Extrapolatable Analytical Functions for Tendon Excursions and Moment Arms From Sparse Datasets
Created by W.Langdon from
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- @Article{Kurse:2012:ieeeBE,
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author = "Manish U. Kurse and Hod Lipson and
Francisco J. Valero-Cuevas",
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title = "Extrapolatable Analytical Functions for Tendon
Excursions and Moment Arms From Sparse Datasets",
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journal = "IEEE Transactions on Biomedical Engineering",
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year = "2012",
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month = jun,
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volume = "59",
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number = "6",
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pages = "1572--1582",
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size = "11 pages",
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abstract = "Computationally efficient modelling of complex
neuromuscular systems for dynamics and control
simulations often requires accurate analytical
expressions for moment arms over the entire range of
motion. Conventionally, polynomial expressions are
regressed from experimental data. But these polynomial
regressions can fail to extrapolate, may require large
datasets to train, are not robust to noise, and often
have numerous free parameters. We present a novel
method that simultaneously estimates both the form and
parameter values of arbitrary analytical expressions
for tendon excursions and moment arms over the entire
range of motion from sparse datasets. This symbolic
regression method based on genetic programming has been
shown to find the appropriate form of mathematical
expressions that capture the physics of mechanical
systems. We demonstrate this method by applying it to
1) experimental data from a physical tendon-driven
robotic system with arbitrarily routed multiarticular
tendons and 2) synthetic data from musculoskeletal
models. We show it outperforms polynomial regressions
in the amount of training data, ability to extrapolate,
robustness to noise, and representation containing
fewer parameters-all critical to realistic and
efficient computational modelling of complex
musculoskeletal systems.",
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keywords = "genetic algorithms, genetic programming, complex
neuromuscular system, control simulation, dynamics
simulation, extrapolatable analytical function, moment
arms, multiarticular tendon, musculoskeletal model,
physical tendon-driven robotic system, sparse datasets,
symbolic regression method, tendon excursion, bone,
extrapolation, medical robotics, muscle, neuromuscular
stimulation, regression analysis",
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DOI = "doi:10.1109/TBME.2012.2189771",
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ISSN = "0018-9294",
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notes = "Also known as \cite{6164249}",
- }
Genetic Programming entries for
Manish U Kurse
Hod Lipson
Francisco Valero-Cuevas
Citations