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陈群林

发布时间:2013-10-31 来源:本站原创 作者:本站编辑   浏览次数:

陈群林,副教授,西南大学心理学部

联系方式:重庆市北碚区西南大学心理学部303室,400715;邮箱:chenqunlin@swu.edu.cn

 

工作经历

2021.1-至今 西南大学心理学部 副教授

2019.5~2020.5宾夕法尼亚州立大学心理学系 访问学者 合作导师:Roger E. Beaty

2017.9~2020.12西南大学数学与统计学院 博士后 合作导师:刘光远

 

学习经历

2014.9~2017.6 西南大学心理学部 基础心理学方向 教育学博士  导师:张庆林教授 邱江教授

2011.9~2014.6 西南大学心理学部 发展与教育心理学方向 教育学硕士  导师:张庆林教授

2007.9~2011.6 海南师范大学心理学系 理学学士

 

研究兴趣

我的研究方向主要集中于创新思维的起源和认知神经机制、基于脑影像评估个体创新能力。具体如下:

(1)创新思维的起源和认知加工机制。从创造性的领域一般性和特异性视角去研究创造性思维的大脑关键脑区、环路和系统。具体来讲,采用行为学和认知神经科学的手段从领域(艺术和科学)、形态(如绘画、文学和音乐即兴表演)、认知(聚合和发散,情景记忆和语义记忆)来探究不同层面的创造性活动是否在大脑结构和功能上存在共享的生理基础和神经加工机制。(2)正因不同层面创造性的表现不尽相同,对于个体创新能力评估和预测一直是该领域的难点。我主要利用大脑的结构和功能特征,基于多变量分析和机器学习的方法来评估和预测个体的创造力。目前主导的创造性连接组和可重复性项目,整合多个国家的脑-行为数据资源。基于此数据集,在个体层面开展创造性的领域一般性和特异性的脑机制研究,以此建立评估和预测个体创新潜力的脑影像模型。在主体的研究中,拓展的两个方向集中于(3)建立生态效度的创造性研究范式,开发长时程问题解决的脑影像数据分析方法,以期能够捕捉创造性问题解决中不可预期的动态神经活动。(4)基于联结理论,从语义加工的视角取探究创新思维的基本单元、表征及加工方式。

 

科研项目

艺术创造力的领域一般性和领域特异性的神经机制,国家自然科学青年基金,2019.1-2021.12,主持在研。

基于大脑功能连接特征评估个体创造性能力,中国博士后科学基金面上资助,2018.1-2019.12,主持已结题。

不同艺术形态创作过程中的认知神经机制研究,重庆市博士后科研项目特别资助,2018.1-2019.12,主持已结题。

创造力个体化评估技术:基于大脑多模态结构影像数据,中央高校基本科研业务费,2018.1-2019.12,主持已结题。

创造性思维的半球差异与交互:基于复杂脑网络分析,重庆市研究生科研创新项目,2014.12-2017.6,主持已结题。

 

代表性论文#:共同第一作者;https://scholar.google.com/citations?user=ShOQlfgAAAAJ&hl=zh-CN

2020

Frith, E., Elbich, D. B., Christensen, A. P., Rosenberg, M. D., Chen, Q., Kane, M. J., Silvia, P. J., Seli, P., & Beaty, R. E. (2020). Intelligence and creativity share a common cognitive and neural basis. Journal of Experimental Psychology: General. Advance online publication.

Chen, Q., Beaty, R.E., Qiu, J., 2020. Mapping the Artistic Brain: Common and Distinct Neural Activations Associated with Musical, Drawing, and Literary Creativity. Human Brain Mapping, 41(12), 3403-3419.

Beaty, R. E. #, Chen, Q. #, Christensen, A. P., Kenett, Y. N., Silvia, P. J., Benedek, M., & Schacter, D. L. 2020. Default Network Contributions to Episodic and Semantic Processing During Divergent Creative Thinking: A Representational Similarity Analysis. NeuroImage, 116499.

 

2019

Chen, Q., Beaty, R.E., Cui, Z., Sun, J., He, H., Zhuang, K., Ren, Z., Liu, G., Qiu, J., 2019. Brain hemispheric involvement in visuospatial and verbal divergent thinking. NeuroImage 202, 116065.

Chen, Q. #, Xia, Y. #, Zhuang, K., Wu, X., Liu, G., Qiu, J., 2019. Decreased inter-hemispheric interactions but increased intra-hemispheric integration during typical aging. Aging 11.

Xia, Y., Chen, Q., Shi, L., Li, M., Gong, W., Chen, H., Qiu, J., 2019. Tracking the dynamic functional connectivity structure of the human brain across the adult lifespan. Human brain mapping 40, 717-728.

Zhu, W., Yang, W., Qiu, J., Tian, F., Chen, Q., Cao, G., Zhang, Q., Ming, D., 2019. Individual Differences in Brain Structure and Resting Brain Function Underlie Representation-Connection in Scientific Problem Solving. Creativity Research Journal 31, 132-148.

 

2018

Chen, Q., Beaty, R.E., Wei, D., Yang, J., Sun, J., Liu, W., Yang, W., Zhang, Q., Qiu, J., 2018. Longitudinal Alterations of Frontoparietal and Frontotemporal Networks Predict Future Creative Cognitive Ability. Cerebral Cortex 28, 103-115.

Beaty, R.E., Chen, Q., Christensen, A.P., Qiu, J., Silvia, P.J., Schacter, D.L., 2018. Brain networks of the imaginative mind: Dynamic functional connectivity of default and cognitive control networks relates to openness to experience. Human brain mapping 39, 811-821.

Beaty, R.E., Kenett, Y.N., Christensen, A.P., Rosenberg, M.D., Benedek, M., Chen, Q., Fink, A., Qiu, J., Kwapil, T.R., Kane, M.J., 2018. Robust prediction of individual creative ability from brain functional connectivity. Proceedings of the National Academy of Sciences 115, 1087-1092.

Kenett, Y.N., Medaglia, J.D., Beaty, R.E., Chen, Q., Betzel, R.F., Thompson-Schill, S.L., Qiu, J., 2018. Driving the brain towards creativity and intelligence: A network control theory analysis. Neuropsychologia 118, 79-90.

 

2012-2017

Shi, B., Cao, X., Chen, Q., Zhuang, K., Qiu, J., 2017. Different brain structures associated with artistic and scientific creativity: a voxel-based morphometry study. Scientific reports 7, 42911.

Zhu, W. #, Chen, Q#., Xia, L., Beaty, R.E., Yang, W., Tian, F., Sun, J., Cao, G., Zhang, Q., Chen, X., 2017. Common and distinct brain networks underlying verbal and visual creativity. Human brain mapping 38, 2094-2111.

Sun, J. #, Chen, Q. #, Zhang, Q., Li, Y., Li, H., Wei, D., Yang, W., Qiu, J., 2016. Training your brain to be more creative: brain functional and structural changes induced by divergent thinking training. Human brain mapping 37, 3375-3387.

Zhu, W. #, Chen, Q. #, Tang, C., Cao, G., Hou, Y., Qiu, J., 2016. Brain structure links everyday creativity to creative achievement. Brain and cognition 103, 70-76.

Chen, Q., Xu, T., Yang, W.-J., Li, Y.-D., Sun, J.-Z., Wang, K.-C., Beaty, R.E., Zhang, Q.-L., Zuo, X.-N., Qiu, J., 2015. Individual differences in verbal creative thinking are reflected in the precuneus. Neuropsychologia 75, 441-449.

Chen, Q. #, Yang, W. #, Li, W., Wei, D., Li, H., Lei, Q., Zhang, Q., Qiu, J., 2014. Association of creative achievement with cognitive flexibility by a combined voxel-based morphometry and resting-state functional connectivity study. NeuroImage 102, 474-483.

陈群林, 袁晓琳, 贾磊, 肖少北, 张庆林, 2013. 引入中立方参照: 对禀赋效应的再探讨. 心理学报(45), 345-352.

陈群林, 罗俊龙, 蒋军, 位东涛, 张庆林. 无意识加工对创造性问题解决的促进效应. 心理发展与教育(6), 11-17.

 

专利

基于语义分析的心理测评系统及方法、信息数据处理终端与流程,国家发明专利,申请日期: 2018.9.6.

 

学术会议

A Personality Network Analysis of Scientific and Artistic Creativity. 6th Annual Meeting of the Society for the Neuroscience of Creativity, 2020 October, Virtual meeting, Poster presentation.

Dynamic balance between default and control networks predicts individual creative thinking ability: Findings from the Creative Connectome and Reproducibility Project. 6th Annual Meeting of the Society for the Neuroscience of Creativity, 2020 October, Virtual meeting, Oral presentation

Brain hemispheric involvement in creative thinking depends on task modality, 创造力研究高峰论坛暨第五届创造力学术研讨会. 济南, 山东, 20186, 口头报告

Individual differences in verbal creative thinking are reflected in the precuneus. Organization for Human Brain Mapping (OHBM). Hawaii, USA, 2015 June, Poster presentation

 

社会和学术服务

The Society for the Neuroscience of Creativity会员

NeuroImage, Human Brain Mapping, Current Opinion in Behavioral Sciences, Frontiers in Psychology, Frontiers in Human Neuroscience, The Journal of Creative Behavior 等期刊审稿人


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