Birdsong projects:
Exploring acoustic interactions in bird communities emerging from behavioral plasticity using a microphone array and information theoretical analyses
We are interested in acoustic interactions among species of songbirds. Currently, we are interested in observing temporal overlap avoidance behaviors among different species using a microphone array, and analyzing what kind of structures of information flow from one species to another, which realize overall soundspace partitioning.
More specifically, birds do not always vocalize at random, but may rather divide up soundspace in such a manner that they avoid overlap with the songs of other birds. Such a behavior can be interpreted as an adaptive behavioral plasticity in that an individual modifies its resource exploiting strategy actively in response to the current state of resource use by others on a short time scale.
Our purpose is to understand temporal soundspace partitioning in bird communities as a self-organizing phenomenon emerging from inter- and intra-specific variations in behavioral plasticity. So far, we conducted pilot analyses on the degree of avoidance and the information flow from one species to another in singing behaviors at our primary field site, in a mixed conifer-oak forest near Volcano, CA. We found that asymmetric information flows between species might exist, and our coevolutionary simulations implied the evolutionary significance of such an inter-specific diversity. Also, we have stated to recording in Inabu field, Nagoya University, Japan.
However, it is very costly to annotate recorded tracks manually. Thus, we are developing and using a portable system composed of a laptop PC with an open source software for robot audition HARK (Honda Research Institute Japan Audition for Robots with Kyoto University) and a commercially available microphone array. We will publish this free-sofware system, termed HARKBird, on this site soon.
If interested in HARKBird, please let me know via e-mail: reiji@nagoya-u.jp
Publications
Here are the some publications related to our project.
- Shinji Sumitani, Reiji Suzuki, Takaya Arita, Naren, Shiho Matsubayashi, Kazuhiro Nakadai, Hiroshi G. Okuno: Field observations and virtual experiences of bird songs in the soundscape using an open-source software for robot audition HARK, Proceedings of 4th International Symposium on Acoustic Communication by Animals (accepted).
- Shiho Matsubayashi, Reiji Suzuki, Fumiyuki Saito, Tatsuyoshi Murate, Tomohisa Masuda, Koichi Yamamoto, Ryosuke Kojima, Kazuhiro Nakadai, Hiroshi G. Okuno: Acoustic monitoring of the great reed warbler using multiple microphone arrays and robot audition, Journal of Robotics and Mechatronics, 27 (1): 213-223 (2017/02).
- Reiji Suzuki, Shiho Matsubayashi, R. Hedley, Kazuhiro Nakadai, Hiroshi G. Okuno: HARKBird: Exploring acoustic interactions in bird communities using a microphone array. Journal of Robotics and Mechatronics, 27 (1): 224-235 (2017/02).
- Ryosuke Kojima, Osamu Sugiyama, Kotaro Hoshiba, Kazuhiro Nakadai, Reiji Suzuki, Charles E. Taylor: Bird Song Scene Analysis Using a Spatial-Cue-Based Probabilistic Model, Journal of Robotics and Mechatronics, 27 (1): 236-246 (2017/02).
- 娜仁, 鈴木麗璽, 有田隆也, 中臺一博, 奥乃 博: Bird song explorer: 野鳥の歌行動体験のための立体音響に基づく仮想森林アプリケーション, 情報処理学会第78回全国大会予稿集 (2017印刷中).
- 小島 諒介, 杉山 治, 干場 功太郎, 鈴木 麗璽, 中臺 一博: 空間情報を用いた鳥の歌分析, 第46回AIチャレンジ研究会予稿集 (SIG-Challenge, 046-05), pp. 18-24 (2016/11/09).
- 炭谷晋司, 松林志保, 鈴木麗璽: ウグイスに対するプレイバック実験におけるマイクロホンアレイを用いたさえずりの方向分布分析, 第46回AIチャレンジ研究会予稿集 (SIG-Challenge, 046-04), pp. 18-24 (2016/11/09).
- 松林志保, 鈴木麗璽, 小島諒介, 中臺一博: 複数のマイクロホンアレイとロボット聴覚ソフトウエアHARKを用いた野鳥の観測精度の検討, 人工知能学会合同研究会優秀賞講演会発表 (2016/11/09).
- 炭谷晋司, 松林志保, 鈴木麗璽: マイクロホンアレイを用いたプレイバック実験に基づくウグイスのさえずりの方向分布分析, 日本鳥学会2016年度大会講演要旨集, pp. 124 (2016/09/18).
- 松林志保, 鈴木麗璽, 小島諒介, 中臺一博, 奥乃博: マイクロホンアレイを用いた森林性野鳥の定位精度の検証とその応用: 歌の空間的な位置およびタイミングから知る複数種の棲み分け, 日本鳥学会2016年度大会講演要旨集, pp. 138 (2016/09/18).
- 鈴木麗璽, 松林志保, 斎藤史之, 村手達佳, 増田智, 山本晃一, 小島諒介, 中臺一博, 奥乃博: マイクロホンアレイを用いたオオヨシキリのソングポスト定位, 日本鳥学会2016年度大会講演要旨集, pp. 151 (2016/09/17).
- Reiji Suzuki, Shiho Matsubayashi, Kazuhiro Nakadai and Hiroshi G. Okuno: Localizing bird songs using an open source robot audition system with a microphone array, Proceedings of The 17th Annual Meeting of the International Speech Communication Association (INTERSPEECH 2016), pp. 2626-2630 (2016/09/11).
- 小島諒介, 杉山治, 鈴木麗璽, 中臺一博: 音源位置を考慮した音源同定のための確率モデルとその学習, 第34回日本ロボット学会学術講演会 (RSJ2016)資料 (4 pages) (2016/09/07).
- Reiji Suzuki: Complex systems approach to temporal soundscape partitioning in bird communities, Late Breaking Abstracts Booklet in the Artificial Life Conference 2016, pp. 17-18 (2016/07/05).
- 鈴木麗璽,松林志保,奥乃 博: マイクロホンアレイを利用した野鳥の歌行動理解の試み, 情報処理学会第78回全国大会予稿集,Vol. 2, pp. 17-18 (2016/03/12).
- 土屋礼徳, 鈴木麗璽, 有田隆也: 資源共有問題における表現型可塑性と個性の多様化に関する進化モデル, 情報処理学会第78回全国大会予稿集, Vol. 1, pp. 293-294 (2016/03/12).
- 複数のマイクロホンアレイとロボット聴覚ソフトウエアHARKを用いた野鳥の観測精度の検討, 人工知能学会AIチャレンジ研究会資料, SIG-Challenge-043, pp. 54-59 (2015/11/12).(人工知能学会 研究会優秀賞 受賞)
- 鈴木麗璽,近藤崇,松林志保: マイクロホンアレイで理解する野鳥の歌, バードリサーチ第10回大会, ポスター発表(2015/11/21).
- 鈴木麗璽,松林志保: 複数のマイクロフォンアレイで測る野鳥の位置, バードリサーチ第10回大会, ポスター発表(2015/11/21).
- 小島諒介, 杉山治, 鈴木麗璽, 中臺一博: 音源アノテーション補助のための音源位置を考慮した同定モデル, 第33回日本ロボット学会学術講演会 (RSJ2015)資料 (4 pages) (2015/09/04).
- Reiji Suzuki, Richard Hedley and Martin L. Cody: "Exploring temporal soundspace partitioning in bird communities emerging from inter- and intra-specific variations in behavioral plasticity using a microphone array", Abstract Book of the 2015 Joint Meeting of the American Ornithologists' Union and the Cooper Ornithological Society, p. 86 (2015/07/29).
- Reiji Suzuki and Martin L. Cody: "Complex systems approaches to temporal soundspace partitioning in bird communities as a self-organizing phenomenon based on behavioral plasticity", Proc. of the 20th International Symposium on Artificial Life and Robotics, pp. 11-15 (invited talk) (2015/01/22).
- Reiji Suzuki, Charles E. Taylor and Martin L. Cody: "Temporal partitioning to avoid soundspace overlap by bird communities", Proc. of the 26th International Ornithological Congress, p. 41 (2014/08/20).
- 鈴木麗璽,C. E. Taylor and M. L. Cody: "野鳥の歌コミュニケーション理解への試み", 第38回人工知能学会 AI チャレンジ研究会資料, Vol. SIG-Challenge-B302 , pp. 22-27 (2013/12/06).
- Reiji Suzuki and Takaya Arita: "Emergence of a dynamic resource partitioning based on the coevolution of phenotypic plasticity in sympatric species", Journal of Theoretical Biology, 352, 51-9 (2014). [PDF]
- Eratta: In the last paragraph in Section 3.3 (in page 6, left), " species 1" should be "species 2" and "species 2" should be "species 1".
- Reiji Suzuki, Charles E. Taylor and Martin L. Cody: "Soundscape Partitioning to Increase Communication Efficiency in Bird Communities", Artificial Life and Robotics, 17(1), 30-34 (2012/10).
- Reiji Suzuki, Charles E. Taylor and Martin L. Cody: "Soundscape Partitioning to Increase Communication Efficiency in Bird Communities", Proceedings of the 17th International Symposium on Artificial Life and Robotics, pp. 985-988 (2012/01/19). [PDF]
- Reiji Suzuki, Souichiro Yamaguchi, Martin L. Cody, Charles E. Taylor and Takaya Arita: "iSoundScape: Adaptive Walk on a Fitness Soundscape", Applications of Evolutionary Computation, LNCS 6625 (Proc. of the 9th European Event on Evolutionary and Biologically Inspired Music, Sound, Art and Design (evomusart2011)), pp. 404-413 (2011/04). [PDF]