Using orientation statistics to investigate variations in human kinematics
Abstract
This paper applies orientation statistics to investigate variations in upper limb posture of human subjects drilling at six different locations on a vertical panel. Some of the drilling locations are kinematically equivalent in that the same posture could be used for these locations. Upper limb posture is measured by recording the co‐ordinates of four markers attached to the subjects hand, forearm, arm and torso. A 3×3 rotation characterizes the relative orientation of one body segment with respect to another. Replicates are available since each subject drilled at the same location five times. Upper limb postures for the six drilling locations are compared by one‐way analysis‐of‐variance tests for rotations. These tests rely on tangent space approximations at the estimated modal rotation of the sample. A parameterization of rotations in terms of unit quaternions simplifies the computations. The analysis detects significant differences in posture between all pairs of drilling locations. The smallest changes, less than 10° at all joints, are obtained for the kinematically equivalent pairs of locations. A short discussion of the biomechanical interpretation of these findings is presented.
Citing Literature
Number of times cited according to CrossRef: 18
- Todd C. Pataky, John H. Challis, Using directional statistics to test hypotheses regarding rigid body attitude: comparison to univariate and multivariate Cardan angle tests, Journal of Biomechanics, 10.1016/j.jbiomech.2020.109976, (109976), (2020).
- Marco Di Marzio, Agnese Panzera, Charles C. Taylor, Nonparametric Rotations for Sphere-Sphere Regression, Journal of the American Statistical Association, 10.1080/01621459.2017.1421542, 114, 525, (466-476), (2018).
- Joshua R. Davis, Sarah J. Titus, Modern methods of analysis for three-dimensional orientational data, Journal of Structural Geology, 10.1016/j.jsg.2017.01.002, 96, (65-89), (2017).
- Melissa A. Bingham, Marissa L. Scray, A permutation test for comparing rotational symmetry in three-dimensional rotation data sets, Journal of Statistical Distributions and Applications, 10.1186/s40488-017-0075-2, 4, 1, (2017).
- Drew Lazar, Lizhen Lin, Scale and curvature effects in principal geodesic analysis, Journal of Multivariate Analysis, 10.1016/j.jmva.2016.09.009, 153, (64-82), (2017).
- Marissa D. Eckrote, Melissa A. Bingham, A permutation test for the spread of three-dimensional rotation data, Journal of Nonparametric Statistics, 10.1080/10485252.2017.1339304, 29, 3, (553-560), (2017).
- Carmen Constantinescu, Paul-Cristian Muresan, Gabriel-Marian Simon, JackEx: The New Digital Manufacturing Resource for Optimization of Exoskeleton-based Factory Environments, Procedia CIRP, 10.1016/j.procir.2016.05.048, 50, (508-511), (2016).
- Chuanlong Du, Daniel J. Nordman, Stephen B. Vardeman, Bayesian Inference for a New Class of Distributions on Equivalence Classes of Three-Dimensional Orientations With Applications to Materials Science, Technometrics, 10.1080/00401706.2015.1017610, 58, 2, (214-224), (2016).
- Jörn Schulz, Sungkyu Jung, Stephan Huckemann, Michael Pierrynowski, J. S. Marron, Stephen M. Pizer, Analysis of Rotational Deformations From Directional Data, Journal of Computational and Graphical Statistics, 10.1080/10618600.2014.914947, 24, 2, (539-560), (2015).
- Melissa A. Bingham, Quantifying spread in three-dimensional rotation data: comparison of nonparametric and parametric techniques, Journal of Statistical Distributions and Applications, 10.1186/s40488-015-0032-x, 2, 1, (2015).
- Daniel Bero, Melissa Bingham, A permutation test for three-dimensional rotation data, Involve, a Journal of Mathematics, 10.2140/involve.2015.8.735, 8, 5, (735-744), (2015).
- Melissa Bingham, Zachary Fischer, A median estimator for three-dimensional rotation data, Involve, a Journal of Mathematics, 10.2140/involve.2014.7.713, 7, 6, (713-722), (2014).
- Bryan Stanfill, Ulrike Genschel, Heike Hofmann, Point Estimation of the Central Orientation of Random Rotations, Technometrics, 10.1080/00401706.2013.826145, 55, 4, (524-535), (2013).
- Melissa A. Bingham, Daniel J. Nordman, Stephen B. Vardeman, Finite-sample investigation of likelihood and Bayes inference for the symmetric von Mises–Fisher distribution, Computational Statistics & Data Analysis, 10.1016/j.csda.2009.11.020, 54, 5, (1317-1327), (2010).
- Inna Sharf, Alon Wolf, M.B. Rubin, Arithmetic and geometric solutions for average rigid-body rotation, Mechanism and Machine Theory, 10.1016/j.mechmachtheory.2010.05.002, 45, 9, (1239-1251), (2010).
- Karim Oualkacha, Louis-Paul Rivest, A new statistical model for random unit vectors, Journal of Multivariate Analysis, 10.1016/j.jmva.2008.03.004, 100, 1, (70-80), (2009).
- Carlos A. León, Jean-Claude Massé, Louis-Paul Rivest, A statistical model for random rotations, Journal of Multivariate Analysis, 10.1016/j.jmva.2005.03.009, 97, 2, (412-430), (2006).
- Øyvind Stavdahl, Anne K. Bondhus, Kristin Y. Pettersen, Kjell E. Malvig, Optimal Statistical Operations for 3-Dimensional Rotational Data: Geometric Interpretations and Application to Prosthesis Kinematics, Modeling, Identification and Control: A Norwegian Research Bulletin, 10.4173/mic.2005.4.1, 26, 4, (185-200), (2005).
