DOI QR코드

DOI QR Code

Spectral Irradiance and Underwater Transmission Characteristics of a Combined High-Luminance Light-Emitting Diodes as the Light Source for Fishing Lamps

복수 조합에 의한 고휘도 발광 다이오드의 분광분포와 수중투과특성

  • Choi, Sok-Jin (Machinery & Metals and Construction Examinations Bureau, Korean Intellectual Property Office)
  • 최석진 (특허청 기계금속건설심사국)
  • Published : 2009.12.31

Abstract

The spectral irradiance and underwater transmission characteristics of a combined high-luminance light-emitting diode (LED) lights have been studied to evaluate suitable light sources for fishing lamps of the next generation. The wavelengths at which the irradiance was maximum were changed from 473, 501, 525, and 465 nm for blue, peacock blue, green, and white LED light to 475, 504 and 528 nm for [$F_{WB}$], [$F_{PB}$] and [$F_{GB}$] combined LED lights, respectively. If the irradiance characteristics at 400-700 nm wavelengths are set as 100%, the irradiance rates at 450-499 nm and 500-549 nm were decreased from 82.4% and 56% for blue, peacock blue LED light to 60.0%, 38.5% for [$F_{WB}$], [$F_{WP}$] combined LED lights. The underwater transmission characteristics of the combined LED lights were superior in the order [$F_{WB}$], [$F_{BP}$], [$F_{GB}$] in optical water type I; [$F_{WB}$], [$F_{PB}$], [$F_{GP}$] in optical water type II-III; and [$F_{GP}$], [$F_{WP}$], [$F_{PB}$] in optical water type 1. Setting the 10m depth underwater transmission characteristics of the combined LED lights in optical water type I at 100%, the transmission of water types II, III and 1 drops to 29.5%, 8.0% and 2.2%. Based on the distribution of spectral irradiance and underwater transmission characteristics calculated in optical water types II-III, where was the jigging ground for fishing lamps, the [$F_{WB}]$ and [$F_{GP}$] combined LED lights can be used as a suitable light sources for fishing lamps of the next generation.

Keywords

References

  1. An YI, Jeong HG and Jung BM. 2009. Behaviroal reaction of common squid Todarodes pacificus to different colors of LED light. J Kor Fish Tech 45, 135-143 https://doi.org/10.3796/KSFT.2009.45.3.135
  2. Bae BS, Jeong EC, Park HH, Chang DS and Yang YS. 2008. Behaviroal characteristic of Japanese flying squid Todarodes pacificus to LED light. J Kor Fish Tech 44, 294-303 https://doi.org/10.3796/KSFT.2008.44.4.294
  3. Bae BS, Park BJ, Jeong EC, Yang YS, Park HH, Chun YY and Chang DS. 2009. Design and performance evaluation of fish-luring system using the air cooled LED lamp for jigging and angling boat. J Kor Fish Tech 45, 85-95 https://doi.org/10.3796/KSFT.2009.45.2.085
  4. Choi SJ and Arimoto T. 1996. Corroborative field research, In Report of rationalization of the light power on small-type squid jigging boat. National federation of fisheries co-operative associations, Tokyo, Japan, 1-14
  5. Choi SJ. 1997. Rationalization of the light power output on small-size squid jigging boat. Ph.D. Thesis, Tokyo University of Fisheries, Tokyo, Japan
  6. Choi SJ, Arakawa H, Nakamura Y and Arimoto T. 1998. Transmittance characteristics of fishing light according to the optical water type in the squid jigging ground of the Sea of Japan. Nippon Suisan Gakkaishi 64, 650-657 https://doi.org/10.2331/suisan.64.650
  7. Choi SJ and Arakawa H. 2001. Relationship between the Catch of Squid, Todarodes pacificus Steenstrup, according to the Jigging Depth of Hooks and Underwater Illumination in Squid Jigging Boat. J Kor Fish Soc 34, 624-631
  8. Choi SJ, Kim DA and Kim DS. 2002. Present state and future prospect of Korean squid jigging fishery. Technical Report of National Research Institude of Fisheries Engineering 24, 1-13
  9. Choi SJ, Watanabe T and Honda N. 2002. Abstract, Ann Meet. Jap Soc Fish 113
  10. Choi SJ, Arakawa H, Arimoto T and Nakamura Y. 2003. Underwater illuminance of line light source model for fishing lamps of coastal squid jigging boats. Nippon Suisan Gakkaishi 69, 44-51 https://doi.org/10.2331/suisan.69.44
  11. Choi SJ and Shin JC. 2003. Color Engineering. Kukje publish, Seoul, Korea, 71-75
  12. Choi SJ. 2006. Radiation and underwater transmission characteristics of a high-luminance light emitting diode as the light source for fishing lamp. J Kor Fish Soc 39, 480-486
  13. Choi SJ. 2008. Comparison of Radiation Characteristics and Radiant Quantities per unit Electrical Power between High Luminance Light Emitting Diode and Fishing Lamp Light Source. J Kor Fish Soc 41, 511-517
  14. Hara T. 1968. Photosensitive Pigments in the Cephalopod Retina. Zoological Magazine 77, 99-108
  15. Hasegawa E. 1998. Study on measurement of spectral sensitive under scotopic conditions using optomoter reaction in fishes. Nippon Suisan Gakkaishi 64, 626-630 https://doi.org/10.1006/anbe
  16. Inada H, Inoue D, Sato M, Miyagi Y, Inoue S, Watanabe T, Sano E, Noda M, Hamade S and Fuzihara S. 2006. Abstract, Ann Meet. Jap Soc Fish 7
  17. Inoue D, Inada H, Miyagi Y, Inoue S, Watanabe T, Sano E, Noda M, Yamamoto T and Hamade S. 2006. Abstract, Ann Meet. Jap Soc Fish 8
  18. Jerlov NG. 1964. Optical classification of ocean water, In: Physical aspects of light in the sea. Hawaii University Press, Honolulu, U.S.A, 45-49
  19. Kuroki T. 1989. Measurement of Ocean environment. Kouseisya, Tokyo, Japan, 18-70
  20. Miyagi Y, Inada H, Lee H, Sato M, Tsukada M, Inoue D, Sato H, Noda M, Sano E, Hirata S and Sakurai Y. 2006. Abstract, Ann Meet. Jap Soc Fish 9
  21. Nakamura S, Mukai T and Senoh M. 1994. Canderaclass high-brightness InGaN/AlGaN doubleheterostructure blue-light-emitting diodes. Appl Phys 64, 1687 https://doi.org/10.1016/S0026-2714(96)00288-0
  22. Okamoto K, Kato D, Morimoro K, Yanagi T and Ochi T. 2001. Development of fishing lamp using bluish-color light emitting diode. 2001 National Convention Record I.E.E. Japan, pp. 373
  23. Ohta N. 1993. Color Engineering. Tokyo denki University Press, Tokyo, Japan, pp. 115-170
  24. Osaka N. 1998. Handbook of color science. The Color Science Association of Japan, University of Tokyo Press, Tokyo, Japan, pp. 1-85
  25. Seto T, Uchida Y and Taguchi T. 2001. Illuminance characteristics of energy-saving luminaire with white-light emitting diode and a solar-cell and battery system for street lighting. J Illum Inst Japan 85, 577-584
  26. Yamaguchi S. 1987. Lighting Handbook. The Illuminating Engineering Institute of Japan, Ohmsha, Tokyo, Japan, pp. 609

Cited by

  1. Simulation of undewater irradiance distribution in coastal squid jigging vessel using the LED and metal halide fishing lamp combination vol.50, pp.4, 2014, https://doi.org/10.3796/KSFT.2014.50.4.511
  2. The Optical Characteristics of 240 W High Power LED Fish Luring Lamp vol.19, pp.6, 2013, https://doi.org/10.7837/kosomes.2013.19.6.681