Landscape Modelling for Sustainable Urban Management
PDF   Home
Home   Abstract   Introduction   Methods   Study area   Results   Conclusion   Acknowledgement   References

References :

  1. World Urbanization Prospects. (2005). Revision, Population Division, Department of Economic and Social Affaris, UN.
  2. Kulkarni, V. and Ramachandra, T.V., 2006. Environmental Management, Commonwealth Of Learning, Canada and Indian Institute of Science, Bangalore, Printed by Capital Publishing Company, New Delhi.
  3. Ramachandra, T. V., and Kumar, U., 2008. Geoinformatics for Urbanisation and Urban Sprawl pattern analysis. In: Geoinformatics for Natural Resource Management (Eds. Joshi et al.). Nova Science Publishers, NY (In press).
  4. Arora, M. K. and Mathur, S., 2001. Multi-source classification using artificial neural network in rugged terrain. GeoCarto International, 16(3), pp. 37-44.
  5. Duda, R. O., Hart, P. E., and Stork, D. G., 2000. Pattern classification, A Wiley-Interscience Publication, Second Edition, ISBN 9814-12-602-0.
  6. Shimabukuro, Y. E. and Smith, A. J., 1991, The least-squares mixing models to generate fraction images derived from remote sensing multispectral data. IEEE Transactions on Geoscience and Remote Sensing, 29(1), pp. 16–20.
  7. Kumar, U., Kerle, N., and Ramachandra T. V., 2008, Contrained linear spectral unmixing technique for regional land cover mapping using MODIS data. In: Innovations and advanced techniques in systems, computing sciences and software engineering / ed by Elleithy, K., Berlin: Springer, 2008. ISBN: 978-1-4020-8734-9. paper 87. 9 p.
  8. Foody, G.M., and Cox, D. P., 1994. Subpixel land cover composition estimation using a linear mixture model and fuzzy membership functions. International Journal of Remote  Sensing, 15(3), pp. 619–631.
  9. Kanellopoulos, I., Varfis, A., Wilkinson, G. G., and Megier, J., 1992, Land-cover discrimination in SPOT imagery by artificial neural network-a twenty class experiment, International Journal of Remote Sensing, 13(5), pp. 917–924.
  10. Nielsen, A. A., 2001, Spectral mixture analysis: Linear and semi-parametric full and iterated partial unmixing in multi-and hyperspectral image data. International Journal of Computer Vision, 42(1), pp. 17-37.
  11. Chang, C-I., 2005, Orthogonal Subspace Projection (OSP) Revisited: A Comprehensive Study and Analysis. IEEE Transactions on Geoscience and Remote Sensing, 43(3), pp. 502–518.
  12. Tucker, R. P., and Richards, J. F., Global deforestation and the nineteenth century world economy, Duke University Press, Durham, North Carolina, USA, 1983.
  13. Turner, B. L., Clark, W. C., Kates, R. W., Richards, J. F., Mathews, J. T., and Meyer, W. B., 1990, The Earth as transformed by human action, Cambridge University Press, Cambridge, UK.
  14. Meyer, W. B., and Turner, B. L., 1994, Changes in land use and land cover: a global perspective. Cambridge University Press, Cambridge, UK.
  15. Houghton, R. A., The worldwide extent of land-use change. BioScience, 1994, 44, 305-313.
  16. Hurd, J. D., Wilson, E. H., Lammey, S. G., and Civco, D. L., 2001. Characterization of Forest Fragmentation and Urban Sprawl using time sequential Landsat Imagery. In ASPRS 2001 Annual Convention, St. Louis, MO.
  17. Forman, R. T. T., and Godron, M., Landscape Ecology, John Wiley, New York, 1986.
  18. Turner, M. G., Landscape ecology: the effect of pattern on process. Annual Review of Ecology and Systematics, 1989, 20, 171-197.
  19. Levin, S. A., The problem of pattern and scale in ecology. Ecology, 1992, 73, 1943-1967.
  20. Riitters, K., J., Wickham, R. O' Neill., Jones, B., and Smith, E., Global-scale patterns of forest fragmentation. Conservation Ecology, 2000, 4(2), 3; http://www. consecol.org/vol4/iss2/art3/
  21. Civco, D. L., Hurd, J. D., Wilson, E. H., Arnold, C. L., and Prisioe, M. P., 2002. Quantifying and Describing Urbanizing landscape in the Northeast United States. Photogrammetry Engineering and Remote Sensing, 68(10), pp. 1083 - 1090.
  22. Hurd, J. D., Wilson, E. H., and Civco, D. L., Development of a Forest Fragmentation Index to Quantify the rate of forest change. In ASPRS-ACSM Annual Conference and FIG XXII Congress, April 22-26, 2002.
  23. Vogelmann, J. E., Assessment of forest fragmentation in southern New England using remote sensing and geographic information system technology. Conservation Biology, 1995, 9(2), 439-449.
  24. Wickham, J. D., Jones, K. B., Ritters, K. H., Wade, T. G., and O’Neill, R. V., Transition in forest fragmentation: implications for restoration opportunities at regional scales. Landscape Ecology, 1999, 14:137-145.
  25. Stauffer, D., Introduction to percolation theory, Taylor and Francis, Philadelphia, Pennsylvania, USA, 1985.
  26. Nepstad, D. C., Lefebvre, P., and Davidson, E. A., Positive feedbacks in the fire dynamic of closed canopy tropical forests. Science, 1999a, 284, 1832-1835.
  27. Nepstad, D. C., Verissimo, A., Alencar, A., Nobre, C., Lima, E., Lefebvre, P., Schlesinger, P., Potter, C., Moutinho, P., Mendoza, E., Cochrane, M., and Brooks, V., Large-scale impoverishment of Amazonian forests by logging and fire. Nature, 1999b, 98, 505-508.
  28. O’Neill, R. V., Hunsaker, C. T., Timmins, S. P., Jackson, B. L., Jones, K. B., Ritters, K. H., and Wickham, J. D., Scale problems in reporting landscape pattern at the regional scale. Landscape Ecology, 1996, 11, 169-180.
E-mail   |   Sahyadri   |   ENVIS   |   Energy   |   GRASS   |   CES   |   IISc   |   E-mail