著者
板原 彰宏 狩野 文浩
出版者
THE JAPANESE SOCIETY FOR ANIMAL PSYCHOLOGY
雑誌
動物心理学研究 (ISSN:09168419)
巻号頁・発行日
pp.72.1.1, (Released:2022-04-16)
参考文献数
52
被引用文献数
6

Recent technological advances made it possible to record postural changes of moving animals in behavior/cognition research. Although several technologies are available for this purpose, one underexplored possibility is the use of an infrared motion-capture system, which excels at tracking subtle and rapid 3D movements of animals. We explored this possibility by developing a system optimized to track saccadic head movements of large-billed crows (Corvus macrorhynchos). We custom-built a motion-capture room, "Corvid Tracking Studio", in which birds can freely interact with conspecifics/objects while infrared cameras track the reflective markers attached to the birds' heads. We also developed a head-calibration method that reconstructs the 3D positions of each bird's eyes and beak tip with respect to those of the head markers. We then tested accuracies of the head-orientation coordinate system reconstructed from the eye-beak coordinates of a bird and confirmed that estimated errors were all within a degree (in Euler angles). We thus show that a motion capture system has a good potential to examine subtle and rapid movements of moving animals with several customizations.
著者
狩野 文浩
出版者
THE JAPANESE SOCIETY FOR ANIMAL PSYCHOLOGY
雑誌
動物心理学研究 (ISSN:09168419)
巻号頁・発行日
vol.69, no.2, pp.39-53, 2019 (Released:2019-12-18)
参考文献数
50
被引用文献数
2

Birds and primates typically attend to an object of interest using sensitive spots in the retina (i.e. the fovea). Therefore, the direction of their gaze indicates their focus of attention. Recent technological advances in miniature wearable devices allow us to examine birds' gaze behaviors in detail when they are freely moving, and even when they are flying. In this review, I aim to outline current knowledge about how birds use their gaze to attend to an object of interest, and what they are attending to when they are engaging in various natural activities, such as navigation, vigilance, and social interaction. I also aim to outline both strengths and limitations of techniques available for bird gaze-tracking. As a relevant example, I introduce a recent study that utilized Inertial Measurement Unit to examine how pigeons move their gaze while attending to landscapes and flockmates during their homing flights. Overall, I believe that recent sensor technologies offer a promising avenue for examining birds' visual attention and the associated mental processes in natural contexts.
著者
狩野 文浩 佐藤 侑太郎 山梨 裕美
出版者
THE JAPANESE SOCIETY FOR ANIMAL PSYCHOLOGY
雑誌
動物心理学研究 (ISSN:09168419)
巻号頁・発行日
pp.71.1.1, (Released:2021-01-14)
参考文献数
18
被引用文献数
3

We introduce a unique art-science collaboration project organized by contemporary artists and comparative psychologists at Kyoto City Zoo in 2019. The objectives of this project were to evaluate how chimpanzees and humans respond to movies created by professional artists and to contribute to an outreach event at the zoo by demonstrating the entire research process to the public. We asked the artists to make short movies 'for chimpanzees' and presented those movies to chimpanzee and human participants while tracking the participants' eye movements using an eye-tracker. Both chimpanzees and humans looked at similar elements of movies, such as appearance of animal figures, targets of actions, and the center of abstract concentric figures. The differences between chimpanzees and humans were also pronounced; for example, human showed strong 'center bias' by keeping their gaze around the center of the screen, while chimpanzee did so to a lesser extent. This study not only offered comparative knowledge about responses to (artistic) movies in chimpanzees and humans but demonstrated how non-scientists can learn comparative psychology through an outreach project.
著者
狩野 文浩
出版者
THE JAPANESE SOCIETY FOR ANIMAL PSYCHOLOGY
雑誌
動物心理学研究 (ISSN:09168419)
巻号頁・発行日
pp.69.1.1, (Released:2019-04-17)
参考文献数
50

Birds and primates typically attend to an object of interest using sensitive spots in the retina (i.e. the fovea). Therefore, the direction of their gaze indicates their focus of attention. Recent technological advances in miniature wearable devices allow us to examine birds' gaze behaviors in detail when they are freely moving, and even when they are flying. In this review, I aim to outline current knowledge about how birds use their gaze to attend to an object of interest, and what they are attending to when they are engaging in various natural activities, such as navigation, vigilance, and social interaction. I also aim to outline both strengths and limitations of techniques available for bird gaze-tracking. As a relevant example, I introduce a recent study that utilized Inertial Measurement Unit to examine how pigeons move their gaze while attending to landscapes and flockmates during their homing flights. Overall, I believe that recent sensor technologies offer a promising avenue for examining birds' visual attention and the associated mental processes in natural contexts.
著者
佐藤 侑太郎 狩野 文浩 平田 聡
出版者
THE JAPANESE SOCIETY FOR ANIMAL PSYCHOLOGY
雑誌
動物心理学研究 (ISSN:09168419)
巻号頁・発行日
pp.68.1.7, (Released:2018-05-31)
参考文献数
67
被引用文献数
3

Emotion is understudied in nonhuman animals despite broad interests in the topic. This is partly due to the difficulty in measuring subtle emotional reactions, such as physiological changes, under ecologically-valid situations. It is particularly challenging because the majority of traditional physiological measurements require animal participants to wear electrodes and head/body restraints in a laboratory. Recent advances in infrared thermography (IRT), and its use in measuring changes in animals' skin-temperature, offer suitable solutions for these challenges. This article reviews a growing body of research employing IRT in the study of animal emotions and identify both merits and shortcomings of IRT which need to be considered when designing experiments and observations. Also, we introduce our recent efforts to facilitate the use of IRT for the study of large-body animals, such as chimpanzees. Finally, we illustrate some of the critical future directions of IRT for the study of nonhuman animals. In conclusion, the study of animal emotion is more possible than ever before with this novel technology.
著者
狩野 文浩
出版者
日本霊長類学会
雑誌
霊長類研究 (ISSN:09124047)
巻号頁・発行日
vol.28, no.2, pp.95-108, 2012-12-20 (Released:2013-01-24)
参考文献数
35

Despite the importance of eye movement analysis in comparative and cognitive studies, the eye movements of great apes have not been examined until recently using the eye-tracking method. This is due to the lack of a non-invasive, unrestrained eye-tracking method, which is appropriate for great apes. In this review, I first show how a recent user-friendly corneal-reflection eye-tracking technique captures their eye movements accurately and stably. I then introduce several comparative studies that examined the eye movements of great apes (chimpanzees, gorillas, and orangutan) and humans when viewing still pictures of scenes and faces under similar conditions. The major conclusion of those studies is that, although the species were similar in their viewing patterns, quantitative species differences existed in those similarities. That is, great apes and humans viewed similar parts of scenes/faces for similar lengths of time. However, great apes and humans differed from each other in that (1) great apes scanned the scene more quickly and more widely than did humans in general, and (2) humans viewed the eye part of faces longer than did great apes. These species differences may reflect their cognitive differences. In future, there are at least three promising directions. (1) Movie presentations about other individuals' actions to reveal how great apes anticipate the others’ action goals. (2) A wearable eye-tracker to reveal how their vision actively interacts with the environment. (3) A correlational analysis to reveal how their basic gaze patterns influence their gaze-related performances such as gaze following and observational learning.
著者
狩野 文浩
出版者
日本霊長類学会
雑誌
霊長類研究 = Primate research (ISSN:09124047)
巻号頁・発行日
vol.28, no.2, pp.95-108, 2012-12-20
参考文献数
33

Despite the importance of eye movement analysis in comparative and cognitive studies, the eye movements of great apes have not been examined until recently using the eye-tracking method. This is due to the lack of a non-invasive, unrestrained eye-tracking method, which is appropriate for great apes. In this review, I first show how a recent user-friendly corneal-reflection eye-tracking technique captures their eye movements accurately and stably. I then introduce several comparative studies that examined the eye movements of great apes (chimpanzees, gorillas, and orangutan) and humans when viewing still pictures of scenes and faces under similar conditions. The major conclusion of those studies is that, although the species were similar in their viewing patterns, quantitative species differences existed in those similarities. That is, great apes and humans viewed similar parts of scenes/faces for similar lengths of time. However, great apes and humans differed from each other in that (1) great apes scanned the scene more quickly and more widely than did humans in general, and (2) humans viewed the eye part of faces longer than did great apes. These species differences may reflect their cognitive differences. In future, there are at least three promising directions. (1) Movie presentations about other individuals' actions to reveal how great apes anticipate the others' action goals. (2) A wearable eye-tracker to reveal how their vision actively interacts with the environment. (3) A correlational analysis to reveal how their basic gaze patterns influence their gaze-related performances such as gaze following and observational learning.