顶尖学者介绍|注意力专业知识领域Top6-10的大牛们都有谁?速看!-第二期

学术   2024-04-14 21:32   广东  


Hello,大家好!

这里是壹脑云科研圈,我是喵君姐姐~


注意力(Attention)是主动处理环境中特定信息的能力,也是灵活控制有限计算资源的重要能力。它已与神经科学和心理学中的许多其他主题一起研究,包括意识、警惕性、显著性、执行控制和学习。它最近也被应用于机器学习的多个领域。注意力当然远不是一个清晰或统一的概念。


然而,尽管有许多模糊的、有时甚至是相互矛盾的定义,但有一种核心的注意力质量显然对大脑中的信息处理以及越来越多的人工系统非常重要。意识到注意力在大脑中扮演着许多角色,因此将其添加到人工神经网络中也就不足为奇了。


人工神经网络是由单个单元组成的并行处理系统,旨在模拟神经元的基本输入输出功能。这些模型目前在机器学习和人工智能 (AI) 文献中占据主导地位。最初在不加注意的情况下构建,现在已经添加了用于动态重新配置这些网络的表示或结构的各种机制。


上一次我们介绍了脑电图专业知识领域论文引用量前五位的专家教授,今天给大家带来的就是脑电图专业知识领域中全球顶级大牛们(top 6-10)。

想了解我们介绍的领域,欢迎点击下方链接:
信息来源:http://expertscape.com


学者筛选标准:被引用数量top6-10


在下文叙述过程中,将按照以下结构分享:

1.学者简介

2.高质量论文分享

大家快来一起看看吧~


01

Glyn W Humphreys

 


  • 邮箱:-

  • 网址:

  • https://www.neuroscience.ox.ac.uk/research-directory/glyn-humphreys

  • 研究兴趣: 注意、视觉搜索、工作记忆、神经心理学、FMRI


影响力(图片来源:https://expertscape.com)


  • 简介
Glyn W Humphreys是牛津大学实验心理学教授。研究兴趣包括:脑损伤后认知问题的诊断和处理、视觉关注、感知、语言和动作控制、社会认知。他在国际期刊上发表了500多篇论文和16本书。

他曾被授予斯佩尔曼奖章、认知心理学奖(两次)、英国心理学学会会长奖、欧洲认知心理学学会唐纳德宽带奖、洪堡奖学金。他也是心理科学协会、皇家医学学会、社会科学院和英国科学院的研究员。

他的研究涵盖了广泛的神经心理疾病,包括失认症、失用症、动作紊乱综合症、失语症和健忘症,并包括开发新的临床筛查仪器,以检测脑损伤后的认知问题。他的科学兴趣主要在于认知心理学、认知、感知、沟通和人工智能。


  • 最新研究

1. 对象识别中的整体形状表示:处理的前注意阶段?

Hollis, J., Humphreys, G. W., & Allen, P. M. (2021). Intermediate, Wholistic Shape Representation in Object Recognition: A Pre-Attentive Stage of Processing?.Frontiers in human neuroscience, 15, 761174. https://doi.org/10.3389/fnhum.2021.761174

2.基于手握的动作信息调节注意力选择:企业资源规划研究

Kumar, S., Riddoch, M. J., & Humphreys, G. W. (2021). Handgrip Based Action Information Modulates Attentional Selection: An ERP Study.Frontiers in human neuroscience, 15, 634359. https://doi.org/10.3389/fnhum.2021.634359

3. 注意力显著性和内在偏见:从社会到大脑

Moradi, Z., Najlerahim, A., Macrae, C. N., & Humphreys, G. W. (2020). Attentional saliency and ingroup biases: From society to the brain.Social neuroscience,15(3),324–333.

https://doi.org/10.1080/17470919.2020.1716070

4.基于事件的前瞻性记忆中的多感官处理

Barutchu, A., Sahu, A., Humphreys, G. W., & Spence, C. (2019). Multisensory processing in event-based prospective memory.Acta psychologica, 192, 23–30. https://doi.org/10.1016/j.actpsy.2018.10.015

5.群体偏见和动眼反应:超越简单方法动机

Moradi, Z. Z., Manohar, S., Duta, M., Enock, F., & Humphreys, G. W. (2018). In-group biases and oculomotor responses: beyond simple approach motivation.Experimental brain research, 236(5), 1347–1355. https://doi.org/10.1007/s00221-018-5221-7

6.感性匹配中的自我和团队优先级效应:共享表现的证据

Enock, F., Sui, J., Hewstone, M., & Humphreys, G. W. (2018). Self and team prioritisation effects in perceptual matching: Evidence for a shared representation.Acta psychologica, 182, 107–118.

https://doi.org/10.1016/j.actpsy.2017.11.011

7.处理连续性工作中的感知参数

Shalev, N., Humphreys, G., & Demeyere, N. (2018). Manipulating perceptual parameters in a continuous performance task.Behavior research methods, 50(1), 380–391. https://doi.org/10.3758/s13428-017-0877-7

8.俄罗斯伯明翰认知屏初步验证研究

Kuzmina, E., Humphreys, G. W., Riddoch, M. J., Skvortsov, A. A., & Weekes, B. S. (2018). Preliminary validation study of the Russian Birmingham Cognitive Screen.Journal of clinical and experimental neuropsychology, 40(1), 1–16.

https://doi.org/10.1080/13803395.2017.1301884

9. 无所不在的自我:自我偏见的属性告诉我们自我的什么

Sui, J., & Humphreys, G. W. (2017). The ubiquitous self: what the properties of self-bias tell us about the self.Annals of the New York Academy of Sciences, 1396(1), 222–235. https://doi.org/10.1111/nyas.13197

10.自我生存消失:视觉消失患者的自我联想偏差关注

Sui, J., & Humphreys, G. W. (2017). The self survives extinction: Self-association biases attention in patients with visual extinction.Cortex; a journal devoted to the study of the nervous system and behavior, 95, 248–256. https://doi.org/10.1016/j.cortex.2017.08.006


02

Sabine Kastner



  • 邮箱:skastner@princetor.edu

  • 网址:

    https://psych.princeton.edu/people/sabine-kastner

  • 研究兴趣:视觉皮层、注意力、FMRI、脑电图、磁共振成像技术

 

影响力(图片来源:https://expertscape.com)


  • 简介

Sabine Kastner是普林斯顿大学神经科学研究所和普林斯顿大学心理学系神经科学和心理学教授。Kastner使用电生理学和神经成像方法研究健康成年灵长类动物大脑以及脑损伤患者和发育过程中视觉感知、注意力和意识的神经基础。

她为认知神经科学的广泛主题做出了贡献,包括人类视觉系统的地形组织、丘脑在感知和认知中的功能、视觉注意力和物体感知的神经基础以及人类顶叶皮层的功能组织。Kastner目前正在进行电生理学研究,直接比较人类和非人类灵长类动物认知大规模网络中区域间通信的机制。


  • 最新研究

1. 在视觉注意力的前顶叶计算模型中,相互作用的节律提高了目标检测的敏感性

Aussel, A., Fiebelkorn, I. C., Kastner, S., Kopell, N. J., & Pittman-Polletta, B. R. (2023). Interacting rhythms enhance sensitivity of target detection in a fronto-parietal computational model of visual attention.eLife, 12, e67684. https://doi.org/10.7554/eLife.67684

2.灵长类大脑的注意力控制

Boshra, R., & Kastner, S. (2022). Attention control in the primate brain.Current opinion in neurobiology, 76, 102605.

https://doi.org/10.1016/j.conb.2022.102605

3.视觉和听觉物体的注意力抽样是由a-调制神经活动捕捉的

Plöchl, M., Fiebelkorn, I., Kastner, S., & Obleser, J. (2022). Attentional sampling of visual and auditory objects is captured by theta-modulated neural activity.The European journal of neuroscience, 55(11-12), 3067–3082. https://doi.org/10.1111/ejn.15514

  1. 4.视觉空间注意和算术加工过程中顶叶皮层神经元群体重叠反应的研究

Liu, N., Pinheiro-Chagas, P., Sava-Segal, C., Kastner, S., Chen, Q., & Parvizi, J. (2021). Overlapping Neuronal Population Responses in the Human Parietal Cortex during Visuospatial Attention and Arithmetic Processing.Journal of cognitive neuroscience, 33(12), 2548–2558. https://doi.org/10.1162/jocn_a_01775

5.发育中偏颇竞争的神经基础:学龄儿童视觉皮层的感觉竞争

Kim, N. Y., Pinsk, M. A., & Kastner, S. (2021). Neural Basis of Biased Competition in Development: Sensory Competition in Visual Cortex of School-Aged Children.Cerebral cortex (New York, N.Y. : 1991), 31(6), 3107–3121. https://doi.org/10.1093/cercor/bhab009

6.注意网络中的斯派克定时预测目标选择之前的行为结果

Fiebelkorn, I. C., & Kastner, S. (2021). Spike Timing in the Attention Network Predicts Behavioral Outcome Prior to Target Selection.Neuron, 109(1), 177–188.e4.

https://doi.org/10.1016/j.neuron.2020.09.039

7.学龄儿童空间偏见的发展

Hoyos, P. M., Kim, N. Y., Cheng, D., Finkelston, A., & Kastner, S. (2021). Development of spatial biases in school-aged children.Developmental science, 24(3), e13053. https://doi.org/10.1111/desc.13053

8.关注网络中的功能专业化

Fiebelkorn, I. C., & Kastner, S. (2020). Functional Specialization in the Attention Network.Annual review of psychology, 71, 221–249. https://doi.org/10.1146/annurev-psych-010418-103429

9.双侧中颞叶损伤后腹侧视皮层的功能

Kim, J. G., Gregory, E., Landau, B., McCloskey, M., Turk-Browne, N. B., & Kastner, S. (2020). Functions of ventral visual cortex after bilateral medial temporal lobe damage.Progress in neurobiology, 191, 101819. https://doi.org/10.1016/j.pneurobio.2020.101819

10.视觉空间注意力发展认知神经科学的偏颇竞争理论

Kim, N. Y., & Kastner, S. (2019). A biased competition theory for the developmental cognitive neuroscience of visuo-spatial attention.Current opinion in psychology, 29, 219–228.

https://doi.org/10.1016/j.copsyc.2019.03.017


03

Martin Eimer


   


  • 邮箱:m.eimer@bbk.ac.uk

  • 网址: https://brainb.psyc.bbk.ac.uk/

  • 研究兴趣:选择性注意、注意力、视觉注意力和视觉搜索的认知和神经机制、面部感知和面部识别、控制视觉和触觉中的注意力和工作记忆。

 

影响力(图片来源:https://expertscape.com)


  • 简介

Martin Eimer是伦敦大学心理科学系教授,他被选为英国科学院院士(BA),以表彰他对研究的杰出贡献。他领导心理科学系的大脑和行为实验室,他和他的团队研究视觉注意力和工作记忆的认知和神经机制,并研究面部感知和识别以及他们在面孔识别障碍中的缺陷。


  • 最新研究

1. 选择性注意的时间动态反映为干扰器侵入

Zivony, A., & Eimer, M. (2023). The temporal dynamics of selective attention are reflected by distractor intrusions.Scientific reports, 13(1), 408. https://doi.org/10.1038/s41598-022-26902-8

2.注意力选择性的历时描述

Zivony, A., & Eimer, M. (2022). The diachronic account of attentional selectivity.Psychonomic bulletin & review, 29(4), 1118–1142. https://doi.org/10.3758/s13423-021-02023-7

3.分类模板调节选择性注意

Zivony, A., & Eimer, M. (2022). Categorization templates modulate selective attention.Journal of experimental psychology. Human perception and performance, 48(11), 1294–1312.
 https://doi.org/10.1037/xhp0001058

4.基于预期的盲目性:关于目标类别的预测,重点观察对象的门感知

Zivony, A., & Eimer, M. (2022). Expectation-based blindness: Predictions about object categories gate awareness of focally attended objects. Psychonomic Bulletin & Review, 29, 1879 - 1889.
https://api.semanticscholar.org/CorpusID:248859099

5.预期目标的数量调节了对工作记忆的访问:一个新的拉格-1保护和干扰器入侵的统一帐户

Zivony, A., & Eimer, M. (2021). The number of expected targets modulates access to working memory: A new unified account of lag-1 sparing and distractor intrusions.Journal of experimental psychology. Human perception and performance, 47 11, 1543-1560
.https://api.semanticscholar.org/CorpusID:244730960

6.功能与单例搜索期间的预备模板激活

Grubert, A., Williams, E., & Eimer, M. (2022). Preparatory template activation during feature versus singleton search.Journal of Vision.
https://api.semanticscholar.org/CorpusID:254778188

7.特质焦虑在注意力和记忆相关偏见对威胁的作用:与事件相关的潜在研究

Berggren, N., & Eimer, M. (2021). The role of trait anxiety in attention and memory-related biases to threat: An event-related potential study.Psychophysiology, 58(3), e13742.
https://doi.org/10.1111/psyp.13742

8.视觉搜索过程中拒绝模板的注意指导

Berggren, N., & Eimer, M. (2021). The guidance of attention by templates for rejection during visual search.Attention, perception & psychophysics, 83(1), 38–57. 
https://doi.org/10.3758/s13414-020-02191-z

9.干扰器侵入是延迟注意力接触的结果:动态视觉任务中注意力选择性的一个新的时间可变性解释

Zivony, A., & Eimer, M. (2021). Distractor intrusions are the result of delayed attentional engagement: A new temporal variability account of attentional selectivity in dynamic visual tasks.Journal of experimental psychology. General, 150(1), 23–41. https://doi.org/10.1037/xge0000789

10.在搜寻交替目标时启动预备模板

Grubert, A., & Eimer, M. (2020). Preparatory Template Activation during Search for Alternating Targets.Journal of cognitive neuroscience, 32(8), 1525–1535. https://doi.org/10.1162/jocn_a_01565


04

Hermann Joseph Müller



  • 邮箱:hmueller@psy.lmu.de

  • 网址:https://prof.emeritusDr,Hermann Muller

  • 研究兴趣:认知神经科学、大脑、神经成像、神经科学、学问、记忆力、神经网络和人工智能、行政职能、认知神经心理学

 

影响力(图片来源:https://expertscape.com)


  • 简介


Hermann Joseph Müller是德国慕尼黑大学实验心理学系一般心理学和实验心理学教授。他是德国路德维希-马克西姆大学普通和实验心理学的教授(主席)。他的研究兴趣包括视觉注意力和感知、视觉搜索、目标识别、视觉短期/工作记忆、执行功能、目标导向动作、视觉意识和意识、注意力不足的神经心理学(诊断)和认知人体工程学。


  • 最新研究

1. 视觉搜索中动态空间规则的不对称学习:为可预测目标位置提供强有力的便利,对干扰器位置的弱抑制

Yu, H., Allenmark, F., Müller, H. J., & Shi, Z. (2023). Asymmetric learning of dynamic spatial regularities in visual search: Robust facilitation of predictable target locations, fragile suppression of distractor locations.Journal of experimental psychology. Human perception and performance, 49(5), 709–724. https://doi.org/10.1037/xhp0001120

2.在视觉触觉搜索中,内部和交叉模态冗余的层次增加:来自对侧后消极性的证据

Nasemann, J., Töllner, T., Müller, H. J., & Shi, Z. (2023). Hierarchy of Intra- and Cross-modal Redundancy Gains in Visuo-tactile Search: Evidence from the Posterior Contralateral Negativity.Journal of cognitive neuroscience, 35(4), 543–570. https://doi.org/10.1162/jocn_a_01971

3.学习抑制视觉搜索中可能的干扰物位置是由局部干扰物频率驱动的。

Allenmark, F., Zhang, B., Shi, Z., & Müller, H. J. (2022). Learning to suppress likely distractor locations in visual search is driven by the local distractor frequency.Journal of experimental psychology. Human perception and performance, 48(11), 1250–1278.

https://doi.org/10.1037/xhp0001054

  1. 4.多感官(非单感官)表征有助于触觉搜索中的统计情景学习

Chen, S., Geyer, T., Zinchenko, A., Müller, H.J., & Shi, Z. (2022). Multisensory Rather than Unisensory Representations Contribute to Statistical Context Learning in Tactile Search.Journal of Cognitive Neuroscience, 34, 1702-1717.https://api.semanticscholar.org/CorpusID:249677008

5. 交叉模式上下文记忆引导视觉搜索任务中的选择性注意

Chen, S., Shi, Z., Zinchenko, A., Müller, H. J., & Geyer, T. (2022). Cross-modal contextual memory guides selective attention in visual-search tasks.Psychophysiology, 59(7), e14025. https://doi.org/10.1111/psyp.14025

6.针对注意力不集中的准备控制不是基于功能的

Liesefeld, H. R., Liesefeld, A. M., & Müller, H. J. (2022). Preparatory Control Against Distraction Is Not Feature-Based.Cerebral cortex (New York, N.Y. : 1991), 32(11), 2398–2411. https://doi.org/10.1093/cercor/bhab341

7.人类多任务处理的最新研究进展:一篇社论

Johannsen L, Müller H, Kiesel A, Koch I. The State-of-the-art of Research into Human Multitasking: An Editorial. J Cogn. 2021 Sep 9;4(1):54. doi: 10.5334/joc.185. PMID: 34568746; PMCID: PMC8428299.

8.脑电图证据表明中等强度运动期间注意力表现增强

Dodwell, G., Liesefeld, H. R., Conci, M., Müller, H. J., & Töllner, T. (2021). EEG evidence for enhanced attentional performance during moderate-intensity exercise.Psychophysiology, 58(12), e13923. https://doi.org/10.1111/psyp.13923

9.视觉处理速度与右额顶叶和视觉网络之间的功能连接有关

Küchenhoff, S., Sorg, C., Schneider, S. C., Kohl, O., Müller, H. J., Napiórkowski, N., Menegaux, A., Finke, K., & Ruiz-Rizzo, A. L. (2021). Visual processing speed is linked to functional connectivity between right frontoparietal and visual networks.The European journal of neuroscience, 53(10), 3362–3377. https://doi.org/10.1111/ejn.15206

10.为什么被获得的搜索引导上下文记忆会难以更新?

Geyer, T., Seitz, W., Zinchenko, A., Müller, H. J., & Conci, M. (2021). Why Are Acquired Search-Guiding Context Memories Resistant to Updating?.Frontiers in psychology, 12, 650245. https://doi.org/10.3389/fpsyg.2021.650245


05

Steven J Luck



  • 邮箱:sjluck@ucdavis.edu

  • 网址:  https://lucklab.ucdavis.edu/

  • 研究兴趣:精神分裂症、注意力、工作记忆、选择性注意、视觉搜索

 

影响力(图片来源:https://expertscape.com)


  • 简介

Steven J Luck自2006年从爱荷华大学到加州大学戴维斯分校担任心理学教授、是头脑和大脑中心(CMB)的核心教员。他研究感知、认知和认知神经科学。他是认知科学专业的创始人之一,并在该专业的计划委员会任职。他的实验室研究了健康人的注意力和工作记忆的基本机制,以及精神分裂症患者和其他精神疾病患者的认知功能障碍。这项研究结合了行为/心理物理学方法、眼睛追踪和事件相关电位记录。

  • 最新研究

1. 论身体显著性在视觉搜寻中的作用:显著性对婴儿注意力的分级影响

DeBolt, M. C., Mitsven, S. G., Pomaranski, K. I., Cantrell, L. M., Luck, S. J., & Oakes, L. M. (2023). A new perspective on the role of physical salience in visual search: Graded effect of salience on infants' attention. Developmental psychology, 59(2), 326–343. https://doi.org/10.1037/dev0001460

2. 研究干扰器抑制的十个简单规则

Wöstmann, M., Störmer, V. S., Obleser, J., Addleman, D. A., Andersen, S. K., Gaspelin, N., Geng, J. J., Luck, S. J., Noonan, M. P., Slagter, H. A., & Theeuwes, J. (2022). Ten simple rules to study distractor suppression. Progress in neurobiology, 213, 102269. https://doi.org/10.1016/j.pneurobio.2022.102269

3. 作为持续关注条件性威胁刺激的神经标记之一的阿尔法脑电抑制

Bacigalupo, F., & Luck, S. J. (2022). Alpha-band EEG suppression as a neural marker of sustained attentional engagement to conditioned threat stimuli. Social cognitive and affective neuroscience, 17(12), 1101–1117. https://doi.org/10.1093/scan/nsac029

4. 大脑自然场景物理显著性和语义信息性空间分布快速提取

Kiat, J. E., Hayes, T. R., Henderson, J. M., & Luck, S. J. (2022). Rapid Extraction of the Spatial Distribution of Physical Saliency and Semantic Informativeness from Natural Scenes in the Human Brain. The Journal of neuroscience : the official journal of the Society for Neuroscience, 42(1), 97–108. https://doi.org/10.1523/JNEUROSCI.0602-21.2021

5. 不良过滤和过度聚焦:精神分裂症患者不同选择性注意力异常的神经证据

Hahn, B., Robinson, B. M., Kiat, J. E., Geng, J., Bansal, S., Luck, S. J., & Gold, J. M. (2022). Impaired Filtering and Hyperfocusing: Neural Evidence for Distinct Selective Attention Abnormalities in People with Schizophrenia. Cerebral cortex (New York, N.Y. : 1991), 32(9), 1950–1964. https://doi.org/10.1093/cercor/bhab327

6. 利用代表相似性分析将婴儿眼动模式与腹侧流神经网络模型联系起来

Kiat, J. E., Luck, S. J., Beckner, A. G., Hayes, T. R., Pomaranski, K. I., Henderson, J. M., & Oakes, L. M. (2022). Linking patterns of infant eye movements to a neural network model of the ventral stream using representational similarity analysis. Developmental science, 25(1), e13155. https://doi.org/10.1111/desc.13155

7. 进展和剩余问题:对《公约》评注的答复

Gaspelin, N., & Luck, S. J. (2021). Progress and Remaining Issues: A Response to the Commentaries on. Visual cognition, 29(9), 650–656. https://doi.org/10.1080/13506285.2021.1979705

8. 以事件相关电位为指标的22Q11.2缺失综合征青少年视觉信息的非典型注意力过滤

Linton, S. R., Popa, A. M., Luck, S. J., Bolden, K., Angkustsiri, K., Carter, C. S., Niendam, T. A., & Simon, T. J. (2021). Atypical attentional filtering of visual information in youth with chromosome 22q11.2 deletion syndrome as indexed by event-related potentials. NeuroImage. Clinical, 32, 102877. https://doi.org/10.1016/j.nicl.2021.102877

9. 解决注意力捕捉辩论的进展

Luck, S. J., Gaspelin, N., Folk, C. L., Remington, R. W., & Theeuwes, J. (2021). Progress Toward Resolving the Attentional Capture Debate. Visual cognition, 29(1), 1–21. https://doi.org/10.1080/13506285.2020.1848949

10. 精神分裂症患者的抗抑郁症缺陷可由刺激物的注意力相关性所驱动

Bansal, S., Gaspar, J. M., Robinson, B. M., Leonard, C. J., Hahn, B., Luck, S. J., & Gold, J. M. (2021). Antisaccade Deficits in Schizophrenia Can Be Driven by Attentional Relevance of the Stimuli. Schizophrenia bulletin, 47(2), 363–372. https://doi.org/10.1093/schbul/sbaa106




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