Publications

Organizations

Resource investigation for Kichiji rockfish by autonomous underwater vehicle in Kitami-Yamato bank off Northern Japan

August 20, 2014 via - Robomech Journal

Abstract
Expensive kichiji rockfish is important catch for fishers and decreas significantly by over fishing. Common investigation method by the trawl for the fish is difficult to survey on rough terrain and need for big support of the ship. This paper proposes resource investigation method for kichiji rockfish using autonomous underwater vehicle (AUV) Tuna-Sand, and image processing method for precise measurement of the fish length. The AUV Tuna-Sand was developed for survey of material and energy resources in deep-sea such, and can observe natural seafloor automatically using only mounted sensors and devices. Our image processing makes a photograph possible to measure accurately the fish length by color correction for removing the unevenness of the brightness and distortion correction.

The AUV Tuna-Sand surveyed for 24 hours in Kitami-Yamato Bank off Northern Japan. The vehicle took about 5,300 pictures of the seafloor during five dives in the bank. 37 kichiji rockfish of about 90 to 340 mm long were in all photographs. The survey results showed the fish of 150 to 200 mm long was most often found in all dives although the number of the othSer long was not many. Six mosaic images made by our method showed that all kichiji rockfish stay on the seafloor by oneself without swam and the shortest distance between kichiji rockfish was 4.0 m.

Tags:
References:
Organization: None
Platforms:
  • Tuna-Sand
Author:Nishida Y, Ura T, Hamatsu T, Nagahashi K, Inaba S, Nakatani T
Publisher:Robomech Journal
Citation:Nishida Y, Ura T, Hamatsu T, Nagahashi K, Inaba S, Nakatani T, Resource investigation for Kichiji rockfish by autonomous underwater vehicle in Kitami-Yamato bank off Northern Japan, Springer, ROBOMECH Journal 2014, 1:2
Date Published:August 20, 2014
External Link:www.robomechjournal.com/content/pdf/s40648-014-0002-y.pdf
Download PDF