脉冲力控制的离散性和弹体动力学的连续性使得脉冲力控制制导控制系统成为难于分析的混杂控制系统。鉴于此,建立了脉冲力控制弹体和制导回路动力学模型,通过将脉冲力控制制导系统等价为幅值式脉冲调制(amplitude pulse frequency modula...脉冲力控制的离散性和弹体动力学的连续性使得脉冲力控制制导控制系统成为难于分析的混杂控制系统。鉴于此,建立了脉冲力控制弹体和制导回路动力学模型,通过将脉冲力控制制导系统等价为幅值式脉冲调制(amplitude pulse frequency modulator,APF-M)系统,解决了脉冲力控制制导回路的变周期离散化建模问题。进一步利用滑模理论分析了制导回路的稳定性,得出脉冲冲量、喷管点火等待时间及重力对制导回路稳定性的影响。提出了偏置阈值法进行重力补偿,并对脉冲力控制制导回路进行了仿真分析。仿真结果验证了偏置阈值法重力补偿的有效性,并得出加大脉冲冲量,减小喷管点火等待时间能有效减缓失调角发散的结论。展开更多
The paper describes experiments on formation of a plasma channel with imbedded B-field for transporting high power ion beam. The plasma was generated with a 5-turn loop inductive antenna driven by an H-bridge type RF ...The paper describes experiments on formation of a plasma channel with imbedded B-field for transporting high power ion beam. The plasma was generated with a 5-turn loop inductive antenna driven by an H-bridge type RF generator. The azimuthal B-field in the channel of 0.5-1.5 kG was formed by a pulsed current from external capacitor bank. Control of the hydrogen gas pressure was provided by an electromagnetic puffvalve. The paper describes experimental devices and results on the generated plasma parameters as function of RF frequency, antenna voltage, pulse duration and puffgas pressure. When operating at-1 kG B-field, ambient gas pressure in the range of few -10 mTorr, and 5 kV antenna voltage at resonant frequency of 150 kHz, the plasma density range was (3-7)×10^12 cm3 with a temperature of a few eV.展开更多
In this paper, outer synchronization between drive-response dynamical networks is investigated. Impulsive control combining with adaptive strategy is adopted to design controllers for achieving the goal. Based on the ...In this paper, outer synchronization between drive-response dynamical networks is investigated. Impulsive control combining with adaptive strategy is adopted to design controllers for achieving the goal. Based on the Lyapunov function method and mathematical analysis technique, a synchronization criterion with respect to the impulsive gains and intervals is analytically derived. From the criterion, the impulsive gains can adjust themselves to proper values when the impulsive intervals and some constants are fixed, and vice versa. Finally, two numerical examples are provided to verify the effectiveness of the derived result.展开更多
Non-smooth system including impulsive strategies at both fixed and unfixed times are analyzed. For the model with fixed impulsive effects, the global stability of pest eradi- cation periodic solution and the dominance...Non-smooth system including impulsive strategies at both fixed and unfixed times are analyzed. For the model with fixed impulsive effects, the global stability of pest eradi- cation periodic solution and the dominance of dynamic behavior are investigated. This indicates that the model with fixed moments has the potential to protect the natural enemies from extinction, but under some conditions may also serve to extinction of the pest. The second model is constructed according to the practices of IPM, that is, when the pest population reaches the economic injury level, a combination of biological, cultural, and chemical tactics that reduce pests to tolerable levels is used. Numerical investigations imply that there are several different types of periodic solutions and their maximum amplitudes are always less than the given economic threshold. The results also show that the time series at which the IPM strategies are applied are quite complex, which means that the application and realization of IPM in practice are very difficult.展开更多
文摘脉冲力控制的离散性和弹体动力学的连续性使得脉冲力控制制导控制系统成为难于分析的混杂控制系统。鉴于此,建立了脉冲力控制弹体和制导回路动力学模型,通过将脉冲力控制制导系统等价为幅值式脉冲调制(amplitude pulse frequency modulator,APF-M)系统,解决了脉冲力控制制导回路的变周期离散化建模问题。进一步利用滑模理论分析了制导回路的稳定性,得出脉冲冲量、喷管点火等待时间及重力对制导回路稳定性的影响。提出了偏置阈值法进行重力补偿,并对脉冲力控制制导回路进行了仿真分析。仿真结果验证了偏置阈值法重力补偿的有效性,并得出加大脉冲冲量,减小喷管点火等待时间能有效减缓失调角发散的结论。
文摘The paper describes experiments on formation of a plasma channel with imbedded B-field for transporting high power ion beam. The plasma was generated with a 5-turn loop inductive antenna driven by an H-bridge type RF generator. The azimuthal B-field in the channel of 0.5-1.5 kG was formed by a pulsed current from external capacitor bank. Control of the hydrogen gas pressure was provided by an electromagnetic puffvalve. The paper describes experimental devices and results on the generated plasma parameters as function of RF frequency, antenna voltage, pulse duration and puffgas pressure. When operating at-1 kG B-field, ambient gas pressure in the range of few -10 mTorr, and 5 kV antenna voltage at resonant frequency of 150 kHz, the plasma density range was (3-7)×10^12 cm3 with a temperature of a few eV.
基金Supported by the Tianyuan Special Funds of the NSFC under Grant No.11226242the Natural Science Foundation of Jiangxi Province of China under Grant Nos.20122BAB211006 and 20132BAB201016
文摘In this paper, outer synchronization between drive-response dynamical networks is investigated. Impulsive control combining with adaptive strategy is adopted to design controllers for achieving the goal. Based on the Lyapunov function method and mathematical analysis technique, a synchronization criterion with respect to the impulsive gains and intervals is analytically derived. From the criterion, the impulsive gains can adjust themselves to proper values when the impulsive intervals and some constants are fixed, and vice versa. Finally, two numerical examples are provided to verify the effectiveness of the derived result.
文摘Non-smooth system including impulsive strategies at both fixed and unfixed times are analyzed. For the model with fixed impulsive effects, the global stability of pest eradi- cation periodic solution and the dominance of dynamic behavior are investigated. This indicates that the model with fixed moments has the potential to protect the natural enemies from extinction, but under some conditions may also serve to extinction of the pest. The second model is constructed according to the practices of IPM, that is, when the pest population reaches the economic injury level, a combination of biological, cultural, and chemical tactics that reduce pests to tolerable levels is used. Numerical investigations imply that there are several different types of periodic solutions and their maximum amplitudes are always less than the given economic threshold. The results also show that the time series at which the IPM strategies are applied are quite complex, which means that the application and realization of IPM in practice are very difficult.
