University of Groningen Visual analysis and quantitative assessment of human movement Soancatl Aguilar, Venustiano

(1)

Visual analysis and quantitative assessment of human movement

Soancatl Aguilar, Venustiano

IMPORTANT NOTE: You are advised to consult the publisher's version (publisher's PDF) if you wish to cite from it. Please check the document version below.

Document Version

Publisher's PDF, also known as Version of record

Publication date: 2018

Link to publication in University of Groningen/UMCG research database

Citation for published version (APA):

Soancatl Aguilar, V. (2018). Visual analysis and quantitative assessment of human movement. University of Groningen.

Copyright

Other than for strictly personal use, it is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license (like Creative Commons).

Take-down policy

If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim.

Downloaded from the University of Groningen/UMCG research database (Pure): http://www.rug.nl/research/portal. For technical reasons the number of authors shown on this cover page is limited to 10 maximum.

(2)

[1] SPRINT Technologie die Ouderen Beweegt. url http:// www.imdi-sprint.nl/. Accessed on 19/05/2016.

[2] WHO Global Report on Falls Prevention in Older Age. Technical report, 2007. url http://www.who.int/ageing/ publications/Falls{˝prevention7March.pdf.

[3] H. Abdi and L. J. Williams. Principal component analysis. Wiley Interdisciplinary Reviews: Computational Statistics, 2(4):433–459, 2010. doi 10.1002/wics.101.

[4] D. Abrahamová and F. Hlavacka. Age-related changes of human balance during quiet stance. Physiological research / Academia Scientiarum Bohemoslovaca, 57(6):957–964, 2008. issn 08628408. [5] W. Aigner, S. Miksch, H. Schumann, and C. Tominski.

Visualiza-tion of Time-Oriented Data: Human-Computer InteracVisualiza-tion Series. Springer Science + Business Media, 2011. isbn 9780857290786. [6] H. Akaike. A New Look at the Statistical Model Identification.

IEEE Transactions on Automatic Control, 19(6):716–723, 1974. doi 10.1109/TAC.1974.1100705.

[7] A. Albert and J. A. Anderson. On the Existence of Maximum Like-lihood Estimates in Logistic Regression Models. Biometrika, 71(1): 1–10, 1984. doi 10.2307/2336390. urlhttp://www.jstor.org/ stable/2336390.

[8] B. H. Alexander, F. P. Rivara, and M. E. Wolf. The cost and frequency of hospitalization for fall-related injuries in older adults. American journal of public health, 82(7): 1020–3, 1992. doi 10.2105/AJPH.82.7.1020. url http:// www.pubmedcentral.nih.gov/articlerender.fcgi?artid= 1694056{&}tool=pmcentrez{&}rendertype=abstract. [9] S. Balasubramanian, A. Melendez-Calderon, and E. Burdet. A

robust and sensitive metric for quantifying movement smooth-ness. IEEE Transactions on Biomedical Engineering, 59(8):2126– 2136, 2012. doi 10.1109/TBME.2011.2179545.

[10] S. Balasubramanian, A. Melendez-Calderon, A. Roby-Brami, and E. Burdet. On the analysis of movement smoothness. Journal of NeuroEngineering and Rehabilitation, 12(1):112, 2015. doi 10.1186/ s12984-015-0090-9. url http://www.jneuroengrehab.com/ content/12/1/112.

(3)

[11] M. T. Baranowski, P. K. Bower, P. Krebs, C. J. Lamoth, and E. J. Lyons. Effective Feedback Procedures in Games for Health: A Roundtable Discussion. Games for Health Journal, 2(6): 131212070440006, 2013. doi 10.1089/g4h.2013.1328. url http: //online.liebertpub.com/doi/abs/10.1089/g4h.2013.1328. [12] G. Borg. Borg’s Perceived Exertion And Pain Scales. Champaign,

IL : Human Kinetics, 1998. isbn 0880116234.

[13] J. E. Browne and N. J. O’Hare. Review of the Different Meth-ods for Assessing Standing Balance. Physiotherapy, 87(9):489– 495, 2001. doi http://dx.doi.org/10.1016/S0031-9406(05)60696-7. url http://www.sciencedirect.com/science/article/ pii/S0031940605606967.

[14] C. Burgers, A. Eden, M. D. Van Engelenburg, and S. Buningh. How feedback boosts motivation and play in a brain-training game. Computers in Human Behavior, 48:94–103, 2015. doi 10.1016/j.chb.2015.01.038. url http://dx.doi.org/10.1016/ j.chb.2015.01.038.

[15] M. Burggraaff, J. Steinheimer, S. Kontschieder, P. Morrison, C. Dorn, J. Bulò, S. R. Tewarie, P. Miciunaite, K. Sellen, A. Cri-minisi, A. Dahlke, F. Kamm, C. Uitdehaag, and B. Kappos. Ac-curacy of Depth-Sensing Recordings in Classifying Expanded Disability Status Scale Subscores of Motor Dysfunction in Pa-tients with Multiple Sclerosis. Neurology, 86(16 Supplement): I8.004, apr 2016. urlhttp://www.neurology.org/content/86/ 16{˝Supplement/I8.004{#}.

[16] E. Calabi, P. J. Olver, C. Shakiban, A. Tannenbaum, and S. Haker. Differential and Numerically Invariant Signature Curves Applied to Object Recognition. Int. J. Comput. Vis., 26(2):107–135, 1998. doi 10.1023/A:1007992709392.

[17] N. Carpman. Turbulence Intensity in Complex Environments and its Influence on Small Wind Turbines. Dept. of Earth Sciences, Uppsala University, (219):219, 2011. issn 1650-6553.

[18] J. T. Cavanaugh, K. M. Guskiewicz, and N. Stergiou. A nonlin-ear dynamic approach for evaluating postural control: new direc-tions for the management of sport-related cerebral concussion. Sports medicine (Auckland, N.Z.), 35(11):935–950, 2005. issn 0112-1642.

[19] CDC. WISQARS (Web-based Injury Statistics Query and Re-porting System)|Injury Center|CDC. urlhttps://www.cdc.gov/ injury/wisqars/.

(4)

[20] J. M. Chambers, W. S. Cleveland, B. Kleiner, and P. A. Tukey. Graphical Methods for Data Analysis. Wadsworth & Brooks, Pa-cific Gove, California, 1983. isbn 0-87150-413-8.

[21] L. Chèze. Kinematic Analysis of Human Movement. Wiley, 2014. isbn 978-1-84821-610-5.

[22] L. Chiari, A. Cappello, D. Lenzi, and U. Della Croce. An improved technique for the extraction of stochastic parameters from sta-bilograms. Gait & Posture, 12(3):225–234, dec 2000. doi 10.1016/ S0966-6362(00)00086-2. urlhttp://www.sciencedirect.com/ science/article/pii/S0966636200000862.

[23] T. E. Clemons and E. L. Bradley. Nonparametric measure of the overlapping coefficient. Computational Statistics and Data Anal-ysis, 34(1):51–61, 2000. doi 10.1016/S0167-9473(99)00074-2. [24] D. R. Cox. The Regression Analysis of Binary Sequences. Journal

of the Royal Statistical Society, 20(2):215–242, 1958. doi 10.1007/ BF03180993. urlhttp://www.jstor.org/stable/2983890. [25] C. E. Dean, J. M. Russell, M. a. Kuskowski, M. P. Caligiuri,

and S. M. Nugent. Clinical Rating Scales and Instru-ments. Journal of Clinical Psychopharmacology, 24(3):298– 304, 2004. doi 10.1097/01.jcp.0000125681.97466.e7. url

http://content.wkhealth.com/linkback/openurl?sid= WKPTLP:landingpage{&}an=00004714-200406000-00010. [26] S. Diehl. Software visualization : Visualizing the structure,

be-haviour, and evolution of software. Springer-Verlag Berlin Hei-delberg, 2007. isbn 3540465049.

[27] M. van Diest, J. Stegenga, H. Wörtche, G. Verkerke, K. Postema, and C. Lamoth. Exergames for unsupervised balance training at home: a pilot study in healthy older adults. Gait & Posture, 44:161–167, 2015. doi 10.1016/j.gaitpost.2015.11.019. urlhttp: //www.gaitposture.com/article/S0966636215009704/ fulltext.

[28] M. van Diest. Developing an exergame for unsupervised home-based balance training in older adults. PhD thesis, University of Groningen, 2016.

[29] M. van Diest, C. J. C. Lamoth, J. Stegenga, G. J. Verkerke, and K. Postema. Exergaming for balance training of elderly: state of the art and future developments. Journal of NeuroEngineer-ing and Rehabilitation, 10(1):101, 2013. doi 10.1186/1743-0003-10-101. url http://www.biomedcentral.com/content/pdf/ 1743-0003-10-101.pdf.

(5)

[30] M. van Diest, J. Stegenga, H. J. Wörtche, K. Postema, G. J. Verkerke, and C. J. Lamoth. Suitability of Kinect for measuring whole body movement patterns during ex-ergaming. Journal of Biomechanics, 47(12):2925–2932, sep 2014. doi 10.1016/j.jbiomech.2014.07.017. url

http://linkinghub.elsevier.com/retrieve/pii/ S0021929014003984.

[31] M. van Diest, J. Stegenga, H. J. Wörtche, J. B. T. M. Roerdink, G. J. Verkerke, and C. J. C. Lamoth. Quantifying Postural Con-trol during Exergaming Using Multivariate Whole-Body Move-ment Data: A Self-Organizing Maps Approach. Plos One, 10(7): e0134350, 2015. doi 10.1371/journal.pone.0134350. urlhttp: //dx.plos.org/10.1371/journal.pone.0134350.

[32] M. van Dijk, N. Smorenburg, B. Visser, Y. F. Heerkens, and M. W. Nijhuis-van der Sanden. How clinicians analyze movement quality in patients with non-specific low back pain: a cross-sectional survey study with Dutch allied health care professionals. BMC Musculoskeletal Disor-ders, 18(1):288, 2017. doi 10.1186/s12891-017-1649-3. url

http://bmcmusculoskeletdisord.biomedcentral.com/ articles/10.1186/s12891-017-1649-3.

[33] S. F. Donker, A. Ledebt, M. Roerdink, G. J. P. Savelsbergh, and P. J. Beek. Children with cerebral palsy exhibit greater and more regu-lar postural sway than typically developing children. Experimen-tal brain research, 184(3):363–70, 2008. doi 10.1007/s00221-007-1105-y. url http://link.springer.com/article/10.1007/ s00221-007-1105-y/fulltext.html.

[34] M. Dowle, A. Srinivasan, T. Short, S. L. with contributions from R Saporta, and E. Antonyan. data.table: Extension of Data.frame, 2015. url https://CRAN.R-project.org/package= data.table. R package version 1.9.6.

[35] M. Duarte and S. M. S. F. Freitas. Revision of posturography based on force plate for balance evaluation. Revista brasileira de fisioter-apia (São Carlos (São Paulo, Brazil)), 14(3):183–192, 2010. doi 10.1590/S1413-35552010000300003.

[36] S. Fahn, J. Jankovic, and M. Hallett, editors. Principles and Practice of Movement Disorders. W.B. Saunders, Edinburgh, 2nd ed edition, 2011. isbn 978-1-4377-2369-4. doi https://doi.org/10.1016/B978-1-4377-2369-4.00026-3. urlhttps://www.sciencedirect.com/ science/article/pii/B9781437723694000263".

[37] E. Fanea, S. Carpendale, and T. Isenberg. An interactive 3D in-tegration of Parallel Coordinates and Star Glyphs. In

(6)

Proceed-ings - IEEE Symposium on Information Visualization, INFO VIS, pages 149–156. IEEE, 2005. isbn 078039464X. doi 10.1109/ INFVIS.2005.1532141.

[38] T. Fawcett. An introduction to ROC analysis Tom. Pattern Recog-nition Letters, 27:861–874, 2006. doi 10.1016/j.patrec.2005.10.010. [39] M. R. Franco, A. Tong, K. Howard, C. Sherrington, P. H. Fer-reira, R. Z. Pinto, and M. L. Ferreira. Older people’s perspec-tives on participation in physical activity: a systematic review and thematic synthesis of qualitative literature. British Jour-nal of Sports Medicine, 49(19):1268–1276, 2015. doi 10.1136/ bjsports-2014-094015. urlhttp://bjsm.bmj.com/lookup/doi/ 10.1136/bjsports-2014-094015.

[40] M. Friendly and D. Denis. The early origins and development of the scatterplot. Journal of the History of the Behavioral Sciences, 41(2):103–130, 2005. doi 10.1002/jhbs.20078.

[41] K. R. Gabriel. The biplot-graphical display of matrices with appli-cations to principal components analysis. Biometrika, 58:453–467, 1971. doi 10.2307/2334381.

[42] B. Galna, G. Barry, D. Jackson, D. Mhiripiri, P. Olivier, and L. Rochester. Accuracy of the Microsoft Kinect sensor for measuring movement in people with Parkinson’s dis-ease. Gait & posture, 39(4):1062–8, apr 2014. doi 10.1016/ j.gaitpost.2014.01.008. url http://www.sciencedirect.com/ science/article/pii/S0966636214000241.

[43] A. Gelman, D. Lee, and J. Guo. Stan: A Probabilistic Programming Language for Bayesian Inference and Optimization. Journal of Educational and Behavioral Statistics, 40(5):530–543, 2015. doi 10.3102/1076998615606113.

[44] A. Gelman and J. Hill. Data Analysis Using Regression and Multilevel/Hierarchical Models. Analytical Methods for Social Research. Cambridge University Press, 2006. doi 10.1017/ CBO9780511790942.

[45] A. Gelman, A. Jakulin, M. G. Pittau, and Y. S. Su. A weakly infor-mative default prior distribution for logistic and other regression models. Annals of Applied Statistics, 2(4):1360–1383, 2008. doi 10.1214/08-AOAS191.

[46] A. Gelman, J. Hwang, and A. Vehtari. Understanding predictive information criteria for Bayesian models. Statistics and Comput-ing, 24(6):997–1016, 2014. doi 10.1007/s11222-013-9416-2.

(7)

[47] K. Gerling, I. Livingston, L. Nacke, and R. Mandryk. Full-body motion-based game interaction for older adults. In Proceedings of the 2012 ACM annual conference on Human Factors in Computing Systems - CHI ’12, pages 1873–1882, 2012. isbn 9781450310154. doi 10.1145/2207676.2208324. url http://www.scopus.com/inward/record.url?eid= 2-s2.0-84862101296{&}partnerID=tZOtx3y1{%}5Cnhttp: //dl.acm.org/citation.cfm?doid=2207676.2208324.

[48] L. D. Gillespie, M. C. Robertson, W. J. Gillespie, C. Sherrington, S. Gates, L. M. Clemson, and S. E. Lamb. Interventions for prevent-ing falls in older people livprevent-ing in the community. The Cochrane database of systematic reviews, 9:CD007146, jan 2012. doi 10.1002/ 14651858.CD007146.pub3. urlhttp://www.ncbi.nlm.nih.gov/ pubmed/22972103.

[49] D. Gintautas, K. Olga, and J. Žilinskas. Multidimensional Data Visualization. Methods and Applications. Springer Optimization and Its Applications, 2013. isbn 9781441902351. doi 10.1007/978-1-4419-0236-8.

[50] A. L. Goldberger. Non-linear dynamics for clinicians: Chaos the-ory, fractals, and complexity at the bedside. Lancet, 347(9011): 1312–1314, 1996. doi 10.1016/S0140-6736(96)90948-4.

[51] P. L. Gribble and D. J. Ostry. Origins of the power law relation between movement velocity and curvature: modeling the effects of muscle mechanics and limb dynamics. Journal of neurophysi-ology, 76(5):2853–2860, 1996. issn 0022-3077.

[52] U. Halekoh and S. Højsgaard. A Kenward-Roger Ap-proximation and Parametric Bootstrap Methods for Tests in Linear Mixed Models - The R Package pbkrtest. Jour-nal of Statistical Software, 59(9):1–32, 2014. doi 10.18637/ jss.v059.i09. urlhttp://www.jstatsoft.org/index.php/jss/ article/view/v059i09/v59i09.pdf.

[53] K. S. Hall, H. J. Cohen, C. F. Pieper, G. G. Fillenbaum, W. E. Kraus, K. M. Huffman, M. A. Cornish, A. Shiloh, C. Flynn, R. Sloane, L. K. Newby, and M. C. Morey. Physical Performance Across the Adult Life Span: Correlates With Age and Physical Activity. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 00(00):1–7, 2016. doi 10.1093/gerona/glw120. url

http://biomedgerontology.oxfordjournals.org/lookup/ doi/10.1093/gerona/glw120.

[54] J. Hamill and K. Knutzen. Biomechanical Basis of Human Move-ment. Lippincott Williams & Wilkins, third edition, 2009. isbn 13: 9781451109016.

(8)

[55] T. Hastie, R. Tibshirani, and J. Friedman. The Elements of Statis-tical Learning. Springer-Verlag, New York, second edition, 2009. isbn 0387848576.

[56] J. Heinrich and D. Weiskopf. State of the Art of Parallel Coor-dinates. Eurographics, pages 95–116, 2013. doi 10.2312/conf/ EG2013/stars/095-116.

[57] M. J. Hilliard, K. M. Martinez, I. Janssen, B. Edwards, M. L. Mille, Y. Zhang, and M. W. Rogers. Lateral Balance Fac-tors Predict Future Falls in Community-Living Older Adults. Arch Phys Med Rehabil., 89(9):1708–1713, 2008. doi 10.1016/ j.apmr.2008.01.023. urlhttps://www.ncbi.nlm.nih.gov/pmc/ articles/PMC2953551/pdf/nihms234754.pdf.

[58] J. L. Hintze and R. D. Nelson. Violin plots: A box plot-density trace synergism. American Statistician, 52(2):181–184, 1998. doi 10.1080/00031305.1998.10480559.

[59] J. J. Hox. Multilevel Analysis: Techniques and Applications. Rout-ledge, second edi edition, 2010. isbn 978–0–203–85227–9. [60] R. Hunicke. The case for dynamic difficulty adjustment in

games. In Proceedings of the 2005 ACM SIGCHI Interna-tional Conference on Advances in computer entertainment tech-nology - ACE ’05, pages 429–433, 2005. isbn 1595931104. doi 10.1145/1178477.1178573. url http://portal.acm.org/ citation.cfm?doid=1178477.1178573.

[61] K. Iglesia Molina, N. Aquaroni Ricc, S. Albuquerque de Moraes, and Rodrigues Perracini Monica. Virtual reality using games for improving physical functioning in older adults: a systematic re-view. Journal of NeuroEngineering and Rehabilitation, 11(1):156, 2014. doi 10.1186/1743-0003-11-156. urlhttp://dx.doi.org/ 10.1186/1743-0003-11-156.

[62] A. Inselberg. The plane with parallel coordinates. The Visual Computer, 1(2):69–91, 1985.

[63] A. Inselberg. Parallel Coordinates, Visual Multidimensional Ge-ometry and Its Applications, volume 1. Springer Science + Busi-ness Media, New York, 2009. isbn 978-0-387-21507-5. doi 10.1007/978-0-387-68628-8.

[64] G. James, D. Witten, T. Hastie, and R. Tibshirani. An introduction to Statistical Learning with Applications in R. Springer Science + Business Media, New York, 2013. isbn 978-1-4614-7137-0. doi 10.1007/978-1-4614-7138-7.

(9)

[65] John Fox and S. Weisberg. An R Companion to Applied Regres-sion. SAGE Publications, 2011. isbn 141297514X. urlhttps: //books.google.com/books?id=YH6NotdvzF0C{&}pgis=1. [66] I. T. Jolliffe. Principal Component Analysis, Second Edition.

Springer-Verlag, New York, second edition, 2002. isbn 0-387-95442-2. doi 10.1007/b98835.

[67] E. Kilsdonk, L. W. P. Peute, S. L. Knijnenburg, and M. W. M. Jaspers. Factors known to influence acceptance of clinical deci-sion support systems. Studies in Health Technology and Informat-ics, 169:150–154, 2011. doi 10.3233/978-1-60750-806-9-150. [68] R. Kohavi. A Study of Cross-Validation and Bootstrap for

Accu-racy Estimation and Model Selection. In International Joint Con-ference on Artificial Intelligence, 1995. isbn 1-55860-363-8. doi 10.1067/mod.2000.109031.

[69] N. M. Kosse, S. R. Caljouw, P. J. Vuijk, and C. J. Lamoth. Exergam-ing: Interactive balance training in healthy community-dwelling older adults. Journal of Cyber Therapy and Rehabilitation, 4(3):399–407, aug 2011. issn 1784-9934. url http://www.narcis.nl/publication/RecordID/ oai{%}3Apure.rug. nl{%}3Apublications{%}2F46c5ad52-b23a-4a9a-85ed-f6e6b5b5a927.

[70] J. Kreutzer, D. John, and C. Bruce. Encyclopedia of Clinical Neu-ropsychology. Springer-Verlag, New York, 1 edition, 2011. isbn 978-0-387-79949-0.

[71] C. J. Lamoth and M. J. van Heuvelen. Sports activities are reflected in the local stability and regularity of body sway: Older ice-skaters have better postural control than inactive elderly. Gait & Posture, 35(3):489–493, 2012. doi 10.1016/j.gaitpost.2011.11.014. url http://linkinghub.elsevier.com/retrieve/pii/ S096663621100782X.

[72] C. J. Lamoth, R. C. van Lummel, and P. J. Beek. Athletic skill level is reflected in body sway: A test case for accelometry in combination with stochastic dynamics. Gait & Posture, 29(4):546–551, 2009. doi 10.1016/j.gaitpost.2008.12.006. url http://linkinghub.elsevier.com/retrieve/pii/ S0966636208003895.

[73] L. H. Larsen, L. Schou, H. H. Lund, and H. Langberg. The Physical Effect of Exergames in Healthy Elderly -A Systematic Review. Games for Health Journal, 2(4):205–212, 2013. doi 10.1089/g4h.2013.0036. url http://online.liebertpub.com/ doi/abs/10.1089/g4h.2013.0036.

(10)

[74] P. Legendre and L. Legendre. Numerical Ecology. Else-vier, Amsterdan, 1988. isbn 9788578110796. doi 10.1017/ CBO9781107415324.004.

[75] D. Lin, H. Seol, M. a. Nussbaum, and M. L. Madigan. Reliabil-ity of COP-based postural sway measures and age-related dif-ferences. Gait and Posture, 28(2):337–342, 2008. doi 10.1016/ j.gaitpost.2008.01.005.

[76] L. F. Lu, M. L. Huang, and J. Zhang. Two axes re-ordering methods in parallel coordinates plots. Journal of Vi-sual Languages & Computing, 33:3–12, 2016. doi 10.1016/ j.jvlc.2015.12.001. url http://linkinghub.elsevier.com/ retrieve/pii/S1045926X15300379.

[77] E. J. Lyons. Cultivating Engagement and Enjoyment in Ex-ergames Using Feedback, Challenge, and Rewards. Games for Health Journal, 4(1):12–18, 2015. doi 10.1089/g4h.2014.0072. url http://online.liebertpub.com/doi/abs/10.1089/ g4h.2014.0072.

[78] A. R. P. Machado, H. C. Zaidan, A. P. S. Paixão, G. L. Cavalheiro, F. H. M. Oliveira, J. A. F. B. Júnior, K. Naves, A. A. Pereira, J. M. Pereira, N. Pouratian, X. Zhuo, A. O’Keeffe, J. Sharim, Y. Bordelon, L. Yang, M. F. Vieira, and A. O. Andrade. Fea-ture visualization and classification for the discrimination between individuals with Parkinson’s disease under levodopa and DBS treatments. BioMedical Engineering OnLine, 15 (1):169, 2016. doi 10.1186/s12938-016-0290-y. url http: //biomedical-engineering-online.biomedcentral.com/ articles/10.1186/s12938-016-0290-y.

[79] M. Mancini and F. B. Horak. The relevance of clinical balance assessment tools to differentiate balance deficits. European journal of physical and rehabilitation medicine, 46(2):239–48, jun 2010. issn 1973-9095. url http:// www.pubmedcentral.nih.gov/articlerender.fcgi?artid= 3033730{&}tool=pmcentrez{&}rendertype=abstract. [80] H. B. Mann and D. R. Whitney. On a Test of Whether one of Two

Random Variables is Stochastically Larger than the Other. The Annals of Mathematical Statistics, 18(1):50–60, 1947. doi 10.1214/ aoms/1177730491.

[81] A. Mannini, O. Martinez-Manzanera, T. F. Lawerman, D. Tro-janiello, U. D. Croce, D. A. Sival, N. M. Maurits, and A. M. Saba-tini. Automatic classification of gait in children with early-onset ataxia or developmental coordination disorder and con-trols using inertial sensors. Gait & Posture, 52:287–292, 2017.

(11)

doi 10.1016/j.gaitpost.2016.12.002. url http://dx.doi.org/ 10.1016/j.gaitpost.2016.12.002.

[82] J. D. Martin and L. N. Gray. Measurement of Relative Variation: Sociological Examples. American Sociological Review, 36(3):496– 502, 1971.

[83] O. Martinez Manzanera. Quantification of symptoms of move-ment disorders employing motion sensors. PhD thesis, University of Groningen, 2017.

[84] T. Masud and R. O. Morris. Epidemiology of Falls. Age and ageing, 30(S4):3–7, 2001.

[85] MATLAB. 8.6.0.267246 (R2015b). The Mathworks, Inc., Natick, Massachusetts, 2015.

[86] B. H. McCormick, T. A. DeFanti, and M. D. Brown. Visualization in Scientific Computing. Technical report, Computer Graphics 21, ACM SIGGRAPH, New York, 1987.

[87] R. McElreath. Statistical Rethinking: A Bayesian Course with Examples in R and Stan. Chapman and Hal-l/CRC, 2015. isbn 9781482253443. url https:// www.crcpress. com/Statistical-Rethinking-A-Bayesian-Course-with-Examples-in-R-and-Stan/McElreath/p/ book/9781482253443.

[88] P. Morasso and V. Tagliasco, editors. Human Movement Under-standing. From Computational Geometry to Artificial Intelligence. Elsevier Science Publishers, Amsterdam, 1986.

[89] A. Nawaz, N. Skjæret, J. L. Helbostad, B. Vereijken, E. Boulton, and D. Svanaes. Usability and acceptability of balance exergames in older adults: A scoping review. Health Informatics Journal, 22 (4):911–931, 2015. doi 10.1177/1460458215598638.

[90] K. Newell, R. van Emmerik, D. Lee, and R. Sprague. On postural stability and variability. Gait & Posture, 1:225–230, 1993. doi 10.1016/0966-6362(93)90050-B.

[91] M. M. Noohu, A. B. Dey, and M. E. Hussain. Relevance of bal-ance measurement tools and balbal-ance training for fall prevention in older adults. Journal of Clinical Gerontology and Geriatrics, 5 (2):31–35, 2014. doi 10.1016/j.jcgg.2013.05.002.

[92] S. R. Nyman and C. R. Victor. Older people’s recruitment, sus-tained participation, and adherence to falls prevention interven-tions in institutional settings: A supplement to the cochrane systematic review. Age and Ageing, 40(4):430–436, 2011. doi 10.1093/ageing/afr016.

(12)

[93] W. H. Organization. Global recommendations on physical ac-tivity for health. 2010. isbn 978 92 4 159 997 9. doi 10.1080/ 11026480410034349. urlhttp://medcontent.metapress.com/ index/A65RM03P4874243N.pdf{%}5Cnhttp://

scholar.google.com/scholar?hl=en{&}btnG=Search{&}q= intitle:Global+Recomendations+on+physical+

activity+for+health{#}0.

[94] P. Bradshaw and W. A. Woods. An Introduction to Turbulence and its Measurement, A Volume in Thermodynamics and Fluid Mechan-ics Series. Pergamon Press, first edition, 1971. isbn 978-0-08-016621-6.

[95] K. Parsaye and M. Chignell. Intelligent database tools & applica-tions : hyperinformation access, data quality, visualization, auto-matic discovery. Wiley, New York, 1993. isbn 0471570664. url

https://dl.acm.org/citation.cfm?id=134474.

[96] W. Peng, J. C. Crouse, and J. H. Lin. Using Active Video Games for Physical Activity Promotion. Health Education & Behavior, 40(2):171–192, 2013. doi 10.1177/1090198112444956. urlhttp: //journals.sagepub.com/doi/10.1177/1090198112444956. [97] J. Piironen and A. Vehtari. Comparison of Bayesian predictive

methods for model selection. Statistics and Computing, 27(3):1– 25, 2016. doi 10.1007/s11222-016-9649-y.

[98] A. S. Pollock, B. R. Durward, P. J. Rowe, and J. P. Paul. What is balance? Clinical Rehabilitation, 14(August 1999):402–406, 2000. [99] V. Pratt. Factoring_Heron. College Mathematics Journal,

40(1):1–2, 2011. url papers://b601f53a-84e1-4f0c-abd7-620bc101dbfb/Paper/p5189.

[100] A. Pressley. Elementary Differential Geometry. 2001.

[101] A. Pressley. How much does a curve curve? In Elementary Dif-ferential Geometry, volume 85 number 503, page 372. Springer-Verlag London, 2010. isbn 9781848828902. doi 10.1007/978-1-84882-891-9. url http://www.springerlink.com/index/ 10.1007/978-1-84882-891-9.

[102] T. E. Prieto, J. B. Myklebust, R. G. Hoffmann, E. G. Lovett, and B. M. Myklebust. Measures of postural steadiness differences be-tween healthy young and elderly adults. Transactions of Biomed-ical Engineering, 43(9):965–966, 1996.

[103] D. Punzo, J. van der Hulst, J. Roerdink, J. Fillion-Robin, and L. Yu. SlicerAstro: A 3-D interactive visual analytics tool for HI data. Astronomy and Computing, 19:45 – 59,

(13)

2017. doi https://doi.org/10.1016/j.ascom.2017.03.004. url

http://www.sciencedirect.com/science/article/pii/ S2213133717300173.

[104] R Core Team. R: A Language and Environment for Statistical Com-puting. R Foundation for Statistical Computing, Vienna, Austria, 2016. urlhttps://www.R-project.org/.

[105] C. Rainey. Dealing with Separation in Logistic Regression. Politi-cal Analysis, 24(3):339–355, 2016. doi 10.1093/pan/mpw014. url

http://www.carlislerainey.com/papers/separation.pdf. [106] S. Ramdani, B. Seigle, J. Lagarde, F. Bouchara, and P. L. Bernard.

On the use of sample entropy to analyze human postural sway data. Medical Engineering and Physics, 31(8):1023–1031, 2009. doi 10.1016/j.medengphy.2009.06.004.

[107] J. A. Raymakers, M. M. Samson, and H. J. J. Verhaar. The as-sessment of body sway and the choice of the stability param-eter(s). Gait & posture, 21(1):48–58, jan 2005. doi 10.1016/ j.gaitpost.2003.11.006. url http://www.sciencedirect.com/ science/article/pii/S0966636203002029.

[108] A. D. L. Reyes-guzmán, I. Dimbwadyo-terrer, F. Trincado-alonso, F. Monasterio-huelin, D. Torricelli, and A. Gil-agudo. Quan-titative assessment based on kinematic measures of func-tional impairments during upper extremity movements: A re-view. Clinical Biomechanics, 29(7):719–727, 2014. doi 10.1016/ j.clinbiomech.2014.06.013. url http://dx.doi.org/10.1016/ j.clinbiomech.2014.06.013.

[109] M. Ridout and M. Linkie. Estimating overlap of daily activity patterns from camera trap data. Journal of Agricultural, Bio-logical, and Environmental Statistics, 14(50):322–337, 2009. doi 10.1198/jabes.2009.08038. url http://dx.doi.org/10.1198/ jabes.2009.08038.

[110] M. Riley, R. Balasubramaniam, and M. Turvey. Recurrence quantification analysis of postural fluctuations. Gait & Pos-ture, 9(1):65–78, mar 1999. doi 10.1016/S0966-6362(98)00044-7. url http://www.sciencedirect.com/science/article/ pii/S0966636298000447.

[111] X. Robin, N. Turck, A. Hainard, N. Tiberti, F. Lisacek, J. C. Sanchez, and M. Müller. pROC: an open-source package for R and S+ to analyze and compare ROC curves. BMC Bioinformatics, 12(1):1– 8, 2011. doi 10.1186/1471-2105-12-77. urlhttp://dx.doi.org/ 10.1186/1471-2105-12-77.

(14)

[112] L. Robinson, J. L. Newton, D. Jones, and P. Dawson. Self-management and adherence with exercise-based falls prevention programmes: a qualitative study to explore the views and experi-ences of older people and physiotherapists. Disability and reha-bilitation, 36(5):379–86, 2014. doi 10.3109/09638288.2013.797507. urlhttp://www.ncbi.nlm.nih.gov/pubmed/23713970. [113] M. Roerdink, M. De Haart, A. Daffertshofer, S. F. Donker, A. C. H.

Geurts, and P. J. Beek. Dynamical structure of center-of-pressure trajectories in patients recovering from stroke. Experimental brain research, 174(2):256–69, sep 2006. doi 10.1007/s00221-006-0441-7. urlhttp://www.ncbi.nlm.nih.gov/pubmed/16685508. [114] U. Röijezon, R. Faleij, P. Karvelis, G. Georgoulas, and G. Nikolakopoulos. A new clinical test for sensorimo-tor function of the hand – development and prelim-inary validation. BMC Musculoskeletal Disorders, 18 (1):407, 2017. doi 10.1186/s12891-017-1764-1. url

http://bmcmusculoskeletdisord.biomedcentral.com/ articles/10.1186/s12891-017-1764-1.

[115] M. T. Rosenstein, J. J. Collins, and C. J. De Luca. A practi-cal method for practi-calculating largest Lyapunov exponents from small data sets. Physica D: Nonlinear Phenomena, 65 (1-2):117–134, may 1993. doi 10.1016/0167-2789(93)90009-P. url http://www.sciencedirect.com/science/article/ pii/016727899390009P.

[116] L. Z. Rubenstein. Falls in older people : epidemiology , risk factors and strategies for prevention. Age and Ageing, 35(2):37–41, 2006. doi 10.1093/ageing/afl084.

[117] J. W. Sammon. A Nonlinear Mapping for Data Structure Analy-sis. IEEE Transactions on Computers, C-18(5):401–409, 1969. doi 10.1109/T-C.1969.222678.

[118] J. M. Schmit, M. A. Riley, A. Dalvi, A. Sahay, P. K. Shear, K. D. Shockley, and R. Y. K. Pun. Deterministic center of pressure pat-terns characterize postural instability in Parkinson’s disease. Ex-perimental Brain Research, 168(3):357–367, 2006. doi 10.1007/ s00221-005-0094-y. urlhttp://link.springer.com/10.1007/ s00221-005-0094-y.

[119] T. Schmitz-Hübsch, S. T. Du Montcel, L. Baliko, J. Berciano, S. Boesch, C. Depondt, P. Giunti, C. Globas, J. Infante, J. S. Kang, B. Kremer, C. Mariotti, B. Melegh, M. Pandolfo, M. Rakowicz, P. Ribai, R. Rola, L. Schöls, S. Szymanski, B. P. Van De Warren-burg, A. Dürr, and T. Klockgether. Scale for the assessment and rating of ataxia. Neurology, 66(1):1717–1720, 2006. doi 10.1212/

(15)

01.wnl.0000237953.63630.a6. urlhttp://www.neurology.org/ content/66/11/1717.abstract.

[120] D. Schoene, T. Valenzuela, S. R. Lord, and E. D. de Bruin. The effect of interactive cognitive-motor training in reduc-ing fall risk in older people: a systematic review. BMC Geriatrics, 14(1):107, 2014. doi 10.1186/1471-2318-14-107. url http://bmcgeriatr.biomedcentral.com/articles/ 10.1186/1471-2318-14-107.

[121] T. J. Sejnowski. Making smooth moves. Nature, 394:725–726, 1998.

[122] S. S. Shapiro and M. B. Wilk. An Analysis of Variance Test for Normality (Complete Samples). Biometrika, 52(3):591–611, 1965. doi 10.1093/biomet/52.3-4.591.

[123] C. Sharpsteen and C. Bracken. tikzDevice: R Graphics Out-put in LaTeX Format, 2017. urlhttps://github.com/yihui/ tikzDevice. R package version 0.10-3.

[124] J. Sinclair, P. Hingston, and M. Masek. Considerations for the design of exergames. In Proceedings of the 5th interna-tional conference on Computer graphics and interactive techniques, pages 289–295, Australia and Southeast Asia, 2007. ACM. isbn 9781595939128. doi 10.1145/1321261.1321313. url http:// dl.acm.org/citation.cfm?id=1321261.1321313.

[125] T. A. Snijders and R. J. Bosker. Multilevel Analysis: An Introduction to Basic and Advanced Multilevel Modeling, second edition. Sage Publications, 1999. isbn 0761958894.

[126] V. Soancatl Aguilar, J. J. van de Gronde, C. J. C. Lamoth, N. M. Maurits, and J. B. T. M. Roerdink. Visual Data Exploration for Balance Quantification During Exergaming. In EuroVis 2016 -Posters, pages 25–27, Groningen, 2016. The Eurographics Asso-ciation. isbn 978-3-03868-015-4. doi 10.2312/eurp.20161133. [127] V. Soancatl Aguilar, J. J. van de Gronde, N. M. Maurits, C. J. C.

Lamoth, and J. B. T. M. Roerdink. Curvature and speed for balance quantification during exergaming. In Proceedings of the 9th Inter-national Conference on Motion in Games, MIG ’16, pages 201–202, New York, NY, USA, 2016. ACM. isbn 978-1-4503-4592-7. doi 10.1145/2994258.2996375. url http://doi.acm.org/10.1145/ 2994258.2996375.

[128] V. Soancatl Aguilar, J. J. van de Gronde, C. J. C. Lamoth, M. van Diest, N. M. Maurits, and J. B. T. M. Roerdink. Vi-sual Data Exploration for Balance Quantification in Real-Time

(16)

During Exergaming. PLOS ONE, 12(1):e0170906, jan 2017. doi 10.1371/journal.pone.0170906. urlhttp://dx.plos.org/ 10.1371/journal.pone.0170906.

[129] V. Soancatl Aguilar, J. J. van de Gronde, C. J. C. Lamoth, N. M. Maurits, and J. B. T. M. Roerdink. Assessing Dynamic Balance Performance during Exergaming based on Speed and Curvature of Body Movements. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 26(1):171–180, 2018. doi 10.1109/ TNSRE.2017.2769701.

[130] V. Soancatl Aguilar, C. J. C. Lamoth, N. M. Maurits, and J. B. T. M. Roerdink. Assessing Dynamic Postural Control During Exergam-ing in Older Adults: a Probabilistic Approach. Gait & Posture, 60 (1):235–240, 2018. doi 10.1016/j.gaitpost.2017.12.015.

[131] N. Stergiou. Innovative analyses of human movement. Champaign, IL :, Champaign, IL :, 2004. isbn 0736044671.

[132] J. a. Stevens, P. S. Corso, E. a. Finkelstein, and T. R. Miller. The costs of fatal and non-fatal falls among older adults. Injury prevention : journal of the International Society for Child and Adolescent Injury Prevention, 12(5):290–295, 2006. doi 10.1136/ ip.2005.011015.

[133] R. B. Stull. An Introduction to Boundary Layer Meteorology. Aca-demic Publishers, first edition, 1988. isbn 9789027727695. doi 10.1007/978-94-009-3027-8.

[134] T. L. Sun and C. H. Lee. An Impact Study of the Design of Exergaming Parameters on Body Intensity from Objective and Gameplay-Based Player Experience Perspectives, Based on Bal-ance Training Exergame. PLoS ONE, 8(7), 2013. doi 10.1371/ journal.pone.0069471.

[135] B. R. Swaine and S. J. Sullivan. Reliability of the scores for the finger-to-nose test in adults with traumatic brain injury. Physical therapy, 73(2):71–8, 1993. doi 10.1093/ptj/73.2.71. urlhttp:// www.ncbi.nlm.nih.gov/pubmed/8421720.

[136] J. J. Thomas and K. A. Cook. Illuminating the Path: The Research and Development Agenda for Visual Analytics. National Visualiza-tion and Analytics Ctr (2005), 2005. isbn 978-0769523231. [137] A. Tsinober. An Informal Conceptual Introduction to Turbulence.

Springer, second edition, 2009. isbn 9789048131730.

[138] E. R. Tufte. The visual display of quantitative information. Cheshire, CT: Graphics Press., second edition, 2001.

(17)

[139] J. W. Tukey. Exploratory Data Analysis. Addison-Wesley Publish-ing Co., 1977. isbn 0201076160.

[140] A. Velazquez, A. I. Martínez-García, J. Favela, and S. F. Ochoa. Adaptive exergames to support active aging: An action research study. Pervasive and Mobile Computing, 2016. doi http://dx.doi.org/10.1016/j.pmcj.2016.09.002. url

http://www.sciencedirect.com/science/article/pii/ S1574119216301973.

[141] M. Velázquez-Mariño, M. Atencia, R. García-Bermúdez, D. Pupo-Ricardo, R. Becerra-García, L. Velázquez Pérez, and F. San-doval. Cluster Analysis of Finger-to-nose Test for Spinocerebel-lar Ataxia Assessment. In C. A. Rojas I., Joya G., editor, IWANN 2015. Lecture Notes in Computer Science, pages 524–535. Springer, Cham, 2015. isbn 978-3-319-19222-2. doi 10.1007/978-3-319-19222-244.

[142] F. Venetsanou, A. Kambas, T. Ellinoudis, I. Fatouros, D. Gian-nakidou, and T. Kourtessis. Can the Movement Assessment Bat-tery for Children-Test be the “gold standard” for the motor as-sessment of children with Developmental Coordination Disor-der? Research in Developmental Disabilities, 32(1):1–10, 2011. doi 10.1016/j.ridd.2010.09.006.

[143] D. I. Warton and F. K. C. Hui. The arcsine is asinine: the analysis of proportions in ecology. Ecology, 91(1):3–10, 2011.

[144] S. Watanabe. Asymptotic Equivalence of Bayes Cross Valida-tion and Widely Applicable InformaValida-tion Criterion in Singular Learning Theory. Journal of Machine Learning Research, 11:3571– 3594, 2010. issn 1532-4435. urlhttp://www.jmlr.org/papers/ volume11/watanabe10a/watanabe10a.pdf.

[145] J. Watkins. Structure and function of the musculoskeletal system. Champaign, Ill. : Human Kinetics, 2nd ed edition, 1999. isbn 0880116862 (hbk.).

[146] J. Webb and J. Ashley. Beginning Kinect Programming with the Microsoft Kinect SDK. Apress, 2012. isbn 9781430241041. doi 10.1007/978-1-4302-4105-8.

[147] J. Wiemeyer, J. Deutsch, L. a. Malone, J. L. Rowland, M. C. Swartz, J. Xiong, and F. F. Zhang. Recommendations for the Optimal Design of Exergame Interventions for Persons with Disabilities: Challenges, Best Practices, and Future Research. Games for health journal, 4(1):58–62, 2015. doi 10.1089/g4h.2014.0078. urlhttp: //www.ncbi.nlm.nih.gov/pubmed/26181682.

(18)

[148] L. Wilkinson and M. Friendly. The History of the Cluster Heat Map. The American Statistician, 63(2):179–184, 2009. doi 10.1198/ tas.2009.0033.

[149] D. a. Winter. Biomechanics and Motor Control of Human Move-ment, volume 2nd number Book, Whole. Wiley, Waterloo, 4th edition, 1990. isbn 0470398183. doi 10.1002/9780470549148. url

http://doi.wiley.com/10.1002/9780470549148.

[150] D. A. Winter. Human balance and posture control during stand-ing and walkstand-ing. Gait & posture, 3:193–214, 1995.

[151] A. S. Won, J. N. Bailenson, and J. H. Janssen. Automatic detection of nonverbal behavior predicts learning in dyadic interactions. IEEE Transactions on Affective Computing, 5(2):112–125, 2014. doi 10.1109/TAFFC.2014.2329304.

[152] M. H. Woollacott and A. Shumway-Cook. Concepts and methods for assessing postural instability. Journal of Aging and Physical Activity, 4(3):214–233, 1996. issn 10638652.

[153] S. Wu and Y. F. Li. On Signature Invariants for Effective Motion Trajectory Recognition. The International Journal of Robotics Re-search, 27(8):895–917, 2008. doi 10.1177/0278364908091678. url

http://ijr.sagepub.com/content/27/8/895.full.pdf. [154] S. Wu and Y. Li. Flexible signature descriptions for

adap-tive motion trajectory representation, perception and recogni-tion. Pattern Recognition, 42(1):194–214, jan 2009. doi 10.1016/ j.patcog.2008.06.023. url http://www.sciencedirect.com/ science/article/pii/S0031320308002525.

[155] I. Yabe, M. Matsushima, H. Soma, R. Basri, and H. Sasaki. Use-fulness of the Scale for Assessment and Rating of Ataxia (SARA). Journal of the Neurological Sciences, 266(1-2):164–166, 2008. doi 10.1016/j.jns.2007.09.021.

[156] N. Yang, M. Zhang, C. Huang, and D. Jin. Motion quality eval-uation of upper limb target-reaching movements. Medical En-gineering and Physics, 24(2):115–120, 2002. doi 10.1016/S1350-4533(01)00121-7.

[157] W. J. Youden. Index for rating diagnostic tests. Can-cer, 3(1):32–35, 1950. doi 10.1002/1097-0142(1950)3:1<32::AID-CNCR2820030106>3.0.CO;2-3.

[158] H. Zhou, X. Yuan, H. Qu, W. Cui, and B. Chen. Visual clustering in parallel coordinates. Computer Graphics Forum, 27(3):1047–1054, 2008. doi 10.1111/j.1467-8659.2008.01241.x.

(19)

[159] A. F. Zuur, E. N. Ieno, N. J. Walker, A. A. Saveliev, and G. M. Smith. Mixed Effects Models and Extensions in Ecology with R. Springer Science + Business Media, New York, 2009. isbn 978-0-387-87457-9. doi 10.1007/978-0-387-87458-6.