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Cited by 34 publications
(4 citation statements)
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“…In direct methods, in situ stress determination methods like flat jack, overcoring and undercoring, and hydraulic fracturing are used. ese methods are costly and time-consuming, the procedures used in determination of these stresses are difficult, and the results may be questionable [9,15,16]. In direct methods, the developed empirical models were used for determination of vertical and horizontal stresses.…”
Section: In Situ Stressesmentioning
confidence: 99%
“…In direct methods, in situ stress determination methods like flat jack, overcoring and undercoring, and hydraulic fracturing are used. ese methods are costly and time-consuming, the procedures used in determination of these stresses are difficult, and the results may be questionable [9,15,16]. In direct methods, the developed empirical models were used for determination of vertical and horizontal stresses.…”
Section: In Situ Stressesmentioning
confidence: 99%
“…remote sensing and GIS based landslide susceptibility assessment [6]; landslide susceptibility mapping [7][8][9]; early warning landslide susceptibility model using geographic information system (GIS) [10]; regional prediction of landslide hazard [11]; predicting of rockburst classification [12,13]; predicting destructive effect of masonry structure under blasting vibration of open-pit mine [14]; prediction of seismic liquefaction of sand soil [15]; classification of rocks surrounding in tunnel [16,17]; classification of top coal cavability of the steep seam [18]; comprehensive evaluation for seismic stability of slopes [19]; prediction rock mechanical behaviors [4]; predicting landslide deformation [20,21]; predicting of P-wave velocity and anisotropic property of rock [22]; estimating rock properties using sound levels produced during drilling [23]; automated tunnel rock classification using rock engineering systems [24]; estimation of the rock mass deformation modulus using a rock classification system [25]; predicting blast disaster in open pit blasting operation [26,27]; evaluation of penetration rate of tunnel boring machine in hard rock condition [28]; comparative study of cognitive systems for ground vibration measurements [29]; prediction of longitudinal wave velocity [30]; optimization of tunnel construction [31]; prediction of the rock mass diggability Mathematical Problems in Engineering index [32]; prediction of rock properties from sound levels produced during drilling [5]; modeling mine gas gushing forecasting on virtual environment [33]; rainfall reliability evaluation for stability of municipal solid waste landfills on slope [34]; determination of reservoir induced earthquake [35]; seismic event identification…”
Section: Introductionmentioning
confidence: 99%
“…RMR was improved by modified approaches such as slope mass rating (SMR) and geological strength index (GSI) which are more efficient and detailed for rockmass classification and better suited for weaker and jointed rockmass. Some of these classification techniques have also been used to estimate rockmass deformation modulus (Cai et al 2004;Khabbazi et al 2013). …”
Section: Introductionmentioning
confidence: 99%