Temporal convolutional networks predict dynamic oxygen uptake response from wearable sensors across exercise intensities. | D2R Server publishing the DBLP Bibliography Database, hosted at L3S Research Center

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dc:creator	<https://dblp.l3s.de/d2r/resource/authors/Eric_T._Hedge>
dc:creator	<https://dblp.l3s.de/d2r/resource/authors/Richard_Lee_Hughson>
dc:creator	<https://dblp.l3s.de/d2r/resource/authors/Robert_Amelard>
foaf:homepage	<http://dx.doi.org/doi.org%2F10.1038%2Fs41746-021-00531-3>
foaf:homepage	<https://doi.org/10.1038/s41746-021-00531-3>
dc:identifier	DBLP journals/npjdm/AmelardHH21 (xsd:string)
dc:identifier	DOI doi.org%2F10.1038%2Fs41746-021-00531-3 (xsd:string)
dcterms:issued	2021 (xsd:gYear)
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rdfs:label	Temporal convolutional networks predict dynamic oxygen uptake response from wearable sensors across exercise intensities. (xsd:string)
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foaf:maker	<https://dblp.l3s.de/d2r/resource/authors/Robert_Amelard>
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dc:title	Temporal convolutional networks predict dynamic oxygen uptake response from wearable sensors across exercise intensities. (xsd:string)
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