Ground surface deformation caused by mining activity is a critical aspect when assessing safetyrnof slope and environmental impacts due to the operations of open-pit and underground mining.rnThese mining-induced ground surface deformations have the potential to seriously harm thernenvironment, slope stability, and man-made structures in the mining activity area and this problemrnmonitored by using either ground or space monitoring systems. Traditional or Ground methods ofrnmonitoring ground surface deformation in the mining operations region are laborious, expensive,rnand time consuming with in the areas that being difficult to access. Remote sensing and otherrngeospatial observations enable a cost-effective, dependable, temporally and spatially continuousrnmonitoring process of mining operations at enormous sizes, regardless of physical accessibility.rnIn this study, C-band SAR data were used to demonstrate the possibility of using the PersistentrnScatterer Interferometric Synthetic Aperture Radar (PS-InSAR) technique to investigate groundrnsurface deformation induced by mining activities, specifically in the Midroc Gold Mine Company.rnThe PSInSAR approach also has demonstrated its potential to analysis time series of groundrnsubsidence in having dense vegetation and rural behavior of the study area. In midroc lega dembirnopen pit mining area, the maximum rate of ground surface deformation was âˆ’90 mm/year with arncumulative subsidence value of âˆ’200 and âˆ’100 mm were observed from InSAR techniques andrnâˆ’3.99866 and âˆ’0.000122 m cumulative displacement were observed from ground survey data.rnThis large discrepancy between datasets is likely the result of dense vegetation land cover in thernarea of the interest. The ground survey data of the Midroc lega Dembi open pit mining region wasrncorrelated with the PS-InSAR results, revealing subsidence spots with a value of 0.98 correlationrncoefficient in selected point. The selected methodology of using C-band SAR data and groundrnsurvey data with PS-InSAR techniques to identify, monitor, and map ground surface deformationrnin the Gold mine area was practically applicable. Finally, based on the results and findings on thernpresent study, certain recommendations has been made.