보고서 정보
주관연구기관 |
빌리언 21 |
연구책임자 |
김상순
|
참여연구자 |
김송강
|
보고서유형 | 최종보고서 |
발행국가 | 대한민국 |
언어 |
한국어
|
발행년월 | 2019-02 |
과제시작연도 |
2018 |
주관부처 |
해양수산부 Ministry of Oceans and Fisheries |
등록번호 |
TRKO202000029747 |
과제고유번호 |
1525007521 |
사업명 |
미래해양산업기술개발사업(R&D) |
DB 구축일자 |
2020-10-10
|
키워드 |
양식환경 감시.양식환경 제어.복합전원 지원.가변성.확장성.데이터변환기.Aquafarm environmental monitoring.The aquafarm environment control.The integrated power support.Flexibility. expandability.Data converter.
|
초록
▼
[연구목표 및 내용]
· 본 연구의 목표는 기 개발된 통합형컨버터 및 양식장 환경관리시스템에 대한 검증 및 성능개선을 통하여, 기존 제품의 시장진입 가능성 및 식품안정성을 확보하는 것에 있다.
· 컨버터 성능 검증 실시
· 양식장 현장 설치 및 현장 운영 테스트
· 제품 개선을 위한 연구 개발 및 제품 제작
[연구결과]
· 양식현장 설치 및 운영 시험 : 청수수산, 중부수산 양식현장 설치 및 운영시험 실시
· 통합형 컨버터 PCB 및 시스템 개발 : 모듈별 분리되었던 제품을 개
[연구목표 및 내용]
· 본 연구의 목표는 기 개발된 통합형컨버터 및 양식장 환경관리시스템에 대한 검증 및 성능개선을 통하여, 기존 제품의 시장진입 가능성 및 식품안정성을 확보하는 것에 있다.
· 컨버터 성능 검증 실시
· 양식장 현장 설치 및 현장 운영 테스트
· 제품 개선을 위한 연구 개발 및 제품 제작
[연구결과]
· 양식현장 설치 및 운영 시험 : 청수수산, 중부수산 양식현장 설치 및 운영시험 실시
· 통합형 컨버터 PCB 및 시스템 개발 : 모듈별 분리되었던 제품을 개선하여, 통합 PCB H/W 및 Embedded System 프로그램, 환경 관리 프로그램 개발
· 통합형 컨버터 모델 2 종 개발 : 기본형(21 인터페이스 탑재) + 확장형(42 인터페이스 탑재)
· 검증 작업 실시 : 중부대학교 검증단 검증 + TTA V&V 검증 시험 실시
[연구개발에 따른 기대성과]
· 양식장 자동화를 위한 IOT Base System 확보
· 수입대체 효과 및 국내 양식 자동화 시스템 구축 기술 발전에 기여
· 양식장 자동화를 통한 양식어가 인건비 절감, 폐사 피해 감소, 수익성 증대 효과
· 양식관련 산업(센서, Actuator, 양식장비 등) 동반성장 기대
(출처 : 요약서 3p)
Abstract
▼
Purpose & Contents
○ By connecting various sensors, control devices, and integrated converters used in aquaculture farms, and making it possible to monitor and control the environment of aquaculture farms effectively, it is the goal of this research to improve the productivity and profitability o
Purpose & Contents
○ By connecting various sensors, control devices, and integrated converters used in aquaculture farms, and making it possible to monitor and control the environment of aquaculture farms effectively, it is the goal of this research to improve the productivity and profitability of aquaculture facilities as well as the convenience and efficiency of aquafarm managers and the rate of aquatic products.
▸ Goal 1: Verification of the performance of newly developed products
- Verification of developed power interface performance
: Verified 3.3V, 5.0V, 12V power supply
- Verification of developed communication protocol standard
: RS232, RS485, I2C, Analog, Zigbee, Ethernet
▸ Goal 2: Extend Specification for Market Entry
- Performance verification and addition of power interface
: 24V power addition and verification
- Addition and verification of communication protocol specification
: Modbus, LoRa
▸ Goal 3: Installation of on-site integrated converter aquafarm and verification of service operation status
- Installation of integrated converters at one fisheries laboratory and one aquaculture fishery
- Verification of operation status of 4 kinds of sensor devices and 4 kinds of control devices
○ Verification of integrated power supply interface
- In addition to verifying the developed 3.3V, 5.0V, 12.0V power supply type, the integrated converter is improved to accommodate the additional 24V power supply, so that verification of devices using the four power supply standards are connected is conducted
○ Verification of integrated converter protocol interface
- Verification of protocol interface utilizing Driver Library to enable simultaneous connection of sensor devices or control devices using different communication protocols of the developed integrated converter
- Monitoring and verification of control service performance in aquaculture environment for sensor, control device and integrated converter using the developed RS232, RS485, I2C, Analog wired communication protocol and Zigbee wireless communication protocol
- In order to support LoRa protocol and various sensors for wireless communication, Modbus protocol is added so that the market entry possibility of the newly developed products can be increased and to monitor and control in an aquafarm environment by connecting devices using each protocol to integrated converters.
Purpose & Contents
○ Verification of integrated converter connection capacity: verification of the number of devices that can be connected to the integrated converter at the same time
- 8 sensor devices per an integrated converter
- 4 control devices per an integrated converter
- 4 sensor devices per an integrated converter + 2 control devices
○ On-site verification of the integrated converters
- Installation and Verification of Equipment Location
: 1 Fisheries Laboratory, 1 inland hatchery fish farm
- Type of installation sensor device
: water temperature, salt, DO, pH sensor device, etc
- Type of installation control device
: feed feeder, aeration tank, oxygen feeder, temperature controller, etc
○ In this study, to verify the field application of integrated converters, a defined number of devices using the above-described four power supply types and seven kinds of communication protocols are concurrently connected to the integrated converters at the same time in order to verified at two sites.
Results
○ Improvement of product sales possibility through verification and development of Driver Library suitable for aquafarm environment
- Improve the possibility of the market entry of the integrated converters by making it easily be connected to the aquafarm management service system of any device of users through verification and further development of the Driver Library of each equipment used in the integrated converter and service system to support the power type and wired / wireless communication method of various sensor devices and control devices used at the aquaculture site,
○ Establishment of utilization of Vendor Independent equipment
- In the case of having a sensor and a control device, the aquafarm manager uses the integrated converter to convert the condition of dependent on the vendor into the independent condition of the vendor so that it can prepare the condition of increased productivity and profitability by selecting the device considering only the performance and price in the purchase and installation.
○ Establishment of basis for development of "Package" for specific hatchery fish species
- All data about form environment and form results are stored as digital data at the same time of integrated converter operation, and system to utilize information through big data analysis is built and form know-how is saved as package of digital data pattern, thus, establishing basic environment that can be distributed to the aquafarm
Expected Contribution
○ Improvement of product sales possibility through verification and development of Driver Library suitable for aquafarm environment
- Improve the possibility of the market entry of the integrated converters by making it easily be connected to the aquafarm management service system of any device of users through verification and further development of the Driver Library of each equipment used in the integrated converter and service system to support the power type and wired / wireless communication method of various sensor devices and control devices used at the aquaculture site,
○ Establishment of utilization of Vendor Independent equipment
- In the case of having a sensor and a control device, the aquafarm manager uses the integrated converter to convert the condition of dependent on the vendor into the independent condition of the vendor so that it can prepare the condition of increased productivity and profitability by selecting the device considering only the performance and price in the purchase and installation.
○ Establishment of basis for development of "Package" for specific hatchery fish species
- All data about form environment and form results are stored as digital data at the same time of integrated converter operation, and system to utilize information through big data analysis is built and form know-how is saved as package of digital data pattern, thus, establishing basic environment that can be distributed to the aquafarm
(출처 : SUMMARY 7p)
목차 Contents
- 표지 ... 1
- 제출문 ... 2
- 보고서 요약서 ... 3
- 요약문 ... 4
- SUMMARY ... 7
- Contents ... 10
- 목차 ... 11
- 제1장. 연구개발과제의 개요 ... 12
- 가. 연구개발 목적 ... 12
- 나. 연구개발의 필요성 ... 13
- 다. 연구개발의 최종목표 ... 14
- 라. 연구개발 범위 ... 15
- 제2장. 국내외 기술 개발 현황 ... 16
- 가. 현재 기술 및 경쟁기관 현황 ... 16
- 나. 시장 현황 ... 18
- 다. 지식재산권 현황(관련 특허기술 분석) ... 20
- 제3장. 연구 수행 내용 및 성과 ... 23
- 가. 연구 수행 내용 ... 23
- 나. 연구 성과 ... 63
- 제4장. 목표 달성도 및 관련 분야 기여도 ... 82
- 가. 목표 달성도 ... 82
- 나. 관련 분야 기여도 ... 84
- 제5장. 연구개발성과의 활용계획 ... 86
- 가. 성과 활용방안 ... 86
- 나. 사업화 추진전략 ... 86
- 제6장. 연구 과정에서 수집한 해외 과학기술 정보 ... 91
- 제7장. 연구개발성과의보안등급 ... 93
- 제8장. 국가과학기술종합정보시스템에등록한연구시설·장비현황 ... 93
- 제9장. 연구개발과제수행에따른연구실등의안전조치이행실적 ... 93
- 제10장. 연구개발과제의 대표적 연구 실적 ... 93
- 제11장. 기타 사항 ... 93
- 제12장. 참고 문헌 ... 93
- 끝페이지 ... 94
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