钱洁慧

钱洁慧

中山大学心理学系 教授

办公电话:020-39335297

E-mail:qianjh3@mail.sysu.edu.cn

研究方向:认知心理学、认知神经科学

个人信息

钱洁慧,中山大学心理学系,教授,博士生导师,心理学博士。
 Email: qianjh3@mail.sysu.edu.cn
办公电话:020-39335297
本课题组长期招收副研究员/博士后/博士生和硕士生,欢迎有意者联系咨询。
欢迎对课题组研究方向感兴趣的本科生加入组会参与科研项目。

研究领域

致力于认知心理学和视觉科学研究,主要研究方向是视觉认知,利用行为学(心理物理)、脑电(EEG/ERP等)、计算建模和VR虚拟现实等方法探讨注意与意识、空间知觉、整体知觉、工作记忆等。目前实验室主要关注三维视空间工作记忆、深度知觉及相关视觉现象,探索深度信息对视空间工作记忆的影响、二维视觉信息与三维深度信息在视觉系统中的存储和内在机制,以及视知觉理论在临床(帕金森、阿尔兹海默症等)和虚拟现实场景中的应用等问题。

教育背景

• 2009年-2013年:美国东北大学(Northeastern University) 心理学学院 心理学博士

• 2005年-2009年:华南理工大学 生物科学与工程学院 生物医学工程专业 工学学士

职业经历

• 2025年-至今 中山大学心理学系    教授

• 2018年-至今 中山大学心理学系    副教授

• 2013年-2017年 中山大学心理学系    讲师

科研项目

国家自然科学基金(面上项目,2023-26):“深度信息在工作记忆中的存储和功能特异性:行为、建模与神经机制研究”。项目号:32271100。主持。
广东省基础与应用基础研究基金自然科学基金(面上项目,2021 - 23)“基于回溯性线索探究深度信息在工作记忆中的内在表征:注意选择机制及 其神经基础”。项目号:2021A1515010840。主持。
国家自然科学基金(青年项目,2016-18)“视知觉恒常性的研究:神经机制与计算建模”。项目号:31500919。主持
高校基本科研业务费中山大学青年教师重点培育项目 (2020-2021): 基于回溯性线索探究深度工作记忆中的内在表征:注意选择机制及神经基础。项目号:20wkzd12。主持
教育部人文社会科学基金(青年项目,2019-2021)“视觉工作记忆基于客体特征的选择性保持机制及神经基础”。参与
国家自然科学基金(青年项目,2017-19)“儿童的背景学习:发展轨迹、认知神经机制以及影响因素”。项目号:31600898。参与
国家自然科学基金(2016-18)“结合动、静态视觉信息改善低视力及双眼弱视患者视知觉的研究”。项目号:31571116。参与
国家自然科学基金(2015-18)“老龄化对大脑可塑性的影响:健康老年人和青年人视皮层早期加工机制的比较研究”。项目号:31471070。参与
国家自然科学基金(青年项目,2015-17)“空间表征发展中的感知觉动作整合机制”。项目号:31400865。参与
国家自然科学基金(2015-18)“三维空间中视觉运动与听觉、触觉特征的跨通道一致性”。项目号:31470978。参与
高校基本科研业务费中山大学青年教师培育项目 (2014-16): 物体知觉恒常性的神经计算模型。项目号:14wkpy20。主持
高校基本科研业务费中山大学青年教师培育项目 (2014-16): 注意与情绪对模拟驾驶环境中空间兼容效应的影响。项目号:14wkpy21。参与
Department of Defense, TATRC, Vision Research Program (2010-12): Oculomotor reflexes as a test of visual dysfunctions in cognitively impaired observers (W81XWH-09-TATRC-VRP,

代表性论文

按发表时间倒序排列;*为通讯作者 ※为学生

  • Wang, K.※, Lin, W.※, Wang, X.※, & Qian, J.* (2025). Separate storage mechanisms of absolute depth and relative depth in working memory: Encoding, maintenance, consolidation and attention engagements. Journal of Experimental Psychology: Learning Memory and Cognition. Advance online publication. https://dx.doi.org/ 10.1037/xlm0001444 
  • Qian, J.*, Zheng, T.※, & Li, B.※ (2024). Ordinal Information, but Not Metric Information, Matters in Binding Feature With Depth Location in Three-Dimensional Contexts. Journal of Experimental Psychology: Human Perception and Performance, 50(11), 1083-1099. https://dx.doi.org/10.1037/xhp0001228 
  • Li, B., Wang, X., Zhang, K. & Qian, J.* (2024). Effect of attention on ensemble perception: Comparison between exogenous attention, endogenous attention, and depth. Attention, Perception, & Psychophysics, 86, 2604–2623. 
  • Lin, W.※, & Qian, J.* (2024). Priming effect of individual similarity and ensemble perception in visual search and working memory. Psychological Research, 88, 719–734.
  • Qian, J.*, Fu, B.※, Gao, Z.※ & Tan. B.※ (2024). The influence of depth on object selection and manipulation in visual working memory within a 3D context. Psychonomic Bulletin & Review, 31, 2293–2304. 
  • Wang, W.※, Yan, X.※, He, X.※, and Qian, J.*. (2024). Evidence for the Beneficial Effect of Reward on Working Memory: A Meta-Analytic Study. Journal of Intelligence,12, 88. 
  • Zhang, K.※ and Qian, J.* (2023). Top‐down modulation on depth processing: Visual searches for metric and ordinal depth information show a pattern of dissociation. Psychonomic Bulletin & Review, 30, 1380–1387. 
  • Guan, W.※, Li, B.※, & Qian, J.* (2023). Time course of encoding and maintenance of stereoscopically induced size–distance scaling. Visual Cognition, DOI: 10.1080/13506285.2023.2174232.
  • Fang, W.※, Wang, K.※, Zhang, K.※, and Qian, J.* (2023). Spatial attention based on 2-D location and relative depth order modulates visual working memory in a 3-D environment. British Journal of Psychology, 114, 112-131.
  • Zhang, K.※ and Qian, J.* (2022). The role of ensemble average differs in working memory for depth and planar information. Journal of Vision, 22(6):4, 1–16, https://doi.org/10.1167/jov.22.6.4.
  • Han, Y.※, Tan, Z.※, Zhuang H.※ & Qian, J.* (2022). Contrasting effects of exogenous and endogenous attention on size perception. British Journal of Psychology, 113, 153-175.
  • Wang, K.※, Jiang, Z.※, Huang, S.※ & Qian, J.* (2021). Increasing perceptual separateness affects working memory for depth – re-allocation of attention from boundaries to the fixated center. Journal of Vision, 21(7):8, 1–14.
  • Li, Z.※, Tong, M.※, Chen, S.※ & Qian, J.* (2021). Effect of attentional selection on working memory for depth in a retro-cueing paradigm. Memory & Cognition, 49, 747-757.
  • Zhang, K.※, Gao, DG. & Qian, J. * (2021). Overestimation and contraction biases of depth information stored in working memory depend on spatial configuration. British Journal of Psychology, 112, 230-246.
  • Reeves, A. & Qian, J.  (2021). The short-term retention of depth. Vision, 5, 59. https://doi.org/10.3390/ vision5040059.
  • Xiao, Y., Lin, Y., Ma, J., Qian, J., Ke, Z., Li, L., Yi, Y., Zhang, J. & Dai, Z.* (2021). Predicting visual working memory with multimodal magnetic resonance imaging. Human Brain Mapping, 42, 1446– 1462.
  • Wang, K.※ & Qian, J.* (2020). Training with high perceptual difficulty improves the capacity and fidelity of internal representation in VWM. Psychological Research, 85, 2408–2419.
  • Qian, J. *, Li. Z.※, Zhang, K.※ & Lei, Q. (2020). Relation matters: relative depth order is stored in working memory for depth. Psychonomic Bulletin & Review, 27(2), 341-349.
  • Guan, W.※ & Qian, J. * (2020). Exogenous spatial attention shortens perceived depth. Psychonomic Bulletin & Review, 27, 716 - 723.
  • Qian, J.*, Zhang, K.※, Lei, Q*, Han, Y.※ & Li, W.※ (2020). Task-dependent effects of voluntary space-based and involuntary feature-based attention on visual working memory. Psychological Research, 84, 1304-1319.
  • Qian, J. *, & Zhang, K.※ (2019). Working memory for stereoscopic depth is limited
and imprecise—evidence from a change detection task. Psychonomic Bulletin & Review, 26(5), 1657-1665.
  • Qian, J. *, Zhang, K.※, Liu. S.※, & Lei, Q. (2019). The transition from feature to object: storage unit in visual working memory depends on task difficulty. Memory & Cognition, 47(8), 1498-1514.
  • Li, J.※, Qian, J. *, & Liang, F.※ (2018). Evidence for the beneficial effect of perceptual grouping on visual working memory: an empirical study on illusory contour and a meta-analytic study. Scientific Reports, 8(1), 13864.
  • Qian, J. *, Zhang, K.※, Wang, K.,※ Li, J.※ & Lei, Q. (2018). Saturation and brightness modulate the effect of depth on visual working memory. Journal of Vision, 18(9):16, 1-12.
  • Zhang, X.※, Qian, J. *, Liang, Q.※ & Huang, Z.※ (2018). Effect of color and luminance contrast on size perception -- evidence from a Horizontal parallel lines illusion. Vision, 2, 28.
  • Qian, J. *, Li, J.※,Wang, K.※, & Lei, Q. (2017). Evidence for the effect of depth on visual working memory. Scientific Reports, 7(1), 6408. 

  • Qian, J. * & Petrov, Y. (2016).A depth illusion supports the model of General Object Constancy: size and depth constancies related by a same distance-scaling factor.  Vision Research. 129, 77-86.
  • Qian, J. *, Liu, S.※ & Lei, Q. (2016). Perceived distance modulates perceived size of afterimage despite the disappearance of depth cues. Plos ONE, 11(7):e0159228.  
  • Qian, J. & Yazdanbakhsh, A.* (2015). A neural model of distance-dependent percept of object size constancy. PLoS ONE, 10(7):e0129377.
  • Qian, J.* & Petrov, Y. (2013). Depth perception in the framework of General Object Constancy. Journal of Vision, 13(11):7, 1 - 9.
  • Petrov, Y.*, Nador, & Qian, J. (2012). VEP correlates of feedback in human cortex. PLoS ONE, 7(12). e51791.
  • Qian, J.* & Petrov, Y. (2012). StarTrek Illusion - General object constancy phenomenon?. Journal of Vision, 12(2):15, 1 - 10.

教授课程

•本科生: 认知心理学(全英),认知科学导论,元分析,视觉原理与应用,心理统计实践(SPSS),心理学导论

•研究生: 研究方法I,高级心理统计,视觉在工业设计中的应用