Digital Anatomy

Human ergonomics should be the core driver of the design of every man-made thing in our world. However, almost nothing is known about human variation. To address this gap, I founded the Parametric Human Project as a non-profit to build a community to work on the digitization of human anatomy and thereby, the characterization of human variation.

<< Topics

High fidelity 3D anatomical visualization of the fibre bundles of the muscles of facial expression as in situ

Li, Z., Tran, J., Bibliowicz, J., Khan, A., Mogk, J.P.M., Agur, A. (2021). Digital Anatomy: Applications of Virtual, Mixed and Augmented Reality. Uhl, J-F., Jorge, J., Lopes, D.S., Campos, P.F. (Eds.). Springer Nature Switzerland AG. pp. ~20. In press.

 

The Parametric Human Project: Building a Probabilistic Atlas of Human Anatomy

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Mogk, J., Lloyd, J., Bibliowicz, J., Agur, A., Fels, S., Khan, A. (2013) The Parametric Human Project: Building a Probabilistic Atlas of Human Anatomy. In 24th Congress of the International Society of Biomechanics. 3 pages.

Parametric Human Project Scope and Vision

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Khan, A. (2013). Parametric Human Project Scope and Vision, PMHA 2013 Conference Proceedings: Parametric Modeling of Human Anatomy. 2 pages.

Towards the development of a biomechanical ontology to support the initiatives of the Parametric Human Project

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Mogk, J., Bibliowicz, J., Khan, A. (2013) Towards the development of a biomechanical ontology to support the initiatives of the Parametric Human Project. PMHA 2013 Conference Proceedings: Parametric Modeling of Human Anatomy. 8 pages.

Modeling and Simulation of Skeletal Muscle for Computer Graphics: A Survey

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Lee, D., Glueck, M., Khan, A., Fiume, E., and Jackson, K. (2012). Modeling and Simulation of Skeletal Muscle for Computer Graphics: A Survey. Foundations of Trends in Computer Graphics and Vision. 7(4). pp. 229-276.

High-Precision Surface Reconstruction of Human Bones from Point-Sampled Data

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Bibliowicz, J., Khan, A., Agur, A., Singh, K. (2011). High-Precision Surface Reconstruction of Human Bones from Point-Sampled Data. ISHS 2011 Conference Proceedings: International Summit on Human Simulation. 10 pages.