图 书 馆开课单位--奥地利科学技术研究所
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1Modeling the evolution of flower colour in snapdragons[金鱼草花色演变的模拟]
Nicholas Barton(奥地利科学技术研究所) Species are often subdivided into distinct populations, which are separated by narrow zones of hybridisation. These can be modelled using reaction-dif...
热度:27
Nicholas Barton(奥地利科学技术研究所) Species are often subdivided into distinct populations, which are separated by narrow zones of hybridisation. These can be modelled using reaction-dif...
热度:27
2Critical behavior in networks of real neurons[真实神经元网络中的临界行为]
Gašper Tkačik(奥地利科学技术研究所) The patterns of joint activity in a population of retinal ganglion cells encode the complete information about the visual world, and thus place limits...
热度:50
Gašper Tkačik(奥地利科学技术研究所) The patterns of joint activity in a population of retinal ganglion cells encode the complete information about the visual world, and thus place limits...
热度:50
3Improving high-resolution optical imaging for (neuro-)biology[改进(神经)生物学的高分辨率光学成像]
Johann G. Danzl(奥地利科学技术研究所) Far-field optical super-resolution microscopy or nanoscopy techniques “super-resolve” features residing closer than the diffraction-limit ...
热度:44
Johann G. Danzl(奥地利科学技术研究所) Far-field optical super-resolution microscopy or nanoscopy techniques “super-resolve” features residing closer than the diffraction-limit ...
热度:44
4Persistent Homology[持久同源性]
Ulrich Bauer(奥地利科学技术研究所) Persistent homology is an algebraic tool for measuring topological features of shapes and functions. Given a filtration of a topological space (a nest...
热度:42
Ulrich Bauer(奥地利科学技术研究所) Persistent homology is an algebraic tool for measuring topological features of shapes and functions. Given a filtration of a topological space (a nest...
热度:42
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