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Edge Computing in Nature: Minimal pre-processing of multi-muscle ensembles of spindle signals improves discriminability of limb movements
被引:2
|作者:
Berry, Jasmine A.
[1
]
Marjaninejad, Ali
[2
]
Valero-Cuevas, Francisco J.
[1
,2
,3
]
机构:
[1] Univ Southern Calif, Dept Comp Sci, Brain Body Dynam Lab, Los Angeles, CA 90007 USA
[2] Univ Southern Calif, Dept Biomed Engn, Los Angeles, CA 90007 USA
[3] Univ Southern Calif, Div Biokinesiol & Phys Therapy, Los Angeles, CA 90007 USA
关键词:
muscle spindle afferent;
proprioception;
limb movement;
task discrimination;
dimensionality reduction;
musculotendon;
MATHEMATICAL-MODELS;
MUSCLE;
TENDON;
PROPRIOCEPTORS;
HAND;
D O I:
10.3389/fphys.2023.1183492
中图分类号:
Q4 [生理学];
学科分类号:
071003 ;
摘要:
Multiple proprioceptive signals, like those from muscle spindles, are thought to enable robust estimates of body configuration. Yet, it remains unknown whether spindle signals suffice to discriminate limb movements. Here, a simulated 4-musculotendon, 2-joint planar limb model produced repeated cycles of five end-point trajectories in forward and reverse directions, which generated spindle Ia and II afferent signals (proprioceptors for velocity and length, respectively) from each musculotendon. We find that cross-correlation of the 8D time series of raw firing rates (four Ia, four II) cannot discriminate among most movement pairs (& SIM; 29% accuracy). However, projecting these signals onto their 1( st ) and 2( nd ) principal components greatly improves discriminability of movement pairs (82% accuracy). We conclude that high-dimensional ensembles of muscle proprioceptors can discriminate among limb movements-but only after dimensionality reduction. This may explain the pre-processing of some afferent signals before arriving at the somatosensory cortex, such as processing of cutaneous signals at the cat's cuneate nucleus.
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页数:12
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