潜水艇の艇首搭載凸型音響レンズに適用される材料の音速計測―シンタクチックフォームおよびフロリナートにおける温度依存性

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Published in海洋音響学会誌 Vol. 47; no. 4; pp. 129 - 138
Main Authors 小笠原, 英子, 森, 和義
Format Journal Article
LanguageJapanese
Published 特定非営利活動法人 海洋音響学会 01.10.2020
Subjects
シンタクチックフォーム
フロリナート
温度依存性
音速
音響レンズ
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ISSN0916-5835
1881-6819
DOI10.3135/jmasj.47.129

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Author 小笠原, 英子
森, 和義
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References 13) K. Mori, A. Miyazaki, H. Ogasawara, T. Yokoyama and T. Nakamura, “Finite difference time domain analysis of underwater acoustic lens system for ambient noise imaging,” Jpn. J. Appl. Phys., 45, 4834–4841(2006).
5) T. Nakamura, Y. Sato, T. Kamakura and T. Anada, “Sound pressure fields focused using biconcave acoustic lens for normal incidence,” Jpn. J. Appl. Phys., 43, 3163–3168(2004).
11) Y. Sato, K. Mizutani, N. Wakatsuki and T. Nakamura, “Design for aplanatic fresnel acoustic lens for underwater imaging,” Jpn. J. Appl. Phys., 48, 07GL04(2009).
21) 高野慎太,“3Dイメージングソーナー用球状音響レンズの提案,” 海洋音響学会誌,41, 26–31(2014).
12) 松本さゆり,片倉景義,吉住夏輝,西平 健,南利光彦,武山芸英,鈴木紀慶,野口孝俊,“三次元水中映像取得装置の開発,” 海洋音響学会誌,37, 13–24(2010).
19) K. Mori, H. Ogasawara, T. Tsuchiya and N. Endoh, “Data analysis results of the second sea trial of ambient noise imaging with acoustic lens in 2014: Two-dimensional target images affected by direction of field of view and spatial noise Distribution,” Jpn. J. Appl. Phys., 55, 07KG07(2016).
20) K. Mori, H. Kawahara, H. Ogasawara and T. Tsuchiya, “Expression with red-green-blue additive color mixing for frequency-dependent targets in the third sea trial of ambient noise imaging with acoustic lens in 2016,” Jpn. J. Appl. Phys., 57, 07LG05(2018).
24) 土屋健伸,遠藤信行,松本さゆり,森, 和義,“シングアラウンド法を用いた音響レンズ材の音速の温度依存性の測定,” 海洋音響学会誌,38, 196–202(2011).
14) K. Mori, H. Ogasawara and T. Nakamura, “Small-scale trial for evaluating directional resolution of single spherical biconcave acoustic lens in designing of ambient noise imaging system,” Jpn. J. Appl. Phys., 47, 4344–4348(2008).
4) 鎌倉友男,青木健一,中村敏明,安達日出夫,“両凹面レンズによる平面超音波の集束―理論的アプローチ―,” 海洋音響学会誌,30, 48–55(2003).
9) 佐藤裕治,宮崎綾乃,森, 和義,中村敏明,水谷孝一,“アプラナート音響レンズの集束特性,” 海洋音響学会誌,35, 157–165(2008).
22) H. Kawahara, H. Ogasawara and K. Mori, “Preliminary analysis of sound field converged by convex acoustic lens for installing in small AUV’s bow,” Proc. 4th Underwater Acoustics Conf., 975–980(2017).
10) K. Mori, A. Miyazaki, H. Ogasawara, T. Nakamura and Y. Takeuchi, “Numerical analysis of sound pressure fields focused by phase continuous fresnel lens using finite difference time domain method,” Jpn. J. Appl. Phys., 46, 4990–4997(2007).
2) S. Tsukioka, T. Aoki, H. Ochi, T. Shimura, T. Sawa, T. Nakamura, T. Anada, I. Kaihou and H. Noda, “Development of an acoustic lens for an imaging sonar for autonomous underwater vehicle “Urashima” and experimentation in a water tank,” Jpn. J. Appl. Phys., 41, 3970–3973(2002).
1) E. O. Belcher, B. Matsuyama, G. Trimble, “Object identification with acoustic lenses,” Proc. OCEANS 2001, 6–11(2001).
25) K. V. Mackenzie, “Nine term equation for the sound speed in the oceans,” J. Acoust. Soc. Am., 70, 807–812(1981).
6) K. Mori, T. Nakamura, T. Yokoyama and A. Hasegawa,“3-D FDTD analysis of sound field focused by biconcave acoustic lens for normal incidence,” Jpn. J. Appl. Phys., 44, 4696–4701(2005).
15) K. Mori, H. Ogasawara, T. Nakamura, Y. Sato, T. Tsuchiya and N. Endoh, “Evaluating directional resolution of aplanatic acoustic lens for designing ambient noise imaging system,” Jpn. J. Appl. Phys., 48, 07GL05(2009).
3) T. Anada, T. Tsuchiya, N. Endoh, T. Nakamura, T. Tsukioka, T. Aoki and I. Kaiho, “Numerical analysis of underwater acoustic lens using wide-angle parabolic equation method,” Jpn. J. Appl. Phys., 41, 3509–3512(2002).
26) 静岡県水産技術研究所,“県内沿岸水温等観測データMAP,” https://fish-exp.pref.shizuoka.jp/01ocean/1-4-1.html
17) K. Mori, H. Ogasawara, T. Nakamura, T. Tsuchiya and N. Endoh, “Extraction of target scatterings from received transients on target detection trial of ambient noise imaging with acoustic lens,” Jpn. J. Appl. Phys., 51, 07GG10(2012).
16) K. Mori, H. Ogasawara, T. Nakamura, T. Tsuchiya and N. Endoh, “Design and convergence performance analysis of aspherical acoustic lens applied to ambient noise imaging in actual ocean experiment,” Jpn. J. Appl. Phys., 50, 07HG09(2011).
8) Y. Sato, A. Miyazaki, K. Mori and T. Nakamura, “Design for an absolutely aplanatic acoustic lens,” Jpn. J. Appl. Phys., 46, 4982–4989(2007).
7) M. Akiyama and T. Kamakura, “Elliptically curved acoustic lens for emitting strongly focused finite-amplitude beams: Application of the spheroidal beam equation model to the theoretical prediction,” Acoust. Sci. Technol., 26, 279–284(2005).
23) 河原宏幸,小笠原英子,森, 和義,“小型潜水艇搭載用凸型非球面音響レンズの集束音場解析についての基礎的研究,” 日本音響学会2017年秋季研究発表会講演論文集,1237–1240(2017).
18) K. Mori, H. Ogasawara, T. Nakamura, T. Tsuchiya and N. Endoh, “Relationship between spatial distribution of noise sources and target scatterings observed in the 2010 sea trial of ambient noise imaging,” Jpn. J. Appl. Phys., 52, 07HG02(2013).
References_xml – reference: 2) S. Tsukioka, T. Aoki, H. Ochi, T. Shimura, T. Sawa, T. Nakamura, T. Anada, I. Kaihou and H. Noda, “Development of an acoustic lens for an imaging sonar for autonomous underwater vehicle “Urashima” and experimentation in a water tank,” Jpn. J. Appl. Phys., 41, 3970–3973(2002).
– reference: 10) K. Mori, A. Miyazaki, H. Ogasawara, T. Nakamura and Y. Takeuchi, “Numerical analysis of sound pressure fields focused by phase continuous fresnel lens using finite difference time domain method,” Jpn. J. Appl. Phys., 46, 4990–4997(2007).
– reference: 16) K. Mori, H. Ogasawara, T. Nakamura, T. Tsuchiya and N. Endoh, “Design and convergence performance analysis of aspherical acoustic lens applied to ambient noise imaging in actual ocean experiment,” Jpn. J. Appl. Phys., 50, 07HG09(2011).
– reference: 7) M. Akiyama and T. Kamakura, “Elliptically curved acoustic lens for emitting strongly focused finite-amplitude beams: Application of the spheroidal beam equation model to the theoretical prediction,” Acoust. Sci. Technol., 26, 279–284(2005).
– reference: 21) 高野慎太,“3Dイメージングソーナー用球状音響レンズの提案,” 海洋音響学会誌,41, 26–31(2014).
– reference: 26) 静岡県水産技術研究所,“県内沿岸水温等観測データMAP,” https://fish-exp.pref.shizuoka.jp/01ocean/1-4-1.html
– reference: 1) E. O. Belcher, B. Matsuyama, G. Trimble, “Object identification with acoustic lenses,” Proc. OCEANS 2001, 6–11(2001).
– reference: 12) 松本さゆり,片倉景義,吉住夏輝,西平 健,南利光彦,武山芸英,鈴木紀慶,野口孝俊,“三次元水中映像取得装置の開発,” 海洋音響学会誌,37, 13–24(2010).
– reference: 23) 河原宏幸,小笠原英子,森, 和義,“小型潜水艇搭載用凸型非球面音響レンズの集束音場解析についての基礎的研究,” 日本音響学会2017年秋季研究発表会講演論文集,1237–1240(2017).
– reference: 19) K. Mori, H. Ogasawara, T. Tsuchiya and N. Endoh, “Data analysis results of the second sea trial of ambient noise imaging with acoustic lens in 2014: Two-dimensional target images affected by direction of field of view and spatial noise Distribution,” Jpn. J. Appl. Phys., 55, 07KG07(2016).
– reference: 11) Y. Sato, K. Mizutani, N. Wakatsuki and T. Nakamura, “Design for aplanatic fresnel acoustic lens for underwater imaging,” Jpn. J. Appl. Phys., 48, 07GL04(2009).
– reference: 13) K. Mori, A. Miyazaki, H. Ogasawara, T. Yokoyama and T. Nakamura, “Finite difference time domain analysis of underwater acoustic lens system for ambient noise imaging,” Jpn. J. Appl. Phys., 45, 4834–4841(2006).
– reference: 20) K. Mori, H. Kawahara, H. Ogasawara and T. Tsuchiya, “Expression with red-green-blue additive color mixing for frequency-dependent targets in the third sea trial of ambient noise imaging with acoustic lens in 2016,” Jpn. J. Appl. Phys., 57, 07LG05(2018).
– reference: 24) 土屋健伸,遠藤信行,松本さゆり,森, 和義,“シングアラウンド法を用いた音響レンズ材の音速の温度依存性の測定,” 海洋音響学会誌,38, 196–202(2011).
– reference: 4) 鎌倉友男,青木健一,中村敏明,安達日出夫,“両凹面レンズによる平面超音波の集束―理論的アプローチ―,” 海洋音響学会誌,30, 48–55(2003).
– reference: 18) K. Mori, H. Ogasawara, T. Nakamura, T. Tsuchiya and N. Endoh, “Relationship between spatial distribution of noise sources and target scatterings observed in the 2010 sea trial of ambient noise imaging,” Jpn. J. Appl. Phys., 52, 07HG02(2013).
– reference: 5) T. Nakamura, Y. Sato, T. Kamakura and T. Anada, “Sound pressure fields focused using biconcave acoustic lens for normal incidence,” Jpn. J. Appl. Phys., 43, 3163–3168(2004).
– reference: 17) K. Mori, H. Ogasawara, T. Nakamura, T. Tsuchiya and N. Endoh, “Extraction of target scatterings from received transients on target detection trial of ambient noise imaging with acoustic lens,” Jpn. J. Appl. Phys., 51, 07GG10(2012).
– reference: 8) Y. Sato, A. Miyazaki, K. Mori and T. Nakamura, “Design for an absolutely aplanatic acoustic lens,” Jpn. J. Appl. Phys., 46, 4982–4989(2007).
– reference: 9) 佐藤裕治,宮崎綾乃,森, 和義,中村敏明,水谷孝一,“アプラナート音響レンズの集束特性,” 海洋音響学会誌,35, 157–165(2008).
– reference: 6) K. Mori, T. Nakamura, T. Yokoyama and A. Hasegawa,“3-D FDTD analysis of sound field focused by biconcave acoustic lens for normal incidence,” Jpn. J. Appl. Phys., 44, 4696–4701(2005).
– reference: 25) K. V. Mackenzie, “Nine term equation for the sound speed in the oceans,” J. Acoust. Soc. Am., 70, 807–812(1981).
– reference: 22) H. Kawahara, H. Ogasawara and K. Mori, “Preliminary analysis of sound field converged by convex acoustic lens for installing in small AUV’s bow,” Proc. 4th Underwater Acoustics Conf., 975–980(2017).
– reference: 15) K. Mori, H. Ogasawara, T. Nakamura, Y. Sato, T. Tsuchiya and N. Endoh, “Evaluating directional resolution of aplanatic acoustic lens for designing ambient noise imaging system,” Jpn. J. Appl. Phys., 48, 07GL05(2009).
– reference: 3) T. Anada, T. Tsuchiya, N. Endoh, T. Nakamura, T. Tsukioka, T. Aoki and I. Kaiho, “Numerical analysis of underwater acoustic lens using wide-angle parabolic equation method,” Jpn. J. Appl. Phys., 41, 3509–3512(2002).
– reference: 14) K. Mori, H. Ogasawara and T. Nakamura, “Small-scale trial for evaluating directional resolution of single spherical biconcave acoustic lens in designing of ambient noise imaging system,” Jpn. J. Appl. Phys., 47, 4344–4348(2008).
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SubjectTerms シンタクチックフォーム
フロリナート
温度依存性
音速
音響レンズ
Title 潜水艇の艇首搭載凸型音響レンズに適用される材料の音速計測―シンタクチックフォームおよびフロリナートにおける温度依存性
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