@ScienceSociety8 @wonderactionv @SerenaM17009865 @frankschoschka @Clubhouse Alfred Hero is the John H. Holland Distinguished University Professor of Electrical Engineering and Computer Science and the R. Jamison and Betty Williams Professor of Engineering
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/gvrUmTL6k6
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/3AojmlKZWm
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
RT @erlesen: Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Mac…
Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/O4oHESihO7 Machine learning begins to understand human gut https://t.co/LaiVEUjI1i @_atanas_
Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/gvrUmTL6k6
RT @physorg_com: Machine learning begins to understand #humangut @umich @elife https://t.co/9IHMZlHgcA https://t.co/ojTbi9ro4G
RT @physorg_com: Machine learning begins to understand #humangut @umich @elife https://t.co/9IHMZlHgcA https://t.co/ojTbi9ro4G
RT @physorg_com: Machine learning begins to understand #humangut @umich @elife https://t.co/9IHMZlHgcA https://t.co/ojTbi9ro4G
RT @physorg_com: Machine learning begins to understand #humangut @umich @elife https://t.co/9IHMZlHgcA https://t.co/ojTbi9ro4G
RT @PsudoMetaBot: How to write flashy, click-bait article. Learning pattern != Understanding.
How to write flashy, click-bait article. Learning pattern != Understanding.
RT @physorg_com: Machine learning begins to understand #humangut @umich @elife https://t.co/9IHMZlHgcA https://t.co/ojTbi9ro4G
RT @physorg_com: Machine learning begins to understand #humangut @umich @elife https://t.co/9IHMZlHgcA https://t.co/ojTbi9ro4G
RT @physorg_com: Machine learning begins to understand #humangut @umich @elife https://t.co/9IHMZlHgcA https://t.co/ojTbi9ro4G
Machine learning begins to understand #humangut @umich @elife https://t.co/9IHMZlHgcA https://t.co/ojTbi9ro4G
Check out this new application of long short-term memory framework, based on recurrent neural networks, for exploring multidimensional functional landscape & design synthetic microbial communities with unique metabolite profiles & temporal behavior
Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/7l1EjjEJAY
https://t.co/mqUU1H47U7 @eLife
Recurrent neural networks enable design of multifunctional synthetic human gut microbiome dynamics https://t.co/csdtTmUKZ8