Case Study of Sound Production and Dolphin Behavior in Waters
DOI:
https://doi.org/10.31258/Keywords:
Sound, Frequency, Signal, CetaceanAbstract
Dolphins belong to the Cetacean Order and are members of the Odontocetes with physical characteristics and the sound signals they emit. This fish lives in the sea and is one of the rare animals. The preparation of this scientific article was carried out in May 2021 using a descriptive analysis based on a literature review using secondary data as a source of information. The sound frequency range with the highest intensity value is 32 dB in the frequency range of 14 - 16 kHz.
Downloads
References
Adler, J., Azhar, Muhammad, S. Supatmi. (2013). Identifikasi Suara dengan Matlab sebagai Aplikasi Jaringan Syaraf Tiruan. Jurnal Telekontran, 1(1) : 16-23.
Agustini, K. (2009). Biometrik Suara dengan Transformasi Wavelet berbasis Orthogonal Daubenchies. Gematek Jurnal Teknik Komputer, 9 (2) : 49-56.
Carwadine, M. (1995). Eye Witness Handbook : Whales, Dolphins and Purpoises. The Visual Guide to All World’s Cetacean. Dorling Kindersley Ltd. New York. 256 p.
Geise, L., N.Gomes, R. Cerqueira. (1999). Behaviour, Habitat Use and Population Size of Sotalia fluviatilis (Gervais, 1853) (Cetacea, Delphinidae) in the Cananeia Estuary Region, Sao Paulo, Brazil. Rev. Brasil. Biology. 59:183-194.
Gomez, C., Dediavilla, Hornero, Abasolo, Fernandes. (2009). Use the Higuchi’s Fractal Dimension for the Analysis of Meg Recordings from Alzheimer’s Disease Patients. Journal of Medical Engineering & Physics, 31 (3).
Gumilar, G., Suma’inna. (2013). Implementasi Transformasi Wavelet Daubechies pada Kompresi Citra Digital. Jurnal CAUCHY, 2 (4) : 211-215.
Indrayanti, S.D., Al Karomi. (2017). Optimasi Parameter pada Algoritma K-Nearest Neighbour untuk Klasifikasi Penyakit Diabetes Militus. Prosiding SNATIF, 4 (3) : 823-829.
Janik, V.M. (2009). Accoustic Communication in Delphinids. Advances in the Study of Behaviour :123-157.
Juniati, D., I.K. Wulandari. (2017). Penerapan Dimensi Fraktal untuk Klasifikasi Laras pada Musik Gamelan. Jurnal Ilmiah Matematika, 3(6) : 8-15.
Juniati, D., Budayasa, Khotimah, Wardani. (2018). Fractal Dimension to Classify the Heart Sound Recordings with KNN and Fuzzy C-Mean Clustering Methods. Journal of Physics Conference Series, 953 (1).
Lammers, M.O., L.Albinson, K.B.Bird, L. Davis. (2001). The Occurrence and Behaviour of Whales and Dolphins Near Kalaeloa Barbers Point Harbor : A Study to Assess the Potential Interactions With Proposed Harbor Modification Activities. OSI Technical Report 2001-1. Hawaii Institute of Marine Biology. Kailua. 34 p.
Lubis, M.Z., S. Pujiyati, T. Hestrianoto, P.D.Wulandari, K.Sultan. (2016). Produksi Suara dan Tingkah Laku Lumba-lumba Jantan Hidung Botol (Tursiops aduncus) dengan Metode Bioakustik di Taman Safari, Cisarua Bogor, Indonesia. Jurnal Enggano, 1 (2) : 20-28.
Pamela, Y.G. (2021). Klasifikasi Jenis Delphinidae (Lumba-lumba) dengan Dimensi Fraktal menggunakan Metode Higuchi dan KNN (K-Nearest Neighbor). Jurnal Ilmiah Matematika, 09 (01) : 204-211.
Romadiastri, Y. (2013). Batik Fraktal : Perkembangan Aplikasi Geometri Fraktal. Jurnal ELTA, 1 (2) : 158-164.
Salim, D. (2011). Konservasi Mamalia Laut (Cetacea) di Perairan Laut Sawu Nusa Tenggara Timur. Jurnal Kelautan, 4(1): 24-41.
Siahainenia, S.R. (2010). Tingkah Laku Lumba-lumba di Perairan Pantai Lovina Buleleng Bali. Jurnal Amanisal PSP FPIK Unpatti-Ambon, 1(1): 13-21
