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Environmental Remote Sensing GEOG 2021 Lecture 2 Image display and enhancement.

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Presentation on theme: "Environmental Remote Sensing GEOG 2021 Lecture 2 Image display and enhancement."— Presentation transcript:

1 Environmental Remote Sensing GEOG 2021 Lecture 2 Image display and enhancement

2 2 Image Display and Enhancement Purpose visual enhancement to aid interpretation enhancement for improvement of information extraction techniques

3 3 Topics Display –Colour composites –Greyscale Display –Pseudocoluor Image arithmetic –+­ Histogram Manipulation –Properties –Transformations –Density slicing

4 4 Colour Composites Real Colour composite red band on red green band on green blue band on blue Swanley, Landsat TM 1988

5 5 Colour Composites Real Colour composite red band on red

6 6 Colour Composites Real Colour composite red band on red green band on green

7 7 Colour Composites Real Colour composite red band on red green band on green blue band on blue approximation to real colour...

8 8 Colour Composites False Colour composite NIR band on red red band on green green band on blue

9 9 Colour Composites False Colour composite NIR band on red red band on green green band on blue

10 10 Colour Composites False Colour composite many channel data, much not comparable to RGB (visible) –e.g. Multi-polarisation SAR HH: Horizontal transmitted polarization and Horizontal received polarization VV: Vertical transmitted polarization and Vertical received polarization HV: Horizontal transmitted polarization and Vertical received polarization

11 11 Colour Composites False Colour composite many channel data, much not comparable to RGB (visible) –e.g. Multi-temporal data –AVHRR MVC 1995 April August September April; August; September

12 12 Greyscale Display Put same information on R,G,B: August 1995

13 13 Pseudocolour use colour to enhance features in a single band –each DN assigned a different 'colour' in the image display

14 14 Image Arithmetic Combine multiple channels of information to enhance features e.g. NDVI (NIR-R)/(NIR+R)

15 15 Image Arithmetic Combine multiple channels of information to enhance features e.g. NDVI (NIR-R)/(NIR+R)

16 16 Image Arithmetic Common operators:Ratio Landsat TM 1992 Southern Vietnam: green band what is the shading?

17 17 Image Arithmetic Common operators:Ratio topographic effects visible in all bands FCC

18 18 Image Arithmetic Common operators:Ratio (ch a /ch b ) apply band ratio = NIR/red what effect has it had?

19 19 Image Arithmetic Common operators:Ratio (ch a /ch b ) Reduces topographic effects Enhance/reduce spectral features e.g. ratio vegetation indices (SAVI, NDVI++)

20 20 Image Arithmetic Common operators: Subtraction examine CHANGE MODIS NIR: Botswana Oct 2000 Predicted Reflectance Based on tracking reflectance for previous period

21 21 Image Arithmetic Measured reflectance

22 22 Image Arithmetic Difference (Z score) measured minus predicted noise

23 23 Image Arithmetic Common operators:Addition –Reduce noise (increase SNR) averaging, smoothing... –Normalisation (as in NDVI) + =

24 24 Image Arithmetic Common operators:Multiplication rarely used per se: logical operations? –land/sea mask

25 25 Histogram Manipluation WHAT IS A HISTOGRAM?

26 26 Histogram Manipluation WHAT IS A HISTOGRAM?

27 27 Histogram Manipluation WHAT IS A HISTOGRAM? Frequency of occurrence (of specific DN)

28 28 Density Slicing

29 29 Density Slicing

30 30 Density Slicing Dont always want to use full dynamic range of display Density slicing: a crude form of classification

31 31 Density Slicing Or use single cutoff = Thresholding

32 32 Histogram Manipulation Analysis of histogram –information on the dynamic range and distribution of DN attempts at visual enhancement also useful for analysis, e.g. when a multimodal distribution is observed

33 33 Histogram Manipulation Analysis of histogram –information on the dynamic range and distribution of DN attempts at visual enhancement also useful for analysis, e.g. when a multimodal distibution is observed

34 34 Histogram Manipulation Typical histogram manipulation algorithms: Linear Transformation input output 0 255 0

35 35 Histogram Manipulation Typical histogram manipulation algorithms: Linear Transformation input output 0 255 0

36 36 Histogram Manipulation Typical histogram manipulation algorithms: Linear Transformation Can automatically scale between upper and lower limits or apply manual limits or apply piecewise operator But automatic not always useful...

37 37 Histogram Manipulation Typical histogram manipulation algorithms: Histogram Equalisation Attempt is made to equalise the frequency distribution across the full DN range

38 38 Histogram Manipulation Typical histogram manipulation algorithms: Histogram Equalisation Attempt to split the histogram into equal areas

39 39 Histogram Manipulation Typical histogram manipulation algorithms: Histogram Equalisation Resultant histogram uses DN range in proportion to frequency of occurrence

40 40 Histogram Manipulation Typical histogram manipulation algorithms: Histogram Equalisation Useful automatic operation, attempting to produce flat histogram Doesnt suffer from tail problems of linear transformation Like all these transforms, not always successful Histogram Normalisation is similar idea Attempts to produce normal distribution in output histogram both useful when a distribution is very skewed or multimodal skewed

41 41 Summary Display –Colour composites –Greyscale Display –Pseudocoluor Image arithmetic –+­ Histogram Manipulation –Properties –Density slicing –Transformations

42 42 Summary Followup: –web material http://www.geog.ucl.ac.uk/~plewis/geog2021 Mather chapters Follow up material on web and other RS texts Access Journals


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