Presentation is loading. Please wait.

Presentation is loading. Please wait.

ASPRS Annual Conference 2005, Baltimore, March 09 2005 Utilizing Multi-Resolution Image data vs. Pansharpened Image data for Change Detection V. Vijayaraj,

Published byRudolf Haynes Modified over 8 years ago

Similar presentations

Presentation on theme: "ASPRS Annual Conference 2005, Baltimore, March 09 2005 Utilizing Multi-Resolution Image data vs. Pansharpened Image data for Change Detection V. Vijayaraj,"— Presentation transcript:

1 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Utilizing Multi-Resolution Image data vs. Pansharpened Image data for Change Detection V. Vijayaraj, C.G. O’ Hara & N.H. Younan GeoResources Institute, Mississippi State University

2 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Outline Introduction Change Detection Pansharpening Change Detection Approaches Case Study using QuickBird Imagery and eCognition Software Conclusions

3 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Introduction The use of high resolution imagery to update and maintain spatial databases has increased. Developing efficient automated change detection techniques to extract map accurate change features from coregistered multitemporal, multiresolution imagery has been an area of growing research interest. A change detection approach to extract changed urban features (Ex: new roads, new buildings) using object based processing, spatial contextual information and data fusion technique is presented.

4 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Change Detection Change detection involves the analysis of coregistered images taken at two different times for the same geographical area. The techniques can be grouped into Supervised Change Detection Change features are extracted by analyzing images Classified using supervised classification. Unsupervised Change Detection Change features are extracted by analyzing the difference images. There are different approaches to analyzing difference images.

5 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Pansharpening Pansharpening is a pixel level data fusion technique used to increase the spatial resolution of the multispectral image using panchromatic image while simultaneously preserving the spectral information. Also known as resolution merge, image integration and multisensor data fusion. Applications Sharpen multispectral data Enhance features using complementary information Enhance the performance of change detection algorithms using multi-temporal data sets Improve Classification accuracy

6 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Pansharpening … IHS sharpening Brovey sharpening Statistical regression model sharpening High pass filter sharpening PCA-based sharpening Wavelet-based sharpening The spectral and spatial quality of the sharpened image should be analyzed before using the sharpened image for further applications. The spectral information in the pansharpened image should be more similar to the multispectral image while simultaneously an increase in the high detail information is desired.

7 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Change Detection Approaches Post Classification Change Detection approach ( Decision level change analysis) Image T 2 Preprocessed Image T 2 Preprocessed Image T 2 Thematic Classification T 2 Thematic Classification T 2 Image T 1 Preprocessed Image T 1 Preprocessed Image T 1 Thematic Classification T 1 Thematic Classification T 1 Post Classification Thematic Change Detection Post Classification Thematic Change Detection Land Cover/ Land Use Change Maps Land Cover/ Land Use Change Maps Some of the preprocessing steps are Coregistration, Radiometric normalization, Color transformation, and Spectral transformation.

8 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Change Detection Approaches Pre Classification Change Detection approach (Feature level change analysis) L.R.Image T 2 Preprocessed L.R. Image T 2 Preprocessed L.R. Image T 2 L.R. Image T 1 Preprocessed L.R. Image T 1 Preprocessed L.R. Image T 1 Change cues, Indicators, Deltas Change cues, Indicators, Deltas Region Group Analysis Region Group Analysis Polygons Indicating Probable Change Polygons Indicating Probable Change Image T 2 Image T 1 Preprocessed Image T 1 Preprocessed Image T 1 Thematic Classification T 1 Thematic Classification T 1 Classification of Changed features Classification of Changed features Land Cover/ Land Use Change Maps Land Cover/ Land Use Change Maps Mask based on change cues Mask based on change cues Mask based on change cues Mask based on change cues

9 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Change Detection Approaches Object based Change Detection approach (Object level change analysis using data fusion) Image T 2 Preprocessed Image T 2 Preprocessed Image T 2 Image T 1 Preprocessed Image T 1 Preprocessed Image T 1 Multiresolution Segmentation into Image objects Multiresolution Segmentation into Image objects Classification of changed objects Based on features from T 1 and T 2 Classification of changed objects Based on features from T 1 and T 2 Land Cover/ Land Use Change Maps Land Cover/ Land Use Change Maps

10 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Case Study A Case study was conducted using QuickBird imagery of Starkville, Mississippi. QuickBird Characteristics Spatial Resolution: Pan 0.6m MS 2.4 m Spectral bands: Pan: 450nm-900nm Blue: 450nm-520nm Green:520nm-600nm Red: 600nm-690nm NIR: 760nm-900nm Time Step1: Feb-2002 Time Step2: Mar-2004

11 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Multispectral image time1& time2 Multispectral Time 1Multispectral Time 2

12 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Multispectral Image An area of interest – Multispectral time2

13 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Pansharpened Image An area of interest – Pansharpened time2

14 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Object based Approach eCognition an object oriented image analysis software was used for change detection. The multispectral and Pansharpened images at time2 were segmented into image objects based on scale, color, shape and compactness. Segmentation was not done on Time 1 image instead the object domain at time2 was used to drill down to images in time 1 and compare object features.

15 ASPRS Annual Conference 2005, Baltimore, March 09 2005 IHS Transformation The RGB- IHS color transform was performed and the transformed layers were also used. RGB- IHS setting :R= Green; G= Red ; B= NIR

16 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Features Hue Difference: The hue Difference was thresholded to identify the new( changed) features (used to identify new urban features and water bodies) Hue Difference=Hue time2- Hue time1 Water Ratio: Water ratio was used to identify new water bodies inside the new features class domain Water Ratio= (Blue+Green) / NIR Spatial contextual information to add objects along the edge of water bodies to the appropriate class Hue: The highest 10% quantile of Mean Hue of the objects were used to identify other existing urban features in time2.

17 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Features … NDVI: NDVI in time step 2 was used to classify vegetation NDVI= (NIR-Red)/(NIR+Red) NDVI was also used to identify cleared / barren areas Some of the urban features which were classified as cleared were reclassified based on their proximity to urban features. Water ratio: Water ratio was used to classify existing water bodies. Building shadows were also picked up as water were removed based on amount of relative border with other water objects

18 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Hue Time1 Multispectral Hue Time 1Pansharpened Hue Time 1

19 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Hue Time2 Multispectral Hue Time 2Pansharpened Hue Time 2

20 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Hue Difference Multispectral Hue DifferencePansharpened Hue Difference

21 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Water Ratio Time1 Multispectral Water Ratio Time 1Pansharpened Water Ratio Time 1

22 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Water Ratio Time2 Multispectral Water Ratio Time 2Pansharpened Water Ratio Time 2

23 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Water Ratio Difference Multispectral Water Ratio DifferencePansharpened Water Ratio Difference

24 ASPRS Annual Conference 2005, Baltimore, March 09 2005 NDVI Time1 Multispectral NDVI Time 1Pansharpened NDVI Time 1

25 ASPRS Annual Conference 2005, Baltimore, March 09 2005 NDVI Time2 Multispectral NDVI Time 2Pansharpened NDVI Time 2

26 ASPRS Annual Conference 2005, Baltimore, March 09 2005 NDVI Difference Multispectral NDVI DifferencePansharpened NDVI Difference

27 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Change Features Multispectral Changed FeaturesPansharpened Changed Features

28 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Multispectral Classification

29 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Pansharpened Classification

30 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Comparison Multispectral Pansharpened

31 ASPRS Annual Conference 2005, Baltimore, March 09 2005 Conclusions A Change detection approach using high resolution imagery, object based classification, spatial context information and data fusion techniques was illustrated. The Pansharpened images can be used to extract features that are not distinguishable in the multispectral image. The spectral and spatial quality of the sharpened image need to be analyzed before using them for classification and change detection.

Download ppt "ASPRS Annual Conference 2005, Baltimore, March 09 2005 Utilizing Multi-Resolution Image data vs. Pansharpened Image data for Change Detection V. Vijayaraj,"

Similar presentations

Comparision Of Pixel - Level Based Image Fusion Techniques And Its Application In Image Classification by 1D. Srinivasa Rao, 2Dr. M.Seetha, 3Dr. MHM.

Comparision Of Pixel - Level Based Image Fusion Techniques And Its Application In Image Classification by 1D. Srinivasa Rao, 2Dr. M.Seetha, 3Dr. MHM.
Fire Detection & Assessment Practical work E. Chuvieco (Univ. of Alcalá, Spain)

Fire Detection & Assessment Practical work E. Chuvieco (Univ. of Alcalá, Spain)
SCHOOL OF ENVIRONMENT Translating satellite images into meaningful geospatial information: The data fusion approach Mr. Amit A. Kokje PhD candidate, School.

SCHOOL OF ENVIRONMENT Translating satellite images into meaningful geospatial information: The data fusion approach Mr. Amit A. Kokje PhD candidate, School.
Page 1 of 50 Optimization of Artificial Neural Networks in Remote Sensing Data Analysis Tiegeng Ren Dept. of Natural Resource Science in URI (401) 874-9035.

Page 1 of 50 Optimization of Artificial Neural Networks in Remote Sensing Data Analysis Tiegeng Ren Dept. of Natural Resource Science in URI (401)
Spatial and Spectral Evaluation of Image Fusion Methods Sascha Klonus Manfred Ehlers Institute for Geoinformatics and Remote Sensing University of Osnabrück.

Spatial and Spectral Evaluation of Image Fusion Methods Sascha Klonus Manfred Ehlers Institute for Geoinformatics and Remote Sensing University of Osnabrück.
GeoResources Institute Census TIGER File Maintenance MARIS Briefing for MS State and Local DSL February 25, 2004 Chuck O’Hara.

GeoResources Institute Census TIGER File Maintenance MARIS Briefing for MS State and Local DSL February 25, 2004 Chuck O’Hara.
Leila Talebi, Anika Kuczynski, Andrew Graettinger, and Robert Pitt

Leila Talebi, Anika Kuczynski, Andrew Graettinger, and Robert Pitt
A Fully Automated Approach to Classifying Urban Land Use and Cover from LiDAR, Multi-spectral Imagery, and Ancillary Data Jason Parent Qian Lei University.

A Fully Automated Approach to Classifying Urban Land Use and Cover from LiDAR, Multi-spectral Imagery, and Ancillary Data Jason Parent Qian Lei University.
ASTER image – one of the fastest changing places in the U.S. Where??

ASTER image – one of the fastest changing places in the U.S. Where??
3. Introduction to Digital Image Analysis

3. Introduction to Digital Image Analysis
Data Merging and GIS Integration

Data Merging and GIS Integration
Feature Screening Concept: A greedy feature selection method. Rank features and discard those whose ranking criterions are below the threshold. Problem:

Feature Screening Concept: A greedy feature selection method. Rank features and discard those whose ranking criterions are below the threshold. Problem:
Potential of Ant Colony Optimization to Satellite Image Classification Raj P. Divakaran.

Potential of Ant Colony Optimization to Satellite Image Classification Raj P. Divakaran.
Feature extraction Feature extraction involves finding features of the segmented image. Usually performed on a binary image produced from.

Feature extraction Feature extraction involves finding features of the segmented image. Usually performed on a binary image produced from.
A Comparison of Land Use and Land Cover Change Detection Methods Daniel L. Civco, James D. Hurd, Emily H. Wilson, Mingjun Song, Zhenkui Zhang C enter for.

A Comparison of Land Use and Land Cover Change Detection Methods Daniel L. Civco, James D. Hurd, Emily H. Wilson, Mingjun Song, Zhenkui Zhang C enter for.
Brief overview of ideas In this introductory lecture I will show short explanations of basic image processing methods In next lectures we will go into.

Brief overview of ideas In this introductory lecture I will show short explanations of basic image processing methods In next lectures we will go into.
Quality Assessment of Roads in Colorado Based on Satellite Imagery April 7, 2014.

Quality Assessment of Roads in Colorado Based on Satellite Imagery April 7, 2014.
Carolyn J. Merry NCRST-Flows The Ohio State University.

Carolyn J. Merry NCRST-Flows The Ohio State University.
Tal Mor 066126905.  Create an automatic system that given an image of a room and a color, will color the room walls  Maintaining the original texture.

Tal Mor  Create an automatic system that given an image of a room and a color, will color the room walls  Maintaining the original texture.
Maa-57.2040 Kaukokartoituksen yleiskurssi General Remote Sensing Image enhancement I Autumn 2007 Markus Törmä

Maa Kaukokartoituksen yleiskurssi General Remote Sensing Image enhancement I Autumn 2007 Markus Törmä

Similar presentations

Ads by Google