OPT-Shoes

Related Literature

  1. Peterson MJ,Adkins HV., 1982. Measurement and redistribution of excessive pressures during wheelchair sitting. Phys Ther. 1982;62(7):990–994.
  2. Soames RW, 1985. Foot pressure patterns during gait. J Biomed Eng, 1985;7:120-126.
  3. Lord M. and Foulston J., 1991. Clinical trial of a computer-aided system for orthopaedic shoe upper design. Prosthet Orthot Int 15, 11-17.
  4. Shorten M.R., 1993. Pressure distribution beneath the heel while running in a cushioned shoe: a sagittal plane finite element model. Proc. XIV Congress of the International Society of Biomechanics, Société de Biomécanique, Paris.
  5. Race, A., Amis, A., 1994. The mechanical properties of the two bundles of the human posterior cruciate ligament. Journal of Biomechanics 27, 13–24.
  6. Bao HP, Soundar P, Yang T: Integrated approach to design and manufacture of shoe lasts for orthopaedic use. Comput Eng 1994,26:411-421.
  7. Chu T.M., Reddy N.P., Padovan J., 1995. Three-dimensional finite element stress analysis of the polypropylene, ankle-foot orthosis: static analysis. Med Eng Phys, 1995;5:372-379.
  8. Cobb J., Claremont D. J., 1995. Transducers for foot pressure measurement: survey of recent developments. Medical and Biological Engineering and Computing, 1995;33(4):525-532.
  9. Rosenbaum D, Bauer G, Augat P, Claes L, 1996. Calcaneal fractures cause a lateral load shift in chopart joint contact stress and plantar pressure pattern in vitro. J Biomech 1996;29:1435-1443.
  10. Jacob, S., Patil, M.K., Braak L.H., Huson A., 1996. Stresses in a 3D two arch model of a human foot. Mech Res Commun, 23;387-393.
  11. Patil, K.M., Braak, L.H., Huson, A., 1996. Analysis of stresses in twodimensional models of normal and neuropathic feet. Medical and Biological Engineering and Computing 34, 280-284.
  12. Lemmon D., Shiang T.Y., Hashmi A., Ulbrecht J.S., Cavanagh P.R., 1997. The effect of insoles in therapeutic footwear-a finite element approach. J Biomech, 30(6): 615-20.
  13. Liu, G. T., Lavery, L. A., Schenck, R. C., Lanctot, D. R., Zhu, C. F., and Athansiou, K. A., 1997, ‘‘Human Articular Cartilage Biomechanics of the Second Metatarsal Intermediate Cuneiform Joint,’’ J. Foot Ankle Surg., 36, pp. 367–374.
  14. Athanasiou, K.A., Liu, G.T., Lavery, L.A., Lanctot, D.R., Schenck,R.C., 1998. Biomechanical topography of human articular cartilage in the first metatarsophalangeal joint. Clinical Orthopaedics, 348, 269-281.
  15. Tanimoto Y, Takechi H, Nagahata H, Yamamoto H., 1998. The study of pressure distribution in sitting position on cushions for patient with SCI (Spinal Cord Injury). IEEE Trans Rehab Eng.1998;47(5):1239–1243.
  16. Urry S., 1999. Plantar pressure-measurement sensors. Meas Sci Technol. 1999;10(1):R16–R32.
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  18. Gefen, A., Megido-Ravid, M., Itzchak, Y., Arcan, M., 2000. Biomechanical analysis of the threedimensional foot structure during gait: a basic tool for clinical applications. Journal of Biomechanical Engineering 122, 630-639.
  19. Orlin MN, McPoil TG., 2000. Plantar pressure assessment. Phys Ther. 2000;80(4):399–409.
  20. Kim Christensen, DC, DACRB, CCSP, CSCS., 2000. High-Heeled Shoes and Musculoskeletal Problems. Dynamic Chiropractic – August 18, 2000, Vol. 18, Issue 18.
  21. Jacob H. A.C., 2001. Forces acting in the forefoot during normal gait - an estimate, Clinical Biomechanics, 2001;16(9): 783-792
  22. Chen W.P., Tang F.T., Ju C.W., 2001. Stress distribution of the foot during mid-stance to push off in barefoot gait: a 3-D finite element analysis. Clinical Biomechanics 16, 614–620.
  23. Goonetilleke, R. S. and Luximon, A., 2001, Designing for Comfort: A Footwear Application, Proceedings of the Computer-Aided Ergonomics and Safety Conference '01, Maui, Hawaii. Plenary session paper.
  24. Hinterhofer C, Stanek C, Haider H. 2001. Finite-element analysis (FEA) as a model to predict effects of farriery on the equine hoof. Equine Vet J 33(Suppl):58–62.
  25. Gefen A., 2002. Stress analysis of the standing foot following surgical plantar fascia release. J. Of Biomechanics, 35(5), 629-637.
  26. Nigg BM, Stefanyshyn D, Cole G, et al. The effect of material characteristics of shoe soles on activation and energy aspects during running. J Biomech. 2003;36:569–575.
  27. Chen W.P., Ju C.W., Tang F.T., 2003. Effects of total contact insoles on the plantar stress redistribution: a finite element analysis. Clin Biomech, 18(6): S17-24
  28. Gefen, A., 2003. Plantar soft tissue loading under the medial metatarsals in the standing diabetic foot. Medical Engineering and Physics 25(6), 491–499.
  29. Goonetilleke R. S. (2003). Designing footwear: back to basics in an effort to design for people. Proccedings of SEAMEC 2003, Kuching, 25-31.
  30. Taylor Randall, Christian Terwiesch, and Karl T. Ulrich, “Principles for User Design of Customized Products,” California Management Review, 47/4 (Summer 2005): 68-85.
  31. T.Oda, K.Oomori and Y.Kaneko,2003. Running shoes development using a finite element ankle/joint model. Development Division, Mizuno Corporation 1-12-35, Nanko-Kita, Suminoe-Ku, Osaka Japan.
  32. Verdejo, R., and N.J., Mills, (2004). Heel-shoe interactions and the durability of EVA foam running-shoe midsoles. J Biomech, 37(9): 1379-86.
  33. Maria E. Hidalgo, 2004. Implementation of finite element analysis into the athletic shoe design process. Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2004. Includes bibliographical references (leaf 32). http://hdl.handle.net/1721.1/32810
  34. Cheung, J.T.M., Zhang, M., 2005. A 3-Dimensional finite element model of the human foot and ankle for insole design. Arch. Phys. Med. Rehab. 86, 353–358.
  35. Sun, Z., Howard, D., and Moatamedi, M., 2005. Finite-element analysis of footwear and ground interaction. Strain 41;113-115.
  36. Erdemir A., Saucerman J.J., Lemmon D., Loppnow B., Turso B., Ulbrecht J.S., Cavanagh P.R.,2005. Local plantar pressure relief in therapeutic footwear: design guidelines from finite element models. Journal of Biomechanics 38;1798-1806.
  37. Cheung JT, Zhang M, Leung AK, Fan YB., 2004. Three-dimensional finite element analysis of the foot during standing—a material sensitivity study. J Biomech. 2005;38:1045–1054
  38. Philippe G. Young, Gene Tabor, T. Collins, Jana Richterova, Emily Dejuniat, and Terence Beresford-West, 2005. Automating the generation of 3d _nite element models based on medical imaging data. In 2006 Digital Human Modeling for Design and Engineering Conference, 2006, Art. 51
  39. Chen, J.; Gong, Y.; Jin, J.; Tong, S.: Development of an integrated CAD/CAM system for shoe last, Proceeding of the IEEE, International Conference on Mechatronics and Automation, Canada, 2005.
  40. Jimeno, A.M.; Sánchez, J.L.; Mora, H.; Mora, J.; Garcý´a-Chamizo, J.M.: FPGA based tool path computation - an application for shoe last machining on CNC lathes, Computers in Industry, 57, 2006, 103–111. doi:10.1016/j.compind.2005.05.004
  41. Joneja, A; Fu, J.; Tang, K: Modeling Wrinkles on Smooth Surfaces for Footwear Design, Computer-Aided Design, 37(8), 2005, 815-823. DOI: 10.1016/j.cad.2004.09.010.
  42. Leng J., Du R., 2006. A CAD Approach for Designing Customized Shoe Last. Computer-Aided Design & Applications, 3(1-4): 377-384.
  43. Lee K., 2006. CAD System for Human-Centered Design, Computer-Aided Design & Applications,3(5):615-628.
  44. Wong K.H.M., Hui P.C.L., Chan A.C.K., 2006. Cryptography and authentication on RFID passive tags for apparel products. Computers in Industry, 57(4): 342-349.
  45. Cheung T. M., Zhang M., 2006, Finite Element Modeling of the Human Foot and Footwear. 2006 ABAQUS Users’ Conference, 145-159
  46. Goske S, Erdemir A, Petre M, Budhabhatti S, Cavanagh PR, 2006. Reduction of plantar heel pressures: Insole design using finite element analysis. Journal of Biomechanics 39;2363–2370.
  47. Goske S, Erdemir A, Petre M, Budhabhatti S, Cavanagh PR, 2006. Reduction of plantar heel pressures: Insole design using finite element analysis. ISB xxth Congress- ASB 29th, Annual Meeting, July 31- August 5, Cleveland, Ohio.
  48. Design of Insole using Image Base Analysis, Vinicius Aguiar de Souza 2007(20), 385-386, 2008-01-24
  49. Azariadis P., Moulianitis V., Alemany S., Olaso J., de Jong P., van der Zande M., Brands D., 2007. Virtual Shoe Test Bed: A Computer-Aided Engineering Tool For Supporting Shoe Design, Computer-Aided Design and Applications, 4(6):741-750.
  50. Zeng Xian Hong, 2007. Impact Analysis of sporting footwear using Structural Intensity Technique. Department of Mechanical Engineering National University of Singapore,Session 2007/2008.
  51. S. Mottura, L. Greci, E. Travaini, G. Viganò, M. Sacco, 2007. “MagicMirror & FootGlove: a new system for the customized shoe try-on”, 17th CIRP STC Design Seminar on the Future of Product Development, March 2006, 26-28, Berlin, Germany. Proceedings pp. 441-450, Frank-Lothar Krause Editor, Springer.
  52. Jason Tak-Man Cheung, Ameersing Luximon, Ming Zhang, 2007. Design of foot orthosis for plantar pressure relief based on computational modelling. Rehabilitation Engineering Centre, The Hong Kong Polytechnic University, Hong Kong, China.
  53. Marc Thomas Petre, 2007. Investigating the internal stress/strain state of the foot using magnetic resonance imaging and finite element analysis. Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy. Dissertation Adviser: Peter R. Cavanagh, Ph.D., D.Sc. Department of Biomedical Engineering Case Western Reserve University. August, 2007
  54. Jerry Chen, Ilmi Yoon, and Wes Bethel, 2006. Interactive, internet delivery of visualization via structured prerendered multiresolution imagery. IEEE Transactions on Visualization and Computer Graphics, 14(2):302–312, 2008. ISSN 1077-2626. doi: http://dx.doi.org/10.1109/TVCG.2007.70428.
  55. Mao A., Li Y., Luo X., Wang R., Wang S., 2008. A CAD system for multi-style thermal functional design of clothing, Computer-Aided Design, 40(9): 916-930.
  56. Owings T.M., Woerner J.L., Frampton J.D., Cavanagh P.R., Botek G., 2008.Custom Therapeutic Insoles Based on Both Foot Shape and Plantar Pressure Measurement Provide Enhanced Pressure Relief. Diabetes Care, 31(5);839-844.
  57. Chituc C.M., Toscano C., Azevedo A., 2008. Interoperability in Collaborative Networks: Independent and industry-specific initiatives - The case of the footwear industry, Computers in Industry, 59(7):741-757.
  58. Nagel A., Fernholz F., Kibele C., Rosenbaum D., 2008. Long distance running increases plantar pressures beneath the metatarsal heads: A barefoot walking investigation of 200 marathon runners, Gait & Posture, 2008;27(1): 152-155
  59. Cheung J.T.M., Zhang M., 2008. Parametric design of pressure-relieving foot orthosis using statistics-based finite element method. Medical Engineering & Physics 30; 269–277.
  60. Hsu Y.C., Gung Y.W., Shih S.L., Feng C.K., Wei S.H., Yu C.H., Chen C.S., 2008. Using an Optimization Approach to Design an Insole for Lowering Plantar Fascia Stress - A Finite Element Study. Annals of Biomedical Engineering, Vol. 36, No. 8, 2008, 1345–1352.
  61. S. Butdee, K. Tangchaidee, 2008. Formulation of 3D shoe sizes using scanning camera and CAD modelling. Integrated Manufacturing System Research Center (IMSRC), Department of Production Engineering, Faculty of Engineering, King Mongkut’s Institute of Technology North Bangkok,1518 Piboonsongkram Rd. Bangsue, Bangkok, Thailand. Received 10.08.2008; published in revised form 01.12.2008.
  62. CEC, 2009. CEC-made-shoe: Custom, Environment and Comfort made shoe. 2004-2008, Contact No 507378 - 2, FP6 IST - NMP (Manufacturing, Products and Service Engineering 2010), http://www.cec-made-shoe.com.
  63. Pedrazzoli P., 2009. Design Of customeR dRiven shoes and multisiTe factory – DOROTHY. in: K.-D. Thoben, K. S. Pawar, & R. Goncalves (eds), 15th International Conference on Concurrent Enterprising, 22-24 June 2009, Leiden, Netherlands.
  64. Wiegerinck JI, Boyd J, Yoder JC, Abbey AN, Nunley JA, Queen RM, 2009. Differences in plantar loading between training shoes and racing flats at a self-selected running speed. Gait & Posture 29;514–519.
  65. Ameersing Luximon, Yan Luximon, 2009. Shoe-last design innovation for better shoe fitting. 2009 Elsevier B.V. All rights reserved. Computers in Industry 60 (2009) 621–628.
  66. Li, L.P., Cheung, J.T.M., Herzog, W., 2009. Three-dimensional fibrilreinforced finite element model of articular cartilage. Med. Biol. Eng. Comput. 47, 607–615.
  67. Azariadis P., Olaso J., Moulianitis V., Alemany S., González J-C, de Jong P., Dunias P., van der Zande M., Brands D., 2010. An Innovative Virtual-Engineering System for Supporting Integrated Footwear Design, International Journal of Intelligent Engineering Informatics (IJIEI), 1(1), 53-74.
  68. Gu Y. D., Ren X. J., Li J. S., Lake M. J., Zhang Q. Y., Zeng Y. J., 2010. Computer simulation of stress distribution in the metatarsals at different inversion landing angles using the finite element method. International Orthopaedics (SICOT), 34;669-676.
  69. Shariatmadari M.R., English R., Rothwell G., 2010. Finite Element Study into the Effect of Footwear Temperature on the Forces Transmitted to the Foot during Quasi- Static Compression Loading. IOP Conf. Series: Materials Science and Engineering 10;012126.
  70. Salvatore Gerbino, Pasquale Franciosa, 2010. From CT Scan to Plantar Pressure Map Distribution of a 3D Anatomic Human Foot. 1University of Molise, School of Engineering, Via Duca degli Abruzzi - 86039 Termoli (CB) – Italy.
  71. Miguel Davia2, Michele Germani1, Marco Mandolini1, Maura Mengoni1, Enrique Montiel2 and Roberto Raffaeli1, Shoes Customization Design Tools for the “Diabetic Foot”. DOI: 10.3722/cadaps.2010.693-711.
  72. Hacene Ameddah and Mekki Assas, 2011. Bio-CAD Reverse Engineering of Free-form Surfaces by Planar Contours. DOI: 10.3722/cadaps.2011.37-42
  73. Olya Grove, Khairan Rajab, Les. A. Piegl and Susana Lai-Yuen, 2011. From CT to NURBS: Contour Fitting with B-spline Curves. DOI: 10.3722/cadaps.2011.3-21
  74. Asanka S. Rodrigo, Ravindra S. Goonetilleke, Channa P. Witana, 2011. Model based foot shape classification using 2D foot outlines. Computer-Aided Design (2011), doi:10.1016/j.cad.2011.01.005
  75. Yoo, D.J., 2011. Three-dimensional surface reconstruction of human bone using a B-spline based interpolation approach. Computer-Aided Design 43 (8), 934–947.
  76. Azariadis P., Finite Element Analysis in Footwear Design, in The Science of Footwear, Editor Prof. Ravi Goonetilleke, Taylor & Francis Group, November 06, 2012
  77. Ming-Chu Shieh and Alan C. Lin, 2012. CAD-model-based Design and Stress Analysis of Resurfacing Hip Joint Prosthesis. DOI: 10.3722/cadaps.2012.609-619
  78. Iain Hannah, Andy Harland, Dan Price, Tim Lucas, 2012. Centre of pressure output in a kinematically driven finite element footstrike model. 2012 Published by Elsevier Ltd, doi: 10.1016/j.proeng.2012.04.048
  79. Amba D. Bhatt, Ujjaval Gupta, Vishal Wagholikar and Uday V. Pise, 2012. Edge Detection and Segmentation of Multiple Contours from CT Scan Images. DOI: 10.3722/cadaps.2012.501-516
  80. Uday V.Pise, Amba D.Bhatt and Ravindra K.Srivastava, 2012. Finite Element Mesh Generation of Human Body Segment in 2-D and 3-D Using B-splineMethod. DOI: 10.3722/cadaps.2012.307-320
  81. Samuel J. Lochner, Jan P. Huissoon and Sanjeev S. Bedi, 2012. Parametric Design of Custom Foot Orthotic Model. DOI: 10.3722/cadaps.2012.1-11

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Project At A Glance

Project title (full) Development of cost-effective and accurate computer-aided design and engineering (CAD/CAE) tools for the determination and optimization of footwear comfort parameters (OPT-SHOES)

Start Date: September 2012

End Date: September 2015

 

 

 

 

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