References
- An K, Kwak B, Chao E, Morrey B. 1984. Determination of muscle and joint forces: a new technique to solve the indeterminate problem. J Biomech Eng. 106(4):364–367.
- Ayusawa K, Venture G, Nakamura Y. 2011. Real-time implementation of physically consistent identification of human body segments. In: Robotics and Automation (ICRA), 2011 IEEE International Conference on. IEEE. p. 6282–6287.
- Challis J. 1997. Producing physiologically realistic individual muscle force estimations by imposing constraints when using optimization techniques. Med Eng Phys. 19(3):253–261.
- Challis J, Kerwin D. 1993. An analytical examination of muscle force estimations using optimization techniques. Proc Inst Mech Eng H. 207(3):139–148.
- Crowninshield R, Brand R. 1981. A physiologically based criterion of muscle force prediction in locomotion. J Biomech. 14(11):793–801.
- Damsgaard M, Rasmussen J, Christensen ST, Surma E, De Zee M. 2006. Analysis of musculoskeletal systems in the anybody modeling system. Simul Modell Pract Theory. 14(8):1100–1111.
- Dumas R, Cheze L, Verriest JP. 2007. Adjustments to McConville et al. and Young et al. body segment inertial parameters. J Biomech. 40(3):543–553.
- Erdemir A, McLean S, Herzog W, van den Bogert AJ. 2007. Model-based estimation of muscle forces exerted during movements. Clin Biomech (Bristol, Avon). 22(2):131–154.
- Featherstone R. 2014. Rigid body dynamics algorithms. US: Springer.
- Garner BA, Pandy MG. 2003. Estimation of musculotendon properties in the human upper limb. Ann Biomed Eng. 31(2):207–220.
- Hansen C, Venture G, Rezzoug N, Gorce P, Isableu B. 2014. An individual and dynamic body segment inertial parameter validation method using ground reaction forces. J Biomech. 47(7):1577–1581.
- Heinen F, Lund ME, Rasmussen J, de Zee M. 2016. Muscle–tendon unit scaling methods of hill-type musculoskeletal models: An overview. Proc Inst Mech Eng H. 230(10):976–984.
- Heinen F, Sørensen SN, King M, Lewis M, de Zee M, Rasmussen J. 2015. Prediction of muscle-tendon parameters based on isokinetic measurements. In: Annual Meeting of the Danish Society of Biomechanics. Danish Society of Biomechanics.
- Jovic J, Escande A, Ayusawa K, Yoshida E, Kheddar A, Venture G. 2016. Humanoid and human inertia parameter identification using hierarchical optimization. IEEE Trans Robot. 32(3):726–735.
- Lu TW, O’Connor J. 1999. Bone position estimation from skin marker co-ordinates using global optimisation with joint constraints. J Biomech. 32(2):129–134.
- Muller A, Germain C, Pontonnier C, Dumont G. 2016. A simple method to calibrate kinematical invariants: application to overhead throwing. In: ISBS-Conference Proceedings Archive; vol. 33.
- Muller A, Haering D, Pontonnier C, Dumont G. 2017. Non-invasive techniques for musculoskeletal model calibration. In: Congrès Français de Mécanique.
- Muller A, Pontonnier C, Dumont G. 2018. The MusIC method: a fast and quasi-optimal solution to the muscle forces estimation problem. Comput Methods Biomech Biomed Engin. 21(2):149–160.
- Murai A, Kurosaki K, Yamane K, Nakamura Y. 2010. Musculoskeletal-see-through mirror: Computational modeling and algorithm for whole-body muscle activity visualization in real time. Prog Biophys Mol Biol. 103(2–3):310–317.
- Pontonnier C, Dumont G. 2009. Inverse dynamics method using optimization techniques for the estimation of muscles forces involved in the elbow motion. Int J Interact Des Manuf. 3(4):227–236.
- Pontonnier C, Dumont G. 2010. Interpolating Muscle Forces in an Inverse Dynamics Approach. Symposium on Computer Methods in Biomechanics and Biomedical Engineering (CMBBE).
- Rasmussen J, Damsgaard M, Voigt M. 2001. Muscle recruitment by the min/max criterion - A comparative numerical study. J Biomech. 34(3):409–415.
- Rengifo C, Aoustin Y, Plestan F, Chevallereau C. 2010. Distribution of forces between synergistics and antagonistics muscles using an optimization criterion depending on muscle contraction behavior. J Biomech Eng. 132(4):041009
- Van Campen A, Pipeleers G, De Groote F, Jonkers I, De Schutter J. 2014. A new method for estimating subject-specific muscle-tendon parameters of the knee joint actuators: a simulation study. Int J Numer Method Biomed Eng. 30(10):969–987.
- Van den Bogert AJ, Geijtenbeek T, Even-Zohar O, Steenbrink F, Hardin EC. 2013. A real-time system for biomechanical analysis of human movement and muscle function. Med Biol Eng Comput. 51(10):1069–1077.
- Wu G, Siegler S, Allard P, Kirtley C, Leardini A, Rosenbaum D, Whittle M, D’Lima DD, Cristofolini L, Witte H, et al. 2002. Isb recommendation on definitions of joint coordinate system of various joints for the reporting of human joint motion-part I: ankle, hip, and spine. J Biomech. 35(4):543–548.
- Wu G, Van der Helm FC, Veeger HD, Makhsous M, Van Roy P, Anglin C, Nagels J, Karduna AR, McQuade K, Wang X, et al. 2005. Isb recommendation on definitions of joint coordinate systems of various joints for the reporting of human joint motion-part II: shoulder, elbow, wrist and hand. J Biomech. 38(5):981–992.
- Zajac FE. 1989. Muscle and tendon: properties, models, scaling, and application to biomechanics and motor control. Crit Rev Biomed Eng. 17(4):359–411.