Updated on 2024/10/30

Information

 

写真a

 
HO HSIN-NI
 
Organization
Faculty of Design Department of Media Design Associate Professor
Research and Development Center for Five-Sense Devices (Concurrent)
School of Design Department of Design(Concurrent)
Graduate School of Design Department of Design(Concurrent)
Title
Associate Professor
Profile
Ho Haptics Lab is an interdisciplinary research lab based in the School of Design, Kyushu University at Fukuoka, Japan. We aim to understand how humans perceive, understand, and make decisions about the external world and communicate with others by TOUCH, and apply the knowledge to human interface design.
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Research Areas

  • Informatics / Perceptual information processing

  • Manufacturing Technology (Mechanical Engineering, Electrical and Electronic Engineering, Chemical Engineering) / Thermal engineering

  • Humanities & Social Sciences / Experimental psychology

  • Informatics / Human interface and interaction

Degree

  • PH.D (Massachusetts Institue of Technology, USA)

Research History

  • NTTコミュニケーション科学基礎研究所   

    NTTコミュニケーション科学基礎研究所

Research Interests・Research Keywords

  • Research theme: Temperature perception

    Keyword: Temperature perception

    Research period: 2024

  • Research theme: Psychophysics

    Keyword: Psychophysics

    Research period: 2024

  • Research theme: multisensory interaction

    Keyword: multisensory interaction

    Research period: 2024

  • Research theme: Human-computer interaction

    Keyword: Human-computer interaction

    Research period: 2024

  • Research theme: Haptics

    Keyword: Haptics

    Research period: 2024

  • Research theme: Cognitive neurosicence

    Keyword: Cognitive neurosicence

    Research period: 2024

  • Research theme: Toward digital touch experience

    Keyword: Haptics, Touch, Thermal perception, Cross-modal interactions

    Research period: 2002.4 - 2025.4

Awards

  • Best Paper: Honorable Mentions

    2024.7   Eurohaptics 2024   Apparent Thermal Motion on the Forearm

    Tim Moesgen, Hsin-Ni Ho, Yu Xiao

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  • Best Associate Editors Award

    2023.7   World Haptics 2023  

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  • Best Associate Editors Award

    2023.7   World Haptics 2023   Best Associate Editors Award

  • 所長表彰研究開発賞

    2015.4   NTTコミュニケーション科学基礎研究所   Director's Commendation for Research and Development

  • 所長表彰研究開発賞

    2015.4   NTTコミュニケーション科学基礎研究所   For the research on the effect of color information on object temperature perception.

  • Proclamation of Technical Excellence

    2007.11   International Conference InfraMation 2007  

  • Outstanding Engineering Graduate Student Award

    2001.11   CTCI Foundation  

  • Outstanding Students Conference Travel Grant

    2000.9   Foundation for the Advancement of Outstanding Scholarship  

  • Outstanding Engineering Student Award

    2000.6   Chinese Institute of Engineers  

  • Second prize of 9th National Taiwan University Engineering Technology Contest

    2000.3   National Taiwan University  

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Papers

  • Perceiving Synchrony: Determining Thermal-tactile Simultaneity Windows Reviewed

    Takuya Jodai, Lynette A. Jones, Masahiko Terao, Hsin-Ni Ho

    IEEE Transactions on Haptics   1 - 10   2024.9   ISSN:1939-1412 eISSN:2329-4051

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    Authorship:Last author, Corresponding author   Language:English   Publishing type:Research paper (scientific journal)   Publisher:Institute of Electrical and Electronics Engineers (IEEE)  

    In cutaneous displays in which both tactile and thermal signals are presented, it is important to understand the temporal requirements associated with presenting these signals so that they are perceptually synchronous. Such synchrony is important to provide realistic touch experiences in applications involving object recognition and social touch interactions. In the present experiment the temporal window within which tactile and warm thermal stimuli are perceived to occur at the same time was determined. A Simultaneity Judgment Task was used in which pairs of tactile and thermal stimuli were presented on the hand at varying stimulus onset asynchronies, and participants determined whether the stimuli were simultaneous or not. The results indicated that the average simultaneity window width was 1041 ms. The average point of subjective simultaneity (PSS) was-569 ms, indicating that participants perceived simultaneity best when the warm thermal stimulus preceded the tactile stimulus by 569 ms. These findings indicate that thermal and tactile stimuli do not need to be displayed simultaneously for the two stimuli to be perceived as being synchronous and therefore the timing of such stimuli can be adjusted to maximize the likelihood that they will both be perceived.

    DOI: 10.1109/toh.2024.3452102

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  • Perceiving Synchrony: Determining Thermal-tactile Simultaneity Windows Reviewed

    Takuya Jodai, Lynette A. Jones, Masahiko Terao, Hsin-Ni Ho

    IEEE Transactions on Haptics   1 - 10   2024.9   ISSN:1939-1412 eISSN:2329-4051

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    Authorship:Last author, Corresponding author   Language:English   Publishing type:Research paper (scientific journal)   Publisher:Institute of Electrical and Electronics Engineers (IEEE)  

    In cutaneous displays in which both tactile and thermal signals are presented, it is important to understand the temporal requirements associated with presenting these signals so that they are perceptually synchronous. Such synchrony is important to provide realistic touch experiences in applications involving object recognition and social touch interactions. In the present experiment the temporal window within which tactile and warm thermal stimuli are perceived to occur at the same time was determined. A Simultaneity Judgment Task was used in which pairs of tactile and thermal stimuli were presented on the hand at varying stimulus onset asynchronies, and participants determined whether the stimuli were simultaneous or not. The results indicated that the average simultaneity window width was 1041 ms. The average point of subjective simultaneity (PSS) was-569 ms, indicating that participants perceived simultaneity best when the warm thermal stimulus preceded the tactile stimulus by 569 ms. These findings indicate that thermal and tactile stimuli do not need to be displayed simultaneously for the two stimuli to be perceived as being synchronous and therefore the timing of such stimuli can be adjusted to maximize the likelihood that they will both be perceived.

    DOI: 10.1109/toh.2024.3452102

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  • Determination of the Thermal-tactile Simultaneity Window for Multisensory Cutaneous Displays Reviewed

    Takuya Jodai, Masahiko Terao, Lynette A. Jones, Hsin-Ni Ho

    World Haptics 2023   2023.7

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    Language:English   Publishing type:Research paper (other academic)  

  • Determination of the Thermal-tactile Simultaneity Window for Multisensory Cutaneous Displays Reviewed

    Takuya Jodai, Masahiko Terao, Lynette A. Jones, Hsin-Ni Ho

    World Haptics 2023   2023.7

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    Authorship:Last author, Corresponding author   Language:English   Publishing type:Research paper (international conference proceedings)  

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  • Sharing and Experiencing Hardware and Methods to Advance Smell, Taste, and Temperature Interfaces

    Jas Brooks, Alireza Bahremand, Pedro Lopes, Christy Spackman, Judith Amores Fernandez, Hsin-Ni Ho, Masahiko Inami, Simon Niedenthal

    2023 CHI Conference on Human Factors in Computing Systems   2023.4   ISBN:9781450394222

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    Language:English   Publishing type:Research paper (other academic)   Publisher:ACM  

    There has been a monumental push from the CHI community to bring more human senses to interactive devices. This trend is significant because we use all our senses in everyday interactions but only an extremely narrow subset when interacting with computers. This workshop focuses on bringing together researchers to advance some of the most challenging senses to embed into interfaces, but arguably the most exciting: smell, taste, and temperature. To integrate these modalities into interfaces, researchers not only use methods from traditional mechanics or haptics (e.g., pumps, heating pads, etc.) but must also acquire tacit skills and understandings from psychophysics, neuroscience, anatomy, and chemistry (e.g., receptor signaling pathways or food chemistry). This demo-based workshop provides a platform to come together and bring their demonstrations, experiments, and hardware to experience, discuss, and advance the field.

    DOI: 10.1145/3544549.3573828

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  • Incorporating Thermal Feedback in Cutaneous Displays: Reconciling Temporal and Spatial Disparities Reviewed

    Jones, L.A, Ho, H.-N

    Proceedings of the 11th International Workshop on Haptic & Audio Interaction Design   2022.8

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    Language:English   Publishing type:Research paper (other academic)  

    Incorporating Thermal Feedback in Cutaneous Displays: Reconciling Temporal and Spatial Disparities

  • Incorporating Thermal Feedback in Cutaneous Displays: Reconciling Temporal and Spatial Disparities Reviewed

    Jones, L.A, Ho, H.-N

    Proceedings of the 11th International Workshop on Haptic & Audio Interaction Design   2022.8

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  • Temperature as an exteroceptive sense: Challenges remain in thermal modeling of skin–object interactions

    Hsin-Ni Ho

    Temperature   1 - 2   2019.4

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    Language:Others   Publishing type:Research paper (scientific journal)  

    DOI: 10.1080/23328940.2019.1617624

    Repository Public URL: https://hdl.handle.net/2324/7234376

  • Perceptual-Semantic Congruency Facilitates Semantic Discrimination of Thermal Qualities Reviewed

    Yizhen Zhou, Hsin-Ni Ho, Junji Watanabe

    FRONTIERS IN PSYCHOLOGY   8   2113   2017.12

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    Language:English   Publishing type:Research paper (scientific journal)  

    The ability to sense temperature is vital to our life. It signals the environmental condition, reflects the physiological conditions of our own body, and generates feelings of pleasantness or unpleasantness. Moreover, recent studies have demonstrated implicit associations between physical temperature and social/emotional concepts, suggesting the processing of temperature may even influence cognition. In this work, we examined the effect of physical warmth and coldness on semantic cognition. Participants performed speeded target categorization for thermal descriptors in the form of semantic words or illustrative figures representing the thermal qualities "warm" or "cold" while physical thermal stimulation was presented. We compared the average reaction time (RT) for the congruent and incongruent conditions managed by response key assignments. In the congruent condition, the response key for the symbol associated with warmth (coldness) was assigned to the hand with warm (cold) thermal stimulation, and in the incongruent condition the key assignment was reversed. Our results demonstrate that the average RT in the congruent condition was faster than in the incongruent one for both forms of thermal descriptors, suggesting that the experience of physical temperature facilitates the internal processing of the meaning of thermal quality.

    DOI: 10.3389/fpsyg.2017.02113

    Repository Public URL: https://hdl.handle.net/2324/7234380

  • Physical-Perceptual Correspondence for Dynamic Thermal Stimulation Reviewed

    Hsin-Ni Ho, Katsunari Sato, Scinob Kuroki, Junji Watanabe, Takashi Maeno, Shin'ya Nishida

    IEEE TRANSACTIONS ON HAPTICS   10 ( 1 )   84 - 93   2017.1

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    Language:English   Publishing type:Research paper (scientific journal)  

    Thermal displays have been applied in various haptic applications, from material simulation to interpersonal communication; however, there is insufficient knowledge about the temporal processing in human thermal sense to provide a knowledge basis for thermal display design. In this study, we investigated the physical-perceptual correspondence for dynamic thermal stimulation to shed a light on the temporal processing of human thermal sense. In the experiments, participants reported subjective timings of the temperature onset and temperature peak of continuous temperature changes applied to the thenar eminence. We found that the physical-perceptual correspondence was not consistent for warm and cold stimulations. For warm stimulation, the subjective experience always came after the corresponding physical event. On the other hand, for cold stimulation, while the subjective onset always lagged the physical onset, the subjective temperature peak preceded the physical temperature peak. We analyzed these results in the framework of linear systems theory. The results suggest that the senses of warmth and cold have distinct temporal filtering properties, with the sense of cold being more transient than the sense of warmth. These findings advance our knowledge regarding temporal processing in human thermal sense and serve as a basis for thermal display design.

    DOI: 10.1109/TOH.2016.2583424

    Repository Public URL: https://hdl.handle.net/2324/7234379

  • The pleasant heat? Evidence for thermal-emotional implicit associations occurring with semantic and physical thermal stimulation Reviewed

    Penny Bergman, Hsin-Ni Ho, Ai Koizumi, Ana Tajadura-Jimenez, Norimichi Kitagawa

    COGNITIVE NEUROSCIENCE   6 ( 1 )   24 - 30   2015.1

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    Language:English   Publishing type:Research paper (scientific journal)  

    The association between thermal and emotional experiences in interpersonal relations is intuitively apparent and has been confirmed by previous studies. However, research has not yet elucidated whether such an association is grounded in mental processes occurring at an intrapersonal (internal) level. In two experiments we examined whether the thermal-emotional associations can be observed at an intrapersonal level. We looked at the speed and accuracy of stimuli categorization. Experiment 1 examined the implicit semantic association between temperature (warm versus cold) and emotional valence (positive versus negative). Experiment 2 examined the association between experience of physical temperature and emotional valence. In both experiments warm-positive/cold-negative associations were demonstrated. These results suggest a conceptual and perceptual mapping in the mental representation of emotion and temperature, which occurs at an intrapersonal level, and which might serve as the ground to the interpersonal thermal-emotional interactions.

    DOI: 10.1080/17588928.2014.988132

    Repository Public URL: https://hdl.handle.net/2324/7234373

  • Combining colour and temperature: A blue object is more likely to be judged as warm than a red object Reviewed

    Hsin-Ni Ho, Daisuke Iwai, Yuki Yoshikawa, Junji Watanabe, Shin'ya Nishida

    SCIENTIFIC REPORTS   4   5527   2014.7

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    Language:English   Publishing type:Research paper (scientific journal)  

    It is commonly believed that reddish colour induces warm feelings while bluish colour induces cold feelings. We, however, demonstrate an opposite effect when the temperature information is acquired by direct touch. Experiment 1 found that a red object, relative to a blue object, raises the lowest temperature required for an object to feel warm, indicating that a blue object is more likely to be judged as warm than a red object of the same physical temperature. Experiment 2 showed that hand colour also affects temperature judgment, with the direction of the effect opposite to object colours. This study provides the first demonstration that colour can modulate temperature judgments when the temperature information is acquired by direct touch. The effects apparently oppose the common conception of red-hot/blue-cold association. We interpret this phenomenon in terms of ''Anti-Bayesian'' integration, which suggests that the brain integrates direct temperature input with prior expectations about temperature relationship between object and hand in a way that emphasizes the contrast between the two.

    DOI: 10.1038/srep05527

    Repository Public URL: https://hdl.handle.net/2324/7234631

  • Mechanisms Underlying Referral of Thermal Sensations to Sites of Tactile Stimulation Reviewed

    Hsin-Ni Ho, Junji Watanabe, Hideyuki Ando, Makio Kashino

    JOURNAL OF NEUROSCIENCE   31 ( 1 )   208 - 213   2011.1

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    Language:English   Publishing type:Research paper (scientific journal)  

    When three stimulators are simultaneously touched with the middle three fingers of one hand but only the outer two stimulators are cooled or heated, the central (neutral) stimulator is also perceived to be cold or warm. This phenomenon is known as thermal referral and it shares phenomenological similarities with filling-in, in which the discontinuity in the signals of interest can be compensated perceptually on the basis of the spatially adjacent context. Although the mechanisms underlying filling-in have been well substantiated, those underlying thermal referral are still poorly understood. In the present study, we examined the intensity perception of the sensation resulting from thermal referral with human participants. We found that the sensation was uniform among the three fingers, but its apparent intensity was always lower than the physical intensity applied to the outer two fingers. These results indicate that the thermal uniformity perceived under thermal referral is not created by the brain's interpolating the thermal changes applied to the outer two fingers, as one would expect for those induced by typical filling-in. Instead, the thermal changes applied to the outer two fingers are summated and redistributed to all the fingers in contact. Our findings suggest that thermal referral is mediated by two separate processes. One determines the apparent intensity from the physical intensity and the areal extent of the thermal stimulation; the other determines the localization of the resulting sensation from the apparent sites of tactile stimulation.

    DOI: 10.1523/JNEUROSCI.2640-10.2011

    Repository Public URL: https://hdl.handle.net/2324/7234628

  • Special Issue on Virtual Reality Psychology 9

    Ogawa Masaki, Kamachi Miyuki G., Shigemasu Hiroaki, Ho Hsin-Ni, Kitazaki Michiteru

    Transactions of the Virtual Reality Society of Japan   29 ( 1 )   1 - 1   2024.3   ISSN:1344011X eISSN:24239593

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    Language:Japanese   Publisher:THE VIRTUAL REALITY SOCIETY OF JAPAN  

    DOI: 10.18974/tvrsj.29.1_1

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  • 遠隔ビデオ通話における振動フィードバックの共同作業感への影響

    Yamashita Aika, Sato Katsunari, Fuyuno Miharu, Ho Hsin-Ni

    インタラクション論文集   2024   1393 - 1396   2024.2

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    Language:Japanese   Publisher:情報処理学会  

    私たちのコミュニケーションは言語情報に加えて非言語情報が非常に大きな役割を担っている.特に触覚コミュニケーションは,日常的に対面でのコミュニケーションで用いられる一方で,現在用いられている遠隔ビデオ通話においては広くは普及していないと考えられる.そこで本稿では,遠隔ビデオ通話を繋いだ状態で共同作業を行ったときに触覚フィードバックを与えた場合,触覚フィードバックはコミュニケーションを促進し,通話相手との心理的な関係性を変化させるのか,触覚フィードバックによってコミュニケーションにどのような変化が起こるのかを調査した.実験では,遠隔ビデオ通話をした状態で共同作業を行い,実験者がクリックやタイピングをした際に参加者に振動フィードバックが与えられた.これを元に実験後のアンケートや口頭インタビューでの感想を集めた結果を報告する.

    CiNii Research

  • 遠隔ビデオ通話における振動フィードバックの共同作業感への影響

    Yamashita Aika, Sato Katsunari, Fuyuno Miharu, Ho Hsin-Ni

    インタラクション論文集   2024   1393 - 1396   2024.2

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    Language:Japanese   Publisher:情報処理学会  

    私たちのコミュニケーションは言語情報に加えて非言語情報が非常に大きな役割を担っている.特に触覚コミュニケーションは,日常的に対面でのコミュニケーションで用いられる一方で,現在用いられている遠隔ビデオ通話においては広くは普及していないと考えられる.そこで本稿では,遠隔ビデオ通話を繋いだ状態で共同作業を行ったときに触覚フィードバックを与えた場合,触覚フィードバックはコミュニケーションを促進し,通話相手との心理的な関係性を変化させるのか,触覚フィードバックによってコミュニケーションにどのような変化が起こるのかを調査した.実験では,遠隔ビデオ通話をした状態で共同作業を行い,実験者がクリックやタイピングをした際に参加者に振動フィードバックが与えられた.これを元に実験後のアンケートや口頭インタビューでの感想を集めた結果を報告する.

    CiNii Research

  • Influence of Touching Heartbeat on Emotional State and Interpersonal Closeness Reviewed

    Naoki Kameyama, Aiko Murata, Junji Watanabe, Hsin-Ni Ho

    Transactions of the Virtual Reality Society of Japan   28 ( 4 )   321 - 324   2023.12   ISSN:1344011X eISSN:24239593

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:THE VIRTUAL REALITY SOCIETY OF JAPAN  

    Influence of Touching Heartbeat on Emotional State and Interpersonal Closeness

    DOI: 10.18974/tvrsj.28.4_321

    CiNii Research

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  • Assessing Emotional Sharing Using Air-Transmit Haptic Communication Device

    Yamashita Aika, Watanabe Junji, Ho Hsin-Ni

    Proceedings of the Virtual Reality Society of Japan, Annual Conference   2A2-09   2023.9

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    Language:English   Publisher:日本バーチャルリアリティ学会  

    Touch plays a crucial role in communication. In this study, our objective is to determine whether individuals can convey emotions via an Air-Transmit Haptic Communication Device that can transmit air pressure. The haptic device allows participants to communicate the opening and closing movements of their hands. Participants viewed videos and then expressed their emotions using the device. Our results suggest that people can successfully share feelings of excitement through the haptic device. We think that this result can contribute to richer online communication.

    CiNii Research

  • Assessing Emotional Sharing Using Air-Transmit Haptic Communication Device

    Yamashita Aika, Watanabe Junji, Ho Hsin-Ni

    Proceedings of the Virtual Reality Society of Japan, Annual Conference   2A2-09   2023.9

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    Language:English   Publisher:日本バーチャルリアリティ学会  

    Touch plays a crucial role in communication. In this study, our objective is to determine whether individuals can convey emotions via an Air-Transmit Haptic Communication Device that can transmit air pressure. The haptic device allows participants to communicate the opening and closing movements of their hands. Participants viewed videos and then expressed their emotions using the device. Our results suggest that people can successfully share feelings of excitement through the haptic device. We think that this result can contribute to richer online communication.

    CiNii Research

  • Evaluation of Emotional Transmission through Haptic Device during Video Viewing

    Yamashita Aika, Watanabe Junji, Ho Hsin-Ni

    研究報告ヒューマンコンピュータインタラクション(HCI)   202 ( 51 )   1 - 5   2023.3   eISSN:21888760

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    Language:Japanese   Publisher:情報処理学会  

    私たちのコミュニケーションは視覚情報や身体の接触など非言語コミュニケーションが大きな役割を担っている.本研究では触覚を用いたコミュニケーションに着目し,触覚デバイスを用いた感情の伝達により新たな経験を得られるか,得られた場合にそれがどのような経験か,そして触覚デバイスはどのように感情を伝達するかを調査した.実験では,参加者は 2 つのソフトテニスボールをチューブで繋げることで空気伝達を可能にした触覚デバイスを用いて,1 人が動画を鑑賞したときの感情をリアルタイムで共有し,もう 1 人がそれを受け取った.このとき,動画を見て感じた感情と触覚デバイスから伝わってきた感情や得られた新たな経験についてのアンケート調査を行った.これを元に感情の共有についてデータから得られた見解と参加者の感想を報告する.本研究は,より豊かなオンラインコミュニケーションに貢献できると考える

    CiNii Research

  • Evaluation of Emotional Transmission through Haptic Device during Video Viewing

    Yamashita Aika, Watanabe Junji, Ho Hsin-Ni

    研究報告ヒューマンコンピュータインタラクション(HCI)   202 ( 51 )   1 - 5   2023.3   eISSN:21888760

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    Language:Japanese   Publisher:情報処理学会  

    私たちのコミュニケーションは視覚情報や身体の接触など非言語コミュニケーションが大きな役割を担っている.本研究では触覚を用いたコミュニケーションに着目し,触覚デバイスを用いた感情の伝達により新たな経験を得られるか,得られた場合にそれがどのような経験か,そして触覚デバイスはどのように感情を伝達するかを調査した.実験では,参加者は 2 つのソフトテニスボールをチューブで繋げることで空気伝達を可能にした触覚デバイスを用いて,1 人が動画を鑑賞したときの感情をリアルタイムで共有し,もう 1 人がそれを受け取った.このとき,動画を見て感じた感情と触覚デバイスから伝わってきた感情や得られた新たな経験についてのアンケート調査を行った.これを元に感情の共有についてデータから得られた見解と参加者の感想を報告する.本研究は,より豊かなオンラインコミュニケーションに貢献できると考える

    CiNii Research

  • Determination of the Thermal-tactile Simultaneity Window for Multisensory Cutaneous Displays∗

    Jodai T., Terao M., Jones L.A., Ho H.N.

    2023 IEEE World Haptics Conference, WHC 2023 - Proceedings   230 - 236   2023   ISBN:9798350399936

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    Publisher:2023 IEEE World Haptics Conference, WHC 2023 - Proceedings  

    Multisensory cutaneous displays have been developed to enhance the realism of objects touched in virtual environments. However, when stimuli are presented concurrently, tactile stimuli can mask thermal perception and so both these modalities may not be available to convey information to the user. In this study, we aim to determine the simultaneity window using the Simultaneity Judgment Task. A device was created that could present both tactile and thermal stimuli to the thenar eminence of the participant 's left hand with various stimulus onset asynchronies (SOA). The experimental results indicated that the simultaneity window width was 639 ms ranging from -561 ms to 78 ms. The point of subjective simultaneity (PSS) was at -242 ms, indicating that participants perceived simultaneity best when the thermal stimulus preceded the tactile stimulus by 242 ms. These findings have implications for the design of stimulus presentation in multisensory cutaneous displays.

    DOI: 10.1109/WHC56415.2023.10224482

    Scopus

  • Tracking changes in touch desire and touch avoidance before and after the COVID-19 outbreak Reviewed International journal

    Yusuke Ujitoko, Takumi Yokosaka, Yuki Ban, Hsin-Ni Ho

    Frontiers in Psychology   13   1016909 - 1016909   2022.12   eISSN:1664-1078

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Frontiers Media SA  

    Touch is essential for survival, social bonding, and overall health. However, the COVID-19 pandemic calls for an abrupt withdrawal from physical contact, and the prolonged lockdown has left many people in solitude without touch for months. This unprecedented dissociation from touch has cast a shadow on people's mental and physical well-being. Here we approached the issue by examining COVID-19's impact on people's touch attitudes. We analyzed people's desire and avoidance for animate and inanimate targets based on large-scale Japanese Twitter posts over an 8-year span. We analyzed the impact of the COVID-19 outbreak with the difference-in-differences estimation method, which can estimate the impact while accounting for other changes over time such as seasonality or long-term effects. As a result, we found that people's desire for touching the human body and pet animals increased significantly after the COVID-19 outbreak and remained high afterward. In contrast, the avoidance of touching everyday objects (e.g., doorknobs and money) increased immediately after the outbreak but gradually returned to the pre-COVID-19 levels. Our findings manifest the impact of COVID-19 on human touch behavior. Most importantly, they highlight the sign of “skin hunger,” a public health crisis due to social distancing, and call attention to the trend that people are becoming less aware of infection control as COVID-19 persists.

    DOI: 10.3389/fpsyg.2022.1016909

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  • The Effect of Temperature on Tactile Softness Perception Reviewed

    Zheng Yee Tan, Cameron Mavericks Choo, Youneng Lin, Hsin-Ni Ho, Ryo Kitada

    IEEE Transactions on Haptics   15 ( 3 )   1 - 8   2022.7   ISSN:1939-1412 eISSN:2329-4051

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Institute of Electrical and Electronics Engineers (IEEE)  

    We are adept at discriminating object properties such as softness and temperature using touch. Previous studies have investigated the nature of each object property, but the interactions between these properties are not fully understood. Tactile softness perception relies on multiple sensory cues such as the size of the contact area, indentation depth, and force exerted. In addition to these cues, the temperature of the stimulus may contribute to tactile softness perception by changing the sensitivity to changes in stimulus compliance. To test this hypothesis, we conducted two psychophysical experiments in which the subjects estimated the magnitude of perceived softness after touching deformable objects. We varied the compliance and temperature of the stimuli. The linear functions of compliance fit to the magnitude estimates under cold conditions (9-15°C) were steeper than the functions fit to the magnitude estimates under room temperature (21-25°C). These results indicate that temperature can sharpen our tactile softness perception of deformable surfaces by increasing the sensitivity to differences in compliance.

    DOI: 10.1109/TOH.2022.3198115

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    Repository Public URL: https://hdl.handle.net/2324/7234638

  • Referral of Wetness Sensation among Fingers Reviewed

    Shibahara Mai, Watanabe Junji, Ho Hsin-Ni, Sato Katsunari

    Transactions of the Virtual Reality Society of Japan   27 ( 1 )   14 - 17   2022.4   ISSN:1344011X eISSN:24239593

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    Referral of Wetness Sensation among Fingers

    DOI: 10.18974/tvrsj.27.1_14

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    Repository Public URL: https://hdl.handle.net/2324/7236434

  • Incorporating Thermal Feedback in Cutaneous Displays: Reconciling Temporal and Spatial Disparities

    Jones, LA; Ho, HN

    HAPTIC AND AUDIO INTERACTION DESIGN, HAID 2022   13417   48 - 58   2022   ISSN:0302-9743 ISBN:978-3-031-15018-0 eISSN:1611-3349

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    Publisher:Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)  

    There are fundamental differences between the tactile and thermal sensory systems that must be accommodated when designing multisensory cutaneous displays for use in virtual or teleoperated robotic environments. In this review we highlight the marked temporal and spatial differences between the senses of cold and warmth as revealed in psychophysical experiments. Cold and warmth are distinct senses with marked differences in the time taken to respond to stimulation and in their temporal filtering processes. Such variations must be taken into account when time-varying profiles of thermal stimulation are delivered to the skin concurrent with tactile stimulation since the resulting sensations will not be perceived on the same time scale. Although it is often reported that the thermal senses are markedly inferior to the sense of touch with respect to their spatial acuity, it is also clear that there is considerable variability across the body in the accuracy with which thermal stimuli can be localized. The distal to proximal gradient in thermal acuity suggests that locations other than the palmar surface of the hand are better suited for displaying thermal cues, in contrast to the situation for tactile inputs. As was noted for temporal processes, there are differences between localizing warmth and cold stimuli, with localization being superior for cold. These properties provide benchmarks that can be used in designing thermal and multisensory displays.

    DOI: 10.1007/978-3-031-15019-7_5

    Web of Science

    Scopus

  • Thermal-Tactile Integration in Object Temperature Perception Reviewed

    Hsin-Ni Ho, Hiu Mei Chow, Sayaka Tsunokake, Warrick Roseboom

    IEEE Transactions on Haptics   12 ( 4 )   594 - 603   2019.10

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    DOI: 10.1109/TOH.2019.2894153

    Repository Public URL: https://hdl.handle.net/2324/7234642

  • Temperature as an exteroceptive sense: Challenges remain in thermal modeling of skin–object interactions: Comment on: Rykaczewski K. Modeling thermal contact resistance at the finger-object interface. Temperature. 2019;6(1):85–95. doi:10.1080/23328940.2018.1551706.

    Ho, H.-N.

    Temperature   6 ( 2 )   104 - 105   2019.4

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    DOI: 10.1080/23328940.2019.1617624

    Repository Public URL: https://hdl.handle.net/2324/7234376

  • Material recognition based on thermal cues: Mechanisms and applications Reviewed

    Ho, H.-N.

    Temperature   5 ( 1 )   36 - 55   2018.5

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    DOI: 10.1080/23328940.2017.1372042

    Repository Public URL: https://hdl.handle.net/2324/7234636

  • Influence of Object Material Properties and Geometry on Skin Temperature Responses During Contact Reviewed

    Hsin-Ni Ho

    HAPTICS: PERCEPTION, DEVICES, CONTROL, AND APPLICATIONS, EUROHAPTICS 2016, PT I   9774   281 - 290   2016.9

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    Language:English   Publishing type:Research paper (other academic)  

    When the hand makes contact with an object, the changes in skin temperature provide information about not only the object's material composition but also its geometry. Consider, for example, the temperature difference felt when touching an aluminum block and a piece of aluminum foil. To study the thermal cues associated with material properties and object thickness, we measured the changes in skin temperature elicited when touching objects with varying material properties and geometries, and compared them to the theoretical predictions obtained from two thermal models, of which one assumes the object having an infinite thickness and the other takes into consideration the actual object thickness. The comparison results indicate that the former model is effective in capturing the rapid temperature changes at the moment of contact and the latter model is better at predicting the total change in skin temperature at the end of contact. These findings provide a knowledge basis for the development of thermal displays for material simulation and automatic object identification systems that identify an object's material composition and thickness based on thermal feedback.

    DOI: 10.1007/978-3-319-42321-0_26

  • Psychophysical dimensions of material perception and methods to specify textural space

    Okamoto, S., Nagano, H., Ho, H.-N.

    Pervasive Haptics: Science, Design, and Application   2016.1

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    DOI: 10.1007/978-4-431-55772-2_1

  • Impact of hand and object colors on object temperature perception. Reviewed International journal

    Ho HN, Iwai D, Yoshikawa Y, Watanabe J, Nishida S

    Temperature (Austin, Tex.)   2 ( 3 )   344 - 345   2015.7

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    Impact of hand and object colors on object temperature perception.

    DOI: 10.1080/23328940.2015.1078926

  • Colour-Temperature Correspondences: When Reactions to Thermal Stimuli Are Influenced by Colour Reviewed

    Hsin-Ni Ho, George H. Van Doorn, Takahiro Kawabe, Junji Watanabe, Charles Spence

    PLOS ONE   9 ( 3 )   e91854   2014.3

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    In our daily lives, information concerning temperature is often provided by means of colour cues, with red typically being associated with warm/hot, and blue with cold. While such correspondences have been known about for many years, they have primarily been studied using subjective report measures. Here we examined this correspondence using two more objective response measures. First, we used the Implicit Association Test (IAT), a test designed to assess the strength of automatic associations between different concepts in a given individual. Second, we used a priming task that involved speeded target discrimination in order to assess whether priming colour or thermal information could invoke the crossmodal association. The results of the IAT confirmed that the association exists at the level of response selection, thus indicating that a participant's responses to colour or thermal stimuli are influenced by the colour-temperature correspondence. The results of the priming experiment revealed that priming a colour affected thermal discrimination reaction times (RTs), but thermal cues did not influence colour discrimination responses. These results may therefore provide important clues as to the level of processing at which such colour-temperature correspondences are represented.

    DOI: 10.1371/journal.pone.0091854

    Repository Public URL: https://hdl.handle.net/2324/7234630

  • Effects of color on perceived temperature Reviewed

    Hsin-Ni Ho, Daisuke Iwai, Yuki Yoshikawa, Junji Watanabe, Shin'ya Nishida

    Perception   2013.8

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    Effects of color on perceived temperature

  • Thermal referral: A filling-in phenomenon that involves cross-modal processing of thermal and tactile stimuli Reviewed

    Ho Hsin-Ni, Watanabe Junji, Ando Hideyuki, Kashino Makio

    NEUROSCIENCE RESEARCH   68   E94   2010.10

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    Thermal referral: A filling-in phenomenon that involves cross-modal processing of thermal and tactile stimuli

    DOI: 10.1016/j.neures.2010.07.179

  • Somatotopic or spatiotopic? Frame of reference for localizing thermal sensations under thermo-tactile interactions Reviewed

    Hsin-Ni Ho, Junji Watanabe, Hideyuki Ando, Makio Kashino

    ATTENTION PERCEPTION & PSYCHOPHYSICS   72 ( 6 )   1666 - 1675   2010.8

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    The thermal sense is diffuse and incapable of providing precise spatial information. From a phenomenon known as thermal referral, we know that touch influences the localization of cold or warmth, leading to our perceiving illusory thermal sensations at a thermally neutral site. This study investigated the frame of reference for localizing thermal sensations under thermal referral in order to shed light on how thermal and tactile modalities coordinate to process localization information. One thermally neutral tactile stimulator and two cold (warm) stimulators were presented to different sets of three fingers of both hands. The location of the neutral tactile stimulator varied, and the strength of the referral was estimated from participants' performance in localizing the neutral tactile stimulator. By manipulating the somatotopic and spatiotopic distances between the stimulated sites, we found that the somatotopic distance-more specifically, the distance between and among the sites being defined in cortical topography-determines the strength of thermal referral. Our findings suggest that localization of thermal sensations under thermo-tactile interactions is processed with respect to the somatotopic frame of reference and that this cross-modal processing resides in early cortical areas whose organization conserves topographic information.

    DOI: 10.3758/APP.72.6.1666

    Repository Public URL: https://hdl.handle.net/2324/7234625

  • Influence of Contact Conditions on Thermal Responses of the Hand Reviewed

    Jessica Galie, Hsin-Ni Ho, Lynette A. Jones

    WORLD HAPTICS 2009: THIRD JOINT EUROHAPTICS CONFERENCE AND SYMPOSIUM ON HAPTIC INTERFACES FOR VIRTUAL ENVIRONMENT AND TELEOPERATOR SYSTEMS, PROCEEDINGS   587 - +   2009.10

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    A series of experiments was conducted to evaluate how contact pressure and surface roughness influence the heat flux conducted out of the skin or object during contact. Changes in skin temperature assist in identifying objects held in the hand. In the first experiment an infrared thermal imaging system was used to measure skin temperature and contact area as participants generated forces ranging from 0.1 to 6 N with their index finger. The results showed that skin temperature decreased by an average of 5.5 degrees C across the range of forces studied and that the changes were greatest between 0.25-0.35 N and from 4-6 N. The second and third experiments examined the effect of the surface roughness of an object on skin temperature and on the perceived coldness of the object. A set of six copper blocks was machined to create a range of surface profiles. There was a slight decrease in skin temperature as the surface roughness of the object increased, contrary to theoretical predictions. Although small, these changes were perceptible as participants consistently chose the rougher of two stimuli when asked to select the cooler stimulus. These results indicate that contact pressure and surface roughness influence the change in skin temperature during contact and that they can have a perceptible influence on the perceived properties of objects held in the hand. Thermal models need to account for these effects if realistic feedback is to be presented in a thermal display.

    DOI: 10.1109/WHC.2009.4810902

  • Modeling the thermal responses of the skin surface during hand-object interactions Reviewed

    Hsin-Ni Ho, Lynette A. Jones

    JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME   130 ( 2 )   021005   2008.4

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    The objective of this research is to. analyze and model the decreases in skin temperature when the hand makes contact with an object at room temperature so that thermal feedback can be incorporated into haptic displays. A thermal model is proposed that predicts the thermal responses of the skin and object surface as well as the heat flux exchanged during hand-object surface as well as the heat flux exchanged predictions of temperature changes to those experimentally measured using an infrared thermal measurement system. The thermal measurement system was designed to overcome the limitations imposed by contact thermal sensors, and was able to measure skin temperature during contact, together with the contact area and contact force. The experimental results indicated that over the pressure range of 0.73-10.98 kPa, changes in skin temperature were well localized to the contact area and were affected by contact pressure. The pressure in turn influenced both thermal contact resistance and blood flow. Over the range of contact forces typically used in manual exploration, blood perfusion and metabolic heat generation do not appear to have a significant effect on the skin's thermal responses. The theoretical predictions and the measured data were consistent in characterizing the time course and amplitude of the skin temperature change during contact with differences typically being less than 1 degrees C between the two for pressures greater than 4 kPa. These findings indicate that the proposed thermal model is able to characterize and predict the skin temperature responses during hand-object interactions and could be used in a thermal display that simulates the properties of different materials.

    DOI: 10.1115/1.2899574

    Repository Public URL: https://hdl.handle.net/2324/7236445

  • Warm or Cool, Large or Small? The Challenge of Thermal Displays Reviewed

    Lynette A. Jones, Hsin-Ni Ho

    IEEE TRANSACTIONS ON HAPTICS   1 ( 1 )   53 - 70   2008.1

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    Thermal displays have been developed to present thermal cues to the hand to facilitate object recognition in virtual environments or in teleoperated robotic systems. This review focuses on this application domain of thermal displays and considers the models developed to simulate the thermal interaction between an object and the hand as they make contact. An overview of thermal perception and the mechanisms underlying the processing of thermal information is provided to give a framework for analyzing the design of thermal displays. The models developed to simulate thermal feedback are examined together with a description of the implementation of these models in thermal displays. The domains in which thermal displays have been used are described; this includes the simulation of material properties, the recreation of large-scale thermal effects in virtual environments, the encoding of abstract concepts, and the use of thermal feedback in interactive art. The review concludes by considering the advantages and challenges associated with using thermal displays in these diverse areas.

    DOI: 10.1109/ToH.2008.2

    Repository Public URL: https://hdl.handle.net/2324/7234623

  • Monitoring skin temperature during hand-object interactions

    Ho, H.-N, Jones, L.A

    2007 InfraMation Conference   2007.10

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  • Revealing invisible traces of human-object interactions with thermal vision Reviewed

    Ho, H.-N, Amemiya, T, Ando, H

    2007 InfraMation Conference   2007.10

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  • Development and Evaluation of a Thermal Display for Material Identification and Discrimination Reviewed

    Hsin-Ni Ho, Lynette A. Jones

    ACM TRANSACTIONS ON APPLIED PERCEPTION   4 ( 2 )   13   2007.7

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    The objective of this study was to develop and evaluate a thermal display that assists in object identification in virtual environments by simulating the thermal cues associated with making contact with materials with different thermal properties. The thermal display was developed based on a semi-infinite body model. Three experiments were conducted to evaluate the performance of the display. The first experiment compared the ability of subjects' to identify various materials, which were presented physically or simulated with the thermal display. The second experiment examined the capacity of subjects to discriminate between a real and simulated material based on thermal cues. In the third experiment, the changes in skin temperature that occurred when making contact with real and simulated materials were measured to evaluate how these compare to theoretical predictions. The results indicated that there was no significant difference in material identification and discrimination when subjects were presented with real or simulated materials. The changes in skin temperature were comparable for real and simulated materials and were related to the contact coefficient of the material palpated, consistent with the semi-infinite body model. These findings suggest that a thermal display is capable of facilitating object recognition when visual cues are limited.

    DOI: 10.1145/1265957.1265962

    Repository Public URL: https://hdl.handle.net/2324/7234645

  • Infrared thermal measurement system for evaluating model-based thermal displays Reviewed

    Hsin-Ni Ho, Lynette A. Jones

    WORLD HAPTICS 2007: SECOND JOINT EUROHAPTICS CONFERENCE AND SYMPOSIUM ON HAPTIC INTERFACES FOR VIRTUAL ENVIRONMENT AND TELEOPERATOR SYSTEMS, PROCEEDINGS   157 - +   2007.4

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    A thermal measurement system was designed and fabricated to assist in the validation of a thermal model in characterizing skin temperature during hand-object interactions. An infrared measurement system was used to overcome the limitations imposed by contact thermal sensors. It is able to measure the temperature distribution across the fingerpad during contact, together with contact area and contact force. The performance of this system was evaluated with calibration tests and the results indicated that this system is capable of providing accurate temperature measurements. With this system,. analyses of the changes in skin temperature as a function of contact pressure were conducted These analyses permitted the validation of a thermal model proposed in a previous study and the results indicate that the thermal model is able to predict skin temperature during contact. The model can simulate the properties of different materials in a thermal display.

    DOI: 10.1109/WHC.2007.76

  • Thermal model for hand-object interactions Reviewed

    Hsin-Ni Ho, Lynette A. Jones

    SYMPOSIUM ON HAPTICS INTERFACES FOR VIRTUAL ENVIRONMENT AND TELEOPERATOR SYSTEMS 2006, PROCEEDINGS   461 - 467   2006.6

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    A thermal model is proposed that predicts the temperature responses of the skin and material surface during hand-object interactions as well as the heat flux exchanged when the fingerpad makes contact with an object. The surface features of the fingerpad were measured in order to estimate the thermal contact resistance which is included in the model. A simulation based on the model was performed to calculate the thermal responses of the fingerpad as it made contact with a range of materials with varying thermal properties. A thermal measurement system based on an infrared camera has been designed and fabricated to overcome the limitations imposed by the contact thermal sensors. This system will be used to evaluate the validity of the model in predicting the changes in skin temperature during contact.

    DOI: 10.1109/VR.2006.132

  • Contribution of thermal cues to material discrimination and localization Reviewed

    HN Ho, LA Jones

    PERCEPTION & PSYCHOPHYSICS   68 ( 1 )   118 - 128   2006.1

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    The objective of these two experiments was to determine the role of thermal cues in material discrimination and localization, using materials that spanned a range of thermal properties. In the first experiment, the subjects were required to select the cooler of two materials presented to the index fingers. In the second, the finger that was in contact with a material that was different from that presented to the other two fingers on the same hand had to be identified. The results indicated that the subjects were able to discriminate between materials, using thermal cues, when the differences in their thermal properties were large. The changes in skin temperature when the fingers were touching the materials were, however, smaller than those predicted by the theoretical model. The ability to localize the thermal changes when three fingers on the same hand were stimulated was poor and depended on both the thermal properties of the target and the distractor materials.

    Repository Public URL: https://hdl.handle.net/2324/7236437

  • Material identification using real and simulated thermal cues

    H. Ho, L.A. Jones

    The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society   2004.9

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    DOI: 10.1109/iembs.2004.1403711

  • An Evaluation Method for Inconsistency of the AHP Judgment Matrix

    Yuan Mao Huang, Hsin-Ni Ho

    Volume 4: 14th International Conference on Design Theory and Methodology, Integrated Systems Design, and Engineering Design and Culture   2002.1

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    Applications of the analytic hierarchy process have been widespread in the field of decision-making for decades. In this process, decision-makers perform pairwise comparisons to form a judgment matrix, and its principal eigenvector is used to represent the priorities. Thus it is important to evaluate the degree of inconsistency in a judgment matrix to ensure the principal eigenvector reflects the true priorities among the alternatives. This study proposes the I3 circuit method, which is based on the graph theory, with a critical inconsistent index value of 3.75 to judge and evaluate consistency or the degree of inconsistency for judgment matrices. In addition, it can also spot the matrix entries that create the most inconsistency. With these advantages of the proposed method, decision-makers can easily evaluate the pairwise comparisons of a matrix and revise some entries of the matrix toward consistency if needed.

    DOI: 10.1115/detc2002/dtm-34010

  • An Improvement of Phone-Based Interfaces System

    Yuan Mao Huang, Hsin-Ni Ho

    Volume 1: 20th Computers and Information in Engineering Conference   2000.9

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    <title>Abstract</title>
    Applications of the interactive voice response system (IVRS) have been increased rapidly. However, deficiencies of phone-based interface systems (PBIS) suggest human factors considerations can improve design structures of the systems. To improve the existing phone-based interface systems, this study proposes an new interface style, which is based on the ‘standard-with-skips’ and the ‘hierarchy’ styles. This improved interface style can assist in saving time for both the novices and the experienced users and allows users to have more control. A new kind of identifier is also developed to facilitate procedures for reaching user goals. To reduce the workload in the working memory, a marking function is presented to give the users memory aids and prevent them from making errors. With consideration of these factors, an ideal modal is constructed and compared with existing systems.

    DOI: 10.1115/detc2000/cie-14673

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Books

  • 基礎心理学実験法ハンドブック

    何昕霓

    朝倉書房  2018.3 

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    Handbook of Fundamental Experimental Methods in Psychology

  • Pervasive Haptics

    Hsin-Ni Ho

    Springer  2016.3 

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    Pervasive Haptics

  • 触覚認識メカニズムと応用技術-触覚センサ・触覚ディスプレイ-増補版

    何昕霓, 佐藤克成

    S&T出版株式会社  2014.6 

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    Tactile Recognition Mechanisms and Application Technologies - Tactile Sensors and Tactile Displays - Expanded Edition

  • 心理学研究法1 感覚・知覚

    何昕霓

    誠信書房  2011.3 

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    Psychological Research Methods 1: Sensation and Perception

Presentations

  • Facilitating Interpersonal Communication with Mediated Social Touch Invited International conference

    Hsin-Ni Ho

    Mediated Social Touch - Interdisciplinary Exploration of Digital Touch to Connect Humans Workshop  2023.11 

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    Event date: 2023.11

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    Country:Other  

    Facilitating Interpersonal Communication with Mediated Social Touch

  • Facilitating Interpersonal Communication with Mediated Social Touch Invited

    Hsin-Ni Ho

    Mediated Social Touch - Interdisciplinary Exploration of Digital Touch to Connect Humans Workshop  2023.11 

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    Event date: 2023.11

    Language:English  

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  • Determination of the Thermal-tactile Simultaneity Window for Multisensory Cutaneous Displays International conference

    Jodai, T., Terao, M., Jones, L.A. & Ho, H.-N.

    World Haptics 2023  2023.7 

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    Event date: 2023.7

    Language:English   Presentation type:Oral presentation (general)  

    Venue:Delft   Country:Netherlands  

    Multisensory cutaneous displays have been developed to enhance the realism of objects touched in virtual environments. However, when stimuli are presented concurrently, tactile stimuli can mask thermal perception and so both these modalities may not be available to convey information to the user. In this study, we aim to determine the simultaneity window using the Simultaneity Judgment Task. A device was created that could present both tactile and thermal stimuli to the thenar eminence of the participant's left hand with various stimulus onset asynchronies (SOA). The experimental results indicated that the simultaneity window width was 639 ms ranging from -561 ms to 78 ms. The point of subjective simultaneity (PSS) was at -242 ms, indicating that participants perceived simultaneity best when the thermal stimulus preceded the tactile stimulus by 242 ms. These findings have implications for the design of stimulus presentation in multisensory cutaneous displays.

  • Color-temperature correspondence and its impact on object temperature perception Invited

    Ho, H.-N

    Powerful Young Researchers' Presentations, International Symposium on Foundations of Visual Information  2015.9 

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  • Thermo-tactile interactions in object temperature perception Invited

    Hsin-Ni Ho

    ERC Computational Touch workshop  2016.9 

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    Venue:Paris, France   Country:France  

  • Is the hand trustworthy? Multimodal influence in haptic object perception Invited

    Hsin-Ni Ho

    International Workshop on Multimodal Virtual & Augmented Reality (MVAR 2016), in conjunction with ACM ICMI 2016  2016.11 

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    Venue:Yokohama, Japan   Country:Japan  

  • Tactile influence on temperature perception Invited International conference

    Ho, H.-N

    Japan-UK bilateral meeting: New Directions in Somatosensation  2017.9 

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    Country:United Kingdom  

    Tactile influence on temperature perception

  • Importance of relaying warmth in this pandemic time International conference

    Hsin-Ni Ho

    Smell, Taste, and Temperature Interfaces Workshop at CHI 2021  2021.5 

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    Country:Other  

  • Thermal and tactile sensing and the development of multisensory cutaneous displays Invited International conference

    Jones, L.A, Ho, H.-N

    RoboTac 2021: New Advances in Tactile Sensation, Interactive Perception, Control, and Learning  2021.9 

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  • 触覚による鼓動の知覚がバーチャルアバターの印象に与える影響の調査

    桑島 理子, 渡邊 淳司, Ho Hsin-Ni

    第29回日本バーチャルリアリティ学会大会.  2024.9 

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    Event date: 2024.9

    Language:Japanese   Presentation type:Oral presentation (general)  

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  • 音・振動アイコンに対する感情反応の探求

    佐竹 茉莉花, ブラウニング アーロン マイケル, Hsin-Ni Ho

    第29回日本バーチャルリアリティ学会大会  2024.9 

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    Event date: 2024.9

    Language:Japanese   Presentation type:Oral presentation (general)  

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  • Sharing and Experiencing Hardware and Methods to Advance Smell, Taste, and Temperature Interfaces Invited International conference

    Brooks, J., Bahremand, A., Lopes, P., Spackman, C., Amores Fernandez, J., Ho, H.N., Inami, M. and Niedenthal, S.

    2023 CHI Conference on Human Factors in Computing Systems  2023.4 

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    Event date: 2024.4

    Language:English  

    Venue:Hamburg   Country:Germany  

  • 材質カテゴリーの心的表象に及ぼす熱特性の影響についての探求

    西村 惇, 三浦 飛鳥, 宮﨑 康次, 何昕霓

    第19回日本感性工学会春季大会  2024.3 

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    Event date: 2024.3

    Language:English  

    Country:Other  

    Exploring How Thermal Characteristics Shape Mental Representation of Material Categories

  • オノマトペマップを用いた温度が生地の質感知覚に与える影響の評価

    室山 理奈, 何 昕霓

    第19回日本感性工学会春季大会  2024.3 

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    Event date: 2024.3

    Language:Japanese  

    Country:Other  

    Assessing Temperature’s Impact on Fabric Texture Perception with an Onomatopoeia Map

  • Assessing Temperature’s Impact on Fabric Texture Perception with an Onomatopoeia Map

    室山 理奈, 何 昕霓

    第19回日本感性工学会春季大会  2024.3 

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    Language:Japanese   Presentation type:Oral presentation (general)  

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  • Exploring How Thermal Characteristics Shape Mental Representation of Material Categories

    西村 惇, 三浦 飛鳥, 宮﨑 康次, 何昕霓

    第19回日本感性工学会春季大会  2024.3 

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    Event date: 2024.3

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  • 遠隔ビデオ通話における振動フィードバックの共同作業感への影響

    山下 藍香, 佐藤 克成, 冬野 美晴, Hsin-Ni Ho

    Interaction 2024 第28回 一般社団法人情報処理学会シンポジウム  2024.3 

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    Event date: 2024.3

    Language:Japanese  

    Country:Other  

    The Impact of Vibratory Feedback on the Sense of Collaboration in Remote Communication

  • The Impact of Vibratory Feedback on the Sense of Collaboration in Remote Communication

    山下 藍香, 佐藤 克成, 冬野 美晴, Hsin-Ni Ho

    Interaction 2024  2024.3 

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    Event date: 2024.3

    Language:Japanese   Presentation type:Poster presentation  

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  • 物体の熱特性と材質カテゴリの心的表象の関係の探索

    Hsin-Ni Ho, Atsu Nishimura

    日本基礎心理学会第42回大会  2023.12 

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    Event date: 2023.12

    Language:Japanese  

    Country:Other  

    Exploring the Relationship between Thermal Property and Mental Representation of Material Categories

  • 温・触覚間の多感覚相互作用 Invited

    Hsin-Ni Ho

    日本基礎心理学会第42回大会  2023.12 

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    Event date: 2023.12

    Language:English  

    Country:Other  

    Multisensory Interactions Between Thermal and Tactile Sensations

  • Multisensory Interactions Between Thermal and Tactile Sensations Invited

    Hsin-Ni Ho

    the 42nd Japanese Psychonomic Society meeting  2023.12 

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    Event date: 2023.12

    Language:English   Presentation type:Oral presentation (invited, special)  

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  • Exploring the Relationship between Thermal Property and Mental Representation of Material Categories

    Hsin-Ni Ho, Atsu Nishimura

    The 42nd Japanese Psychonomic Society meeting  2023.12 

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    Language:Japanese   Presentation type:Poster presentation  

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  • 触覚による鼓動の知覚がバーチャルアバターの印象に与える影響の調査

    桑島理子, 渡邊淳司, Hsin-Ni Ho

    ハプティクス研究委員会;回研究会  2023.11 

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    Event date: 2023.11

    Language:Japanese  

    Country:Other  

  • Simultaneous Perception of Warming and Tactile Stimuli in Multisensory Cutaneous Displays

    Takuya Jodai, Masahiko Terao, Lynette A. Jones, Hsin-Ni Ho

    ハプティクス研究委員会 第31回研究会  2023.11 

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    Event date: 2023.11

    Language:English  

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    Simultaneous Perception of Warming and Tactile Stimuli in Multisensory Cutaneous Displays

  • Verification of Thermal Property of Artificial Fingers for Recording Thermal Transients During Hand-Object Interaction

    亀山直生, Hsin-Ni Ho

    ハプティクス研究委員会 第31回研究会  2023.11 

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    Event date: 2023.11

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    Verification of Thermal Property of Artificial Fingers for Recording Thermal Transients During Hand-Object Interaction

  • オノマトペマップを用いた温度が生地の質感知覚に与える影響の評価

    Rina Muroyama, Hsin-Ni Ho

    ハプティクス研究委員会 第31回研究会  2023.11 

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    Event date: 2023.11

    Language:Japanese  

    Country:Other  

  • Simultaneous Perception of Warming and Tactile Stimuli in Multisensory Cutaneous Displays

    Takuya Jodai, Masahiko Terao, Lynette A. Jones, Hsin-Ni Ho

    ハプティクス研究委員会 第31回研究会  2023.11 

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    Event date: 2023.11

    Language:English   Presentation type:Oral presentation (general)  

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  • 触覚による鼓動の知覚がバーチャルアバターの印象に与える影響の調査

    桑島理子, 渡邊淳司, Hsin-Ni Ho

    ハプティクス研究委員会;回研究会  2023.11 

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    Event date: 2023.11

    Language:Japanese   Presentation type:Oral presentation (general)  

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  • オノマトペマップを用いた温度が生地の質感知覚に与える影響の評価

    Rina Muroyama, Hsin-Ni Ho

    ハプティクス研究委員会 第31回研究会  2023.11 

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    Event date: 2023.11

    Language:Japanese   Presentation type:Oral presentation (general)  

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  • Verification of Thermal Property of Artificial Fingers for Recording Thermal Transients During Hand-Object Interaction

    亀山直生, Hsin-Ni Ho

    ハプティクス研究委員会 第31回研究会  2023.11 

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    Event date: 2023.11

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  • Determination of the thermal-tactile simultaneity window for multisensory displays

    Jodai, T, Terao, M, Jones, L.A, Ho, H

    第14回多感覚研究会  2023.11 

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    Event date: 2023.11

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    Determination of the thermal-tactile simultaneity window for multisensory displays

  • Determination of the thermal-tactile simultaneity window for multisensory displays

    Jodai, T, Terao, M, Jones, L.A, Ho, H

    第14回多感覚研究会  2023.11 

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  • Assessing Emotional Sharing Using Air-Transmit Haptic Communication Device

    山下 藍香, 渡邊 淳司, Hsin-Ni Ho

    第28回日本バーチャルリアリティ学会大会  2023.9 

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    Event date: 2023.9

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    Country:Other  

    Assessing Emotional Sharing Using Air-Transmit Haptic Communication Device

  • Assessing Emotional Sharing Using Air-Transmit Haptic Communication Device

    山下 藍香, 渡邊 淳司, Hsin-Ni Ho

    The 28th Annual Meeting of the Virtual Reality Society of Japan  2023.9 

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  • 最後通牒ゲームを社会的距離の測定に用いることの妥当性の検討

    亀山 直生, 渡邊 淳司, 何 昕霓

    第 202回 ヒューマンコンピュータインタラクション研究会.  2023.3 

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    Event date: 2023.3

    Language:Japanese  

    Country:Other  

  • 動画鑑賞時における触覚デバイスを通じた感情の伝達に関する評価

    山下藍香, 渡邊 淳司, 何 昕霓

    第 202回 ヒューマンコンピュータインタラクション研究会  2023.3 

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    Event date: 2023.3

    Language:Japanese  

    Country:Other  

  • 動画鑑賞時における触覚デバイスを通じた感情の伝達に関する評価

    山下藍香, 渡邊 淳司, 何 昕霓

    第 202回 ヒューマンコンピュータインタラクション研究会  2023.3 

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    Language:Japanese   Presentation type:Oral presentation (general)  

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  • 最後通牒ゲームを社会的距離の測定に用いることの妥当性の検討

    亀山 直生, 渡邊 淳司, 何 昕霓

    第 202回 ヒューマンコンピュータインタラクション研究会.  2023.3 

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    Language:Japanese   Presentation type:Oral presentation (general)  

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  • 温度手がかりに基づく材質知覚の研究

    西村惇, 何昕霓

    ハプティクス研究委員会 第29回研究会  2022.11 

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    Event date: 2022.11

    Language:Japanese  

    Country:Other  

  • Determination of the thermal-tactile simultaneity window for multisensory displays

    Jodai, T, Terao, M, Jones. L.A., Ho, H.-N

    ハプティクス研究委員会 第29回研究会  2022.11 

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    Determination of the thermal-tactile simultaneity window for multisensory displays

  • Verification in the transmission of emotion through a haptic device

    Yamashita, A, Watanabe, J, Ho, H.-N

    ハプティクス研究委員会 第29回研究会  2022.11 

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    Event date: 2022.11

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    Verification in the transmission of emotion through a haptic device

  • Verification of the effect of feeling heartbeat by touch on social distance

    Kameyama, N, Watanabe, J, Ho, H.-N

    ハプティクス研究委員会 第29回研究会.  2022.11 

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    Event date: 2022.11

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    Verification of the effect of feeling heartbeat by touch on social distance

  • Determination of the thermal-tactile simultaneity window for multisensory displays

    Jodai, T, Terao, M, Jones. L.A., Ho, H.-N

    ハプティクス研究委員会 第29回研究会  2022.11 

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  • 温度手がかりに基づく材質知覚の研究

    西村惇, 何昕霓

    ハプティクス研究委員会 第29回研究会  2022.11 

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    Event date: 2022.11

    Language:Japanese   Presentation type:Oral presentation (general)  

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  • Verification of the effect of feeling heartbeat by touch on social distance

    Kameyama, N, Watanabe, J, Ho, H.-N

    ハプティクス研究委員会 第29回研究会.  2022.11 

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    Event date: 2022.11

    Language:English   Presentation type:Oral presentation (general)  

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  • Verification in the transmission of emotion through a haptic device

    Yamashita, A, Watanabe, J, Ho, H.-N

    ハプティクス研究委員会 第29回研究会  2022.11 

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    Event date: 2022.11

    Language:English   Presentation type:Oral presentation (general)  

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  • Physiological and Psychological Effects of Body Projection Mapping

    Ho, H.-N, Kuwajima, R, Ishii, T

    第27回日本バーチャルリアリティ学会大会  2022.9 

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    Event date: 2022.9

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    Country:Other  

    Physiological and Psychological Effects of Body Projection Mapping

  • Physiological and Psychological Effects of Body Projection Mapping

    Ho, H.-N, Kuwajima, R, Ishii, T

    27th Annual Conference of the Virtual Reality Society of Japan  2022.9 

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    Presentation type:Oral presentation (general)  

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  • Colour-temperature relationship in natural texture images revealed by domain adaptation International conference

    Terashima, H, Ho, H.-N, Wakamatsu, K, Kwon, J, Sakamoto, M, Nakauchi, S, Nishida, S

    2020年度 人工知能学会全国大会Online meeting  2020.5 

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    Event date: 2020.5

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    Country:Other  

    Colour-temperature relationship in natural texture images revealed by domain adaptation

  • Physical-Perceptual Correspondence for Dynamic Thermal Stimulation

    Ho, H.-N, Sato, K, Kuroki, S, Watanabe, J, Maeno, T, Nishida, S

    IEEE Haptics symposium  2018.5 

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    Event date: 2018.5

    Language:Others  

    Venue:San Fransico, CA, USA   Country:United States  

    Physical-Perceptual Correspondence for Dynamic Thermal Stimulation

  • Symposia: Visual Science and Its Outreach to General Public

    Tseng, C, Ho, H.-N, Watanabe, J

    APCV 2017  2017.5 

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    Event date: 2017.5

    Language:Others  

    Venue:Tainan, Taiwan   Country:Taiwan, Province of China  

  • Adaptation to illusory thermal uniformity created by thermal referral

    Ho, H.-N, Chow, D, Roseboom, W

    International Congress on Psychology  2016.5 

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    Event date: 2016.5

    Language:Others  

    Venue:Yokohama, Japan   Country:Japan  

  • Thermal modeling for material identification

    Ho, H.-N

    【OS】質感と感性, 2016年度 人工知能学会全国大会  2016.5 

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    Event date: 2016.5

    Language:Others  

    Venue:北九州   Country:Japan  

    Thermal modeling for material identification

  • Perceptual Representation of Dynamic Thermal Stimulation

    Ho, H.-N, Sato, K, Kuroki, S, Watanabe, J, Maeno, T, Nishida, S

    Workshop:Thermal Perception & Thermal Displays, EuroHaptics 2016  2016.5 

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    Event date: 2016.5

    Language:Others  

    Venue:, London, UK.   Country:United Kingdom  

  • Averaging or contrast? Haptic illusions resulting from two crossmodal integration strategies

    Ho, H.-N

    EuroHaptics  2016.5 

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    Event date: 2016.5

    Language:Others  

    Venue:, London, UK.   Country:United Kingdom  

  • 触覚の多感覚統合: 温度と色の知覚相互作用 Invited

    Hsin-Ni Ho

    第七回多感覚研究会 触覚認知研究ワークショップ  2015.11 

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    Event date: 2015.11

    Language:Others  

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    触覚の多感覚統合: 温度と色の知覚相互作用

  • 物体の温度知覚に色情報が与える影響 Invited

    Ho, H.-N

    【OS】力触覚の提示と計算:触感の設計, 第20回日本バーチャルリアリティ学会大会  2015.9 

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    Event date: 2015.9

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    Country:Other  

    物体の温度知覚に色情報が与える影響

  • 色と温度の相互作用:赤い物体よりも青い物体に触れたときのほうが温かく感じやすい

    Ho, H.-N

    日本基礎心理学会第33回大会 サテライトオーラルセッション  2014.5 

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    Event date: 2014.5

    Language:Others  

    Country:Japan  

    色と温度の相互作用:赤い物体よりも青い物体に触れたときのほうが温かく感じやすい

  • A study on color-temperature interactions International conference

    Ho, H.-N, Iwai, D, Yoshikawa, Y, Watanabe, J, Nishida, S

    第五回多感覚研究会  2013.11 

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    Event date: 2013.11

    Language:Others  

    Country:Japan  

    A study on color-temperature interactions

  • Timing difference between subjective and physical temperature peaks in warm and cold senses

    Ho, H.-N, Sato, K, Kuroki, S, Watanabe, J, Maeno, T, Nishida, S

    H25温熱生理研究会,岡崎生理研  2013.9 

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    Event date: 2013.9

    Language:Others  

    Country:Japan  

    Timing difference between subjective and physical temperature peaks in warm and cold senses

  • Effects of color on perceived temperature International conference

    Ho, H.-N, Iwai, D, Yoshikawa, Y, Watanabe, J, Nishida, S

    Proceedings of European Conference on Visual Perception (ECVP2013)  2013.8 

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    Event date: 2013.8

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    Country:Other  

    Effects of color on perceived temperature

  • Dissociation of subjective peak timing between hot and cold stimuli

    Ho, H.-N, Sato, K, Kuroki, S, Watanabe, J, Maeno, T, Nishida, S

    36th Annual Meeting of the Japan Neuroscience Society  2013.6 

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    Event date: 2013.6

    Language:Others  

    Venue:Kyoto, Japan   Country:Japan  

  • The Effects of Temperature on Impulse Control

    Ho, H.-N, Norimichi Kitagawa, Makio Kashino

    The 35th Annual Meeting of the Japan Neuroscience Society  2012.9 

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    Event date: 2012.9

    Language:Others  

    Country:Japan  

    The Effects of Temperature on Impulse Control

  • The pleasant heat? A study of thermal-emotion associations

    Ho, H.-N, Penny Bergman, Ai Koizumi, Ana Tajadura-Jiménez, Norimichi Kitagawa

    13th International Multisensory Research Forum  2012.6 

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    Event date: 2012.6

    Language:Others  

    Venue:Oxford, UK   Country:United Kingdom  

  • A study on thermal-colour correspondences International conference

    Ho, H.-N, Van Doorn, G, Kawabe, T, Watanabe, J, Spence, C

    第四回多感覚研究会  2013.1 

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    Event date: 2012.1

    Language:Others  

    Country:Japan  

    A study on thermal-colour correspondences

  • 温度感覚と触覚の統合メカニズム Invited

    Hsin-Ni Ho

    日本心理学会第75回大会 ワークショップ「学際的な触覚研究の最前線」  2011.9 

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    Event date: 2011.9

    Language:Others  

    Country:Japan  

    温度感覚と触覚の統合メカニズム

  • Somatotopic or Spatiotopic? Frame of reference for localizing thermal sensations under thermo-tactile interactions International conference

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    Annual Meeting of Society for Neuroscience  2010.11 

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    Event date: 2010.11

    Language:Others  

    Country:United States  

    Somatotopic or Spatiotopic? Frame of reference for localizing thermal sensations under thermo-tactile interactions

  • Thermal referral: A filling-in phenomenon that involves cross-modal processing of thermal and tactile stimuli

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    33nd Annual Meeting of the Japan Neuroscience Society  2010.9 

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    Event date: 2010.9

    Language:Others  

    Country:Japan  

    Thermal referral: A filling-in phenomenon that involves cross-modal processing of thermal and tactile stimuli

  • Mechanisms underlying referral of thermal sensations to sites of tactile stimulation International conference

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    Tactile Research Group meeting  2010.5 

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    Event date: 2010.5

    Language:Others  

    Country:United States  

    Mechanisms underlying referral of thermal sensations to sites of tactile stimulation

  • Thermal sensations redistribute within the tactile boundary

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    第一回多感覚研究会  2009.12 

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    Event date: 2009.12

    Language:Others  

    Country:Japan  

    Thermal sensations redistribute within the tactile boundary

  • Feeling of cooling on a non-stimulated skin site: Effect of vascular response on thermal perception

    Ho, H.-N, Craig, A.D

    32nd Annual Meeting of the Japan Neuroscience Society  2009.9 

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    Event date: 2009.9

    Language:Others  

    Country:Japan  

    Feeling of cooling on a non-stimulated skin site: Effect of vascular response on thermal perception

  • Cooling of a non-stimulated skin site due to activation of sympathetic cutaneous vasoconstrictors International conference

    Ho, H.-N, Craig, A.D

    the 3rd International Symposium on Physiology and Pharmacology of Temperature Regulation 2009 (PPTR2009)  2009.7 

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    Event date: 2009.7

    Language:Others  

    Venue:Matsue, Japan   Country:Japan  

  • Thermal intensity perception under thermo-tactile interaction International conference

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    10th International Multisensory Research Forum  2009.6 

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    Event date: 2009.6 - 2009.7

    Language:Others  

    Country:United States  

    Thermal intensity perception under thermo-tactile interaction

  • Influence of contact conditions on thermal responses of the hand

    Galie, J, Ho, H.-N, Jones, L.A

    World Haptics Conference 2009 (3rd Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems)  2009.3 

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    Event date: 2009.3

    Language:Others  

    Country:United States  

    Influence of contact conditions on thermal responses of the hand

  • Revealing invisible traces of human-object interactions with thermal vision International conference

    Galie, J, Ho, H.-N, Jones, L.A

    World Haptics Conference 2009 (3rd Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems)  2009.3 

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    Event date: 2009.3

    Language:Others  

    Country:United States  

    Revealing invisible traces of human-object interactions with thermal vision

  • Perceptual thermal uniformity created by thermal referral International conference

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    Annual Meeting of Society for Neuroscience  2008.11 

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    Event date: 2008.11

    Language:Others  

    Country:United States  

    Perceptual thermal uniformity created by thermal referral

  • Role of Touch in thermal localization International conference

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    9th International Multisensory Research Forum  2008.6 

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    Event date: 2008.6

    Language:Others  

    Country:Germany  

    Role of Touch in thermal localization

  • Revealing the effects of finger position on referred thermal sensation International conference

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    Annual Meeting of Society for Neuroscience  2007.11 

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    Event date: 2007.11

    Language:Others  

    Country:United States  

    Revealing the effects of finger position on referred thermal sensation

  • Whole-Body Vibration Influences Sound Localization in the Median Plane International conference

    Tajadura-Jiménez, A, Väljamäe, A, Kitagawa, N, Ho, H.-N

    Proceedings of the 10th Annual International Workshop on Presence  2007.10 

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    Event date: 2007.10

    Language:Others  

    Country:Spain  

    Whole-Body Vibration Influences Sound Localization in the Median Plane

  • Monitoring skin temperature during hand-object interactions International conference

    Ho, H.-N, Jones, L.A

    Proceedings of the 2007 InfraMation Conference  2007.10 

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    Event date: 2007.10

    Language:Others  

    Country:United States  

    Monitoring skin temperature during hand-object interactions

  • Revealing invisible traces of human-object interactions with thermal vision International conference

    Ho, H.-N, Amemiya, T, Ando, H

    Proceedings of the 2007 InfraMation Conference  2007.10 

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    Event date: 2007.10

    Language:Others  

    Country:United States  

    Revealing invisible traces of human-object interactions with thermal vision

  • Discrimination of Referred Thermal Sensation with Uncrossed and Crossed Fingers

    Ho, H.-N, Watanabe, J, Ando, H, Kashino, M

    日本バーチャルリアリティ学会第12回大会  2007.9 

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    Event date: 2007.9

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    Country:Japan  

    Discrimination of Referred Thermal Sensation with Uncrossed and Crossed Fingers

  • Model-based Thermal Display for Object Discrimination International conference

    Jones, L.A, d Ho, H.-N

    Society for Neuroscience  2006.10 

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    Event date: 2006.10

    Language:Others  

    Country:United States  

    Model-based Thermal Display for Object Discrimination

  • メディア系コースにおける機構を利用したインタラクション装置試作演習の指導

    竹之内 和樹, 何昕霓

    ヒューマンサポートサイエンス学会 (HSS学会)  2023.7 

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    Language:Japanese  

    Country:Other  

  • The role of thermal cues in material discrimination

    Jones, L.A, d Ho, H.-N

    Society for Neuroscience 

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    Country:Other  

  • 温度感覚における触覚の役割 Invited

    Ho, H.-N

    日本心理学会第72回大会 「触」経験と多感覚統合ワークショップ  2008.9 

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    温度感覚における触覚の役割

  • Thermal Referral- A study on cross-modal processing between thermal and tactile modalities Invited

    Ho, H.-N

    University College of London, London, UK  2012.6 

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    Country:Other  

  • What do you know about human thermal perception? Invited

    Ho, H.-N

    National Taiwan University  2014.5 

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    Country:Other  

  • Influence of object material properties and geometry on skin temperature responses during contact International conference

    Ho, H.-N

    EuroHaptics 2016  2016.7 

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    Language:Others  

    Venue:, London, UK.   Country:United Kingdom  

  • Physical and perceptual processes underlying thermal aspect of hand-object interactions Invited

    Ho, H.-N

    Universidad Loyola Andalucía  2016.7 

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    Language:Others  

    Country:Other  

  • Crossmodal influence on object temperature perception Invited

    Hsin-Ni Ho

    愛媛大学知覚研究会  2018.3 

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    Language:Others  

    Country:Other  

    Crossmodal influence on object temperature perception

  • Thermal-tactile Integration in Object Temperature Perception

    Ho, H.-N, Chow, H, Tsunokake, S, Roseboom, W

    World haptics  2019.7 

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    Language:Others  

    Venue:Tokyo, Japan.   Country:Japan  

    Thermal-tactile Integration in Object Temperature Perception

  • Is touching believing? Color influence in object temperature perception Invited

    Hsin-Ni Ho

    2019.7 

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    Language:Others  

    Country:Other  

    Is touching believing? Color influence in object temperature perception

  • Visual inference for warm/cold perception of surfaces

    Ho, H.-N, Terashima, H, Wakamatsu, K, Kwon, J, Sakamoto, M, Nakauchi, S, Nishida, S

    European Conference on Visual Perception  2019.8 

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    Language:Others  

    Venue:Leuven, Belgium.   Country:Belgium  

    Visual inference for warm/cold perception of surfaces

  • メディア系コースにおける機構を利用したインタラクション装置試作演習の指導

    竹之内 和樹, 何昕霓

    ヒューマンサポートサイエンス学会 (HSS学会)  2023.7 

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    Language:Japanese   Presentation type:Oral presentation (general)  

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  • The role of thermal cues in material discrimination

    Jones, L.A, d Ho, H.-N

    Society for Neuroscience 

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MISC

  • 質感と感性コミュニケーションに大事な温度感覚

    Hsin-Ni Ho

    心理学ワールド 98   2022.7

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    Language:Japanese  

    Temperature perception for texture recogntnion and affective communication

  • Temperature perception for texture recogntnion and affective communication Invited

    Hsin-Ni Ho

    Psychology world 98   ( 98 )   2022.7

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    Authorship:Lead author, Corresponding author   Language:Japanese  

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  • Room Escape: A New Way for Visual Science Outreach

    Tseng Chia-huei, Ho Hsin-Ni, Watanabe Junji

    VISION   2018.8

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    Language:English  

    Room Escape: A New Way for Visual Science Outreach

  • 体性感覚―What’s New 異種感覚との相互作用 温度覚と色覚の感覚間相互作用

    HO Hsin‐Ni, 岩井大輔

    Clinical Neuroscience   2017.2

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    Language:Japanese  

    Somatic sensation - What's New: Interactions with different senses "Sensory interactions between temperature and color perception"

  • Thermal modeling for material identification

    Ho Hsin-Ni

    人工知能学会全国大会論文集   2016.9

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    Language:Japanese  

    Thermal modeling for material identification

  • Color-temperature correspondence: Its nature and its impact on object temperature perception

    Ho, H.-N.

    NTT Technical Review   2015.5

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    Language:Others  

    Repository Public URL: https://hdl.handle.net/2324/7236442

  • 物体の温度知覚に色情報が与える影響

    HO Hsin‐Ni

    日本バーチャルリアリティ学会大会論文集   2015.4

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    Language:Japanese  

    Influence of color information on object temperature perception

  • 「触」経験と多感覚統合

    北川 智利, 和田 有史, 金山 範明, 鈴木 結花, Ho Hsin-ni, 安藤 英由樹, 渡邊 淳司, 一川 誠

    日本心理学会大会発表論文集   2008.3

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    Language:Japanese  

    Tactile experience and multisensory integration

  • 五感インタフェースによるノンバーバルコミュニケーション

    雨宮智浩, 安藤英由樹, 何昕霓

    NTT技術ジャーナル   2007.5

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    Language:Others  

    Nonverbal Communication through the Five Senses Interface

  • Discrimination of Referred Thermal Sensation with Uncrossed and Crossed Fingers

    HO Hsin‐Ni, WATANABE Junji, ANDO Hideyuki, KASHINO Makio

    日本バーチャルリアリティ学会大会論文集(CD-ROM)   2007.5

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    Language:English  

    Discrimination of Referred Thermal Sensation with Uncrossed and Crossed Fingers

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Industrial property rights

Patent   Number of applications: 2   Number of registrations: 2
Utility model   Number of applications: 0   Number of registrations: 0
Design   Number of applications: 0   Number of registrations: 0
Trademark   Number of applications: 0   Number of registrations: 0

Professional Memberships

  • 日本感性工学会

    2024.3 - Present

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  • IEEE

    2022.3 - Present

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  • Haptics Committee in the Society of Instrument and Control Engineers, Japan

  • The Society for Neuroscience

  • THE VIRTUAL REALITY SOCIETY OF JAPAN

  • THE JAPANESE PSYCHONOMIC SOCIETY

  • IEEE

  • 日本感性工学会

  • THE JAPANESE PSYCHONOMIC SOCIETY

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  • THE VIRTUAL REALITY SOCIETY OF JAPAN

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  • The Society for Neuroscience

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  • Haptics Committee in the Society of Instrument and Control Engineers, Japan

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Committee Memberships

  • 日本バーチャルリアリティ学会論文誌 (VR心理学9)   Guest Editor  

    2023.9 - 2023.12   

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    Committee type:Academic society

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  • The Society of Instrument and Control Engineers (SICE)   Haptics Committee  

    2010.6 - Present   

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    Committee type:Academic society

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Academic Activities

  • Program committee member (Associate editor) for the IEEE World Haptics Conference 2023

    Role(s): Planning, management, etc., Review, evaluation

    IEEE World Haptics Conference 2023  2023.2 - 2023.7

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    Type:Competition, symposium, etc. 

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  • Organizer for Smell, Taste, and Temperature Interfaces Workshop at CHI 2023

    Role(s): Planning, management, etc., Panel moderator, session chair, etc., Review, evaluation

    The ACM CHI Conference on Human Factors in Computing Systems  2022.10 - 2023.4

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    Type:Competition, symposium, etc. 

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  • Review, evaluation, Peer review International contribution

    Program committee member (Associate editor) for the EuroHaptics Conference 2024  ( France ) 2024.2 - 2024.7

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    Type:Competition, symposium, etc. 

  • Program committee member (Associate editor) for the EuroHaptics Conference 2024

    Role(s): Review, evaluation, Peer review

    Eurohaptics 2024  2024.2 - 2024.7

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    Type:Competition, symposium, etc. 

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  • Guest Editor of the Special Session of the IEEE Transactions on Haptics

    Role(s): Supervision (editorial), Peer review

    IEEE Transactions on Haptics  2023.10 - 2023.12

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    Type:Peer review 

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  • IEEE Transactions on Haptics International contribution

    2023.10 - 2023.12

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    Type:Academic society, research group, etc. 

  • 審査・評価, 査読 International contribution

    Program committee member for The 9th Annual Conference of Taiwan Association of Computer-Human Interaction  ( Taiwan ) 2023.8

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    Type:Competition, symposium, etc. 

  • Program committee member for The 9th Annual Conference of Taiwan Association of Computer-Human Interaction

    Role(s): Review, evaluation, Peer review

    2023.8

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    Type:Competition, symposium, etc. 

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  • VR学会論文誌 第29巻第1号 「VR心理学9」特集 ゲストエディタ

    Role(s): Planning, management, etc., Peer review

    2023.8 - 2024.2

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    Type:Peer review 

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  • VR学会論文誌

    2023.8 - 2024.2

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    Type:Academic society, research group, etc. 

  • Organizer for IEEE World Haptics 2023 “Touching the future: Science and Technology of Multisensory Cutaneous displays Workshop”

    Role(s): Planning, management, etc., Panel moderator, session chair, etc.

    IEEE World Haptics  2023.7

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    Type:Competition, symposium, etc. 

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  • Planning, management, etc., Review, evaluation International contribution

    Program committee member (Associate editor) for the IEEE World Haptics Conference 2023  ( Netherlands ) 2023.2 - 2023.7

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    Type:Competition, symposium, etc. 

  • Planning, management, etc., Panel moderator, session chair, etc., Review, evaluation International contribution

    Organizer for Smell, Taste, and Temperature Interfaces Workshop at CHI 2023  ( Germany ) 2022.10 - 2023.4

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    Type:Competition, symposium, etc. 

  • Screening of academic papers

    Role(s): Peer review

    2021

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:3

    Proceedings of International Conference Number of peer-reviewed papers:1

  • 技術芸術展示学術奨励賞審査委員

    第24回日本バーチャルリアリティ学会大会  ( Japan ) 2019.9

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    Type:Competition, symposium, etc. 

  • 論文賞審議会委員 International contribution

    World Haptics 2019  ( Tokyo Japan ) 2019.7

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    Type:Competition, symposium, etc. 

  • Planning, management, etc., Panel moderator, session chair, etc. International contribution

    Organizer for "Thermal Perception and Thermal Displays" Workshop at Eurohaptics 2016  ( UnitedKingdom ) 2016.7

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    Type:Competition, symposium, etc. 

  • Temperature International contribution

    2015.5 - 2021.6

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    Type:Academic society, research group, etc. 

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Research Projects

  • World in your hand: Investigating the underlying mechanism of thermal material recognition and its interaction with multisensory information

    Grant number:23K24934  2024.4 - 2027.3

    Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (B)

    Ho HsinNi, 佐藤 克成

      More details

    Grant type:Scientific research funding

    Some materials feel colder to the touch than others, and this thermal information is useful for material recognition. Here we investigate its psychological process, including thermal cues for recognition, mental representation of materials, and multisensory influence. The findings will contribute to touch sharing utilizing digital touch technology, design practice emphasizing tactile quality and social welfare for the blind.

  • マルチモーダル皮膚感覚提示技術開発のための感覚統合解析

    2024 - 2025

    公益財団法人電気通信普及財団 2023年度 研究調査助成

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    Authorship:Principal investigator  Grant type:Contract research

  • NA

    2024

    令和6年度「研究補助者雇用支援」(春期)

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    Authorship:Principal investigator  Grant type:On-campus funds, funds, etc.

  • Seeing Touch - Predicting Tactile Experience from Visual Information

    2023

    数理・データサイエンスに関する教育・研究支援プログラム

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    Authorship:Principal investigator  Grant type:On-campus funds, funds, etc.

  • NA

    2023

    令和5年度 秋「研究補助者雇用支援(短期)」

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    Authorship:Principal investigator  Grant type:On-campus funds, funds, etc.

  • World in your hand: Investigating the underlying mechanism of thermal material recognition and its interaction with multisensory information

    Grant number:22H03679  2022 - 2026

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (B)

    Ho HsinNi, 佐藤 克成

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    Grant type:Scientific research funding

    Some materials feel colder to the touch than others, and this thermal information is useful for material recognition. Here we investigate its psychological process, including thermal cues for recognition, mental representation of materials, and multisensory influence. The findings will contribute to design practice emphasizing tactile quality and social welfare for the blind.
    In FY2022, we successfully established the necessary research environments and acquired the required research facilities. We carried out human experiments on material recognition based on thermal cues and the integration between thermal and tactile cues. We found a thermophysical property that can predict the subjective material judgement and identify an integration rule for thermal and tactile cues.We have presented these findings in domestic meetings. Our findings have the potential to inform the engineering design of haptic technologies for reproducing material characteristics, ultimately enhancing user experiences.
    In the initial plan, the first year was designated for hardware development, with human experiments scheduled to commence in the second year. Our progress has exceeded expectations, as we not only established the essential research environments but also conducted human experiments and presentated our results in research meetings.
    In FY2023, we will analyze FY2022 data and advancing our understanding of hand-material interactions for haptic technology. We plan to present key findings at an international conference, fostering knowledge exchange within the scientific community. Our thermal display development will continue, aiming to accurately replicate skin temperature changes during hand-material interactions, refining existing technology, and exploring innovative methods to enhance realism and user experience. Moreover, we will establish a comprehensive material database by measuring the physical properties of material samples, such as thermal effusivity and surface roughness. These samples will inform future experiments and support our research objectives in haptic technologies and their applications.

  • Toward the holistic digital touch experience: Revealing spatio-temporal processing for multisensory feedback in cutaneous displays

    2022 - 2024

    MIT, Hayashi-ULVAC MISTI Seed Fund

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    Authorship:Principal investigator  Grant type:Contract research

  • Toward the holistic digital touch experience: Revealing Spatio-temporal processing for multisensory feedback in Cutaneous Displays International coauthorship

    2021.12

    Kyushu University, Japan 

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    Authorship:Principal investigator 

  • Shitsukan perception analysis using a data-driven approach

    2021.12

    Japan 

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    Authorship:Principal investigator 

  • 質感認知に関わる視聴触覚情報の心理物理的分析

    Grant number:22135004  2010 - 2014

    Japan Society for the Promotion of Science・Ministry of Education, Culture, Sports, Science and Technology  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research on Innovative Areas

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    Grant type:Scientific research funding

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Educational Activities

  • courses/classes taught:
    Virtual Reality
    Advanced Virtual Reality
    Real-world Interactions
    Design Thinking Programming
    Perceptual Psychology

Class subject

  • デザイン思考プログラミング演習

    2023.12 - 2024.2   Winter quarter

  • クリエーティブプロトタイピング演習

    2023.12 - 2024.2   Winter quarter

  • メディアデザイン総合プロジェクトⅡ

    2023.12 - 2024.2   Winter quarter

  • メディアデザイン概論Ⅱ

    2023.12 - 2024.2   Winter quarter

  • デザイン思考プログラミング演習

    2023.12 - 2024.2   Winter quarter

  • クリエーティブプロトタイピング演習

    2023.12 - 2024.2   Winter quarter

  • メディアデザイン総合プロジェクトⅡ

    2023.12 - 2024.2   Winter quarter

  • メディアデザイン概論Ⅱ

    2023.12 - 2024.2   Winter quarter

  • 卒業研究Ⅱ

    2023.10 - 2024.3   Second semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅱ(2021年度以前入学者)

    2023.10 - 2024.3   Second semester

  • メディアデザインプレゼンテーション演習(旧:プレゼンテーション特別演習)

    2023.10 - 2024.3   Second semester

  • 芸術工学演習(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 芸術工学特別研究Ⅳ(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 芸術工学特別研究Ⅱ(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 卒業研究Ⅱ

    2023.10 - 2024.3   Second semester

  • 卒業研究Ⅰ

    2023.10 - 2024.3   Second semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅱ(2021年度以前入学者)

    2023.10 - 2024.3   Second semester

  • メディアデザインプレゼンテーション演習(旧:プレゼンテーション特別演習)

    2023.10 - 2024.3   Second semester

  • 芸術工学演習(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 芸術工学特別研究Ⅳ(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 芸術工学特別研究Ⅱ(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 卒業研究Ⅱ

    2023.10 - 2024.3   Second semester

  • 卒業研究Ⅰ

    2023.10 - 2024.3   Second semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅱ(2021年度以前入学者)

    2023.10 - 2024.3   Second semester

  • メディアデザインプレゼンテーション演習(旧:プレゼンテーション特別演習)

    2023.10 - 2024.3   Second semester

  • 芸術工学演習(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 芸術工学特別研究Ⅳ(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 芸術工学特別研究Ⅱ(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 卒業研究Ⅱ

    2023.10 - 2024.3   Second semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅱ(2021年度以前入学者)

    2023.10 - 2024.3   Second semester

  • メディアデザインプレゼンテーション演習(旧:プレゼンテーション特別演習)

    2023.10 - 2024.3   Second semester

  • 芸術工学演習(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 芸術工学特別研究Ⅳ(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • 芸術工学特別研究Ⅱ(メディアデザインコース)

    2023.10 - 2024.3   Second semester

  • バーチャルリアリティ特論

    2023.10 - 2023.12   Fall quarter

  • バーチャルリアリティ特論

    2023.10 - 2023.12   Fall quarter

  • バーチャルリアリティ特論

    2023.10 - 2023.12   Fall quarter

  • バーチャルリアリティ特論

    2023.10 - 2023.12   Fall quarter

  • バーチャルリアリティ

    2023.6 - 2023.8   Summer quarter

  • 知覚心理学

    2023.6 - 2023.8   Summer quarter

  • 実世界インタラクション演習

    2023.6 - 2023.8   Summer quarter

  • バーチャルリアリティ

    2023.6 - 2023.8   Summer quarter

  • 知覚心理学

    2023.6 - 2023.8   Summer quarter

  • 実世界インタラクション演習

    2023.6 - 2023.8   Summer quarter

  • 芸術工学特別研究Ⅰ(メディアデザインコース)

    2023.4 - 2023.9   First semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅰ(2021年度以前入学者)

    2023.4 - 2023.9   First semester

  • 芸術工学特別研究Ⅲ(メディアデザインコース)

    2023.4 - 2023.9   First semester

  • 芸術工学特別研究Ⅰ(メディアデザインコース)

    2023.4 - 2023.9   First semester

  • 卒業研究Ⅰ

    2023.4 - 2023.9   First semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅰ(2021年度以前入学者)

    2023.4 - 2023.9   First semester

  • 芸術工学特別研究Ⅲ(メディアデザインコース)

    2023.4 - 2023.9   First semester

  • 芸術工学特別研究Ⅰ(メディアデザインコース)

    2023.4 - 2023.9   First semester

  • 卒業研究Ⅰ

    2023.4 - 2023.9   First semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅰ(2021年度以前入学者)

    2023.4 - 2023.9   First semester

  • 芸術工学特別研究Ⅲ(メディアデザインコース)

    2023.4 - 2023.9   First semester

  • 芸術工学特別研究Ⅰ(メディアデザインコース)

    2023.4 - 2023.9   First semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅰ(2021年度以前入学者)

    2023.4 - 2023.9   First semester

  • 芸術工学特別研究Ⅲ(メディアデザインコース)

    2023.4 - 2023.9   First semester

  • メディアデザイン総合プロジェクトⅠ

    2023.4 - 2023.6   Spring quarter

  • メディアデザイン総合プロジェクトⅠ

    2023.4 - 2023.6   Spring quarter

  • デザイン思考プログラミング演習

    2022.12 - 2023.2   Winter quarter

  • クリエーティブプロトタイピング演習

    2022.12 - 2023.2   Winter quarter

  • メディアデザイン概論Ⅱ

    2022.12 - 2023.2   Winter quarter

  • 芸術工学特別研究Ⅱ(メディアデザインコース)

    2022.10 - 2023.3   Second semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅱ(2021年度以前入学者)

    2022.10 - 2023.3   Second semester

  • 芸術工学演習(メディアデザインコース)

    2022.10 - 2023.3   Second semester

  • クリエーティブ発想演習

    2022.10 - 2022.12   Fall quarter

  • バーチャルリアリティ特論

    2022.10 - 2022.12   Fall quarter

  • 実世界インタラクション演習

    2022.6 - 2022.8   Summer quarter

  • 知覚心理学

    2022.6 - 2022.8   Summer quarter

  • 芸術工学特別研究Ⅰ(メディアデザインコース)

    2022.4 - 2022.9   First semester

  • クリエーティブプロトタイピング演習

    2022.4 - 2022.9   First semester

  • 実世界インタラクション演習

    2022.4 - 2022.9   First semester

  • 知覚心理学

    2022.4 - 2022.9   First semester

  • コンテンツ・クリエーティブデザイン特別演習Ⅰ(2021年度以前入学者)

    2022.4 - 2022.9   First semester

  • バーチャルリアリティ

    2022.4 - 2022.6   Spring quarter

  • デザイン思考プログラミング演習

    2021.10 - 2022.3   Second semester

  • バーチャルリアリティ特論

    2021.10 - 2022.3   Second semester

  • バーチャルリアリティ

    2021.10 - 2022.3   Second semester

  • デザイン思考プログラミング演習

    2021.4 - 2021.9   First semester

  • バーチャルリアリティ

    2021.4 - 2021.9   First semester

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FD Participation

  • 2022.4   Role:Participation   Title:令和4年度 第1回全学FD(新任教員の研修)The 1st All-University FD (training for new faculty members) in FY2022

    Organizer:University-wide

Visiting, concurrent, or part-time lecturers at other universities, institutions, etc.

  • 2023  熊本大学文学部 2023年度 「心理学特殊講義A」- 触覚  Classification:Intensive course  Domestic/International Classification:Japan 

  • 2019  慶応義塾大学 2019年度 “Haptic Science and Technology - Temperature Sensation”  Classification:Part-time lecturer  Domestic/International Classification:Japan 

    Semester, Day Time or Duration:2019年度

  • 2018  慶応義塾大学 2018年度 “Haptic Science and Technology - Temperature Sensation”  Classification:Part-time lecturer  Domestic/International Classification:Japan 

    Semester, Day Time or Duration:2018年度

  • 2017  台湾成功大学 2017年度 “Psychology in Gaming”  Classification:Intensive course  Domestic/International Classification:Overseas 

    Semester, Day Time or Duration:集中講義

Other educational activity and Special note

  • 2021  Special Affairs  芸情3年生向けのワークショップ「進路を考える」において、「Studying and working overseas」について講演し、自身の留学経験を共有し、学生の留学をサポートしました。

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    芸情3年生向けのワークショップ「進路を考える」において、「Studying and working overseas」について講演し、自身の留学経験を共有し、学生の留学をサポートしました。

Outline of Social Contribution and International Cooperation activities

  • Geiko Winter School 2022 Faculty member

Social Activities

  • 《The Pink Touchscopes 》Hsin-Ni Ho X YungAn Wang

    Role(s):Planner, Organizing member

    Coevolution Research Assembly and National Culture and Arts Foundation, Taiwan  2023 Borders Topography - Co-Creation Practice Field | Science and Art Collaboration Achievements Exhibition  Taiwan Contemporary Culture Lab (C-LAB)  2023.12

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    Audience:General

    Type:Seminar, workshop

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  • 《The Pink Touchscopes 》何昕霓 X 王永安

    Coevolution Research Assembly and National Culture and Arts Foundation, Taiwan  2023.12

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    Audience:General, Scientific, Company, Civic organization, Governmental agency

    This workshop is a collaborative outcome between scientist Hsin-Ni Ho and artist Wang Yung-An in the "Co-Creation Practice Arena." The workshop enables participants to record their personal tactile memories triggered by the social touch of a handshake using a specific method. The workshop guides participants to perceive temporal changes on the surface of the skin and internal sensory experiences beneath the skin, and to consider the cognition inside and outside of the skin to explore the possibilities of constructing tactile knowledge. The process involves using various methods including tactile exercises, pressure-sensitive paper measurements, coding, and sharing, attempting to create a hybrid sensory record that differs from traditional science or purely sensory approaches.

  • Scientist X Artist Co-Creation Workshop

    Role(s):Appearance, Panelist

    Coevolution Research Assembly and National Culture and Arts Foundation, Taiwan  Scientist X Artist Co-Creation Workshop  2022.10

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    Type:Seminar, workshop

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  • Scientist X Artist Co-Creation Workshop

    Coevolution Research Assembly and National Culture and Arts Foundation, Taiwan  2022.10

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    Audience:General, Scientific, Company, Civic organization, Governmental agency

  • 女子中高生の進学支援

    科学技術振興機構次世代人材育成事業「女子中高生の理系進路選択支援プログラム」  2018.12

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    Audience:General, Scientific, Company, Civic organization, Governmental agency

Media Coverage

  • 摸一摸,红色比蓝色更“冷”?

    进展 (China)  2014.8

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    摸一摸,红色比蓝色更“冷”?

  • 【神経科学】青色で暖かさを感じる

    2014.7

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    【神経科学】青色で暖かさを感じる

  • Blau ist wärmer als rot

    Wissen.de (Germany)  2014.7

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    Blau ist wärmer als rot

  • Blaue Objekte kommen uns wärmer vor als rote

    Spektrum.de (German)  2014.7

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    Blaue Objekte kommen uns wärmer vor als rote

  • Blue Is The Warmer Color

    Asian Scientist Magazine (Singapore)  2014.7

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    Blue Is The Warmer Color

  • Blue Objects Feel Warmer than Red Ones!

    ZeeNews (India)  2014.7

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    Blue Objects Feel Warmer than Red Ones!

  • Blue Objects Feel Warmer to Touch than Red Ones

    AustrianTribune.com  2014.7

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    Blue Objects Feel Warmer to Touch than Red Ones

  • Blue objects feel warmer than red ones

    The times of India  2014.7

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    Blue objects feel warmer than red ones

  • Color and Touch Perceptions: Red Feels Cooler Than Blue

    Guardian Liberty Voice  2014.7

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    Color and Touch Perceptions: Red Feels Cooler Than Blue

  • Colourful mind games: do blue objects real

    Science Alert (Australia and New Zealand)  2014.7

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    Colourful mind games: do blue objects real

  • Come sono caldi gli oggetti blu!

    Le Scienze (Italy)  2014.7

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    Come sono caldi gli oggetti blu!

  • Neuroscience: Feeling warmth with the blue

    Nature Press Office  2014.7

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    Neuroscience: Feeling warmth with the blue

  • Red Objects Strangely Feel Cooler to the Touch than Blue Ones

    Scientific American  2014.7

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    Red Objects Strangely Feel Cooler to the Touch than Blue Ones

  • ¿Qué espera tu cerebro que esté más caliente, un objeto rojo o uno azul?

    Vozpopuli.com (Spain)  2014.7

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    ¿Qué espera tu cerebro que esté más caliente, un objeto rojo o uno azul?

  • Is red warmer than blue? What colours can tell you

    The Conversation  2014.4

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    Is red warmer than blue? What colours can tell you

  • 触覚が温度知覚に影響:不思議な感覚の仕組み研究

    科学新聞  2009.6

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    触覚が温度知覚に影響:不思議な感覚の仕組み研究

  • フォトレポート:「NTT CS研オープンハウス×未来想論2009」-「温度感覚の不思議」

    ZDNet Japan  2009.6

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    フォトレポート:「NTT CS研オープンハウス×未来想論2009」-「温度感覚の不思議」

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Travel Abroad

  • 2002.9 - 2006.9

    Staying countory name 1:United States   Staying institution name 1:Massachusetts Institute of Technology