Bio-inspired computing for launch vehicle design and trajectory optimization

机译：受生物启发的计算技术，用于运载火箭设计和轨迹优化

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This paper presents an optimization tool for launch vehicle design and trajectory optimization using bio-inspired computing algorithms and nonlinear programming. The objective is to size a launch vehicle such that the payload to lift-of-weight ratio is maximized (i.e the lift off weight is a minimum). Here, the staging problem is solved using Particle Swarm Optimization (PSO) method. With the above vehicle, an optimal trajectory is arrived at using a Real-Coded Genetic Algorithm (RCGA) and solving a nonlinear programming (NLP) by the direct shooting method. The solutions from PSO and RCGA are used for initialization of NLP variables. A case study is carried out that establishes the advantage of the proposed approach.

机译：本文介绍了一种利用生物启发式计算算法和非线性编程进行运载火箭设计和轨迹优化的优化工具。目的是确定运载火箭的大小，以使有效载荷与举重之比达到最大（即提起重量最小）。在这里，使用粒子群优化（PSO）方法解决了分级问题。对于上述车辆，使用实码遗传算法（RCGA）并通过直接射击方法求解非线性规划（NLP）可获得最佳轨迹。来自PSO和RCGA的解决方案用于NLP变量的初始化。进行了案例研究，确定了所建议方法的优势。

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《IEEE Symposium on Computational Intelligence for Security and Defense Applications (CISDA 2009)》|2009年|1-8|共8页
会议地点 Ottawa(CA);Ottawa(CA)
作者
Suresh Sundaram; Rong Hai-Jun; Sundararajan Narasimhan;
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Department of Electrical Engineering, Indian Institute of Technology - Delhi, India;

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4. Bio-Inspired Computing for Launch Vehicle Design and Trajectory Optimization [C] . Sundaram Suresh, Hai-Jun Rong, Narasimhan Sundararajan Symposium on Computational Intelligence for Security and Defense Applications . 2009

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5. Application of a modified genetic algorithm to the trajectory optimization of a launch vehicle second stage. [D] . Dalwadi, Mrugesh. 2010

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8. DUKSUP: A Computer Program for High Thrust Launch Vehicle Trajectory Design and Optimization. [R] . Spurlock, O. F., Williams, C. H. 2015

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Bio-inspired computing for launch vehicle design and trajectory optimization

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