algorithms for deriving and analyzing retroreflectivity influence factors through regression analysis. METHODS : An experimental road lane was created to examine the trends of retroreflectivity and LiDAR intensity values, and a controlled indoor experiment was conducted to identify influencing factors. The optimal algorithm was developed by regression analysis of the experimental data. RESULTS : The significance probability (P-value) through SPSS linear regression analysis was 0.000 for measured height, 0.001 for perpendicular angle, 0.157 for vertical angle, and 0.000 for LiDAR intensity, indicating that measured height, vertical angle, and LiDAR intensity are significant factors because the significance probability is less than 0.05, and vertical angle is not significant. The NNR regression model performed the best, so the measurement data with height (1.2m, 2m, 2.2m) and vertical angle (11.3°, 12.3°, 13.5°) were analyzed to derive the optimal LiDAR Intensity measurement height and vertical angle. CONCLUSIONS : For each LiDAR measurement height and vertical angle, the highest correlation between LiDAR Intensity and retroreflectivity was found at a measurement height of 1.2 meters and a vertical angle of 12.3°, where the model learning accuracy (R2) was the highest.
We explored the frequency response of krill target strength (TS) to understand the Antarctic krill (Euphausia superba) and ice krill (Euphausia crystallorophias) using the stochastic distorted-wave Born approximation (SDWBA) model. The results showed that the distribution of orientation and the fatness factor could significantly impact on the frequency response of TS. Krill TS is clearly depended on acoustic properties, which could affect to estimate the biomass of two krill species. The results provide insight into the importance of understanding TS variation to estimate the Antarctic krill and ice krill biomass, and their ecology related to the environmental features in the Southern Ocean.
본 연구의 목적은 위성의 밝기온도를 기반으로 한 정량적 강우량 추정기법의 개선을 위함이다. 우리나라 여름철 강우사례를 이용하여 강우추정을 위한 비선형 관계식을 개선하였다. 분석을 위해 레이더 자료로 기상청 기상레이더 관측망의 고도 1.5 km와 CMAX 반사도 합성자료를 사용하였으며, 위성자료는 천리안 위성의 가시, 적외, 수증기 채널의 자료를 이용하였다. 새롭게 도출된 알고리즘은 A-E method, CRR v4.0 analytic function의 결과와 비교를 하였다. 검증을 위해 우리나라 ASOS에서 관측한 지상강우량 자료를 사용하였다. 공간검증을 위해 검증지수로 POD, FAR, CSI를 계산하였으며 각각 0.67, 0.76, 0.21로 나타났다. 정량적 강우검증을 위해 MAE와 RMSE를 계산하였으며 각각 2.49, 6.18 mm/h였다. A-E에 비하여 정량적인 오차가 줄어들었으며 CRR에 비하여 공간적인 정확도가 증가하였다. 개선한 관계식을 적용한 방법이 두 알고리즘의 부족한 부분을 보완할 수 있는 것으로 판단된다. 개선한 관계식을 통해 강우를 추정하는 방법은 복잡한 알고리즘을 거치지 않고 짧은 시간에 강우추정이 가능함으로써 현업용 실시간 초단기 예보에 활용될 수 있다.
Acoustic target strength (TS) measurement and theoretical acoustic scattering models were applied to estimate the TS for assessing the fish biomass. TS measurement was made of ex situ sailfin sandfish Arctoscopus japonicus at 70 and 120 kHz, and then compared to backscatter model prediction. The live sandfish was tethered in seawater using monofilament lines. Measurements were made versus incidence angle, −50° to 50° relative to dorsal aspect directions. Distorted wave Born approximation (DWBA) model was used to calculated TS pattern. The TS values of sandfish (body length: 16.2 cm) at 70 and 120 kHz were ‒66.94 dB and ‒64.45 dB, respectively, and were about 20 dB lower than TS of other fishes in Korea waters. These TS levels were distributed within the range of the theoretical TS. Ex situ measurement and theoretical TS may be applied to improve acoustical detection and biomass estimation of the sandfish, and is necessary to measure with various lengths.
Morphological properties of dark banded rockfish (Sebastes inermis) were analysed to investigate its acoustic scattering characteristics. Total of 18 live samples was prepared for X-ray photos and collected morphological coordinates of their body and swim bladder shapes. Kirchhoff-ray mode model was used to calculate acoustic scattering pattern for broad-band frequency range. Inclination of swim bladder ranged from 17 to 30 and the averaged value was about 25.2° (S.D.(standard deviation)=3.15). There were no any tendency of increase or decrease in volume and area ratio of swim bladder to fish body and ranged from 2.2 % to 4.43 % and 14.85 % to 21.31 %, respectively. The averaged value of volume and area ratio was 3.13 % (S.D.=0.52) and 17.6 % (S.D.=1.5). b20 values were –69.01 for 38 kHz, –69.83 for 70 kHz, –70.17 for 120 kHz and -70.93 for 200 kHz, recpectively. Broadband acoustic patterns of dark banded rockfish for 20 ~ 200 kHz were similar among samples and they reflected size and morphological properties of fish species.
Black porgy and fat greenling are commercially important fish species due to the continuously increasing demand in Korea. When estimating acoustically the fish length by a fish sizing echo sounder, it is of crucial importance to know the target strength (TS) to length dependence. In relation to these needs, the target strength experiments for live fishes were conducted in an acrylic salt water tank using two split-beam echo sounders operating at 70 and 120kHz. The target strength under well-controlled laboratory conditions was simultaneously measured with the swimming movement by digital video recording (DVR) system and analyzed as a function of fish length (L) and frequency (or wavelength λ). Equations of the form TS-alog (L)+blog (1)+c were derived for their TS-length dependence. The best fit regression of TS on fork length for black porgy was TS=20.62 log (L, m)-0.62 log (λ, m)-30.68 (r2=0.77). The best fit regression of TS on fork length for fat greenling was TS=12.06 log (L, m)-5.85 log (λ, m)-22.15 (r2=0.44).
Acoustic side-aspect target strength (TS) of living Japanese anchovy (Engraulis japonicus) was measured at 120kHz during in situ experiments. The data were collected by lowering and horizontally projecting the splitbeam transducer into the anchovy school. For analysis and interpretation of the side-aspect TS data, acoustic theoretical model, based on the fish morphology, and dorsal-aspect TS data were used. Total length of the anchovy ranged from 6.6 to 12.8cm (mean length 9.3cm). The side-aspect TS distributed between -40 and -55dB, has an obvious length dependency. The mean side-aspect TS of the anchovy was -47.8dB, and the TS was about 2dB higher than mean TS generated from dorsal-aspect measurements. With reference to maximum TS, the results of the side-aspect TS were distributed within the range of the theoretical and dorsal-aspect TS. Apparently these tendency indicates that side-aspect TS measured from the study is useful data. These in situ measurements of side-aspect TS can be applied to improve acoustic detection and estimates of the anchovy, and is necessary to measure with a various frequency and length for making enhance data.
Species of fish such as striped beakperch, bluefin searobin and konoshiro gizzard shad are commercially very important due to their high demand in the Korean market. When estimating acoustically the abundance of stocks for these species, it is of crucial importance to know the target strength (TS) to the length dependence. In relation to these needs, the TS experiments were conducted on three different species in an acrylic salt water tank using two split-beam echo sounders of 70 and 120 kHz. The TS for these three species under the controlled condition was simultaneously measured with the swimming movement by a DVR system and analyzed as a function of fish length (L) and frequency (or wavelength λ). The equation of the form TS=a log (L)+b log (λ)+c was derived for their TS-length dependence. The best fit regression of TS on fork length for striped beakperch was estimated as TS=35.67 log (L, m) -15.67 log (λ, m) -46.69 (r2=0.78). Furthermore, the best fit regression of TS on fork length for konoshiro gizzard shad was shown to be TS=25.85 log (L, m) -5.85 log (λ, m) -32.22 (r2=0.51). The averaged TS for 12 bluefin searobins with a mean length of 24.36cm at 70 kHz was analyzed to be -41.55dB. In addition, the averaged tilt angle obtained simultaneously by a DVR system with TS measurements for 27 konoshiro gizzard shads swimming within an acrylic salt water tank was estimated at -2.7˚.
The indirect target strength (TS) estimation method which uses the Kirchhoff ray mode model (KRM model) was discussed to apply for a biomass estimation in the water of mixed species. TS of 25 live scorpion fishes for 120kHz were measured by a tethered method and of others dominant 5 species in the marine ranching ground of Jeju coastal water including a scorpion fish were also estimated by KRM model. The measurement TS of scorpion fish well agreed with the theoretical values and the standard formula of scorpion fish was estimated as TS120kHz=20Log (L)-72.9 (r2=0.67). TScm values estimated on trial to each sample of dominant 5 species were from -69.3dB to -75.1dB at 120kHz and they were in the general range of swimbladdered fish. It was clarified that TS by KRM model can be used to estimate fish biomass estimation by increasing a sample number and is more effective under the condition that there is rare TS information for inhabiting species in mixed-species area.
Assessment and management of fisheries abundance in fresh water like a river or a lake is very important to maintain fisheries itself as well as tourist industry even if their scale is not much large. The species for catch in fresh water are mainly a mandarin fish, a carp, an eel, and others. Because oriental river prawn is a main prey of these species and the change in its abundance is directly related to their abundance change in fresh water, information on the abundance and distribution of the species are necessary. Hydroacoustic survey is known to one of the efficient method among several methodology. Information on acoustic target strength is key parameter to estimate abundance for acoustic survey. In this study, measurements on oriental river prawn, Macrobrachium koreana, were conducted for two high frequencies(200kHz and 420kHz) with tilt angle using automatic rotating system. The results of acoustic target strength obtained from the experiment were compared with those of acoustic scattering model, Distorted Wave Born Approximation(DWBA) model. For 200kHz, the result of acoustic target strength experiments was expressed in terms of the averaged target strength dependence on the body langth(BL, cm) as a following relationship; 〈 TS200kHz 〉 = 45.9log(BL) - 107.4. These results provide basic information for studying acoustic target strength and conducting acoustic survey of oriental river prawn.
Black rockfish and goldeye rockfish are commercially important fish species due to the increasing demand in Korea. When estimating the abundance of stocks for these species acoustically, it is of crucial importance to know the target strength(TS) to length dependence. In relation to these needs, TS measurement was conducted on black rockfish and goldeye rockfish in an acrylic salt water tank using 70kHz and 120kHz split beam echo sounders. The TS for these two species under the controlled condition was simultaneously measured with the swimming movement by DVR system and analyzed as a function of fish length(L). The results obtained are summarized as follows: The best fit regression of TS on fish length of black rockfish was TS=19.38 Log(L, cm)-70.46 (r2=0.71) at 70kHz and TS=22.39 Log(L, cm)-70.40 (r2=0.64) at 120kHz and in the standard form TS=20 Log(L, cm)-71.29 (r2 = 0.70) at 70kHz and TS=20 Log(L, cm)-66.88 (r2=0.57) at 120kHz. The best fit regression of TS on fish length of goldeye rockfish was TS=17.10 Log(L, cm)-68.28 (r2=0.37) at 70kHz and TS=24.39 Log(L, cm)-73.74 (r2=0.59) at 120kHz and in the standard form TS=20 Log(L, cm)-72.03 (r2=0.32) at 70kHz and TS=20 Log(L, cm)-67.68 (r2=0.64) at 120kHz. An empirical model for fish TS(dB) averaged over the dorsal aspect of 115 fishes of black rockfish and goldeye rockfish and which spans the fish length(L, m) to wavelength(λ, m) ratio between 8 and 30 was derived : TS=34.12 Log(L)-14.12 Log(λ)-23.83, (r2=0.90).
Acoustic target strength (TS) of 12 commercially important fish species caught in the Korean waters had been investigated and their results were presented. Laboratory measurements of target strength on 12 dominant fish species were carried out at a frequencies of 75 kHz by single beam method under the controlled condition of the water tank with the 241 samples of dead and live fishes. The target strength pattern on individual fish of each species was measured as a function of tilt angle, ranging from -45˚ (head down aspect) to 45˚ (head up aspect) in 0.2˚ intervals, and the averaged target strength was estimated by assuming the tilt angle distribution as N (-5.0˚, 15.0˚). The 75 to fish length relationship for each species was independently derived by a least - squares fitting procedure. Also, a linear regression analysis for all species was performed to reduce the data to a set of empirical equations showing the variation of target strength to fish length and fish species. An empirical model for fish target strength(TS, dB) averaged over the dorsal aspect of 158 fishes of 7 species and which spans the fish length(L, m) to wavelength(λ, m) ratio between 6.2 and 21.3 was derived: TS: 27.03 Log(L)-7.7Log(λ)-17.21, (r2=0.59).
우리나라 주변해역에 서식하는 주요 어종의 체장식별에 필요한 음향반사강도의 data bank를 구축하기 위한 연구의 일환으로 대형음향수조에서 부세의 체장에 따른 음향반사강도를 측정하고, 그 반사강도의 체장 의존성 및 KRM 산란모텔에 의한 이론 반사강도와 측정치를 비교, 분석한 결과를 요약하면 다음과 같다. 1. 체장의 범위가 21.0-32.5 cm인, 총 13마리의 부세를 대상으로 구한 평균반사강도패턴에서 최대 반사강도는 tilt angle이 -13.35˚ 인 입사방향에서 나타났고, 이 때의 반사강도는 -35.13 ㏈ 이었다. 2. 부세의 체장 (fork length, cm)과 평균반사강도의 사이에는 다음의 회귀직선식이 성립하였다. TS=23. 76log(L) -73.45(r=0.47) TS=20log(L) -67.35이 결과로부터 부세의 반사강도는 체장의 2.376승에 비례하는 경향을 나타내었고, 체장변환계수는 체장의 2승에 근사시켜 구한 값 보다 6.1 ㏈ 더 낮게 나타났다. 이들의 결과는 향후 체장어군탐지기의 체장변환계수의 값으로서 활용될 것으로 판단된다. 3. 평균체장은 25.59 cm인 총 13마리의 부세에 대한 반사강도의 빈도분포로부터 구한 반사강도는 -41.23 ㏈이었고, 이 값으로부터 구한 체장변환계수는 -69.72 ㏈이었다. 4. KRM model에 의한 부세의 이론반사강도는 L/λ 비가 15보다 작은 영역에서는 파동상의 변화를 나타내면서 증가하는 경향을 나타내었고, 15보다 큰 영역에서는 매우 완만하게 증가하는 경향을 나타내었다. 5. 부세의 평균반사강도의 측정치는 KRM 산란모델에 의한 예측치보다 전반적으로 낮은 경향을 나타내었고, 보다 정량적인 분석을 위해서는 광범위한 주파수 범위에 대한 실험이 필요하다고 판단된다.리오차는 수온변화에 의한 송신주기의 변화를 측정하여 최소화하도록 하였다. 핑거 부근의 수온을 알 수 있다면 핑거 송신주기의 수온특성을 보정하여 74%정도 측정거리오차를 줄일 수 있지만, 장기간에 걸쳐 추적을 하기 위해서는 다른 보정방법의 개발이 필요함을 알 수 있었다.법이 모색되어야 한다. 앞으로 한국실정에 맞는 토착화된 사별관리를 위한 다각적인 연구가 시도되어야 하며 이를 실무에 적용시켜야 한다.ssumption, additional study is needed to examine the relationship between the levels of microbes and excessive concentrations of EA, and borate at a high pH level.부정적인 반응을 보였다. '한국음식을 더 많이 해서 전통음식과 친밀한 장소로 발전시키자', '계절식품을 이용하고 비슷한 종류의 음식은 빼서 가격을 낮추자', '연령에 따라서, 또, 성인에서는 성별에 따라 가격 차이를 두자'는 의견 등이 있었다.이용한 배반포의 체외생산에 있어서 배양액내 항산화제의 첨가는 체외성숙단계에서만 효과적이었다. 이것은 아마도 항산화제가 체외성숙 시 난포란 내에서 일어나는 여러 가지 생화학 반응의 처리시간과 관련하여 활성화시킴으로써 난포란의 생존력을 높인 것이라고 사료되기 때문에 앞으로는 돼지 난포란의 효율적인 체외성숙에 대해서 배양액내 첨가물질은 물론 나아가서 방법론적인 측면에서 더욱 연구되어져야 할 것이다.ed from Nusselt's film condensation theory on tilted plate. Using those two expressions, a correlation was formulated as a function of heat flux and tilt ang
부레를 가시고 있는 어류는 그 부레가 반사강도에 많은 영향을 미치고 있다. 해중에서 어류의 부레가 등방향 반사강도에 미치는 영향을 알아보기 위하여 제주도 주변 정치망에서 어획된 독가시치 8마리에 대하여 200 kHz 송수파기를 이용하여 등방향 반사강도를 측정하였다. 등방향 반사강도에 대한 부레의 역할 정도에 관한 조사를 위해서는 X-ray 사진을 이용하여 주사기로서 부레의 가스를 제거하기 전후의 등방향 반사강도를 비교.분석하였다. 독가시치의 유영자세별 등방향 반사강도의 최대치는 수평상태에서 6˚만금 머리를 아래로 향하여 보다 깊은 수심으로 유영하여 가는 자세에서 -30.69 dB 이었다. 부레속에 가스가 있을 때의 실험어의 전장과 체중에 따른 평균 등방향 반사강도를 나타내는식은 각각, TS : -65.16 + 20 log L TS : -50.50 + 20/3 log W 이었다. 또한 부레속의 가스를 제거한 후 실험어의 전장과 체중에 따른 평균 등방향 반사강도를 나타내는 식은 각각, TS : -65.29 + 20 log L TS : -52.62 + 20/3 log W으로서 전장과 체중에 대하여 모두 2.12~2.13 dB의 차이가 있었다. 독가시치는 부레속의 가스를 제거하기 전의 등방향 반사강도가 제거한 후보다 최고5.87 dB, 평균 2.01 dB 높았는데 이는 회귀직선식으로 구한 차이와 거의 같은 값이었다. 그러나. ±30˚ 전후의 유영자세에서 부분적으로 반사강도의 역전현상이 나타났으며. 유영자세 27˚에서 2.12 dB 이나 낮게 나타났다.
계량어군탐지기에 의한 어류자원의 자원량 추정에 필요한 기초자료를 얻기 위하여, 우리나라 남해와 제주도 주변에서 많이 어획되는 돌돔과 독가시치의 두 어종에 대하여 어체의 유형자세별 등 방향 반사강도를 제한법으로 측정하였으며, 분석한 결과를 요약하면 아래와 같다. 돌돔의 전장과 체중에 따른 평균반사강도를 나타내는 식은, TS=-72.97+20 log L, TS=-61.29+20/3 log W 이었다. 그리고, 독가시치의 전장과 체중에 따른 평균반사강도를 나타내는 식은, TS=-63.16+20 log L TS=-50.50+20/3 log W 이었다. 주파수 200kHz용 송수파기에 의해 제한법으로 측정한 모든 실험어의 유영자세별 반사강도의 최대치는 돌돔인 경우-12˚--21˚, 독가시치인 경우 -1˚--8˚로 머리를 아래로 향하여 보다 깊은 수심으로 유영하여 가는 자세에서 최대치가 나타났다. 실험어에 대한 반사강도를 유영자세별로 평균한 결과, 실험어의 최대 반사강도는 돌돔의 경우 -18˚에서 -41.50dB이며 독가시치의 경우 -6˚에서 -30.69dB로 나타났다.
The in situ target strengths of, maurolicus muelleri were measured by the split beam echo sounder system at the frequency of 38kHz.Target strengths were measured during the night time in order to obtain the pure separated echoes from the scattered individual. And also it was to establish reasonable threshold due to taking the signals like as the planktons and etc.Since Maurolicus muelleri is a typical micronektonic fish, they mainly consisted of deep scattering layers(DSLs), and had a vertical migration perrodically during daytime and at night.We found that the Maurolicus muelleri occupied about 99% of total catch. Total length ranged from 4.5 to 5.7cm with a mean of 5.2cm and a standard deviation of 0.22cm.The target strengths of Maurolicus muelleir ranged from -60.4 to - 52.7dB and -59.2 to - 52.5 dB in the water layer of 10~30m and 30~50m depth, perspectively. Mean target strength was -57.1dB/fish and -28.5dB/kg. The target strength had the relation with the total length of the fish as, TS=20logL-71.4.
The combined hydroacoustic and bottom trawl surveys were conducted in the Cheju southeastern area by the training ship "KAYA" belong to Pukyong National University in July 1995 and the traning ship "NAGASAKI MARl]" belong to Nagasaki University in April 1994, respectively. The main purpose of the investigations was to provide the basic data for the management and the biomass estimation of commercially important demersal fish stocks in this area. Fish samples were collected by bottom trawling from 10 trawl stations randomly selected in the survey area, and the species and length compositions of trawl catches were examined. The fish school target strength for demersal fish aggregations was related to the catchability of trawl net with a 90 mm mesh codend. The most abundant species in the 1995 trawl stations were Japanese flying squid, sword tip squid and red horsehead and that of the 1994 trawl stations Japanese flying squid and blackmouth goosefish. The average weight per cubic meter of trawl catches collected by bottom trawling in the Cheju southeastern area were 1.0791×lO-4kg/m3 in the 1994 survey area and 1.3636×lO-4kg/m3 in the 1995 survey area, respectively. The catch data by cover net suggest that the efficiency of trawl net could affect the weight normalized target strength values for demersal fish aggregations. That is, the average target strength per unit of weight dropped from - 33.1 dB/kg using the total catch by codend and cover net to - 30.5 dB/kg using only the catch data by codend, and a change of2.6 dB/kg was observed.ange of2.6 dB/kg was observed.
우리나라 연근해 해역에 대한 어족생물의 자원평가 및 그 관리를 위한 기초자료를 수집하기 위한 연구의 일환으로 동중국해를 대상으로 계량어군탐지기 및 트롤조업에 의해 수집된 어족생물의 음향학적 조사자료 및 수조실험자료 등을 종합적으로 분석하여 조사대상해역에 대한 어족생물의 어군반사강도를 추정한 결과를 요약하면 다음과 같다. 1. 1994년 4월에 제주도 남서방 해역에서 50kHz의 주파수에 대하여 측정한 트롤 예망층에 대한 어군의 평균체적산란강도(〈SV〉, dB)와 그 때의 트롤조업에 의해 어획한 단위체적당의 어획량(C, kg/m3)과의 사이에는 다음의 회귀직선식을 얻었다. = -32.4+10Log(C) 이 식에서 어획물 1kg당에 대한 어군의 평균반사강도의 추정치는 〈SV〉 = - 32.4dB/kg이었다. 2. 1989~1992년의 11월중에 동중국해에서 25kHz와 100kHz의 주파수에 대한 트롤 예망층의 평균체적산란강도(〈SV〉, dB)와 단위체적당의 어획량(C, kg/m3)과의 사이에는 다음의 회귀직선식을 얻었다. 25kHz : 〈SV〉 = - 29.8+10Log(C) 100kHz : 〈SV〉 = - 31.7+10Log(C) 이들 식에서 25kHz와 100kHz의 주파수에 대한 어획물 1kg당에 대한 어군의 평균반사강도의 추정치는 각각 -29.8dB/kg, -3.7dB/kg으로서, 25kHz에 대한 어군반사강도의 값이 100kHz에 대한 그 값보다 1.9dB 더 컸다. 3. 트롤조업에 의해 어획한 강달이, 말쥐치, 갈전갱이, 민태, 병어, 황돔, 민어, 고등어, 샛돔, 전갱이 등을 대상으로 25kHz와 100kHz의 주파수에서 측정한 어체의 평균반사강도와 체중과의 사이에는 다음의 회귀직선식을 얻었다. 25kHz : TS = - 34.0+10Log(W⅔) 100kHz : TS = - 37.8+10Log(W⅔) 이들 식에서 25 kHz와 100kHz의 주파수에 대한 어체의 1kg 당에 대한 평균반사강도의 측정치는 각각 -34.0dB/kg, -37.8dB/kg로서, 25kHz에 대한 어체의 평균반사강도의 값이 100kHz에 대한 그 값보다 3.8dB 더 컸다. 4. 제주도 근해에서 어획한 보구치의 부레의 등가반경(A)에 대한 체장(L)의 비솔(A/L)는 체장이 증감함에 따라 약간 감소하는 경향을 보였고, 그 평균치은 0.089이었다. 이상의 트롤조업 및 어탐조사, 또한 실험수조에서 측정한 어체의 반사강도를 종합적으로 고찰 할 때, 동중국해의 어업자원을 평가함에 있어 적용 할 수 있는 어군 1kg당에 대한 평균적인 반사강도는 25kHz와 100kHz의 주파수에 대하여 각각 -31.4dB/kg, -33.8dB/kg이라고 추정된다.
50KHz, 200KHz용 과학어군탐지기로서 한국연안에서 많이 어획되고 있는 숭어 Mugil cephalus, 쥐노래미 Hexagrammos otakii, 도다리 Pleuronichthys cornutus의 자원량을 추정할 때 보다 정밀하게 추정할 수 있는 기초자료를 제공하기 위하여 이들 어류에 대한 체장별, 체중별, 어체의 자세별 초음파 반사특성에 대하여 실험한 결과는 다음과 같다. 1. 숭어, 쥐노래미, 도다리의 초음파 반사특성은 대체로 이들 어체의 등방향 60˚~120˚사이가 가장 큰 경향을 나타내었고, 200KHz가 50KHz보다 예리한 특성을 나타내었다. 2. 50KHz 주파수에서의 초음파 반사강도는 어체의 자세가 Rolling 방향일 때가 Pitching 방향일 때 보다 다소 높은 경향을 나타내었으며, 도다리, 쥐노래미, 숭어의 전장별, 체중별 초음파 반사강도의 변환계수 A, B는 각각 -66.8dB, -69.8dB, -70.9dB, -54.1dB, -56.8dB, -57.1dB이였다. 3. 200KHz 주파수에서의 초음파 반사강도는 어체의 자세가 Pitching 방향일 때가 Rolling 방향보다 다소 높은 경향을 나타내었으며, 도다리, 쥐노래미, 숭어의 전장별, 체중별, 초음파 반사강도의 변환계수 A, B는 각각 -71.6dB, -71.9dB, -74.1dB, -58.8dB, -60.2dB이였다. 4. 어체의 부위에 따른 초음파 반사강도는 도다리와 숭어의 경우 등방향을 중심으로 ±15˚범위가 가장 높은 경향을 나타내었고 쥐노래미의 경우 ±30˚범위가 가장 높게 나타났다.