Upload
tomas
View
51
Download
0
Tags:
Embed Size (px)
DESCRIPTION
Analysis of Planform Changes using Satellite Images. A.K.M. Saiful Islam Associate Professor, IWFM, BUET. December 2010 . Email: [email protected] . Presentation Outline. Changes of River Banks Change detection using Satellite Images Types and sources of Satellite Images - PowerPoint PPT Presentation
Citation preview
Analysis of Planform Changes using Satellite
Images
A.K.M. Saiful Islam Associate Professor, IWFM, BUET
December 2010 Email: [email protected]
Changes of River Banks
Change detection using Satellite Images◦ Types and sources of Satellite Images◦ Image Acquisition Processes◦ Image Analysis Tools: ILWIS, ERDAS◦ ILWIS: A Open Source Software
Google Earth: ◦ As a free image source & analysis tool
Hands on Exercise using ILWIS and LandSat Images
Presentation Outline
Most of the Major rivers of Bangladesh are either Meandering or Braided.
Every year, millions of people are affected by erosion that destroys standing crops, farmland and homestead land.
It is estimated that about 5% of the total Floodplain of Bangladesh is directly affected by erosion.
Change of Bank Line
Jamuna Ganges Padma Upper Megh
na
Lower Meghn
aAverage width (m)
1984 9,720 4,367 5,689 3,406 6,661
1993 *11,220 4,693 7,116 3,391 8,897
Rate of change of width (m/yr)
184 36 159 2 248
Changes during 1984-93
Jamun
a GangesPadm
a
Upper Megh
na
Lower Megh
na
Bank erosion rate (m/yr)
Left *100 -20 38 7 66
Right *84 56 121 -9 182
Maximum bank erosion rate (m/yr) *784 665 620 NA 824Bank erosion (ha/yr) *5,020 2,240 1,800 48 1,172
Bank accretion (ha/yr) *890 1,010 233 49 402
Change of width of the rivers
Source: ISPAN, 1995 Note: * Rates derived for the period 1984-92
Bank Erosion/Acceration
Severity of ErosionTeesta River at Sundarganj
Satellite data is useful for monitoring changes of Bank lines.
However, careful inspection and Ground Truthing is necessary to verify the changes.
Using images of various Bands, False Color Composite images are developed to identify various features of the landscape.
Application of Remote Sensing for Monitoring Changes of Rive Banks
LANDSAT 5 TM of the Korotoa river
True Color Composite False Color Composite image
Spectral Images can be used
Low resolution (<=1km): ◦ NOAA, MODIS
Moderate resolution (<100m): ◦ Landsat, SPOT
High resolution (<5m): ◦ ICOKON, Quickbird, IRS, World View-2
Satellites
Spectral Reflectance of Water, Vegetation, Soil and Rock
12 3 4 5 7TM
Medium Resolution Sattelite Landsat-7 Orbit: 705 km, 98.20 inclination, sun-synchronous Swath width: 185 km (FOV = 150) Revisit time: 16 days Spatial resolution: 15 m (PAN), 30 m (bands 1-5, 7),
60 m (band 6)
SPOT-1, 2, 3, 4 Orbit: 832 km, 98.70 inclination, sun-synchronous Swath width: 60 km Revisit time: 26 days Spatial resolution: 10 m (PAN), 20 m (Multispectral)
High Resolution Satellites SPOT-5Orbit: 822 km, 98.70 inclination, sun-synchronousSwath width: 60 km Revisit time: 2-3 daysSpatial resolution: 5 m (PAN) 10 m (Multispectral)
IKONOSOrbit: 681km, 98.20 inclination, sun-synchronousSwath width: 11km Revisit time: 1-3 daysSpatial resolution: 1m (PAN), 4 m (Multispectral)
QuickBird WorldView-1 WorldView-2
23 m 6.5 m 6.5 m
QuickBird WorldView-1 WorldView-2
Panchromatic (B&W) 450 - 900 nm 400 - 900 nm 450 - 800 nm
Multispectral:
Coastal Blue 400 - 450 nm
Blue 450 - 520 nm 450 - 510 nm
Green 520 - 600 nm 510 - 580 nm
Yellow 585 - 625 nm
Red 630 - 690 nm 630 - 690 nm
Red Edge 705 - 745 nm
Near-IR 1 760 - 900 nm 770 - 895 nm
Near-IR 2 860 - 1040 nm
High Resolution Satellites
High Resolution images need to be purchased.
However, some of the moderate resolution images can be downloaded freely.
Landsat TM and ETM images can be downloaded from USGS Global Visualization Viewer.
MODIS Images can be downloaded from LP DAAC web site at https://lpdaac.usgs.gov/lpdaac/get_data/wist
Sources of Satellite Images
http://glovis.usgs.gov/
False color composite of Landsat TM image at Shaghata
11 November 1989 4 November 2005
Bank Shifting of bankline from base year (1989) to present year (2010) in meterLeft Bank Right Bank
At the bridge Location
-198.94 +240.8
1 km upstream
-157.16 +190.5
1 km down stream
-34.2 +67.35
Shift of Bankline
Planform changes of the Korotoa River at Shahjadpur
November 11, 1989 November 17, 2000
November 04, 2005 January 21, 2010
Change of Banklines
Google Earth as High Resolution Image Source
Bank lines using Google Earth
February 19, 2006February 27, 2004
Shifting of bank line from base year (2004) to present (m)
At the bridge Location
-1.9 16.2
1 km upstream -1.3 15.3
1 km down stream
-2.9 15.3
Shift of Bank lines
Hands on Exercise on Planform changes of River
using Satellite Images
A.K.M. Saiful IslamIWFM, BUET
Input Data: ◦ Landsat Images of Year 1989 and 2010 of Band 1-4◦ Bridge Location Text File (Lat, Long)
Software: ILWIS 3.7
Assignment: ◦ Develop False Color Composite Images ◦ Show the location of the Bridge Site◦ Determine the Bank lines during 1989 and 2010◦ Detect Changes of Banks
Outline
Tiles of Landsat TM+ over Bangladesh
Arial Khan River at Kalkini of Madaripur district
Import Bridge Location Text File “Bridge_Sundar_Teesta.txt”
It will imported as Table Create a Point Map from the Table Assign coordinate as “Lat-Lon”
Import Bridge Location
Longitude, Latitude90.33028611, 23.09426389
Use Import Wizard, Select Text files, Press Next Button
Importing Bridge Locations
Import as “Comma Delimited” ILWIS Table
Import from Text files
Skip 1 Lines as Header
Formatting as value domain
Change domain as “value” Change precision as “1e-006”
Set precision as E-06
Finish importing table “kalkini_bridge”
Importing Bridge Text file as ILWIS Table
Open Table, Column1 as longitude and Column 2 as Latitude
Creating Maps file from Bridge Table
Create Point Map from the Table by Clicking right mouse > Table to Point Map
X Column as Long and Y Column as Latitude Coordinate System as LATLON Output PointMap “Kalkini_Bridge” > Show
Create Point Maps from Table
Point Map of Kalkini Bridge
Shows Bridge locationAs point map
Band 1, 2, 3, 4, 5, 6, and 7 in folder 2010 and 1989
Import using via GDAL as TIF format
Import of Landsat Images of 1989 and 2010 in ILWIS
Band 1-7 as TIF images
Import Geo-Tif Images to ILWIS format
Import using TIF format and write file name
Importing TIF Image of Bands
Change image format as (TIF) and give a name
Displaying image of a single band
Import Band 1 to 7 using the same tools with and save file name as b1 to b7.
Make a Map List using Band 1 to 7.
Import Band 1 to 7 from TIF Images
Make map list using “>” and name it as “maps”
Creating Maplists from maps
Add all 7 layers to create a maplist “Maps”
Select Bands (7-4-2) for false color composite maps
Use display tool
Select band 7-4-2 as RGB
False color image during 2010
False color composite of landsat image
Add Bridge Layer over the Image
Use add layer button
Select bridge point map and add it
Insert Bridge location on false color composite maps
Change color to redLocation of the bridge in red color
Zoom over the Bridge Site
Use zoom tool
Zoom the map over bridge site
Creating Segment Maps of Bank
Create new segment For bank lines
Write segment names
Customize Snap tools and tolerance for onscreen diziting
Change tolerance Values to small value
Customize Using right Mouse button
Onscreen Drawing of Bank lines
Start digitizing using Insert tool and then save
Insert tool
Planform change during last 21 years at the Bridge site
Bank lines in 2010 Bank lines in 1989
Change of Planforms using Images and Field verification
Field visit to the bridge site
Changes over 21 years
Bank Shifting of bank line from base year (2000) to present year (2005) in meter
At the bridge Location
-332 +398.57
1 km upstream
-266.55 +389.108
1 km down stream
-121.33 +206.10
Measuring shifts at Bridge
Existing Bank Protection Works
Thank you