초록 ▼

ㅇ RFT클러스터가 연구중심의 클러스터임을 감안하여 방사선기술 실용화 확대 방안을 수립하고 이를 통한 벤처창업 및 기술이전 등 새로운 모델의 산업생태계 조성방안 수립을 위해 아래와 같은 RFT클러스터 중심의 방사선기술 실용화 방안 분석을 수행하였음
ㅇ 방사선 기술개발 현황 분석 : 방사선 기술의 분류가 명확히 정의되지 않아 첨단방사선연구소의 기술개발 체계를 중심으로 국내 방사선기술의 객관화된 특허기술 동향 분석과 연구소 기술개발 현황 분석을 하였음
ㅇ 방사선 산업 및 기업동향 분석 : 방사선 산업/기업분석을 수행하여 방사

ㅇ RFT클러스터가 연구중심의 클러스터임을 감안하여 방사선기술 실용화 확대 방안을 수립하고 이를 통한 벤처창업 및 기술이전 등 새로운 모델의 산업생태계 조성방안 수립을 위해 아래와 같은 RFT클러스터 중심의 방사선기술 실용화 방안 분석을 수행하였음
ㅇ 방사선 기술개발 현황 분석 : 방사선 기술의 분류가 명확히 정의되지 않아 첨단방사선연구소의 기술개발 체계를 중심으로 국내 방사선기술의 객관화된 특허기술 동향 분석과 연구소 기술개발 현황 분석을 하였음
ㅇ 방사선 산업 및 기업동향 분석 : 방사선 산업/기업분석을 수행하여 방사선기술 활용수요 기반을 종합적으로 분석하고, 전북권을 중심으로 RFT클러스터 연계 방안을 수립하였음
ㅇ 방사선실용화 방안 분석 : 방사선기술 공급현황과 기술수요 현황 분석 관점에서 기술실용화 실적, 연구소의 연구경쟁력 및 핵심기술 등 기술공급적 측면을 검토했고, 국내 관련기업 및 전북권 기업의 실태현황 분석을 통해 방사선기술 실용화 연계 방안을 모색하였음
ㅇ RFT클러스터 분석 및 활성화 방안 : RFT클러스터의 여건 및 현황, 기업유치 전략, 장애요인 등을 분석하고 클러스터 개념 및 기본요소를 중심으로 RFT클러스터 활성화 방안을 도출하였음

Abstract ▼

1. Research Outline
ㅇ Under the circumstances of small domestic companies of radiation technology and large conglomerates' weak investment willingness, the commercialization of domestic radiation technology is relatively slow due to the mismatch of demand and supply despite of the excellent achie

1. Research Outline
ㅇ Under the circumstances of small domestic companies of radiation technology and large conglomerates' weak investment willingness, the commercialization of domestic radiation technology is relatively slow due to the mismatch of demand and supply despite of the excellent achievements of R&D led by government.
ㅇ Considering that Korea has weaker conditions of research foundation/facilities and human resources in radiation fusion technology than developed countries and that the radiation technology industry is oriented toward equipment manufacturing, building up research foundation led by government has been focused so far. Based on this, we now need the establishment of the RFT (Radiation Fusion Technology) revitalization plan as the way of constructing the ecosystem of radiation technology industry to promote the result diffusion and efficient industrialization promotion of the radiation technology development.
ㅇ In general, the roles of industry, university, and research institute in the Sanhakyeon linkage have been emphasized to construct an industrial cluster. However, the role reinforcement of local government as well as industry and university is required at this moment to promote the RFT cluster due to the role limit of the Advanced Technology Radiation Laboratory (ATRL).
ㅇ The main contents of this research are the plan analyses of radiation technology commercialization focusing on the RFT cluster, listed below, to construct a new model of industrial ecosystem such as venture start-ups through the establishment of the expansion measures of radiation technology commercialization considering that the RFT cluster is a research-based cluster.
ㅇ Analyses on the Current Status of Radiation Technology Development: Objective trend analysis of domestic radiation technology patents and status analysis of the ATRL’s technology development based on the ATLR system of technology development (due to the current classification of radiation technologies not clearly defined)
ㅇ Trend Analyses of Radiation Technology Industry and Corporations: Comprehensive analysis of the demand bases of radiation technology application based on the analyses of radiation technology industry and corporations, which leads to the RFT cluster linkage measures focusing on the Chonbuk zone.
ㅇ Analyses of the Measures of Radiation Technology Commercialization: From the perspective of the status analysis of radiation technology demand and supply, finding out the linkage measures of radiation technology commercialization through the analyses of technology supply side and current status of Chonbuk and nationwide corporations, based on the analyses of ATRL’s achievements of technology commercialization, research competitiveness, and core technologies
ㅇ Research on the Analyses and Revitalization Measures of the RFT Cluster: Based on the concepts and fundamental elements of cluster, deriving the revitalization measures of the RFT cluster with analyzing the conditions of the RFT cluster, the strategies of attracting corporations, and obstructive factors
2. Current Status of Radiation Technology Development
ㅇ Technical skill levels, life cycles, major applicants, and application trends of radiation technology are analyzed according to the ATRL's research fields for the classification of radiation technology/industry/market because National science/technology standard classification system and IPC code do not provide satisfactory classification system for analyzing the patent reports, industrial classification system, and R&D projects of radiation technology.
ㅇ Although the industrialization of radiation material technology has been expanded focusing on conventional industry, the entry into the advanced fields has not been enough. So we need a driver, as well as diversifying the technology commercialization fields, to lead the commercialization and the securement of positive data regarding the technology application results.
ㅇ Although the growth prospects of radiation device technology are high, belated movers have difficulties to enter the market due to large foreign corporations' patent barriers. To overcome the predicament, it is necessary to reinforce domestic corporations' competitiveness through government-funding research institutes' technology transfer and cooperation among manufacturers. In addition, we need to construct a reliable facility of international level conducting specialized performance testing/evaluation/verification for the localization of core technology development and the development of radiation device with technology fusion style.
ㅇ In the case of radiation breeding technology, we need to solve the predicament of existing barriers, which have been generated due to the concentration of information and facilities into public research institutes, against the expansion of radiation breeding technology base. So it is necessary to promote management plans of collaboration among government departments and joint participation of the consultative group among industry, university, research institute, and government as well as to expand the base through setting up the information sharing system of breeding technology.
ㅇ In addition, the possibilities of radiation technology commercialization and the limitations to be resolved in the future are analyzed with studying government policies of radiation technology promotion, current status of R&D and infra-structure investment, and technologies/research capabilities of commercialization.
3. Trend and Corporation Analysis of Radiation Technology
ㅇ The demand side of radiation technology is covered with analyzing market, industrial trends, and relevant corporations in domestic/foreign radiation industries.
ㅇ Domestic radiation industry market is relatively small, however considering the rapid growth of domestic market, the growth rate of domestic radiation industry between 2009 and 2020 is predicted as 25.7%, which is the highest, followed by agriculture (17%), industrial material and medical field (12%).
ㅇ Most of entities related to the radiation technology fusion industry are the manufacturers of radiation equipment and universities nationwide, however the corporations with main products of device, material, and agriculture have shown rapid growth in Chonbuk. The Southwest zone has only 8.7% of radiation technology corporations nationwide (5 public companies and 76 private companies) which is relatively less than those in other zones. Therefore, it is urgently required to attract corporations.
ㅇ It is urgently required to construct industrial ecosystem through promoting the support measures of local government level to enable the attraction of mid-sized companies and start-ups because the number of companies with more than 10 year experience is smaller compared with other zones.
ㅇ The Chonbuk companies of radiation technology can generate synergy effects of mutual cooperation with the ATRL because the manufacturers of radiation equipment according to the standard industrial classification are the most among them. However, attracting related corporations and supporting start-ups are necessary because their size is small.
ㅇIt is projected that the ATRL's R&D activities influence relevant domestic R&D activities because the fields of radiation material and environment, in which the ATRL has mainly applied patents, have higher portion of domestic patent application than other technology fields. However in the case of radiation device, it is judged necessary to promote domestic corporations' R&D because the foreign dependency of radiation device is still very high.
ㅇ Although active domestic R&D has been executed recently, additional expansion of R&D investment on the perspective of technology competitiveness is necessary as reviewed focusing on the linkage between radiation technology and relevant industry. In addition, we need strategic approaches occupying the market and technology superiority through securing the technological competitiveness in radiation breeding, material, and device with higher effects of industrial diffusion.
4. Commercialization Measures of Radiation Fusion Technology
ㅇ Diversified support measures including human resources, technical capabilities, funding resources, information power, and diverse cooperation network build-up are necessary to reinforce the execution capacities and to construct the efficient system for the commercialization of radiation technology development achievements.
ㅇ Government R&D support system including the reinforcement of preliminary R&D planning function, related to the market such as technology demanders and suppliers, and the interconnectivity enhancement in government support projects for the commercialization of R&D achievements should be constructed in advance.
ㅇ Especially based on the in-advance case analyses of major leading countries'technology commercialization, benchmarking of practically useful policies and customized policy support of technology transfer and commercialization reflecting our current status are necessary to level up their efficiencies.
ㅇ Whereas the prospects of radiation material, device, and breeding are predicted promising considering the industrial conditions and market growth from the perspective of radiation technology demand side, it is important to secure the credibility of relevant radiation technology through which the possibilities of potential market procurement and commercialization are high.
ㅇ For the commercialization of radiation technology, we need to prepare support system including new establishment of commercialization-specialized division with the placement of specialized personnel, new construction and expansion of technology commercialization research building, technology planning focusing on commercialization, research facility support and securing its flexibility, main commercialization field selection considering industrial conditions and capabilities, expansion of venture start-up support in the research institute, etc.
ㅇ The assignments of prime priority to expand radiation technology commercialization include constructing empirical research center and test bed for product certification and evaluation, building up the cooperation system for technology commercialization led by industry, establishing joint research corporate for technology commercialization linking and utilizing large-scale research infra-structures, and finally expanding infra-structures and reinforcing start-up acceleration system as well as preparing cooperation governance for the support of small/medium companies.
5. Revitalization Measures of the RFT Cluster
ㅇ We need efficient interactions of institutional, physical, and social elements for the conditions of successful innovative cluster. Derived from the case analyses of foreign clusters, the following are analyzed important for the revitalization measures of the RFT cluster: executing government's role as active participants not as regulator or controller, initial phase investment of government level for cluster formation and settlement, powerful promotion body to lead the cluster, and building up the virtuous circulation of research achievements and start-up support through the vitalization of industry-university-research institute network.
ㅇ Although the Jeongup RFT Cluster has been forming the research function institute linking three government-funding research institutes with following the zone strategies of radiation technology specialization (government-level preparation of the entry base of radiation technology power), as in the early stage of cluster formation at this moment, we still need initial investment led by government and intensive investment in building up the close linkage system among industry, university, and research institute.
ㅇ Especially, we have the following limitations of cluster formation: the absence of powerful promotion body for the cluster growth, the shortage of corporations which are the essential element of industrial ecosystem, the geographic limit of the Jeongup industrial complex of advanced science, and the insufficient role-execution of local government.
ㅇ To overcome these barriers, we need to construct industrial ecosystem through securing industrial value chain with the strategic industries in Chonbuk and to grow the essential cluster core for technology commercialization and venture ecosystem formation through the R&D special district project promoted by the Chonbuk government.
ㅇ In addition, we need the following as the strategies of RFT cluster revitalization: the focus change inducement from research institute to corporations, the strategic investment expansion focusing on the fields with higher probabilities of technology commercialization, the formation of innovation leading body through network vitalization and its capability enforcement, the set-up of radiation technology policy governance at the level of central government, and the establishment of research association as the joint utilization/management measures of research infra-structures and large-scale facilities.

목차 Contents

• 표지 ... 1
• 제출문 ... 2
• 보고서 요약서 ... 3
• 요약문 ... 4
• SUMMARY ... 8
• CONTENTS ... 14
• 목차 ... 18
• 표목차 ... 21
• 그림목차 ... 25
• 제1장 연구개발과제의 개요 ... 28
• 제1절 연구의 필요성 및 목적 ... 28
• 1. 연구의 배경 ... 28
• 2. 연구의 필요성 ... 28
• 3. 연구의 목적 ... 30
• 제2절 연구의 내용 및 범위 ... 31
• 1. 연구의 내용 ... 31
• 2. 연구의 범위 ... 31
• 3. 연구의 방법 ... 32
• 제2장 방사선기술개발 의의와 현황 ... 34
• 제1절 방사선기술 정의 및 분류 ... 34
• 1. 방사선기술의 정의 ... 34
• 2. 방사선기술의 분류 ... 34
• 제2절 방사선기술개발 필요성 및 투자현황 ... 42
• 1. 방사선기술개발의 의의 및 필요성 ... 42
• 2. 방사선기술개발 투자현황 ... 45
• 제3절 국내 방사선기술개발 현황 및 진흥정책 ... 46
• 1. 산업별 국내 방사선기술개발 현황 ... 46
• 2. 국내 방사선산업 진흥정책 및 성과 ... 86
• 제4절 첨단방사선연구소 방사선기술 역량 분석 ... 90
• 1. 연구소 현황 ... 90
• 2. 핵심역량 분석 ... 92
• 제5절 방사선기술개발 분석 및 한계점 ... 100
• 1. 실현가능성이 높은 기술 분야 분석 ... 100
• 2. 방사선기술개발의 한계점 ... 102
• 제3장 방사선기술 산업동향 및 기업분석 ... 104
• 제1절 방사선융합산업 정의 및 분류 ... 104
• 1. 방사선융합산업 정의 ... 104
• 2. 방사선융합산업 분류 ... 106
• 3. 국내 방사선융합산업 인프라 구축 현황 및 향후 계획 ... 106
• 제2절 방사선융합 핵심기술 관련 산업동향 ... 110
• 1. 해외 방사선융합산업 시장 동향 ... 110
• 2. 국내 방사선융합산업 시장 동향 ... 112
• 3. 국내.외 방사선융합산업 전망 ... 114
• 제3절 방사선융합산업 관련 기업분석 ... 116
• 1. 방사선융합산업 관련 기업현황 ... 116
• 2. 방사선융합산업 관련 기업 Value Chain 및 BM ... 130
• 3. 전라북도 관련기업의 기술개발 현황 ... 132
• 제4절 정책적 시사점 ... 162
• 1. 방사선융합산업 관련 기업 분석 시사점 ... 162
• 2. 방사선융합산업 관련 기업 Value Chain 및 BM ... 162
• 3. 방사선융합산업 생태계 조성 ... 163
• 4. 전북지역의 기술 특화 현황 ... 164
• 5. 해외 방사선융합산업 시장과 기술과의 연계성 ... 165
• 6. 첨단방사선연구소 기술의 차별성 ... 166
• 제4장 방사선융합기술 실용화 방안 ... 168
• 제1절 연구개발성과 실용화 현황 및 사례 ... 168
• 1. 연구개발성과 실용화 현황 ... 168
• 2. 연구개발성과 실용화 관련 정책 ... 170
• 3. 연구개발성과 실용화 추진 방법 ... 174
• 4. 연구개발성과 실용화 추진 우수 사례 ... 179
• 5. 시사점 ... 189
• 제2절 방사선기술 실용화 생태계 분석 ... 192
• 1. 방사선기술 실용화 생태계 관련 공급과 수요 분석 ... 192
• 2. 방사선 기술사업화 생태계 분석결과 ... 218
• 제3절 방사선기술 실용화 현황 및 정책과제 ... 220
• 1. 연구소의 방사선기술 실용화 전략 및 현황 ... 220
• 2. 방사선기술 실용화 추진의 한계 ... 226
• 제4절 방사선기술 실용화 정책방향 및 추진과제 ... 229
• 1. 방사선기술 실용화 정책방향 ... 229
• 2. 방사선기술 실용화 확대를 위한 추진과제 ... 230
• 제5장 RFT클러스터 활성화 방안 ... 236
• 제1절 혁신클러스터 개념 및 사례 ... 236
• 1. 클러스터의 정의 ... 236
• 2. 혁신클러스터 조건 및 성장단계 ... 238
• 3. 해외 지역혁신클러스터 사례분석 ... 242
• 4. 유형별 혁신클러스터 추진사례 분석 ... 247
• 5. 혁신클러스터의 성공요인 ... 250
• 제2절 정읍 RFT클러스터 현황 및 분석 ... 252
• 1. RFT클러스터의 개요 ... 252
• 2. RFT클러스터의 필요성 ... 253
• 3. RFT클러스터의 핵심 구성요소 ... 255
• 4. 정읍 RFT클러스터 현황 및 분석 ... 256
• 제3절 RFT클러스터와 전라북도 연계방안 ... 264
• 1. 전라북도 산업현황 ... 264
• 2. 전북연구개발특구 육성계획 ... 267
• 3. RFT클러스터의 전라북도 연계방안 ... 274
• 제4절 RFT클러스터 활성화를 위한 전략모색 ... 278
• 1. RFT클러스터 기본정책 방향 ... 278
• 2. RFT클러스터 육성 전략 ... 280
• 3. 클러스터 활성화를 위한 추진과제 ... 288
• 참고문헌 ... 297
• 부록 1 : 방사선기술 실용화 및 클러스터 설문조사 ... 301
• 부록 2 : 자문위원회 운영결과 ... 315
• 부록 3 : 방사선기술개발사업 연구과제 목록(2008-2012) ... 324
• 끝페이지 ... 335