As a typical rhythmic movement, human being's rhythmic gait movement can be generated by a central pattern generator (CPG) located in a spinal cord by self- oscillation. Some kinds of gait movements are caused by g...As a typical rhythmic movement, human being's rhythmic gait movement can be generated by a central pattern generator (CPG) located in a spinal cord by self- oscillation. Some kinds of gait movements are caused by gait frequency and amplitude variances. As an important property of human being's motion vision, the attention selection mechanism plays a vital part in the regulation of gait movement. In this paper, the CPG model is amended under the condition of attention selection on the theoretical basis of Matsuoka neural oscillators. Regulation of attention selection signal for the CPG model parameters and structure is studied, which consequentially causes the frequency and amplitude changes of gait movement output. Further, the control strategy of the CPG model gait movement under the condition of attention selection is discussed, showing that the attention selection model can regulate the output model of CPG gait movement in three different ways. The realization of regulation on the gait movement frequency and amplitude shows a variety of regulation on the CPG gait movement made by attention selection and enriches the controllability of CPG gait movement, which demonstrates potential influence in engineering applications.展开更多
The modulation and control of gecko's foot movements were studied electrophysiologically in order to design the motor control system of a gecko-mimic robot. In this study (1) the anatomy of the peripheral nerves co...The modulation and control of gecko's foot movements were studied electrophysiologically in order to design the motor control system of a gecko-mimic robot. In this study (1) the anatomy of the peripheral nerves controlling the gecko's foot movements was determined; (2) the relationship between the limb nerves of the gecko and its foot motor patterns was studied; (3) the afferent impulses of the nerves evoked by rubbing the gecko's toes and palm were recorded; (4) copying the natural patterns of movement of the gecko's foot (abduction, adduction, flexion, and revolution) and its limb nerve modulation and control mechanism, the nerves were stimulated under computer control, and the results recorded by CCD. Results suggest that gecko's foot movements can be successfully controlled by artificial electrical signals.展开更多
Structural superlubricity(SSL)refers to a state where the friction and wear between two directly contacted solid surfaces are virtually zero.The realization of microscale SSL in 2012 rapidly explored SSL technologies ...Structural superlubricity(SSL)refers to a state where the friction and wear between two directly contacted solid surfaces are virtually zero.The realization of microscale SSL in 2012 rapidly explored SSL technologies which hold great potential in the development of reliable and energy⁃efficient micro devices.A key to a successful superlubric device is to control the movements of the superlubric slider.To solve this challenge,here two general principles are shown to guide and control the motion of the slider,i.e.,by minimization of interfacial energy and minimization of electrostatic energy.When the shapes of the slider and substrate are designed appropriately,the excess interfacial energy of the contact⁃pair provides restoring and constraining forces to the slider.Similarly,tunable driving and constraining forces are enabled by the electric fields induced by the electrodes buried in the substrate.These concepts are demonstrated on the design of a superlubric resonator whose natural frequency of the lateral translational mode is well⁃defined and unfavorable rotation is constrained.The above design principles should be applicable to superlubric devices in general and help the development of future applications of structural superlubricity.展开更多
车车通信列车运行控制系统中移动授权的生成对城市轨道交通运营效率有着较大的影响。通过分析车车通信列车运行控制系统中移动授权的生成过程及性能,建立基于有色Petri网(colored Petri net,CPN)的车车通信移动授权信息交互的模型,进行...车车通信列车运行控制系统中移动授权的生成对城市轨道交通运营效率有着较大的影响。通过分析车车通信列车运行控制系统中移动授权的生成过程及性能,建立基于有色Petri网(colored Petri net,CPN)的车车通信移动授权信息交互的模型,进行性能分析。研究移动授权生成过程中端对端通信传输时延的延时概率,根据不同信道质量下统计传输时延的平均值,计算移动授权完成的成功率。分析结果表明,基于车车通信的列车运行控制系统移动授权的生成过程,符合地铁长期演进(long term evolution for metro,LTE-M)系统端到端延时时间不大于150 ms的概率不小于98%,时延随着信道质量的下降而增加。展开更多
In this paper, we propose a new formula of the real-time minimum safety headway based on the relative velocity of consecutive trains and present a dynamic model of high-speed passenger train movements in the rail line...In this paper, we propose a new formula of the real-time minimum safety headway based on the relative velocity of consecutive trains and present a dynamic model of high-speed passenger train movements in the rail line based on the proposed formula of the minimum safety headway. Moreover, we provide the control strategies of the high-speed passenger train operations based on the proposed formula of the real-time minimum safety headway and the dynamic model of highspeed passenger train movements. The simulation results demonstrate that the proposed control strategies of the passenger train operations can greatly reduce the delay propagation in the high-speed rail line when a random delay occurs.展开更多
针对先进机场场面引导与控制系统(Advanced surface movement guidance and control system,A-SMGCS)滑行道冲突预测与避免控制,提出基于事件反馈的闭环控制框架,并重点解决对头冲突预测与避免控制问题。建立滑行道受控着色Petri网模型...针对先进机场场面引导与控制系统(Advanced surface movement guidance and control system,A-SMGCS)滑行道冲突预测与避免控制,提出基于事件反馈的闭环控制框架,并重点解决对头冲突预测与避免控制问题。建立滑行道受控着色Petri网模型。提出航空器可控滑行路段概念,并给出其对应子模型的生成规则。利用子模型中环路和环路链,给出无对头冲突的充分必要条件。提出对头冲突避免控制策略,以及适合实时控制的对头冲突预测与避免控制算法。算例表明本文能根据场面状态及时识别对头冲突并实现冲突避免。展开更多
基金supported by the National Natural Science Foundation of China(Nos.11232005 and11472104)the Doctoral Fund of Ministry of Education of China(No.20120074110020)
文摘As a typical rhythmic movement, human being's rhythmic gait movement can be generated by a central pattern generator (CPG) located in a spinal cord by self- oscillation. Some kinds of gait movements are caused by gait frequency and amplitude variances. As an important property of human being's motion vision, the attention selection mechanism plays a vital part in the regulation of gait movement. In this paper, the CPG model is amended under the condition of attention selection on the theoretical basis of Matsuoka neural oscillators. Regulation of attention selection signal for the CPG model parameters and structure is studied, which consequentially causes the frequency and amplitude changes of gait movement output. Further, the control strategy of the CPG model gait movement under the condition of attention selection is discussed, showing that the attention selection model can regulate the output model of CPG gait movement in three different ways. The realization of regulation on the gait movement frequency and amplitude shows a variety of regulation on the CPG gait movement made by attention selection and enriches the controllability of CPG gait movement, which demonstrates potential influence in engineering applications.
基金This work was funded by Hi-tech Research and Development Program of China(2002AA 423230)National Natural Science Foundation of China(90205014,30400086).
文摘The modulation and control of gecko's foot movements were studied electrophysiologically in order to design the motor control system of a gecko-mimic robot. In this study (1) the anatomy of the peripheral nerves controlling the gecko's foot movements was determined; (2) the relationship between the limb nerves of the gecko and its foot motor patterns was studied; (3) the afferent impulses of the nerves evoked by rubbing the gecko's toes and palm were recorded; (4) copying the natural patterns of movement of the gecko's foot (abduction, adduction, flexion, and revolution) and its limb nerve modulation and control mechanism, the nerves were stimulated under computer control, and the results recorded by CCD. Results suggest that gecko's foot movements can be successfully controlled by artificial electrical signals.
基金National Natural Science Foundation of China(Grant Nos.11572173,11890671,51961145304 and 11921002)the National Key Basic Research Program of China(Grant No.2013CB934200)+3 种基金the Cyrus Tang Foundation(Grant No.202003)the Beijing Municipal Science&Technology Commission(Grant No.Z151100003315008)the Tsinghua University Initiative Scientific Research(Grant Nos.2014Z01007 and 2012Z01015)the State Key Laboratory of Tribology Tsinghua University Initiative Scientific Research(Grant No.SKLT2019D02).
文摘Structural superlubricity(SSL)refers to a state where the friction and wear between two directly contacted solid surfaces are virtually zero.The realization of microscale SSL in 2012 rapidly explored SSL technologies which hold great potential in the development of reliable and energy⁃efficient micro devices.A key to a successful superlubric device is to control the movements of the superlubric slider.To solve this challenge,here two general principles are shown to guide and control the motion of the slider,i.e.,by minimization of interfacial energy and minimization of electrostatic energy.When the shapes of the slider and substrate are designed appropriately,the excess interfacial energy of the contact⁃pair provides restoring and constraining forces to the slider.Similarly,tunable driving and constraining forces are enabled by the electric fields induced by the electrodes buried in the substrate.These concepts are demonstrated on the design of a superlubric resonator whose natural frequency of the lateral translational mode is well⁃defined and unfavorable rotation is constrained.The above design principles should be applicable to superlubric devices in general and help the development of future applications of structural superlubricity.
文摘车车通信列车运行控制系统中移动授权的生成对城市轨道交通运营效率有着较大的影响。通过分析车车通信列车运行控制系统中移动授权的生成过程及性能,建立基于有色Petri网(colored Petri net,CPN)的车车通信移动授权信息交互的模型,进行性能分析。研究移动授权生成过程中端对端通信传输时延的延时概率,根据不同信道质量下统计传输时延的平均值,计算移动授权完成的成功率。分析结果表明,基于车车通信的列车运行控制系统移动授权的生成过程,符合地铁长期演进(long term evolution for metro,LTE-M)系统端到端延时时间不大于150 ms的概率不小于98%,时延随着信道质量的下降而增加。
基金supported by the National Basic Research Program of China (Grant No. 2012CB725400)the National Natural Science Foundation of China (Grant No. 71131001-1)the Research Foundation of State Key Laboratory of Rail Traffic Control and Safety,Beijing Jiaotong University,China (Grant Nos. RCS2012ZZ001 and RCS2012ZT001)
文摘In this paper, we propose a new formula of the real-time minimum safety headway based on the relative velocity of consecutive trains and present a dynamic model of high-speed passenger train movements in the rail line based on the proposed formula of the minimum safety headway. Moreover, we provide the control strategies of the high-speed passenger train operations based on the proposed formula of the real-time minimum safety headway and the dynamic model of highspeed passenger train movements. The simulation results demonstrate that the proposed control strategies of the passenger train operations can greatly reduce the delay propagation in the high-speed rail line when a random delay occurs.
文摘针对先进机场场面引导与控制系统(Advanced surface movement guidance and control system,A-SMGCS)滑行道冲突预测与避免控制,提出基于事件反馈的闭环控制框架,并重点解决对头冲突预测与避免控制问题。建立滑行道受控着色Petri网模型。提出航空器可控滑行路段概念,并给出其对应子模型的生成规则。利用子模型中环路和环路链,给出无对头冲突的充分必要条件。提出对头冲突避免控制策略,以及适合实时控制的对头冲突预测与避免控制算法。算例表明本文能根据场面状态及时识别对头冲突并实现冲突避免。