Fiber-based diffuse reflectance spectroscopy has been applied to detect absorption and scattering properties associated with dysplasia in the tissue, which is a potential precursor of epithelial cancers. The more accurate measurement and quantification of optical properties in the thin epithelial layer is important to early dysplasia detection. The aim of this simulation study is to improve the accuracy of quantifying the scattering coefficients of the thin epithelial layer in a two-layered mucosal tissue model. The proposed method is to use obliquely oriented fibers which consist of a source fiber and multiple detection fibers parallel to each other and oriented obliquely to the tissue surface, instead of perpendicular fibers which have the drawback of weak performance of quantifying the optical properties of the thin epithelium. The major algorithm was Monte Carlo method. Since the conventional Monte Carlo simulation has high time complexity, a novel scaling method was used to speed up a forward model for simulating the spatially-resolved reflectance spectra. We implemented this simulation tool by C++. There was a significant improvement of time consumption, and the average deviation in the reflectance between our tool and the MCML open source code was 0.60±0.44%. We utilized our code to investigate the sensitivity of spatially-resolved spectra to the optical coefficients of the two layers. The results show that the oblique fibers had much higher sensitivity than perpendicular fibers to changes of the optical coefficients of the thin epithelial layer but lower sensitivity to stromal absorption and scattering coefficients. An inverse model was implemented with MATLAB to fit simulated spectra in order to quantify the unknown optical properties of the two-layered model. The fitting results show that the oblique fibers significantly reduced the root mean square percentage error of extracted epithelial scattering coefficient in comparison to the perpendicular fibers (from 32% to 1.5%). The average error in other optical properties was below 7% using the oblique fibers.