Simulating the whole brain as an alternative way to achieve AGI

Quant. Biol. ›› 2023, Vol. 11 ›› Issue (4) :471 -473. DOI: 10.1002/qub2.6

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Jianfeng Feng. Simulating the whole brain as an alternative way to achieve AGI. Quant. Biol., 2023, 11(4): 471-473 DOI:10.1002/qub2.6

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[1]	Tsai S-T, Fields E, Xu Y, Kuo EJ, Tiwary P. Path sampling of recurrent neural networks by incorporating known physics. Nat Commun. 2022;13(1):7231.

[2]	Carneiro RL. The transition from quantity to quality: a neglected causal mechanism in accounting for social evolution. Proc Natl Acad Sci USA. 2000;97(23):12926–31.

[3]	Feng JF, Jirsa VK, Ding MZ. Synchronization in networks with random interactions: theory and applications. Chaos. 2006;16(1):015109.

[4]	Jirsa V, Wang H, Triebkorn P, Hashemi M, Jha J, Gonzalez-Martinez J, et al. Personalised virtual brain models in epilepsy. Lancet Neurol. 2023;22(5):443–54.

[5]	Du X, Liu Y, Lu Z, Duan Q, Feng J, Wu J, et al. A low-latency communication design for brain simulations. IEEE Network. 2022;36(2):8–15.

[6]	Zhang WY, Chen B, Feng J, Lu W. On a framework of data assimilation for neuronal networks. arXiv:2206.02986(2022)

[7]	Lu WL, Zheng QB, Feng JF. Whole brain computation: reversing engineering of human brain. AI-View. 2022;6:8–18.

[8]	Xu Y, Long X, Feng J, Gong P. Interacting spiral wave patterns underlie complex brain dynamics and are related to cognitive processing. Nat Human Behav. 2023;7:1196–215.