Update README.md

Author: yingyue2030699

README.md

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-# Continuum Membrane & Dynamics
+# SLIMED
 
-NERDSS - Continuum Membrane & Dynamics tool expands the model to continuum membranes established with triangular mesh and optimized using an energy function. The installation instructions and dependencies are provided in README.rst. The first step requires setting up the triangular mesh model to approximate the membrane's geometry applying Loop's subdivision method. The lowest energy search model minimizes the membrane energy evaluated by the energy function. The Brownian Dynamics model simulates the moving membrane's surface with a displacement equation, performed on the limit surface with the help of a conversion matrix. Three types of boundary conditions are available: Fixed, Periodic, and Free, all defined for "ghost vertices" on the boundary of the triangular mesh.
+SLIMED (Subdivision-limit membrane dynamics) model is established with triangular mesh and optimized using an energy function. The installation instructions and dependencies are provided in README.rst. The first step requires setting up the triangular mesh model to approximate the membrane's geometry applying Loop's subdivision method. The lowest energy search model minimizes the membrane energy evaluated by the energy function. The Brownian Dynamics model simulates the moving membrane's surface with a displacement equation, performed on the limit surface with the help of a conversion matrix. Three types of boundary conditions are available: Fixed, Periodic, and Free, all defined for "ghost vertices" on the boundary of the triangular mesh.
 
 ## Installation
 To install the model, follow these steps:
@@ -127,4 +127,4 @@ helix insertion. Submitted (2021) Available on
 This project is licensed under the MIT License - see the LICENSE file for details.
 
 ## Reference
-1. Helfrich, W. (1973). Elastic properties of lipid bilayers: theory and possible experiments. Zeitschrift fur Naturforschung C, 28(11), 693-703.
+1. Helfrich, W. (1973). Elastic properties of lipid bilayers: theory and possible experiments. Zeitschrift fur Naturforschung C, 28(11), 693-703.