A Maturity Model for Operations in Neuroscience Research. Johnson, E. C., Nguyen, T. T., Dichter, B. K., Zappulla, F., Kosma, M., Gunalan, K., Halchenko, Y. O., Neufeld, S. Q., Schirner, M., Ritter, P., Martone, M. E., Wester, B., Pestilli, F., & Yatsenko, D. December, 2023. arXiv:2401.00077 [cs, q-bio]
A Maturity Model for Operations in Neuroscience Research [link]Paper  abstract   bibtex   
Scientists are adopting new approaches to scale up their activities and goals. Progress in neurotechnologies, artificial intelligence, automation, and tools for collaboration promises new bursts of discoveries. However, compared to other disciplines and the industry, neuroscience laboratories have been slow to adopt key technologies to support collaboration, reproducibility, and automation. Drawing on progress in other fields, we define a roadmap for implementing automated research workflows for diverse research teams. We propose establishing a five-level capability maturity model for operations in neuroscience research. Achieving higher levels of operational maturity requires new technology-enabled methodologies, which we describe as ``SciOps''. The maturity model provides guidelines for evaluating and upgrading operations in multidisciplinary neuroscience teams.
@misc{johnson_maturity_2023,
	title = {A {Maturity} {Model} for {Operations} in {Neuroscience} {Research}},
	url = {http://arxiv.org/abs/2401.00077},
	abstract = {Scientists are adopting new approaches to scale up their activities and goals. Progress in neurotechnologies, artificial intelligence, automation, and tools for collaboration promises new bursts of discoveries. However, compared to other disciplines and the industry, neuroscience laboratories have been slow to adopt key technologies to support collaboration, reproducibility, and automation. Drawing on progress in other fields, we define a roadmap for implementing automated research workflows for diverse research teams. We propose establishing a five-level capability maturity model for operations in neuroscience research. Achieving higher levels of operational maturity requires new technology-enabled methodologies, which we describe as ``SciOps''. The maturity model provides guidelines for evaluating and upgrading operations in multidisciplinary neuroscience teams.},
	urldate = {2024-01-02},
	publisher = {arXiv},
	author = {Johnson, Erik C. and Nguyen, Thinh T. and Dichter, Benjamin K. and Zappulla, Frank and Kosma, Montgomery and Gunalan, Kabilar and Halchenko, Yaroslav O. and Neufeld, Shay Q. and Schirner, Michael and Ritter, Petra and Martone, Maryann E. and Wester, Brock and Pestilli, Franco and Yatsenko, Dimitri},
	month = dec,
	year = {2023},
	note = {arXiv:2401.00077 [cs, q-bio]},
	keywords = {Computer Science - Computers and Society, Quantitative Biology - Neurons and Cognition, research},
}

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