[1] 张怡泓,宋扬.基于GPIB接口仪器的自动计量校准系统[J].科技创新与应用,2012(21):124-125. ZHANG Yi-hong,SONG Yang.Automatic Calibration and Calibration System Based on GPIB Interface Instrument[J].Science & Technology Innovation and Application,2012(21):124-125. [2] 薛文琪,翟正军.基于虚拟仪器的电源测试系统设计与实现[J].计算机工程与设计,2010,31(6):1330-1334. XUE Wen-qi,DI Zheng-jun.Design and Implementation of Power Testing System Based on Virtual Instrument[J].Computer Engineering and Design,2010,31(6):1330-1334. [3] 肖子阳,关靓.基于虚拟仪器的电机测试方法研究[J].电测与仪表,2016,53(S1):10-14. XIAO Zi-yang,GUAN Jing.Research on Motor Testing Method Based on Virtual Instrument[J].Electrical Measurement & Instrumentation,2016,53(S1):10-14. [4] 俞宙,李静,魏亚峰,等.基于虚拟仪器的高速混合信号自动测试系统设计[J].仪器仪表学报,2016,37(S1):94-101. YU Zhou,LI Jing,WEI Ya-feng,et al.Design of High-Speed Mixed Signal Automatic Test System Based on Virtual Instrument[J].Journal of Instrumental Instrument,2016,37(S1):94-101. [5] 孙学聪,邵云峰,马晓东.基于VXI总线的RS-422/485通用模块设计[J].现代防御技术,2015,43(4):184-189. SUN Xue-cong,SHAO Yun-feng,MA Xiao-dong.Design of RS-422/485 Universal Module Based on VXI Bus[J].Modern Defence Technology,2015,43(4):184-189. [6] 靳取,方晖,柏业超.基于GPIB的数字电路自动测试系统研究[J].南京大学学报:自然科学版,2016,52(6):1133-1138. JIN Qu,FANG Hui,BAI Ye-chao.Research on Digital Circuit Automatic Test System Based on GPIB[J].Journal of Nanjing University:Natural Science ed,2016,52(6):1133-1138. [7] 谢冰.基于LabWindows/CVI的某产品自动测试系统软件设计[D].太原:中北大学,2013. XIE Bing.Software Design of a Product Automatic Test System Based on LabWindows/CVI[D].Taiyuan:North University of China,2013. [8] 张志利,侯传勋,姜毅.仪器互联与控制技术探讨[J].自动化仪表,2011,32(7):1-5. ZHANG Zhi-li,HOU Chuan-xun,JIANG Yi.Discussion on Instrument Interconnection and Control Technology[J].Process Automation Instrumentation,2011,32(7):1-5. [9] 蒋薇,赖青贵,秦岭,等.多脉冲强流直线感应加速器测控系统中仪器通信与控制[J].强激光与粒子束,2013,25(5):1270-1274. JIANG Wei,LAI Qing-gui,QIN Ling,et al.Instrument Communication and Control in Measurement and Control System of Multi-Pulse High-Speed Linear Induction Accelerator[J].High Power Laser and Particle Beams,2013,25(5):1270-1274. [10] 刘天舒,金从军.基于VISA和SCPI的自动校准程序开发[J].现代防御技术,2013,41(3):175-179. LIU Tian-shu,JIN Cong-jun.Development of Automatic Calibration Program Based on VISA and SCPI[J].Modern Defence Technology,2013,41(3):175-179. [11] 黄梦涛,全定可,付向阳.基于SCPI命令的智能仪器驱动设计[J].化工自动化及仪表,2010,37(4):103-105. HUANG Meng-tao,QUAN Ding-ke,FU Xiang-yang.Intelligent Instrument Driver Design Based on SCPI Command[J].Control and Instruments in Chemical Industry,2010,37(4):103-105. [12] 韩惠莲,王浩.基于虚拟仪器的导弹测发控系统设计与实现[J].计算机测量与控制,2011,19(3):621-624. HAN Hui-lian,WANG Hao.Design and Implementation of Missile Measurement and Launch Control System Based on Virtual Instrument[J].Computer Measurement & Control,2011,19(3):621-624. [13] 陶小亮,牛振.LabWindows/CVI多线程技术在舵机测试软件中的应用[J].中国测试,2011,37(1):81-83. TAO Xiao-liang,NIU Zhen.Application of LabWindows/CVI Multithreading Technology in Servo Testing Software[J].中国测试,2011,37(1):81-83. [14] 赵波,全厚德.LabWindows/CVI平台下的数据库编程[J].微计算机信息,2008(6):171-172. ZHAO Bo,QUAN Hou-de.Database Programming under LabWindows/CVI Platform[J].Microcomputer Information,2008(6):171-172. [15] 曹静,支剑锋.LabWindows/CVI与Microsoft Access之间数据共享的实现[J].工业控制计算机,2009,22(10):58,63. CAO Jing,ZHI Jian-feng.Realization of Data Sharing Between LabWindows/CVI and Microsoft Access[J].Industrial Control Computer,2009,22(10):58,63. [16] 何磊,赫新,马戎,等.大型CFD软件自动化测试平台的初步设计与实现[J].空气动力学学报,2016,34(4):418-425. HE Lei,HE Xin,MA Rong,et al.Preliminary Design and Implementation of a Large-Scale CFD Software Automation Test Platform[J].Aerodynamics,2016,34(4):418-425. |