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Transactions: WSEAS TRANSACTIONS ON SYSTEMS AND CONTROL
Transactions ID Number: 29-847
Full Name: GYUNG-SUK KIL
Position: Professor
Age: ON
Sex: Male
Address: 1 Dongsam-dong, Youngdo-gu, Busan
Country: KOREA
Tel: +82-51-410-4893
Tel prefix: +82-51-410-4414
Fax: +82-51-403-1127
E-mail address: kilgs@hhu.ac.kr
Other E-mails: matiachoi@hhu.ac.kr
Title of the Paper: Analysis of the Photoreaction Characteristics of Squids
Authors as they appear in the Paper: JAE-SUNG CHOI, SUNG-KUK CHOI, SUN-JAE KIM, GYUNG-SUK KIL, CHUL-YOUNG CHOI
Email addresses of all the authors: matiachoi@hhu.ac.kr, selus21@gmail.com, nuuna@hhu.ac.kr, kilgs@hhu.ac.kr, choic@hhu.ac.kr
Number of paper pages: 10
Abstract: In this paper, the potential of high-brightness LEDs as energy-saving light sources in place of metal halide lamps (MHLs) was studied to promote fishery efficiency. The photoreaction characteristics of 20 common squids (scientific name: Todarodes pacificus) in a fish tank when LEDs, each with a different color, and an MHL were irradiated onto them were compared and analyzed. For the experiment, an acrylic fish tank was designed, and red, green, blue, and white 30[W] LED modules and a 1.5[kW] MHL were designed, which had recently been used in squid-jigging ships. From the results of the experiment on the squids¡¯ photoreaction characteristics in accordance with each LED, it was confirmed that the most squids gathered around the light source when blue LEDs were irradiated with wavelengths of 450-490[nm], with excellent seawater penetration characteristics. Also, the results of the comparative experiment of six blue LED modules and an MHL showed similar levels of effi!
ciency in fish-attracting effect.
Keywords: Fishing lamp, Phototaxis, Squids, High brightness LED, Metal halide lamp, Optical wavelength
EXTENSION of the file: .pdf
Special (Invited) Session: Photoreaction Analysis of Squids for the Development of a LED-Fishing Lamp
Organizer of the Session: 625-257
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