[1] |
陈亮, 洪震 . 电液伺服系统模糊PID控制器设计[J]. 电子测试, 2021(11): 51-52.
|
|
CHEN L , HONG Z . The fuzzy PID controller design of electrohydraulic servo system[J]. Electronic Test, 2021(11): 51-52.
|
[2] |
姜文雍, 黄增阳, 毛方 ,等. 基于模糊PID技术的排气压力精确控制仿真研究[J]. 农机使用与维修, 2021(7): 19-22.
|
|
JIANG W Y , HUANG Z Y , MAO F ,et al. Simulation study on precise control of exhaust pressure based on fuzzy PID technology[J]. Agricultural Machinery Using & Maintenance, 2021(7): 19-22.
|
[3] |
孙建康, 王帅, 曹斯萌 ,等. 基于模糊PID控制的智能循迹小车设计[J]. 现代制造技术与装备, 2021,57(12): 202-205.
|
|
SUN J K , WANG S , CAO S M ,et al. Design of intelligent tracking vehicle based on fuzzy PID control[J]. Modern Manufacturing Technology and Equipment, 2021,57(12): 202-205.
|
[4] |
曹跃进, 杨杨 . 基于模糊PID控制器的多电机控制系统[J]. 工业仪表与自动化装置, 2012(5): 74-76.
|
|
CAO Y J , YANG Y . The control system of a multi-motor based on a fuzzy PID controller[J]. Industrial Instrumentation &Automation, 2012(5): 74-76.
|
[5] |
徐少杰 . 基于模糊PID算法的带式输送机控制研究[J]. 科技创新与应用, 2017(4): 60.
|
|
XU S J . Research on control of belt conveyor based on fuzzy PID algorithm[J]. Technology Innovation and Application, 2017(4): 60.
|
[6] |
申鹏, 王麒宣, 褚昊霖 ,等. 基于模糊PID算法吸附机器人转向控制[J]. 软件, 2020,41(4): 207-210.
|
|
SHEN P , WANG Q X , CHU H L ,et al. Adsorptive robot steering control based on algorithm of fuzzy PID[J]. Software, 2020,41(4): 207-210.
|
[7] |
王小东, 周春桂, 王志军 ,等. 基于自适应模糊PID的导弹控制系统[J]. 探测与控制学报, 2021,43(6): 50-54,61.
|
|
WANG X D , ZHOU C G , WANG Z J ,et al. Missile control system based on adaptive fuzzy PID[J]. Journal of Detection & Control, 2021,43(6): 50-54,61.
|
[8] |
白昱阳, 黄彦浩, 陈思远 ,等. 云边智能:电力系统运行控制的边缘计算方法及其应用现状与展望[J]. 自动化学报, 2020,46(3): 397-410.
|
|
BAI Y Y , HUANG Y H , CHEN S Y ,et al. Cloud-edge intelligence:status quo and future prospective of edge computing approaches and applications in power system operation and control[J]. Acta Automatica Sinica, 2020,46(3): 397-410.
|
[9] |
石锋, 梁尚斌, 蒋勇 ,等. 油田物联网系统边缘计算研究与实践[J]. 计算机工程与应用, 2020,56(16): 273-278.
|
|
SHI F , LIANG S B , JIANG Y ,et al. Research and practice on edge computing of oilfi eld Internet of Things system[J]. Computer Engineering and Applications, 2020,56(16): 273-278.
|
[10] |
裴庆祺 . 以万物互联为核心的边缘计算时代正在开启[J]. 人民论坛·学术前沿, 2020(9): 26-32.
|
|
PEI Q Q . The era of edge computing with a focus on the Internet of everything[J]. Frontiers, 2020(9): 26-32.
|
[11] |
李子姝, 谢人超, 孙礼 ,等. 移动边缘计算综述[J]. 电信科学, 2018,34(1): 87-101.
|
|
LI Z S , XIE R C , SUN L ,et al. A survey of mobile edge computing[J]. Telecommunications Science, 2018,34(1): 87-101.
|
[12] |
张馨元, 刘江, 张然 ,等. 卫星协同的天地一体化边缘计算网络架构[J]. 无线电通信技术, 2022,48(3): 394-400.
|
|
ZHANG X Y , LIU J , ZHANG R ,et al. Architecture of cooperative satellite-terrestrial integrated edge computing networks[J]. Radio Communications Technology, 2022,48(3): 394-400.
|
[13] |
陶滢, 刘伟, 高梓贺 ,等. 天地一体化信息网络中星载边缘计算应用与挑战[J]. 无线电通信技术, 2022,48(5): 763-772.
|
|
TAO Y , LIU W , GAO Z H ,et al. Application and technical challenges of onboard edge computing in space-terrestrial integrated information network[J]. Radio Communications Technology, 2022,48(5): 763-772.
|
[14] |
方海, 赵扬, 高媛 ,等. 考虑任务依赖的卫星边缘计算资源分配与卸载决策算法[J]. 计算机工程与科学, 2022,44(11): 1951-1958.
|
|
FANG H , ZHAO Y , GAO Y ,et al. A satellite edge computing resource allocation and o?oading algorithm with task dependence[J]. Computer Engineering & Science, 2022,44(11): 1951-1958.
|