Meeting Comprehensive Survey of Etraction Tehniques of Linear Features from Remote Sensing Imagery for Updating Road Spatial Databases Park. J.S.;R.A.Saleh
  7. Geography of Transportation Taaffe,F.J.;H.L.Gauthier
  8. Achievements of the DOT-NASA Joint Program on Remote Sensing and Spatial Information Technologies: Application to Multimodal Transportation U. S. DOT/NASA
  9. Int. Jour. of Geographical Information Sensing v.6 no.2 Road Network Detection from SPOT Imagery for Updating Geographical Information Systems in the Rural-Urban Fringe Wang,J.;P.M.Treitz;P.J.Howarth
  10. Canadian Jour. of Remote Sensing v.20 Road Detection from Multi-Specral Satellite Imagery Wang,J.;W.Liu
  11. Jour. of Remote Sensing v.26 Applicability of a Gradient Profile Algorithm for Road Network Extraction-Sensor, Resolution and Background Considerations Wang,J.;Q.Zhang