[1] 亚姆巴耶夫. 精密基准线测量[M]. 北京: 测绘出版社, 1981: 140-146.

Ambayev X K. Precision baseline survey[M]. Beijing: Surveying and Mapping Publishing House, 1981: 140-146
[2] 鲍利沙科夫. 精密工程测量的方法和仪器[M]. 北京: 测绘出版社, 1981: 202-209.

Paulishakov V D. Methods and instruments for precision engineering surveying[M]. Beijing: Surveying and Mapping Publishing House, 1981: 202-209
[3] GB/T 15314-1994, 精密工程测量规范[S].

National Standards of the People's Republic of China. GB/T_15314-1994 Specification for precision engineering surveying[S].
[4] 张正禄, 吴栋材, 杨仁. 精密工程测量[M]. 北京: 测绘出版社, 1992: 129-133, 174-177.

Zhang Zhenglu, Wu Dongcai, Yang Ren. Precision engineering survey[M]. Beijing: Surveying and Mapping Publishing House, 1992: 129-133, 174-177
[5] 吴翼麟, 孔祥元. 特种精密工程测量[M]. 北京: 测绘出版社, 1993: 25-26, 210-221.

Wu Yilin, Kong Xiangyuan. Special precision engineering survey[M]. Beijing: Surveying and Mapping Publishing House, 1993. 11: 25-26, 210-221
[6] 华锡生, 黄腾. 精密工程测量技术及应用[M]. 南京: 河海大学出版社, 2008: 57-62, 94-95.

Hua Xisheng, Huang Teng. Precision engineering survey technology and application[M]. Nanjing: Hehai University Press, 2008: 57-62, 94-95
[7] 李广云, 范百兴. 精密工程测量技术及其发展[J]. 测绘学报, 2017, 46(10):1742-1751. (Li Guangyun, Fan Baixing. The development of precise engineering surveying technology[J]. Acta Geodaetica et Cartographica Sinica, 2017, 46(10): 1742-1751 doi: 10.11947/j.AGCS.2017.20170313
[8] 赵吉先, 刘荣, 郑加柱, 等. 精密工程测量[M]. 北京: 科学出版社, 2010: 106-112.

Zhao Jixian, Liu Rong, Zheng Jiazhu, et al. Precision engineering survey[M]. Beijing: Science Press, 2010: 106-112
[9] Fischer G E. Alignment and vibration issues in tev linear collider design[C]//Proceedings of the 1st International Workshops on Accelerator Alignment. 1989: 12-19.
[10] Gordon B. Stretched wire mechanics[C]//Proceedings of the 8th International Workshops on Accelerator Alignment. 2004: 24-27
[11] Touzé T. Effects of the Earth inertial forces on the Wire Positioning System[R]. TS-Note-2007-002.
[12] Goldstine H H. A history of the calculus of variations from the 17th through the 19th Century (Studies in the history of mathematics and physical Sciences[M]. Berlin: Springer, 1980: 35-39.
[13] Behroozi F, Mohazzabi P, McCrickard J P. Remarkable shapes of a catenary under the effect of gravity and surface tension[J]. Am J Phys, 1994, 62(12): 1121-1128. doi: 10.1119/1.17672
[14] Mareno A, English L Q. The stability of the catenary shapes for a hanging cable of unspecified length[J]. European Journal of Physics, 2009(30): 97-108.
[15] Jean P Q, Hélène M D, Thomas T. Stretched wire offset measurements: 40 years of practice of this technique at CERN[C]//Proceedings of the 11th International Workshops on Accelerator Alignment. 2010, 11(2): 23-29.
[16] ЗацаРиннЫй. Automation of precision engineering surveying[M]. Beijing: Surveying and Mapping Publishing House, 1981: 108-119.
[17] GB/T 22543.1-2008, 大坝监测仪器引张线仪[S].

GB/T 22543.1-2008, Dam monitoring instrument extension line instrument[S]
[18] Fuchs J F, Rude V, Duquenne M, et al. Validation of wire measurements in the LHC tunnel[C]//Proceedings of the 15th International Workshops on Accelerator Alignment. 2018, 15(2): 24-29.
[19] Liska D, Daue1sberg L B, Spalek G, et al. Precision alignment of permanent magnet drift tubes[C]//Proceedings of the 1986 International Linac Conference. 1986, 12(2): 17-28.
[20] Gervaise J, Wilson E J. High precision geodesy applied CERN accelerators[C]//Cern Accelerator School, Applied Geodesy for Particles Accelerators. 1986: 161-162.
[21] Loffler F. Referencing the magnetic axis for HERA’s superconducting magnets[C]//Proceedings of the 1st International Workshops on Accelerator Alignment. 1989, 1(3): 13-19.
[22] 潘正风. 北京正负电子对撞机直线加速器安装的精密测量[J]. 武汉测绘科技大学学报, 1991, 16(1):13-18. (Pan Zhengfeng. Precision measurement of the linac installation of Beijing Positron-Negative Collider[J]. Journal of Wuhan University of Surveying and Mapping Science and Technology, 1991, 16(1): 13-18
[23] Lee V G, Fred J D. Progress in ETA-II magnetic field alignment using stretched wire and low energy electron beam techniques[C]//Proceedings of the Linear Accelerator Conference. 1990, 22(3): 21-29.
[24] Kevan H. Technical proposal for wire position sensor[EB/OL]. http://www.opensourceinstruments.com/WPS/WPS0/
[25] Kevan H. WPS2 manual[EB/OL]. http://www.opensourceinstruments.com/WPS/WPS2/index.html
[26] Hélène M D. PACMAN project: A new solution for the high-accuracy alignment of accelerator components[C]//Proceedings of the 7th International Particle Accelerator Conference. 2016, 7(3): 31-39.
[27] Wang Wei, Tang Zheng, He Xiaoye, et al. Design and construction of a multi-sensor position monitoring system applied to key components of synchrotron sources[J]. Nucl Sci Tech, 2016, 27: 134. doi: 10.1007/s41365-016-0132-4
[28] Richard S, Erlan B, Lee G. Precision alignment capabilities at LLNL[R]. GEMTN93-339, 1992.
[29] Rodrigo J L, Crhistian R B, Maria L C R, et al. Precision engineering-Magnet alignment on a common girder development of a length[J]. Precision Engineering, 2017(50): 53-62.
[30] Alain L. Principles & status of SOLEIL alignment system[C]//Proceeding of the 8th International Workshops on Accelerator Alignment. 2004, 8(2): 13-19.
[31] Panofsky W K H. The use of a magnetic pickup as an alignment indicator with a stretched wire technique[R]. Tech Note TN-65-74, 1965.
[32] Panofsky W K H. Stretched reference wire magnetic pickup alignment system[P]. US Patent 3, 470, 460, 1969.
[33] Mimashi T, Kuroda S, Nakayama H, et al. The position monitor using stretched wire technique[C]//Proceedings of the 3th International Workshops on Accelerator Alignment. 1993, 3(1): 17-19.
[34] Robert E R. Some alignment considerations for the next linear collider[C]//Proceedings of the 4th International Workshops on Accelerator Alignment. 1995, 4(3): 11-19.
[35] Daniel R. Status of ESRF alignment facilities WPS ready for an automatic 2D smoothing of a storage ring[C]//Proceedings of the 4th International Workshops on Accelerator Alignment. 1995, 4(3): 21-29.
[36] Schwalm. C. Straight line reference system-status report on Poisson system calibration[C]//Proceedings of the 12th International Workshops on Accelerator Alignment. 2012, 12(11): 51-59.
[37] Hélène M D, Bestmann P, Herty A, et al. oWPS versus cWPS[C]//Proceedings of the 12th International Workshops on Accelerator Alignment. 2012, 12(11): 71-79.
[38] Yu C, Karl F, Ilardo M, et al. Smoothing of NSLS-II sotrage ring by girder survey[C]//Proceedings of the 14th International Workshops on Accelerator Alignment. 2016, 14(2): 21-29.
[39] Georg G. Proposal for the alignment of the “Loose End”[C]//Proceedings of the X-Ray FEL Theory and Simulation Codes Workshop. 2006, 1(2): 6-11.
[40] Hyojin C, Sangbong L, Hong-Gi Lee, et al. 2D WPS system for measuring the location changes in real time of PAL-XFEL devices[J]. Journal of the korean physical society, 2018, 73(8): 1034-1041. doi: 10.3938/jkps.73.1034
[41] Hiroaki K, Yuichi O, Morihiro K, et al. Construction and alignment of test half-cell of SPring-8-II[C]//Proceedings of the 15th International Workshops on Accelerator Alignment. 2018, 15(4): 12-26.
[42] Zhang C, Mitsuda C, Kajimoto K. Eigenfrequency wire alignment system for magnet fiducialization[C]//Proceedings of the 14th International Workshops on Accelerator Alignment. 2016, 14(2): 13-26.
[43] Wolf Z, Ruland R, Dix B, et al. Alignment tools used to locate a wire and a laser beam in the VISA[C]//Proceedings of the 6th International Workshops on Accelerator Alignment. 1999, 6(3): 14-25.
[44] Prall M, Johren R, Hannen V, et al. Contactless 2-dim laser sensor for 3-dim wire position and tension measurements[C]//IEEE Nuclear Science Symposium Conference. 2008.
[45] Robert E S. Characteristics of directional coupler beam position monitors[J]. IEEE Transactions on Nuclear Science, 1985, 32(5): 1933-1937. doi: 10.1109/TNS.1985.4333772
[46] Andrey K. Multi-point wide-range precision alignment based on a stretched wire technique[C]//Proceedings of the 3th International Workshops on Accelerator Alignment. 1993, 3(2): 21-29.
[47] De M, Dena J C, Ferianis M, et al. Elettra BPM system (hardware and software): First results[C]//Proceeding of the European Particle Accelerator Conference. 1994.
[48] Eddy N, Fellenz B, Prieto P, et al. A wire position monitor system for the 1.3 GHz Tesla-style cryomodule at the Fermilab new-muon-lab accelerator[C]//15th International Conference on RF Superconductivity(SRF2011). 2011: 25-29.
[49] Rawnsley W R, Bylinski Y, Fong K, et al. Alignment of the ISAC-II medium beta cryostat with a wire monitoring system[C]//The Proceedings of the Twentieth International Cryogenic Engineering Conference(ICEC20). 2005: 931-934.
[50] Bertolini A. Vibration diagnostics instrumentation for ILC[J]. Measurement Science & Technology, 2007, 8(18): 2293-2298.
[51] Zhang D, Eddy N, Fellenz B, et al. A wire position monitor system for superconducting cryostat at Fermilab[C]//The 2010 Beam Instrumentation Workshop. 2010, 2(3): 2-6.
[52] Hitoshi H. Superconducting accelerator development at STF for ILC[C]//Proceedings of the 12th Annual Meeting of Particle Accelerator Society of Japan. 2015.
[53] Zhu H, Dong L, Li B. Design and simulation of a wire position monitor for cryogenic systems in an ADS linac[J]. Chinese Physics C, 2014, 38(3): 808-901.
[54] Xu T, Ao H, Bird B, et al. FRIB cryomodule design and production[C]//Proceedings of LINAC, East Lansing. 2016.
[55] Robert M M. Alignment of drift tube quadrupole lenses using a pulsed wire[C]//Proceedings of the 4th International Conference on Magnet Technology. 1972.
[56] Warren R W. Limitations on the use of the pulsed-wire field measuring technique[J]. Nuclear Instruments and Methods in Physics Research A, 1988, 23(272): 257-263.
[57] Dino Z, Richard P, Walker A. A stretched wire system for accurate integrated magnetic field measurements in insertion devices[J]. Nuclear Instruments and Methods in Physics Research A, 1996, 24(376): 275-282.
[58] Alexander T. Vibrating wire field-measuring technique[J]. Nuclear Instruments and Methods in Physics Research A, 1997, 43(399): 185-194.
[59] Arutunian S G, Bakshetyan K G, Dobrovolsky N M, et al. Petra proton beam profiling by vibrating wire scanner[C]//Proceedings of DIPAC.2005.
[60] Arutunian S G, Davtyan M A, Vasiniuk I E, et al. Impact of environmental variability on vibrating wire monitor operation[C]//Proceedings of DIPAC09. 2009.
[61] Jain A, Anerella M, Ganetis G, et al. Vibrating wire R&D for alignment of multipole magnets in NSLS-II[C]//Proceedings of the 10th International Workshop on Accelerator Alignment. 2008.
[62] Alexander T, Yurii L, Wolf Z. A study of undulator magnets characterization using the vibrating wire technique[J]. Nuclear Instruments and Methods in Physics Research Section A, 2010, 622(3): 650-656. doi: 10.1016/j.nima.2010.06.362
[63] Wouters C. Vibrating wire technique and phase lock loop for finding the magnetic axis of quadrupoles[J]. IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee, 2012, 3(3): 1-4.
[64] Bec G L, Chavanne J, Penel C. Stretched wire measurement of multipole accelerator magnets[J]. Physical Review Special Topics—Accelerators and Beams, 2012, 15: 022401. doi: 10.1103/PhysRevSTAB.15.022401
[65] Caughan M M, Tiefenback M, Turner D. Improvements to existing Jefferson LAB wire scanners[C]//Proceedings of IPAC.2013.
[66] Arutunian S G, Avetisyan A E, Davtyan M M, et al. Large aperture vibrating wire monitor with two mechanically coupled wires for beam halo measurements[J]. Physical Review Special Topics—Accelerators and Beams, 2014, 17: 032802. doi: 10.1103/PhysRevSTAB.17.032802
[67] Caiazza D, Lasheras N C, Hélène M D, et al. New solution for the high accuracy alignment of accelerator components[J]. Physical Review Accelerators and Beams, 2017, 20: 083501. doi: 10.1103/PhysRevAccelBeams.20.083501
[68] 吴蕾. 振动线测量技术研究[D]. 北京: 中国科学院大学, 2016.

Wu Lei. Research of vibrating wire measurement technique[D]. Beijing: The University of Chinese Academy of Sciences, 2016
[69] Mezentsev N, Tsukanov V, Zorin A. Magnetic measurements of superconducting insertion devices by stretched wire with direct current[C]//International Conference on Synchrotron and Free Electron Laser Radiation: Generation and Application. 2016: 4-8.
[70] Tsechuan T. Vibrating wire method and related positioning study at NSRRC[C]//Proceedings of the 15th International Workshops on Accelerator Alignment. 2018.
[71] Vinit K, Ganeshwar M. Analysis of pulsed wire method for field integral measurements in undulators[J]. PRAMANA Journal of Physics, 2010, 74(5): 743-753. doi: 10.1007/s12043-010-0095-7
[72] Renan G, Rodrigo J L, Geraldo C, et al. New sensor and non-contact geometrical survey for the vibrating wire technique[J]. Nuclear Instruments and Methods in Physics Research A, 2016, 811: 115-123. doi: 10.1016/j.nima.2015.12.016
[73] Coosemans W, Dehning B, Hildreth M, et al. Performance of wire position sensors in a radiation environment[C]//Proceedings of the 6th International Workshops on Accelerator Alignment.1999.
[74] Prochnow J, Coosemans W, Dehning B, et al. Determination of the accuracy of wire position sensor[C]//Proceedings of EPAC. 2000.
[75] Rodrigo J L, Crhistian R B, Maria L C, et al. Engineering survey planning for the alignment of a particle accelerator: part I. Proposition of an assessment method[J]. Measurement Science and Technology, 2018, 29: 034006. doi: 10.1088/1361-6501/aa9dc4
[76] Friedsam H, Oren W, Pietryka M. Magnet fiducialization with coordinate measuring machines[C]//Proceedings of the 1th International Workshops on Accelerator Alignment. 1989, 21(2): 22-34.
[77] Claude S. A rotary mount for submicrometric positioning of a stretched wire axis within a coordinate measuring machine[C]//Proceedings of the 14th International Workshops on Accelerator Alignment. 2016.
[78] Dirk M, Dominique M, Camille V. Recent developments for a photogrammetric system to measure offsets w.r.t. stretched wires[C]//Proceedings of the 15th International Workshops on Accelerator Alignment. 2018.
[79] Pasquale A, Domenico C, Carlo P, et al. Performance of the stretched- and vibrating-wire techniques and correction of background fields in locating quadruple magnetic axes[C]//XXI IMEKO World Congress “Measurement in Research and Industry”. 2015.
[80] Arpaia P, Artoos K, Buzio M, et al. Sensors applications within the research framework of the PACMAN Project on metrology for particle accelerators at CERN[C]//IEEE 2016 Sensors Application Symposium. 2016.
[81] Nosych A A, Iriso U, Olmos A, et al. Measurements and calibration of the stripline bpm for the ELI-NP facility with the stretched wire method[C]//Proceedings of IBIC. 2015.
[82] Durand S, Touzé T, Rude V, et al. Improving the geometry of a 3d longitudinal network using a stretched wire[C]//Proceedings of the 15th International Workshops on Accelerator Alignment. 2018: 34-39