About this Research Topic
However, a complementary notion views the presence of redundant degrees of freedom as advantageous. This perspective has gained traction among researchers, leading to the development of the motor abundance theory. This theory suggests that the Central Nervous System (CNS) introduces additional degrees of freedom, such as variability in joint kinematics, to efficiently meet task requirements, rather than reducing the degrees of freedom for an optimal solution. Researchers from both perspectives have shown that degrees of freedom tend to either freeze or become free during movement adaptation. This contributes to the ongoing debate about abundance versus redundancy during adaptive or developmental changes in human motion.
Despite this conflict, it’s important to note that both of these degrees of freedom theories offer valuable insights into system dynamics. More specifically, the methods used in these theories, when paired with suitable experimental designs and cutting-edge technology (such as EMG, EEG, Motion Capture, IMUs, etc.), allow for the observation of adaptive and developmental changes in motor behavior. Furthermore, they assist researchers in determining which of the three constraints—Task, Neural, or Environmental—leads to adaptive changes in specific situations.
Hence, this Research Topic aims to enrich the literature about the impact on neuromuscular and kinematic degrees of freedom, especially during adaptive or developmental changes in movement. We invite contributions from the proponents of abundance and redundancy theories to provide insight into adaptive and developmental changes in human movement behavior. This could assist the scientific community in developing more effective rehabilitation methods. This Research Topic welcomes original research, review articles, case studies, and short communications from experts in various fields of movement rehabilitation. Some of the areas are listed below but are not limited to.
1. Biomechanics
2. Electromyography
3. Neural Engineering and Rehabilitation
4. Motor Neuroscience
5. Motor learning and Motor Control
6. Motor Adaptation and Development
7. Physical Therapy
Keywords: Motor Control, motor neuroscience, central nervous system (CNS), Motor Redundancy Theory, Movement Rehabilitation, Motor Control Debates, Joint Kinematics Variability
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.