| 1 - 2 |
Applications of remote sensing and GIS for monitoring of coal fires, mine subsidence, environmental impacts of coal-mine closure and reclamation Preface
Duzgun S, Kunzer C, Karacan CO |
| 3 - 11 |
Surface coal mine area monitoring using multi-temporal high-resolution satellite imagery
Demirel N, Emil MK, Duzgun HS |
| 12 - 19 |
Evaluation of pollution levels at an abandoned coal mine site in Turkey with the aid of GIS
Yenilmez F, Kuter N, Emil MK, Aksoy A |
| 20 - 26 |
Remote sensing of vegetation health for reclaimed areas of Seyitomer open cast coal mine
Erener A |
| 27 - 39 |
Analyses and monitoring of lignite mining lakes in Eastern Germany with spectral signatures of Landsat TM satellite data
Schroeter L, Glasser C |
| 40 - 53 |
Monitoring of hydrochemical parameters of lignite mining lakes in Central Germany using airborne hyperspectral casi-scanner data
Glasser C, Groth D, Frauendorf J |
| 54 - 57 |
GIS for combined storage and analysis of data from terrestrial and synthetic aperture radar remote sensing deformation measurements in hard coal mining
Hannemann W, Brock T, Busch W |
| 58 - 72 |
Integration of ground subsidence hazard maps of abandoned coal mines in Samcheok, Korea
Oh HJ, Lee S |
| 73 - 78 |
Detection of coal mine fire in Jharia Coal Field using Landsat-7 ETM+ data
Mishra RK, Bahuguna PP, Singh VK |
| 79 - 86 |
A Remote Sensing and GIS Based Investigation of a Boreal Forest Coal Fire
Prakash A, Schaefer K, Witte WK, Collins K, Gens R, Goyette MP |
| 87 - 94 |
Risk assessment of underground coal fire development at regional scale
Wu JJ, Liu XC |
| 95 - 107 |
Comparison of methods to estimate the rate of CO2 emissions and coal consumption from a coal fire near Durango, CO
Ide ST, Orr FM |
| 108 - 119 |
Assessment of the contribution of in-situ combustion of coal to greenhouse gas emission; based on a comparison of Chinese mining information to previous remote sensing estimates
van Dijk P, Zhang JZ, Jun W, Kuenzer C, Wolf KH |
