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1.
Artificial bee colony (ABC) algorithm has several characteristics that make it more attractive than other bio-inspired methods. Particularly, it is simple, it uses fewer control parameters and its convergence is independent of the initial conditions. In this paper, a novel artificial bee colony based maximum power point tracking algorithm (MPPT) is proposed. The developed algorithm, does not allow only overcoming the common drawback of the conventional MPPT methods, but it gives a simple and a robust MPPT scheme. A co-simulation methodology, combining Matlab/Simulink™ and Cadence/Pspice™, is used to verify the effectiveness of the proposed method and compare its performance, under dynamic weather conditions, with that of the Particle Swarm Optimization (PSO) based MPPT algorithm. Moreover, a laboratory setup has been realized and used to experimentally validate the proposed ABC-based MPPT algorithm. Simulation and experimental results have shown the satisfactory performance of the proposed approach. 相似文献
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将磁流变技术应用于火炮反后坐装置是目前正在发展的一种降低火炮后坐力的新技术,优化火炮反后坐装置控制,达到实时调节阻力。针对某型号火炮,在建立动力学模型和电磁模型的基础上设计了磁流变反后坐系统。为实现理想的后坐控制规律,提出了PID和模糊控制算法。利用ADAMS和MATLAB进行联合仿真,仿真结果表明,在后坐行程范围内,最大后坐阻力分别为3.71×105N,3.53×105N,相比传统火炮减小了13%和17%,并且模糊控制的后坐阻力曲线具有良好的"平台效应",实现了控制目标,表明磁流变阻尼器良好的可控性和应用于火炮后坐系统中的可行性。 相似文献
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Embedded architecture description language 总被引:1,自引:0,他引:1
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Real-time (RT) simulator is a powerful tool for analyzing operational and control algorithms in electric power systems engineering. For understanding the dynamic and transient behavior of a power systems, significant RT computation capabilities are essential. A single unit of RT simulator has limited simulation capabilities. The most common way of augmenting simulation capability is using a bank of locally connected RT simulators. However, creating a large-sized bank of RT simulators involves significant financial investments and hence may not be feasible at all research facilities. Power and energy systems research facilities that use RT simulators are at diverse physical locations. In addition to RT simulators, research facilities around the world house an array of facilities with unique power, energy, and control systems for innovative research. To leverage these unique research facilities, geographically distributed RT simulation based on Wide Area Network (WAN) is required. Typical RT simulators perform simulations with time-steps in the order of milliseconds to microseconds, whereas data latency for communication on WAN may be as high as a few hundred milliseconds. Such communication latency between RT simulators may lead to inaccuracies and instabilities in geographically distributed RT simulations. In this paper, the effect of communication latency on geographically distributed RT simulation is discussed and analyzed. In order to reduce the effect of the communication latency, a Real-Time Predictor (RTP), based on linear curve fitting is developed and integrated into the distributed RT simulation environment. Two geographically distributed digital RT simulators are used to perform dynamic simulations of an electric power system with a fixed communication latency and the predictor. Empirical results demonstrate the effects of communication latency on the simulation and the performance of the RTP to improve the accuracy of simulations. 相似文献
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针对目前电控正流量挖掘机系统研究较少、空载时能量损失大、发动机与主泵功率不匹配以及节能控制效果不佳的问题,搭建基于AMESim和Simulink的挖掘机电液系统联合仿真平台,提出一种双变量泵的发动机-泵恒功率控制方法。通过样机仿真实验以及分工况功率匹配研究,验证搭建的电控正流量挖掘机系统的正确性以及分工况功率匹配的有效性。仿真实验结果表明:设计的仿真模型以及功率匹配策略表现良好,在仿真和实验中,不同的工况模式下均可以保证泵的恒功率特性,可以实现对发动机的功率控制,发动机功率可以得到充分利用。 相似文献
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为了稳定准确控制风帆转角位置,根据所设计的风帆驱动控制液压系统原理,提出风帆转角/速度复合控制方案。利用AMESim-MATLAB/Simulink软件建立风帆转角/速度复合控制联合仿真模型,并进行了联合仿真及实验研究。结果表明:采用复合控制可以克服常规控制中出现的压力波动及启停时的液压冲击;在不同转角速度及不同风力负载条件下,风帆均能按照规划的速度及位移进行转动,体现了复合控制的有效性和可靠性,可以为风帆助航船的风帆控制提供技术支持。 相似文献