[1] O. Reading, "Precision Surveying For The 33 Gev Synchrotron At Brookhaven National Laboratory," in Tr. Mezhdunar. Konf. po Uskoritelyam, Dubna, u963, 1964, no. BNL-7203: Brookhaven National Lab., Upton, NY, 1964.
[2] R. W. Toland, D. Leviton, and S. Koterba, "Theoferometer for high-accuracy optical alignment and metrology," in Space Systems Engineering and Optical Alignment Mechanisms, vol. 5528, pp. 305-315: SPIE, 2004.
[3] R. Krishna, "Improved pointing accuracy using high-precision theodolite measurements," in GOES-8 and Beyond, vol. 2812, pp. 199-209, SPIE, 1996.
[4] M. Samaan, S. Lockhart, G. Holt, and H. Mamich, "On-Ground Calibration and Optical Alignment for the Orion Optical Navigation Camera," in John L. Junkins Dynamical Systems Symposium, no. JSC-E-DAA-TN55364, 2018.
[5] J. H. Burge, P. Su, C. Zhao, and T. Zobrist, "Use of a commercial laser tracker for optical alignment," in Optical system alignment and tolerancing, vol. 6676, pp. 132-143 SPIE, 2007.
[6] A. M. Korzun, R. W. Toland, R. G. Ohl, V. Holmes, and L. R. Worrel, "Theoferometer for the construction of precision optomechanical assemblies," in Optomechanical Technologies for Astronomy, vol. 6273, pp.683-693, SPIE, 2006.
[7] A. E. Wetmore, Handheld Theodolite Concept, Army Research Lab Adelphi Md Computational and Information Sciences Directorate2011.
[8] D. Avram, I. Bratosin, and D. Ilie, "Surveying theodolite between past and future," J. Young Sci, vol. 4, 2016.
[9] P. Sekulic, S. B. Gregory, S. L. Hegwer, A. Ferayorni, and F. Woeger, "DKIST visible broadband imager alignment in laboratory: first results," in Ground-based and Airborne Instrumentation for Astronomy VI, vol. 9908, pp. 1576-1589: SPI, 2016.
[10] L. Haomiao, W. Wei, and W. Bile, "Research on theodolite auto-collimation technique based on visual image analysis," in 2017 IEEE 2nd Information Technology, Networking, Electronic and Automation Control Conference (ITNEC), pp. 150-153, IEE, 2017.
[11] J. S. Choi,and In-G. Kim, "A Study on Satellite Alignment Measurements Accuracy Improvement," Journal of The Korean Society for Aeronautical & Space Sciences, Vol.48, No.12, pp.987-995, 2020.
[12] F. R. A. Tavares, "Corot Baffle: Development, Alignment and Testing Activities," presented at the Environmental Testing for Space Programmes, Noordwijk, The Netherlands, 12–14 June, 2007.
[13] S. Hetherington, D. Osgood, J. McMann, V. Roberts, J. Gill, and K. McLean, "Optical alignment of the global precipitation measurements (GPM) star trackers," in Optical System Alignment, Tolerancing, and Verification VII, vol. 8844, pp.36-51, SPIE, 2013.
[14] H.-E. Kang, J.-B. Song, H.-s. Yang, and H. Kihm, "Measurement of primary-mirror vertex coordinates for a space camera by using a computer-generated hologram and a theodolite," Korean Journal of Optics and Photonics, vol. 28, no. 4, pp. 146-152, 2017.
[15] J. Haghshenas, "Effects of Satellite Platform's vibrations on the image quality of a remote sensing payload: system level design and challenges ," in Optical System Design, Optical Design and Engineering VI, vol. 9626, pp. 720-733. SPIE , 2015.
