Conformal rotation vector

The conformal rotation vector, whose coordinates are also known as modified Rodrigues parameters or Wiener–Milenkovic parameters, is a three-dimensional vector representing a three-dimensional rotation or orientation. It is the stereographic projection of a versor (unit quaternion) onto the pure-imaginary hyperplane. It was first described by Thomas Wiener (1962),^[1] called the conformal rotation vector by Veljko Milenkovic (1982),^[2] and named the modified Rodrigues vector by Malcolm Shuster (1993).^[3] It is related to the Rodrigues vector first described by Olinde Rodrigues (1840) and called by Josiah Gibbs (1884) the vector semitangent of version, whose coordinates are called Rodrigues parameters or Euler–Rodrigues parameters.

• Milenkovic, Veljko (1982). "Coordinates Suitable for Angular Motion Synthesis in Robots". Robots VI, Detroit, Michigan, 2–4 March 1982. Society of Manufacturing Engineers. pp. 407–420. 
• Shuster, Malcolm D. (1993). "A Survey of Attitude Representations". The Journal of the Astronautical Sciences 41 (4): 439–517. http://malcolmdshuster.com/Pub_1993h_J_Repsurv_scan.pdf. 
• Wiener, Thomas Freud (1962), Theoretical Analysis of Gimballess Inertial Reference Equipment Using Delta-Modulated Instruments (Ph.D. thesis), Massachusetts Institute of Technology, hdl:1721.1/14454

• Bauchau, Olivier A.; Trainelli, Lorenzo (2003). "The Vectorial Parameterization of Rotation". Nonlinear Dynamics 32: 71–92. doi:10.1023/A:1024265401576. http://www.dymoresolutions.com/resume/publications/BauchauTrainelli03.pdf. 
• Bruccoleri, Christian; Mortari, Daniele (2006). "MRAD: Modified Rodrigues Vector Attitude Determination". The Journal of the Astronautical Sciences 54 (3): 383–390. doi:10.1007/BF03256496. 
• Chung, Soon-Jo; Ahsun, Umair; Slotine, Jean-Jacques E. (2009). "Application of synchronization to formation flying spacecraft: Lagrangian approach". Journal of Guidance, Control, and Dynamics 32 (2): 512–526. doi:10.2514/1.37261. https://resolver.caltech.edu/CaltechAUTHORS:20161130-073636281. 
• Crassidis, John L.; Markley, Francis Landis (1996). ""Attitude estimation using modified Rodrigues parameters"". Flight Mechanics/Estimation Theory Symposium, Greenbelt, Maryland, May 14–16, 1996. https://ntrs.nasa.gov/citations/19960035754. 
• Hurtado, John E. (2009). "Interior Parameters, Exterior Parameters, and a Cayley-Like Transform". Journal of Guidance, Control, and Dynamics 32 (2): 653–657. doi:10.2514/1.39624. https://scholar.archive.org/work/aowltj7u3vdznnpviztpa6itsu/access/wayback/http://aero.tamu.edu/sites/default/files/faculty/hurtado/j22.pdf. 
• Karlgaard, Christopher D.; Schaub, Hanspeter (2010). "Nonsingular attitude filtering using modified Rodrigues parameters". The Journal of the Astronautical Sciences 57 (4): 777–791. doi:10.1007/BF03321529. http://hanspeterschaub.info/PapersPrivate/Karlgaard2010b.pdf. 
• Marandi, S.R.; Modi, Vinod J. (1987). "A Preferred Coordinate System and the Associated Orientation Representation in Attitude Dynamics". Acta Astronautica 15 (11): 833–843. doi:10.1016/0094-5765(87)90038-5. 
• Markley, Francis Landis; Crassidis, John L. (2014). Fundamentals of Spacecraft Attitude Determination and Control. Springer. doi:10.1007/978-1-4939-0802-8. 
• Schaub, Hanspeter; Junkins, John L. (1996). "Stereographic Orientation Parameters for Attitude Dynamics: A Generalization of the Rodrigues Parameters". Journal of the Astronautical Sciences 44 (1): 1–19. http://hanspeterschaub.info/PapersPrivate/SGP.pdf. 
• Shoham, M.; Jen, F.-H. (1993). "On rotations and translations with application to robot manipulators". Advanced Robotics 8 (2): 203–229. doi:10.1163/156855394x00464. 
• Terzakis, George; Lourakis, Manolis; Ait-Boudaoud, Djamel (2018). "Modified Rodrigues Parameters: An Efficient Representation of Orientation in 3D Vision and Graphics". Journal of Mathematical Imaging and Vision 60 (3): 422–442. doi:10.1007/s10851-017-0765-x. https://core.ac.uk/download/pdf/96919985.pdf. 
• Tsiotras, Panagiotis; Longuski, James M. (1995). "A New Parameterization of the Attitude Kinematics". Journal of the Astronautical Sciences 43 (3): 243–262. https://engineering.purdue.edu/people/james.m.longuski.1/JournalArticles/1995/ANewParameterizationoftheAttitudeKinematics.pdf. 

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