期刊
出版社
MDPI
DOI: 10.3390/ijerph20010764
关键词
rhythmicity analysis; rhythms; integrative analyses; transferability; computational framework; sustainability; circadian clock; urban rhythms
From biological to socio-technical systems, rhythmic processes are pervasive in our environment. However, methods for their comprehensive analysis are prevalent only in specific fields, hindering interdisciplinary research and integrative analyses. In this paper, recent developments in cross-disciplinary rhythmicity research are reviewed, with a focus on urban planning and biomedical research. The current state of the art of computational methods for investigating rhythmic data is described, along with the potential and necessary future developments for cross-disciplinary rhythmicity analysis.
From biological to socio-technical systems, rhythmic processes are pervasive in our environment. However, methods for their comprehensive analysis are prevalent only in specific fields that limit the transfer of knowledge across scientific disciplines. This hinders interdisciplinary research and integrative analyses of rhythms across different domains and datasets. In this paper, we review recent developments in cross-disciplinary rhythmicity research, with a focus on the importance of rhythmic analyses in urban planning and biomedical research. Furthermore, we describe the current state of the art of (integrative) computational methods for the investigation of rhythmic data. Finally, we discuss the further potential and propose necessary future developments for cross-disciplinary rhythmicity analysis to foster integration of heterogeneous datasets across different domains, as well as guide data-driven decision making beyond the boundaries of traditional intradisciplinary research, especially in the context of sustainable and healthy cities.
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