[1] D. Levine, J. Richards, M.W. Whittle, Whittle's Gait Analysis - E-Book, Fifth ed., Churchill Livingstone, GB, 2012.
[2] M. Roberts, D. Mongeon, F. Prince, Biomechanical parameters for gait analysis: a systematic review of healthy human gait, Physical Therapy and Rehabilitation 4 (2017) 6.
[3] J.A. Ramirez-Bautista, A. Hernández-Zavala, S.L. Chaparro-Cárdenas, J.A. Huerta-Ruelas, Review on plantar data analysis for disease diagnosis, Biocybernetics and Biomedical Engineering 38 (2018) 342-361.
[4] M.N. Orlin, T.G. McPoil, Plantar pressure assessment, Physical Therapy 80 (2000) 399-409.
[5] K.E. Webster, J.E. Wittwer, J.A. Feller, Validity of the GAITRite ® walkway system for the measurement of averaged and individual step parameters of gait, Gait & Posture 22 (2005) 317-321.
[6] H.B. Menz, M.D. Latt, A. Tiedemann, M. Mun San Kwan, S.R. Lord, Reliability of the GAITRite ® walkway system for the quantification of temporo-spatial parameters of gait in young and older people, Gait & Posture 20 (2004) 20-25.
[7] B. Bilney, M. Morris, K. Webster, Concurrent related validity of the GAITRite® walkway system for quantification of the spatial and temporal parameters of gait, Gait & Posture 17 (2003) 68-74.
[8] F. Arafsha, C. Hanna, A. Aboualmagd, S. Fraser, A.E. Saddik, Instrumented wireless smartinsole system for mobile gait analysis: A validation pilot study with Tekscan Strideway, Journal of Sensor and Actuator Networks 7 (2018) 36.
[9] K. Patrick, L. Donovan, Test-retest reliability of the Tekscan® F-Scan® 7 in-shoe plantar pressure system during treadmill walking in healthy recreationally active individuals, Sports Biomechanics 17 (2018) 83-97.
[10] C. Price, D. Parker, C. Nester, Validity and repeatability of three in-shoe pressure measurement systems, Gait & Posture 46 (2016) 69-74.
[11] M. Koch, Measuring plantar pressure in conventional shoes with the TEKSCAN sensory system. , Biomedizinische Technik. Biomedical Engineering 38 (1993) 243-248.
[12] P. Catalfamo, D. Moser, S. Ghoussayni, D. Ewins, Detection of gait events using an F-Scan in-shoe pressure measurement system, Gait & Posture 28 (2008) 420-426.
[13] Tekscan, F-Scan User Manual Tekscan 2017.
[14] W. Vernon, S. Reel, S. Reidy, N. Simmonite, An investigation into the cause of the inner dark areas and outer lighter areas (ghosting) seen in dynamically-created two-dimensional bare footprints, Science and Justice 57 (2017) 276-282.
[15] C. Tudor-Locke, H. Han, E.J. Aguiar, T.V. Barreira, J. Schuna, J. M, et al., How fast is fast enough? walking cadence (steps/min) as a practical estimate of intensity in adults: A narrative review. , British Journal of Sports Medicine 52 (2018) 776-788.
[16] A.J. Harrison, J.P. Folland, Investigation of gait protocols for plantar pressure measurement of non-pathological subjects using a dynamic pedobarograph, Gait & Posture 6 (1997) 50-55.
[17] C. Xu, X.-X. Wen, L.-Y. Huang, L. Shang, X.-X. Cheng, Y.-B. Yan, et al., Normal foot loading parameters and repeatability of the Footscan® platform system, Journal of Foot and Ankle Research 10 (2017) 30-10.
[18] G.V. Zammit, H.B. Menz, S.E. Munteanu, Reliability of the TekScan MatScan® system for the measurement of plantar forces and pressures during barefoot level walking in healthy adults, Journal of Foot and Ankle Research 3 (2010) 11-11.
[19] T.A. Salthouse, E.M. Tucker-Drob, Implications of short-term retest effects for the interpretation of longitudinal change, Neuropsychology 22 (2008) 800-811.
[20] J. Lamparter, A. Shulze, A.C. Schuff, M. Berres, N. Pfeiffer, E.M. Hoffmann, Learning curve and fatigue effect of flicker defined form perimetry, American Journal of Ophthalmology 151 ( 2011) 1057-1064.
[21] J.M. Bland, D.G. Altman, Statistical methods for assessing agreement between two methods of clinical measurement, Lancet 1 (1986) 307-10.
[22] L. Lin, A concordance correlation coefficient to evaluate reproducibility, Biometrics 45 (1989) 255-268.
[23] R.A. Donatelli, K. Carp, Evaluation of the Trunk and Hip Core., in: R.A. Donatelli (Ed.), Sports-Specific Rehabilitation Churchill Livingstone, Missouri, 2007, pp. 193-221.
[24] K.T. Bates, K.T. Bates, D. Collins, D. Collins, R. Savage, R. Savage, et al., The evolution of compliance in the human lateral mid-foot, Proceedings of the Royal Society B: Biological Sciences 280 (2013) 20131818-20131818.
[25] P.W. Kong, H. De Heer, Wearing the F-Scan mobile in-shoe pressure measurement system alters gait characteristics during running, Gait & Posture 29 (2008) 143-145.
[26] J. McClymont, T.C. Pataky, R.H. Crompton, R. Savage, K.T. Bates, The nature of functional variability in plantar pressure during a range of controlled walking speeds, Royal Society Open Science 3 (2016) 160369.
[27] F.A. Valentini, B. Granger, D.S. Hennebelle, N. Eythrib, G. Robain, Repeatability and variability of baropodometric and spatio-temporal gait parameters – Results in healthy subjects and in stroke patients, Neurophysiologie Clinique / Clinical Neurophysiology 41 (2011) 181-189.
[28] Y. Hong, C. Cheung, Gait and posture responses to backpack load during level walking in children, Gait & Posture 17 (2003) 28-33.
[29] Office For National Statistics, The Average Briton, (2018) https://www.ons.gov.uk/aboutus/transparencyandgovernance/freedomofinformationfoi/theaveragebriton (accessed September 11, 2019).
[30] C. Divert, G. Mornieux, P. Freychat, L. Baly, F. Mayer, A. Belli, Barefoot-Shod Running Differences: Shoe or Mass Effect?, International Journal Of Sports Medicine 29 (2008) 512-518.