Current Science

Open Access Open Access  Restricted Access Subscription Access

An Image Processing Approach for Converging ASTER-Derived Spectral Maps for Mapping Kolhan Limestone, Jharkhand, India


Affiliations
1 National Remote Sensing Centre, Balanagar, Hyderabad 500 625, India
2 Andhra University, Visakhapatnam 530 003, India
3 Jharkhand Space Application Centre, Ranchi 834 004, India
 

In the present study, we have attempted the delineation of limestone using different spectral mapping algorithms in ASTER data. Each spectral mapping algorithm derives limestone exposure map independently. Although these spectral maps are broadly similar to each other, they are also different at places in terms of spatial disposition of limestone pixels. Therefore, an attempt is made to integrate the results of these spectral maps to derive an integrated map using minimum noise fraction (MNF) method. The first MNF image is the result of two cascaded principal component methods suitable for preserving complementary information derived from each spectral map. While implementing MNF, noise or non-coherent pixels occurring within a homogeneous patch of limestone are removed first using shift difference method, before attempting principal component analysis on input spectral maps for deriving composite spectral map of limestone exposures. The limestone exposure map is further validated based on spectral data and ancillary geological data.

Keywords

Limestone, Minimum Noise Fraction, Spectral Mapping, Image Processing.
User
Notifications
Font Size

Abstract Views: 264

PDF Views: 100




  • An Image Processing Approach for Converging ASTER-Derived Spectral Maps for Mapping Kolhan Limestone, Jharkhand, India

Abstract Views: 264  |  PDF Views: 100

Authors

Arindam Guha
National Remote Sensing Centre, Balanagar, Hyderabad 500 625, India
K. Vinod Kumar
National Remote Sensing Centre, Balanagar, Hyderabad 500 625, India
E. N. Dhananjaya Rao
Andhra University, Visakhapatnam 530 003, India
Reshma Parveen
Jharkhand Space Application Centre, Ranchi 834 004, India

Abstract


In the present study, we have attempted the delineation of limestone using different spectral mapping algorithms in ASTER data. Each spectral mapping algorithm derives limestone exposure map independently. Although these spectral maps are broadly similar to each other, they are also different at places in terms of spatial disposition of limestone pixels. Therefore, an attempt is made to integrate the results of these spectral maps to derive an integrated map using minimum noise fraction (MNF) method. The first MNF image is the result of two cascaded principal component methods suitable for preserving complementary information derived from each spectral map. While implementing MNF, noise or non-coherent pixels occurring within a homogeneous patch of limestone are removed first using shift difference method, before attempting principal component analysis on input spectral maps for deriving composite spectral map of limestone exposures. The limestone exposure map is further validated based on spectral data and ancillary geological data.

Keywords


Limestone, Minimum Noise Fraction, Spectral Mapping, Image Processing.



DOI: https://doi.org/10.18520/cs%2Fv106%2Fi1%2F40-49