過去の学会誌一覧

Vol.32 No.1 通巻117号 (2005年/平成17年)

あいさつ 年頭のご挨拶-新体制開始にあたって 古澤 昌彦 17(17)
研究 並列演算FDTD法による浅海内の音波伝搬解析
Numerical Analysis of Underwater Sound Propagation in Shallow Water Calculated by Finite Difference Time Domain Method with Parallel Processing
*1 Takenobu TSUCHIYA, Nobuyuki ENDOH
(Faculty of Engineering, Kanagawa University, Kanagawa University High-Tech Research Center)
Abstract:
The numerical analysis method of sound propagation is developed in ultrasonic field because calculating performance of the personal computer improved in very high pace. Finite Difference Time Domain (FDTD) method is very useful method to calculate the sound propagation in the field, although it is requires very large memory and long calculation time. In order to shorten the calculation time of FDTD method, we proposed a new algorithm of parallel calculation using Message-Passing Interface (MPI). In this paper, we proposed a new algorithm of parallel computing using MPI in Personal Computer (PC) clusters to shorten the calculation time of FDTD method. PC clusters with 8 nodes in connected by gigabit Ethernet is used for calculation. In order to confirm the accuracy of calculation, we calculated sound propagation in homogenous media, and calculated propagation of sound pulse in shallow water. As a result, it is shown that FDTD method with parallel processing can be calculated accurately in sound propagation model. The calculation speed becomes about 6 times of normal personal computer in shallow water model. It is clear that FDTD method with parallel processing is very efficient method for numerical analysis of sound propagation.

土屋 健伸,遠藤 信行 18(18)
遊泳による魚体の屈曲運動がターゲットストレングスに与える影響
Influence of Body Bend by Swimming Activity on Fish Target Strength
*1 Kazuhiro SADAYASU (Hokkaido University)
*2 Koki ABE, Kouichi SAWADA, Yoshimi TAKAO (National Research Institute of Fisheries Engineering, Fisheries Research Agency)
*3 Tohru MUKAI, Kohji IIDA (Hokkaido University)
Abstract:
Understanding the variability of fish acoustic target strength (TS) potentially improves the accuracy of fisheries acoustic survey. This study examines the effect of fish body bending by swimming activity on fish target strength. Bending shape of fish body and swimbladder were simulated from soft X-ray images of anesthetized walleye pollock. Target strength of bent fish was estimated using a Kirchhoff Ray-Mode model from simulated morphology as a function of fish pitch angle. TS patterns of whole fish and swimbladder did not change near the pitch angle at which maximum TS was obtained. But at the other pitch angle, TS patterns of bent fish differed from that of no bent fish. TS patterns of fish body changed at all the pitch angle. Decrease of maximum TS caused by fish bending was within 0.7 dB. Present study indicates that it is not necessary to take care of fish bending on TS estimation, when fish swimming behaviour is normal except for feeding time that fishes are more active.
貞安 一廣,安部 幸樹, 澤田 浩一, 高尾 芳三, 向井  徹, 飯田 浩二 30(30)
レポート 第7回欧州水中音響会議(ECUA2004)報告 越智  寛 40(40)
随想 ソーナー・アラカルト 半谷  肇 43(43)
こぼれ話 レオナルド・ダ・ヴィンチの実験 鎌田 弘志 46(46)
図書紹介 中村 敏明 48(48)
Paper Index 土屋 健伸,森  和義 49(49)
目次目録 54(54)
会記事 56(56)
特定非営利活動法人海洋音響学会会則 59(59)
特定非営利活動法人海洋音響学会定款 62(62)
海洋音響学会誌投稿規定 69(69)