Echolocation Signal Detection From Captive Dolphin Using Whistles Sound

机译：使用口哨声检测海豚的回声信号

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

There is little information about the detection of signals made on dolphins by detecting whistle sounds that serve as an echolocation on dolphins. Bottlenose dolphins (Tursiops aduncus) will be able to receive sound waves with a frequency range of 15 kHz to 150 kHz. The purpose of this research was to analyze the signal detection of whistle sound aimed at communication manipulation. This research is done with the location at Ocean Dream Ocean, Ancol. Indonesia on May 10, 2016. The method of the filter in this study using Band Pass Filter (BPF) with cut off 0-12 kHz. The results of signal detection on dolphin whistle Interval Interval at the time before meals and after meals have the different maximum time span of each other with time 630 ms and 650 ms. At the whistle sound interval after meals more shows a significantly greater difference with whistle 2 at 196.66 ms duration and before meals with whistle 4 at 12 ms duration. Source level (SL) produced at the time before the meal has the highest

机译：关于通过检测用作海豚回声定位的哨声来检测海豚发出的信号的信息很少。宽吻海豚（Tursiops aduncus）将能够接收15 kHz至150 kHz频率范围的声波。这项研究的目的是分析针对通讯操纵的哨声信号检测。这项研究是通过位于Ancol的Ocean Dream Ocean的地点完成的。印度尼西亚，2016年5月10日。本研究中的滤波器方法使用截止频率为0-12 kHz的带通滤波器（BPF）。饭前和饭后海豚口哨间隔时间的信号检测结果彼此之间的最大时间间隔互不相同，分别为630 ms和650 ms。在用餐后的哨声间隔中，更多的差异显示为在196.66 ms时与哨子2相比，在用餐前的12ms时与哨子4相比。餐前最高水平产生的源水平（SL）

著录项

来源
《International Conference on Applied Engineering》|2018年|1-6|共6页
会议地点 Batam(ID)
作者
Muhammad Zainuddin Lubis; Sri Pujiyati; Wenang Anurogo; Mira Chandra Kirana; Husnul Kausarian; Satria Antoni;
展开▼
作者单位

Politeknik Negeri Batam informatic Engineering Batam Indonesia;

Insitut Teknologi Bogor Marine Science and Technology Bogor Indonesia;

Geology Engineering Universitas Islam Riau Pekanbaru Indonesia;

Marine Geology King Abdulazi: University Jeddah Saudi Arabia;

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Dolphins; Band-pass filters; Sonar equipment; Ear; Software; Oceans; Acoustics;

机译：海豚；带通滤波器声纳设备；耳;软件;海洋;声学;

相似文献

外文文献
中文文献
专利

1. Echolocation sounds of hourglass dolphins (Lagenorhynchus cruciger) are similar to the narrow band high-frequency echolocation sounds of the dolphin genus Cephalorhynchus [J] . Tougaard J., Kyhn L.A. Marine Mammal Science . 2010,第1期

机译：沙漏海豚（Lagenorhynchus cruciger）的回声类似于海豚类头孢菌属的窄带高频回声。
2. Captive dolphins, Tursiops truncatus, develop signature whistles that match acoustic features of human-made model sounds [J] . Jennifer L. Miksis, Peter L. Tyack, John R. Buck The Journal of the Acoustical Society of America . 2002,第2期

机译：圈养海豚Tursiops truncatus会发出与人工模型声音的声学特征相匹配的特征性哨声
3. Acoustic classification of dolphins in the California Current using whistles, echolocation clicks, and burst pulses [J] . Marine Mammal Science . 2017,第2期

机译：使用口哨，回声分配点击和爆发脉冲的加州电流中海豚的声学分类
4. Echolocation Signal Detection From Captive Dolphin Using Whistles Sound [C] . Muhammad Zainuddin Lubis, Sri Pujiyati, Wenang Anurogo, International Conference on Applied Engineering . 2018

机译：Echolocation信号检测捕获海豚使用哨声声音
5. New perspectives on dolphin whistles: Evaluating signal context, categorization and memory. [D] . Bruck, Jason Neal. 2013

机译：海豚哨声的新观点：评估信号上下文，分类和记忆。
6. Learning to localize sounds in a highly reverberant environment: Machine-learning tracking of dolphin whistle-like sounds in a pool [O] . Sean F. Woodward, Diana Reiss, Marcelo O. Magnasco, 2020

机译：学习在高音环境中定位声音：在游泳池中的海豚哨子的声音的机器学习跟踪
7. Captive dolphins, Tursiops truncatus, develop signature whistles that match acoustic features of human-made model sounds [O] . Miksis, J L, Tyack, P L, Buck, J R 2002

机译：圈养海豚Tursiops truncatus会发出与人工模型声音的声学特征相匹配的特征性哨声

Echolocation Signal Detection From Captive Dolphin Using Whistles Sound

摘要

著录项

相似文献

相关主题

期刊订阅