Fish school monitoring technology is utilized for various purposes, such as boat fishing and resource surveys. With advancements in information and communication technology, this technology has expanded its application to remote areas. Its significance has grown in fishing sites, particularly for improving the efficiency and cost-effectiveness of set-net fishing. Set-net fishing gears are not limited to coastal areas, but are also installed in inland and remote sea regions. Consequently, fishermen require technology that allows them to quickly transmit information about approaching fish schools and enables them to perform long-term monitoring. The development of remote monitoring technology for set-net fish schools must consider crucial design factors such as communication range, transmission speed, power consumption of information modules, and operational expenses. In this study, we developed a low-power remote monitoring module for set-net fish school based on WCDMA. The module was specifically designed to minimize power consumption, allowing for communication over long distances and extended operation times in set-net fishing applications. Furthermore, we developed a web server software application that enables remote access to fish schools and provides real-time weather information. The performance of the developed module was evaluated through set-net fishing site application and experiments with moving ships on the sea. The experimental results demonstrated that the remote monitoring system, consisting of the developed low-power remote monitoring module for set-net fish school based on WCDMA and a fish finder, had an average power consumption of 4.6 W, a maximum communication range of 22.84 km, and a data transmission and reception rate of 98.79%. The maximum fish school information transmission and reception rate was 97.26%.
A telesounder is a device that can monitor the appearance of fish in the sea on land and store fish detection data. This study was conducted to monitor the appearance of fish resources in coastal or near seas by using LTE communication for data transmission of the telesounder. The purpose of this study was to develop a prototype telesounder that can monitor the appearance of fish groups in the waters about 50 km away from the coast and store fish detection data. In this study, the prototype telesounder including a fish finder, communication device and battery for stable operation at sea was developed. The stability of telesounder buoy, data transmission/reception and expected use time were investigated. The expected use time of the telesounder using LTE communication with a lithium battery (12 V, 120 Ah) was about 274 hours under the conditions of 10 minutes off and 10 minutes on, about 520 hours under the conditions of 30 minutes off and 10 minutes on, and about 142 hours under continuous conditions. As a result of the sea test, it was found that the telesounder can be used in the sea area moved about 34 km from the land and the telesounder buoy was evaluated to have secured basic stability (buoyancy balance, waterproof, antenna strength, etc.) for operation in a marine environment.
The cable-based retractable membrane roof makes it impossible to maintain its shape and stiffness during driving process, unlike the hard-type retractable roof. Consequently, monitoring using a relatively simple wireless video transmission device is required. However, since video data has a bigger transmission rating than other monitoring data in terms of the structure velocity or acceleration, there is a need to develop transmission device that is easy to install and entails low maintenance cost. This paper studies on a real-time video transmission system for monitoring the cable-based retractable membrane roof while driving. A video transfer software, using the mobile network, is designed and the embedded system is constructed. Ultimately, the data transmission server is tested. Connecting a trolley to the system allows testing of the validity and efficiency of the developed system through the video data transmitted in the driving process. Result of the test shows that the developed system enables multi-device data transfer with monitoring via the mobile network.
2017년, 스트리밍 서비스의 매출이 세계 음악 소비의 38.4%, 66억 달러에 이름으로써 스트리밍 서비스가 처음으로 음악 산업 최대 수입원이 되었다. 스트리밍 방식이 음악 저작물 소비 경향의 주류가 되자, 저작권자 및 실연자가 정당한 몫을 받지 못하고 있다는 문제가 더욱 부각되었다. 소비자가 음원 파일 자체를 영구적으로 소유하게 되는 다운로드 방식과 달리, 일정한 기간 동안 재생하기만 하는 스트리밍 방식의 이용료가 상대적으로 저렴한 까닭에 자연히 음원 1회 재생당 발생하는 매출액 자체가 낮아지므로, 스트리밍 서비스 이용 비중이 높아질수록 저작권자와 실연자에게 돌아가는 몫은 더 적어지기 때문이다. 현재는 음원 창작에 직접적으로 관여하지 않은 음원서비스업체가 음원 스트리밍 서비스로 인한 수익을 가장 많이 가져가고 있어, 음원 유통 및 수익 분배 구조에 문제가 있다는 견해가 많은 것으로 보인다. 현재 40%인 음원서비스업체에게 돌아가는 수익 분배율을 낮춤으로써, 음원서비스업체 스스로 음원 서비스 제공에 소요되는 비용을 절감할 수 있는 새로운 형태의 플랫폼을 개발하거나, 블록체인 기술 등을 적용한 대안적 플랫폼이 등장 하도록 유도하여 작곡⋅작사가, 실연자의 수익분 배율을 높이는 방안이 실용적인 해결책이 될 수 있을 것이다.
The goals of automatic fire detection equipment in Japan and South Korea are the detection in early fire stage, alarm and finding the location of the fire. Japan also has similar operation system and signal transmission method compared with South Korea. The standards of fire detection equipment in Japan are established their own standards. The automatic fire detection equipment in Korea has been developed with benchmarking the Japanese system in early 1950’s and follows the decree on the basis of Japan’s fire services. NFPA 72, which is automatic fire detection equipment in U.S.A. and verified through the experiment and test, expects to reflect to our automatic fire detection equipment after modification and supplement.
We develop a real-time data transfer system for the Korea Microlensing Telescope Network (KMTNet) photometry data and test whether it is suitable for Korea Astronomy and Space Science Institute (KASI) and three different observatories, which are Cerro Tololo Inter-Ameriacan Observatory (CTIO) in Chile, Siding Springs Observatory (SSO) in Australia, and South African Astronomical Observatory (SAAO) in South Africa. For this test, we use a high speed global network being dedicated for researches. From the test, we obtain that the elapsed times between KASI and each three observatories, CTIO, SSO, and SAAO to transfer 650 MB of data are 99.0, 9.2, 119.0 seconds, respectively. This means that the system can be used for the real-time data processing of KMTNet.
This paper describes the development of algorithm for direct data transmission between Raw VLBI Data Buffer (RVDB) and Huge Capacity Data Server (HCDS) operated in Korea-Japan Correlation Center (KJCC). The transmitted data is the VLBI observation data, which is recorded at each radio telescope site, and the data transmitting rate is varying from 1 Gbps, in usual case, upto 8 Gbps. The developed algorithm for data transmission enables the direct data transmission between RVDB and HCDS through 10 Gbps optical network using VLBI Data Interchange Format (VDIF). Proposed method adopts the conventional UDP/IP protocol, but in order to prevent the loss of data during data transmission, the packet error monitoring and data re-transmission functions are newly designed. The VDIF specification and VDIFCP (VDIF Control Protocol) are used for the direct data transmission between RVDB and HCDS. To validate the developed algorithm for data transmission, we conducted the data transmission from RVDB to HCDS, and compared to the transmitted data with the original data bit by bit. We confirmed that the transmitted data is identical to the original data without any loss and it has been recovered well even if there were some packet losses.
A fiber-optic reference signal transmission system, which transmits the 1.4 GHz reference signal from H-maser to receiver cabin in radio telescopes, was adopted for compensating the phase changes due to temperature variation and antenna movement. At the first experiment, the remote signal’s phase changed more than 15 degrees at 1.4 GHz. We found unstable components in sub-system experiments and replaced them. The main cause of unstable phase stability was the unaligned polarization axis between Laser Diode and Mach-Zehnder Modulator (MZM). The improved system stability showed 1 × 10-16 allan standard deviation at 1,000 sec integration time with the antenna fixed. When the antenna moves in the azimuth axis, the 1.4 GHz remote signal showed the phase change smaller than 0.2 degrees.
종래의 지구과학 교과서에서는 대중 과학잡지를 비롯한 각종 언론 매체에서 자주 다루는 최신 천문 현상들에 대한 내용이 매우 부실하였다. 2009 개정 과학과 교육과정에서는 이러한 내용들을 적극 수용하자는 것이 주요 개정 방향 중 하나이다. 추가로, 천문학과 물리학의 깊은 연관성에도 불구하고 그동안 지구과학 교과에서는 현대 물리학의 개념, 물리 교과에서는 천문학과의 연관성에 대한 내용이 많이 다루어지지 않았다. 따라서 2009 개정 과학과 교육과정에서는 과학의 융합 개념을 강조하고 있다. 위의 두 가지를 모두 포함하는 분야들 중 하나로서 고에너지 천체의 격변광 현상을 들 수 있다. 본 연구는 e-Science를 이용한 천체 관측의 실시간 자료 전송 및 영상화를 소개하였다. 그 첫 단계의 실험으로서 우리는 국가 연구 교육 시험망의 하나인 KOREN을 이용한 국내 최초의 한 일간 천문 관측 자료의 대용량 자료 전송 실험을 실시하였다. 또한 천문학 및 천체물리학 관측 분야에서 활발하게 진행되는 세계 각국의 e-Science 분야들을 소개하고, 과학탐구활동 및 과학 대중화 활동과 어떻게 연결되어 진행되는지 소개하였다. 아직 걸음마 단계인 국내 천문 분야의 e-Science에 있어서 우리의 실험이 가지는 과학적 및 교육적 의미를 짚어보고, 머지않아 상용화될 Gbps급 인터넷 환경에 있어서 이와 같은 실험의 과학탐구활동 및 과학 대중화 활동에 있어서의 활용을 전망해 보았다.
본 연구에서는 50대 택시 운전자를 대상으로 동작 신호인 Jerk-Cost function(JC)와 차간거리의 분산계수(Anterior-Posterior Coefficient of Variation, APCV), 차선이격거리의 분산계수(Medial-Lateral Coefficient of Variation, MLCV)와 같은 차량 통제 데이터를 이용하여 운전 중 문자 메시지 전송 또는 네비게이션 검색과 같은 동시 과제 수행이 운전 수행 능력에 어떠한 영향을 미치는지를 알아보고자 하였다. 남성 14명과 여성 14명을 대상으로 실험을 진행하였다. 피험자는 일정 속도(80km/hr or 100km/hr)로 주행하는 선행 차량과 일정 거리 30m를 유지하며 주행하도록 하였다. 처음 1분간은 운전만을 수행하게 하였으며, 다음 1분 동안은 운전만을 수행하거나 운전과 함께 동시 과제를 수행하도록 하였다. MLCV와 APCV는 80km/hr와 100km/hr 주행 시 Driving only에 비해 Driving + Sending Text Message(STM)와 Driving + Searching Navigation(SN)에서 유의하게 증가하였다. JC 또한 주행 시 Driving only에 비해 Driving + STM과 Driving + SN에서 증가하였다. 본 연구를 통해 운전 경력이 길고 운전 전문가라고 할 수 있는 50대 택시 운전자도 운전만을 수행하는 경우에 비해 운전과 함께 문자 메시지 전송 또는 네비게이션 검색 과제를 수행하게 될 경우 동작 패턴이 거칠어지고 차량 통제가 어려워진다는 사실을 도출할 수 있었다.