Firefly Algorithm (FA, for short) is inspired by the social behavior of fireflies and their phenomenon of bioluminescent communication. Based on the fundamentals of FA, two improved strategies are proposed to conduct size and topology optimization for trusses with discrete design variables. Firstly, development of structural topology optimization method and the basic principle of standard FA are introduced in detail. Then, in order to apply the algorithm to optimization problems with discrete variables, the initial positions of fireflies and the position updating formula are discretized. By embedding the random-weight and enhancing the attractiveness, the performance of this algorithm is improved, and thus an Improved Firefly Algorithm (IFA, for short) is proposed. Furthermore, using size variables which are capable of including topology variables and size and topology optimization for trusses with discrete variables is formulated based on the Ground Structure Approach. The essential techniques of variable elastic modulus technology and geometric construction analysis are applied in the structural analysis process. Subsequently, an optimization method for the size and topological design of trusses based on the IFA is introduced. Finally, two numerical examples are shown to verify the feasibility and efficiency of the proposed method by comparing with different deterministic methods.
Structural performance under solar radiation for structures in ice or ice composite is of vital importance. In this paper, the performance of the 30.5-meter-high Flamenco Ice Tower is numerically studied in detail. To carry out this research, material properties of ice composite are first studied based on different types of tests. Subsequently, structural performance of the ice tower under solar radiation is analyzed in ABAQUS. Through this research, the simulation method for structural performance of shell structures in ice composite is tested to be successful, which will contribute to the future development and applications of ice structures.
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