Generative Models of Human Brain Functional Networks Based on Local Community

doi:10.12068/j.issn.1005-3026.2018.11.010

Journal of Northeastern University Natural Science ›› 2018, Vol. 39 ›› Issue (11): 1566-1571.DOI: 10.12068/j.issn.1005-3026.2018.11.010

• Information & Control • Previous Articles Next Articles

Generative Models of Human Brain Functional Networks Based on Local Community

SI Shuai-zong， LIU Xiao， ZHU Jian， ZHAO Hai

School of Computer Science & Engineering， Northeastern University， Shenyang 110169， China.

Received:2017-08-09 Revised:2017-08-09 Online:2018-11-15 Published:2018-11-09
Contact: SI Shuai-zong
About author:-
Supported by:
-

Abstract

Abstract: The effects of both regional topological structures and anatomical structures on human brain functional networks modeling were investigated， and generative models of human brain functional networks based on local communities were proposed. The local community topologies of the models are measured by not only the common neighbors between the two functional regions but also the connections among the neighbors. And the anatomical structures are represented by the anatomical distance between the two brain regions. In addition， the similarity energy index was proposed to evaluate the similarity between the generated network and the real data network based on functional magnetic resonance images(fMRI). The results show that the generative models based on local communities provide a good fit to the real data network in terms of network efficiency， clustering coefficient， modularity and degree distribution compared with traditional generated models.

Key words: brain functional network, generative model, local community, anatomical distance, network similarity

CLC Number:

TP393.01

SI Shuai-zong， LIU Xiao， ZHU Jian， ZHAO Hai. Generative Models of Human Brain Functional Networks Based on Local Community[J]. Journal of Northeastern University Natural Science, 2018, 39(11): 1566-1571.

References

[1]Power J D，Cohen A L，Nelson S M，et al.Functional network organization of the human brain［J］.Neuron，2011，72(4):665-678.
[2]Bullmore E，Sporns O.The economy of brain network organization［J］.Nature Reviews Neuroscience，2012，13(5):336-349.
[3]Bullmore E，Sporns O.Complex brain networks:graph theoretical analysis of structural and functional systems［J］.Nature Reviews Neuroscience，2009，10(3):186-198.
[4]Betzel R F，Avena-Koenigsberger A，Goni J，et al.Generative models of the human connectome［J］.Neuroimage A，2016，124:1054-1064.
[5]Sporns O，Betzel R F.Modular brain networks［J］.Annual Review of Psychology，2016(67):613-640.
[6]Meunier D，Lambiotte R，Bullmore E T.Modular and hierarchically modular organization of brain networks［J］.Frontiers in Neuroscience，2010，4:200-211.
[7]Gallen C L，Baniqued P L，Chapman S B，et al.Modular brain network oganization pedicts rsponse to cognitive training in older adults［J］.PloS One，2016，11(12):e0169015-e0169032.
[8]Ziv N E，Ahissar E.Neuroscience:new tricks and old spines［J］.Nature，2009，462(7275):859-861.
[9]Cannistraci C V，Alanis-Lobato G，Ravasi T.From link-prediction in brain connectomes and protein interactomes to the local-community-paradigm in complex networks［J］.Scientific Reports，2013(3):1613-1626.
[10]Lyu L，Zhou T.Link prediction in complex networks:a survey［J］.Physica A:Statistical Mechanics and Its Applications，2011，390(6):1150-1170.
[11]Hermundstad A M，Bassett D S，Brown K S，et al.Structural foundations of resting-state and task-based functional connectivity in the human brain［J］.Proceedings of the National Academy of Sciences，2013，110(15):6169-6174.
[12]Vértes P E，Alexander-Bloch A F，Gogtay N，et al.Simple models of human brain functional networks［J］.Proceedings of the National Academy of Sciences，2012，109(15):5868-5873.(上接第1565页)复杂度同样是O(n)，因此算法的整体时间复杂度为O(n).4结语在肺部分割的问题中，单一的分割算法无法快速、精确地将肺部区域分割出来，严重影响后续处理的精确性，针对这一问题，本文提出了基于多方法融合的肺部分割方法，将灰度、梯度等信息进行综合作为识别特征.实验结果表明，本文提出的方法能获得很好的肺部分割结果.

Generative Models of Human Brain Functional Networks Based on Local Community

RichHTML

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 3

Recommended Articles

Metrics

Comments

[1]	ZHANG Qing-yi， WANG Xing-wei， HUANG Min. An Intelligent Fault-Tolerant QoS Routing Mechanism Based on PSO and SA Hybrid Optimization [J]. Journal of Northeastern University Natural Science, 2017, 38(3): 325-330.
[2]	LIU Xiao， ZHAO Hai， ZHANG Jun， WANG Jin-fa. Elastic Network Characteristics in Internet Topology [J]. Journal of Northeastern University Natural Science, 2016, 37(4): 486-490.
[3]	LIU Xiao， ZHAO Hai， WANG Jin-fa， HE Xuan. Dissipation Analysis of Internet Topology Structure [J]. Journal of Northeastern University:Natural Science, 2015, 36(9): 1237-1241.