Abstract
The rock slope stability analysis can be performed using deterministic and probabilistic approaches. The deterministic analysis based on the safety concept factor uses fixed representative values for each input parameter involved without considering the variability and uncertainty of the rock mass properties. Probabilistic analysis with the calculation of probability of failure instead of the factor of safety against failure is emerging in practice. Such analyses offer a more rational approach to quantify risk by incorporating uncertainty in the input variables and evaluating the probability of the failure of a system. In rock slope engineering, uncertainty and variability involve a large scatter of geo-structural data and varied geomechanical test results. There has been extensive reliability analysis of rock slope stability in the literature, and different methods of reliability are being employed for assessment of the probability of failure and the reliability of a slope. Probabilistic approaches include Monte Carlo simulation (MCS), the point estimate method (PEM), the response surface method (RSM), first- and second-order reliability methods (FORMs and SORMs), and the first-order second-moment method (FOSM). Although these methods may be complicated, they provide a more complete definition of risk. Probabilistic slope stability analysis is an option in most commercial software; however, the use of this method is not common in practice. This paper provides an overview of the literature on some of the main probabilistic reliability-based methods available for the design of the rock slope in open pit mining. To demonstrate its applicability, the paper investigates the stability of a rock slope in an open pit mine in the Goldfields region, Western Australia. Two different approaches were adopted: deterministic stability analysis using two-dimensional limit equilibrium and finite element shear strength reduction methods using SLIDE and RS2 software, respectively, and probabilistic analysis by applying the MCS and RSM methods in the limit equilibrium method. In this example, the slope stability analysis was performed using the Spencer method with Cuckoo search optimization to locate the critical slip surface. The results obtained were compared and commented on.
Highlights
Probability analysis of rock slopes has gained considerable attention in the design of open pit mines (e.g., [1,2,3,4,5,6])
This paper aims to review some probability methods that have been used in the design of rock slope reliability problems
It requires a linearized form of the performance function at the mean values of the random variables [24,70]. This method assumes that the expected value of the performance function is approximately equal to the value of the function calculated with the mean values of all variables [60,70]
Summary
Probability analysis of rock slopes has gained considerable attention in the design of open pit mines (e.g., [1,2,3,4,5,6]). The complexity comes from the variabilities and uncertainties associated with the rock properties during the design and assessment of rock slope stability. This natural variability cannot be reduced no matter our knowledge of rock properties and expertise displayed in estimating them [13,14]. In the deterministic approach, the factor of safety cannot reflect the uncertainty of its underlying parameters. The influence of a parameter on the calculated factor of safety is investigated through a sensitivity analysis, based on the recognition that there are many uncertainties associated with the underlying parameters [15,16]
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