Athena S Willis,Carly Leannah,Melody Schwenk,Joseph Palagano,Lorna C Quandt
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To explore this, we designed three PLD tasks involving viewing randomly moving dots, identifying a person from biological motion PLDs, and determining whether right-side up and inverted PLDs depict actions involving a ball. A diverse cohort of participants (N = 224) with varying ASL fluencies and hearing statuses completed the tasks online, providing us with reaction time and accuracy data. Our results demonstrate that earlier ASL exposure is associated with accuracy, especially on complex action identification tasks. Furthermore, we discovered robust evidence for a speed-accuracy trade-off in deaf participants, in which they performed more quickly but less accurately. The speed-accuracy trade-off was evident in the most difficult task, the action identification task. Further analysis of this deaf group revealed that earlier signed language acquisition led to higher accuracy in action identification task. We conclude that age of ASL exposure and hearing status both significantly contribute to variations in biological motion perception, with implications for understanding visual expertise and cognitive processing in both deaf and signing populations. (PsycInfo Database Record (c) 2024 APA, all rights reserved).","PeriodicalId":15698,"journal":{"name":"Journal of Experimental Psychology: General","volume":"10 1","pages":"2378-2393"},"PeriodicalIF":3.7000,"publicationDate":"2024-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Differences in biological motion perception associated with hearing status and age of signed language exposure.\",\"authors\":\"Athena S Willis,Carly Leannah,Melody Schwenk,Joseph Palagano,Lorna C Quandt\",\"doi\":\"10.1037/xge0001635\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"This study investigates how American Sign Language (ASL) fluency and hearing status influence the perception of biological motion, using three point-light display (PLD) tasks. 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引用次数: 0
摘要
本研究通过三项点光显示(PLD)任务,探讨了美国手语(ASL)流利程度和听力状况如何影响对生物运动的感知。先前的研究表明,聋人手语者早期接触手语后,对生物运动的识别比听力正常的非手语者更迅速、更轻松,这可能是由于他们具有破译复杂人体运动的专业知识,也可能是由于聋人大脑的神经可塑性。然而,目前还不能确定这种优势是源于手语能力还是耳聋的经历。为了探究这个问题,我们设计了三项 PLD 任务,包括观看随机移动的点、从生物运动 PLDs 中识别一个人,以及确定右侧向上和倒置的 PLDs 是否描述了涉及球的动作。不同 ASL 流利程度和听力状况的参与者(N = 224)在线完成了这些任务,为我们提供了反应时间和准确性数据。我们的研究结果表明,较早接触 ASL 与准确性有关,尤其是在复杂的动作识别任务中。此外,我们还发现了聋人参与者在速度和准确性之间进行权衡的有力证据,即他们的反应速度更快,但准确性却更低。在最难的任务--动作识别任务中,速度与准确性的权衡非常明显。对该聋人群体的进一步分析表明,较早学习手语可提高动作识别任务的准确性。我们的结论是,接触 ASL 的年龄和听力状况都会对生物运动感知的变化产生重要影响,这对理解聋人和手语人群的视觉专长和认知处理都有意义。(PsycInfo Database Record (c) 2024 APA, 版权所有)。
Differences in biological motion perception associated with hearing status and age of signed language exposure.
This study investigates how American Sign Language (ASL) fluency and hearing status influence the perception of biological motion, using three point-light display (PLD) tasks. Prior research indicates that early exposure to ASL among deaf signers results in more rapid and effortless recognition of biological motion than hearing nonsigners, potentially due to the expertise in deciphering complex human movements or possibly due to neuroplasticity in deaf brains. However, it remains uncertain whether this advantage stems from signed language proficiency or the experience of being deaf. To explore this, we designed three PLD tasks involving viewing randomly moving dots, identifying a person from biological motion PLDs, and determining whether right-side up and inverted PLDs depict actions involving a ball. A diverse cohort of participants (N = 224) with varying ASL fluencies and hearing statuses completed the tasks online, providing us with reaction time and accuracy data. Our results demonstrate that earlier ASL exposure is associated with accuracy, especially on complex action identification tasks. Furthermore, we discovered robust evidence for a speed-accuracy trade-off in deaf participants, in which they performed more quickly but less accurately. The speed-accuracy trade-off was evident in the most difficult task, the action identification task. Further analysis of this deaf group revealed that earlier signed language acquisition led to higher accuracy in action identification task. We conclude that age of ASL exposure and hearing status both significantly contribute to variations in biological motion perception, with implications for understanding visual expertise and cognitive processing in both deaf and signing populations. (PsycInfo Database Record (c) 2024 APA, all rights reserved).
期刊介绍:
The Journal of Experimental Psychology: General publishes articles describing empirical work that bridges the traditional interests of two or more communities of psychology. The work may touch on issues dealt with in JEP: Learning, Memory, and Cognition, JEP: Human Perception and Performance, JEP: Animal Behavior Processes, or JEP: Applied, but may also concern issues in other subdisciplines of psychology, including social processes, developmental processes, psychopathology, neuroscience, or computational modeling. Articles in JEP: General may be longer than the usual journal publication if necessary, but shorter articles that bridge subdisciplines will also be considered.