(1) A systematic scientific method of complex electromechanical equipment. Explore the systematic method of cross-cutting, fusion and integration of multidisciplinary knowledge with machinery as the main carrier, and construct the theory and method system of "top-down" of integrated and innovative complex mechanical and electrical equipment.<br>(2) The internal mechanism and law of the function generation, multi-process coupling and dynamic performance evolution of complex electromechanical system. This paper reveals the mechanism of multi-media, multi-scale, multi-functional field, multi-interface and multi-process coupling of complex electromechanical systems, and discovers the principle of system function generation, which is embodied in multi-physics processes, and reveals the inherent laws of dynamic distortion, performance mutation and dynamic evolution of complex electromechanical systems.<br>(3) Multi-field modeling theory and analysis method series of complex electromechanical systems. Explore the theory and method of multi-disciplinary modeling of complex systems, study the multi-disciplinary comprehensive analysis theory and method of complex mechanical and electrical systems, and find the modeling and analysis methods applicable to high-dimensional, strong nonlinear, multi-process and multi-interface coupling power systems of complex systems. To study the theory of energy flow, material flow-information flow collaborative design, to study the theory and method of top-level design of complex mechanical and electrical equipment, to construct the integrated design theory of complex systems, and to explore the new theory and new method of the whole process collaborative design of the complex mechatronic equipment.<br>(5) Key quality design theory and common technology of complex mechanical and electrical equipment
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