![Plantar flexion e dorsal flexion [5]. According Bates and Hanson](https://www.researchgate.net/publication/301654404/figure/fig2/AS:355330174275587@1461728723815/Plantar-flexion-e-dorsal-flexion-5-According-Bates-and-Hanson-6-the-medial-and.png)
Plantar flexion e dorsal flexion [5]. According Bates and Hanson
Download scientific diagram | Plantar flexion e dorsal flexion [5]. According Bates and Hanson [6], the medial and lateral malleolus and the strong collateral ligaments stabilize the articulation allowing little or no lateral motion. For Lehmkuhl and Smith [7], the lateral malleolus is projected more distally than the medial one. Thus, the lateral motion of the ankle is more limited than the medial movement. This characterizes a specific axis of movement of the ankle (Figure 3). from publication: Modelling of the Human Ankle by means of a Nonlinear Oscillators System | A Nonlinear oscillators system can simulate the behaviour of the main elements involved in the human locomotion, as example, the ankle. These oscillators can be used in control systems of locomotion as pattern generators similar to the human gait pattern, providing approach | Ankle Joint, Oscillators and Nonlinear | ResearchGate, the professional network for scientists.
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Plantar flexion e dorsal flexion [5]. According Bates and Hanson [6]
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PDF) Modelling of the Human Ankle by means of a Nonlinear Oscillators System
Running temporal parameters and vertical tibial acceleration. * denotes
