人造系统动力学多元系统传递矩阵法初探  被引量：2

作　　者：芮筱亭[1,2] 王勋 芮雪 Xiaoting Rui;Xun Wang;Xue Rui(Institute of Launch Dynamics,Nanjing University of Science&Technology,Nanjing 210094,China;National Key Laboratory of Complex Multibody System Dynamics,Nanjing 210094,China)

机构地区：[1]南京理工大学发射动力学研究所,南京210094 [2]复杂多体系统动力学全国重点实验室,南京210094

出　　处：《科学通报》2023年第25期3250-3258,共9页Chinese Science Bulletin

基　　金：国家重点基础研究发展计划(613308,613153)资助.

摘　　要：人造系统也称人工系统,是人类为了达到某种目的而构造的系统,例如各种加工系统、运输系统、电力系统、机械系统、武器系统等.现代科学、技术和工程已发展到从全系统动力学角度分析、提高人造系统设计、加工、试验、评估和运用全生命周期能力,以获得期望性能的工程产品的高级阶段,其目标是建立精确的人造系统动力学数学模型并对其快速数值求解,从而准确、快速地预测和提高系统性能[1].坦克、舰艇、飞机、运载火箭、卫星、汽车、高铁、发电机、电动机、精密机床等各种现代人造系统发展,推动了科技和人类文明进步,是一个国家重大战略布局和综合实力的象征,是国计民生和国家安全的关键标志.由于缺乏先进的人造系统动力学快速计算等理论与软件,现代人造系统发展至今仍面临提高设计性能、提高加工质量、降低试验评估成本、保障运用安全的严峻挑战.The artificial systems,such as various machining systems,transportation systems,power systems,mechanical systems,weapon systems,etc.,are constructed to achieve a certain purpose.Modern science,technology,and engineering have reached advanced levels of analyzing,and improving capabilities of design,manufacturing,testing,evaluation,and utilization during the whole lifecycle of artificial systems,from the perspective of whole-system dynamics,in order to obtain engineering products with expected performance.The goal is to establish accurate mathematical models of artificial system dynamics and obtain efficient numerical solution to accurately and quickly predict and improve the system performance.For the most typical mechanical systems of artificial systems,their system dynamics models can be modeled as multibody systems.The conventional multibody system dynamics methods use system global dynamics equations formed by either differential equations or differential-algebraic equations to study multibody system dynamics.When dealing with practical and complex engineering applications,the conventional approaches lead to coefficient matrices with large dimensions that negatively impact computational speed and cannot satisfy the requirement of system dynamics design,due to the computational speed is usually inversely proportional to the third power of the matrix order.The multibody system transfer matrix method(MSTMM),also known internationally as“Rui method”,which was firstly proposed by Xiaoting Rui in 1993 for mechanical system dynamics,is a novel multibody system dynamics method.By identifying and using state vectors in mechanical systems that exist strictly linear transfer laws,the multibody system dynamics study pattern with system global dynamics equations was replaced by using modular modeling of system and element transfer equations,leading to the breakthrough of the technical bottleneck that the system matrix order increases with the increase of system degrees of freedom,thereby resulting in significant reduct

关 键 词：人工系统 人造系统 系统动力学 多元系统 现代科学 精密机床 动力学数学模型 机械系统 

分 类 号：N941.3[自然科学总论—系统科学]