Future Growth Engines[편집]

The Concept of Future Growth Engines[편집]

What Are Future Growth Engines?[편집]

Industry‧service that lead economic growth in 2020 and continuously create decent jobs, which is based on creative industrial ecosystem in collaboration with large companies and small and middle-sized firms.

※ (Base of Support) Clause5 of Article 16 of 『Fundamental Law of Science and Technology』 

Strategic Industry (Growth Engine)	Development of Major Industries		Preoccupancy of New Market in the Future		Promotion of Welfare·Industry
	• 5G Mobile Communication • Smart Car • Offshore/Subsea Production Plant • High Performance UAVs		• Intelligent Robot • Wearable Smart Device • Realistic Content • Smart Bioproduction System • Virtual Training System		• Personalized Wellness Care • Disaster Management System • New&Renewable Energy Hybrid System • DC Transmission & Distribution System • Supercritical CO2 Power Generation System
Strategic Industry (Growth Engine)	Building Foundation for Continuous Development	Functional Semiconductor	Converged & Combined Material	IoT	Big Data	Advanced Material Machining System

Development of Major Industries through Fusion with Other Technologies [편집]

∙ Significance : Preemptive move on paradigm shift of existing major industries, including mobile communication, shipbuilding, automobile, and others, to strengthen its leading role

∙ Strategies

1. Institutional support to attract private investments from large corporation, to deregulate investment policies, and to suggest guidelines

2. Development of high value-added industry, new products·services through convergence of creative ideas and technologies such as ICT·SW and of infrastructure and other industries.

Preoccupancy of New Market in the Future by Securing Advanced Technology[편집]

∙ Significance : Promotion of new key industries by preoccupying new markets pioneered by development of new technologies to meet new demands for future trends.

∙ Strategies

1. Developing core technologies to meet new demands and securing leading technologies heavily dependent on other countries.

2. Preoccupancy resulting from international standardization and patent issuance from the early stage of market formation

3. Creating environment for active challenges by supporting to create diverse products·services through convergence

Promotion of Welfare·Industry to Increase Peoples' Happiness [편집]

∙ Significance : Contribution to internally stabilized economy and increased people's happiness resulting from customized industries for domestic demands for enhancing quality of life and improving safety

∙ Strategies

1. Prioritizing application on public sectors by reflecting unique characteristics of the domestic market and diversification of policies depending on connection of national projects and welfare policies and on institutions for beneficiaries.

2. For implementing national pilot project for public sectors, model construction for diverse cooperations between large corporation and small and mid-sized companies for parts and materials 

Building Foundation of Continuous Development by Fostering Basic Infrastructure   [편집]

∙ Significance : Strengthening potential for economic growth caused by promotion of base industry that is necessary to enhance continuous development and value-added in strategic industries

∙ Strategies

1. High value-added industries resulting from demands reflecting experts' opinions in various fields and fostering fusion of different fields

2. Foundation of small and mid-size companies and creation of new jobs, based on HW/SW open innovation ecosystem.   

Selection Criteria for Future Growth Engines [편집]

Consideration of leading potential for economic market, our capabilities, and possibility of creating new market‧new jobs

Selection Criteria	Details
Growth potential	• We have the market size to lead economic growth and is able to create new industries‧markets.
Competitive advantage	• When considering our capabilities (technology and market share), we would be able to lead global markets the active investment.
Creative industrial ecosystem	• Based on cooperation of large corporation and small- and mid-size companies, it is possible to activate foundation and its growth, and private investment
Ripple effect	• It has a possibility to enhance quality of life through ripple effects resulting from forward‧backward industries and creations of decent jobs

Background and Progress of Development[편집]

Background[편집]

Korea is the 9th largest economy in the world, with total trade volume surpassing $1 trillion, and it has become one of the major donors from being aid recipients.

※ Joined the $1 trillion club (December, 2011), became the 24th member nation in DAC (Development Assisance Commitee) OECD (Organization for Economic Cooperation and Development ) (November, 2009)

Recently, however, as both economic and potential growths are decreasing due to global economic crisis and weakened domestic demand, there are the needs for discovering·fostering 'future growth engines' to discover new industries of creative economy and create new jobs based on science technologies·ICT

Progress[편집]

∙ Launched the 'Future Growth Planning Committee' (November 13, 2013)

※ About 130 private experts of industry‧academic cooperation, focusing on 8 major economic organizations, including the Federation of Korean Industries, were attended.

∙ Established the 'Plan to Discover and Nurture Future Growth Engines' (March 19, 2014)

- Discovered a total of 13 growth engines, including 9 strategic industries, 4 base industries, and other industries

∙ Established the 'Execution Plan for Future Growth Engines' (June 17, 2014)

- Came up with future works for 13 fields from detailed execution plans of the Discovery･Fostering Plans

∙ Proceeded the 'Inspection for Execution of Future Growth Engine' (December 22, 2014)

- Inspected executive performances in 2014 and came up with its improvement plans

∙ Established the 'Master Implementation Plan for Future Growth Engine' (March 24, 2015)

- Reified plans for each field (goal for each step, responsible ministries, investment scales, and etc.) and expanded to a total of 19 fields by integrating the 'Industrial Engine Project (Ministry of Trade, Industry & Energy)'

∙ Drew the 'Analysis Results of Patents for Future Growth Engines (July 23, 2015)

- Analyzed technology and patent competitiveness to systematically nurture Future Growth Engines.

∙ Drew the 'In-dept Analysis Results for Future Growth Engines' (December 16, 2015)

- Analyzed support status for 19 Future Growth Engines from in-dept analysis on government R&D projects and reviewed reorganization plans for the project system

∙ Established the '2016 Master Implementation Plan for Future Growth Engines' (March 30, 2016)

- Classified 19 Future Growth Engines based on industrial maturity and government-private-led industries and advanced investment strategy of the government

Current Status of Policy in Future Growth Engines[편집]

Development of Investment Strategy and Budget Expansion for Future Growth Engines[편집]

∙ Classification of types considering timing of Growth Engine creation and management ministries

- Classified 19 Future Growth Engines based on industrial maturity and government/private-led industries by conducting quantitative analysis and qualitative review

- (Quantitative analysis) on the 19 Future Growth Engines based on technological capabilities, growth potential, industrial scalability, and industrial ecosystem

- (Qualitative review) based on possibility for becoming Growth Engines early(in 2020), needs for government investment, ripple effects of convergence and integration, and others to complement quantitative analysis

 < Classified Future Growth Engines Considering Industrial Maturity and Private/Government-led Industries >

	Group 1 Private-led Fields			Government-Private-led Collaborative Fields Group 2
High	5G Mobile Communication	Wearable Smart Device
Industrialization Speed		Realistic Content	Smart Car IoT
			Intelligent Semiconductor	Intelligent Robot	High Performance UAVs Big data Converged	Converged & Combined Material
		Virtual training System	Wellness Care	Smart Bioproduction System New & Renewable Energy Hybrid system	Advanced Material Machining System Disaster Management System
Low	Offshore/Subsea Production Plant DC Transmission				Distribution System Supercritial CO2 Power Generation System
	Private-centered R&D Investment			Government-centered R&D Investment
	Group 3 Private-Government-led Collaborative Fields			Government-led Fields Group 4

∙ Preparation･Implementation of Investment Strategies for Each Type

- Promote private market entry for the fields with high industrialization speed

(Group 1 : Private-led fields) For developments of private-led products‧services, focus on creation of early performance supported by improvement of law‧system and execution of pilot project

※ Smart Car : Evaluation standardization for safety of automatic cars, construction of environment for real-road assessment and detailed road maps

(Group 2 : Government+Private) Preemptive investment for R&D of source technology and technology demonstration and others to enhance competitiveness of domestic companies that close to commercialization

※ High Performance UAVs : Construction of demonstration infrastructure for services, development of security technology, management for UAV pilot's license‧insurance system

- Steadily implement development road maps for the fields requiring time spent on industrialization

(Group 3 : Private+Government) Support without interruption private-led technology development and commercialization having attracted some investment

※ Personalized Wellness Care : Development of guidelines for wellness care service, supporting standardization‧certification for Wellness device

(Group 4 : Government-led fields) Consistently proceed medium-long term R&D and empirical works to secure competitiveness in the global markets in the future

※ DC Transmission･Distribution System : Support construction of original R&D and test complex, train and nurture professional researchers

- To create convergence industrial ecosystem for new products‧services, strengthen discovery and support for common technologies* in strategic and basic industries

* System software/network technology including AI, micro‧low power consumption sensor, ultralight‧general purpose material technology

∙ Reorganization of Future Growth Engines Project System and Its Budget

- Improve efficiency of budget investment by transferring projects being dispersively executed‧managed across various projects in many ministries to the project reflecting characteristics of each field

※ ｢2017 Government Research & Development Investment Direction and Criteria｣(March, 2016) : Promote the unified project by transferring･integrating dispersed projects in Future Growth Engines projects

- More support in budget for 10 fields* that has high industrialization speed, including smart car, IoT, UAVs in 2017 (912 billion won in 2016 → 1042 billion won in 2017)

* 5G, wearable smart device, realistic content, smart car, IoT, intelligent semiconductor, intelligent robot, big data, high performance UAVs, and converged & combined material

※ Total budget for 19 Future Growth Engines : 1.2 trillion won in 2016 → 1.3 trillion won in 2017

- Prepare a close cooperation system between ministries in charge of Future Growth Engines through setting up council for 6 fields* having numerous ministries in charge and designating and operating the administrative ministry (June, 2016)

* Smart car, wearable smart device, intelligent semiconductor, high performance UAVs, converged & combined material, and personalized wellness care

Private Investment Facilitation [편집]

∙ Taxation Support to Discover‧Foster Private-led Growth Engines

- Add Future Growth Engines to the list of tax exemption for R&D of New Growth Engines (10 exemptions, revision of the enforcement ordinances of the Restriction of Special Taxation Act in February 2016)

※ Smart car, wearable smart device, IoT, UAVs, health care, and etc. (65 exemptions in 2015, 76 exemptions in 2016)

- Extend the deduction ratio for mid-sized firms and large corporation caused by expansion of R&D tax deduction for new growth engines (20→ maximum 30%)

※ (R&D tax deduction for new growth engines) the R&D investment for new growth engines: 30% deduction for small and medium-sized companies, 20% deduction for mid-sized firms and large corporation → 30% deduction for small and medium-sized companies, if not, maximum 30% deduction)

※ (Common R&D tax deduction) For the R&D investment, 25% deduction for small- and medium sized companies, 8% deduction for mid-sized firms, less than 3% deduction for large corporations

- Extend tax breaks for investment in R&D for promising new industries and facilities such as top 10 priorities for Future Growth Engines

※ Due to revision in the Restriction of Special Taxation Act (December, 2016), maximum 10% deduction for investment in facilities was newly established.

∙ Expand financial support for Future Growth Engines by building cooperative system between institutions

- Establish supporting criteria of funds for new growth policy by collaborating with the Policy & Finance Association (composed of board members from financial institutions) (June, 2016)

※ Signed MOU for「Policy and Financial Support System for New Growth」among Policy & Finance Associations (9 institutions, including Korea Development Bank, Industrial Bank of Korea, ㆍKorea Credit Guarantee Fund ·Korea Technology Credit Guarantee fund, Small & Medium Business corporation, and others), Centers for Creative Economy and Innovation, Government-funded Research Institutions, and R&D support agencies.

- Provide the guidelines (classifications for type of business, products and etc.) for political and financial institutions to smoothly provide new growth policy fund* in the fields of Growth Engines (March, 2016, Special Committee for Future Growth Engines)

* Plan for political financial support (80 trillion won) to nurture new industries, including converged & combined ICT, contents, advanced materials, and etc.(January, 2016, work report to Financial Service Commission, 49 trillion won for loan, 8 trillion won for investment, and 23 trillion won for guarantee)

※ Drew the correlation table for HS code (10 units) and KSIC (8 units) for detailed items, which is able to be applied to business types, statistical analysis on trade, and others.

- Improved new technology development of private enterprise by reflecting Future Growth Engines to support target priorities for Government Loan Program for small- and medium business (3.5 trillion won Supported by Small and Medium Business Administration) (March, 2016)

∙ Improvement of regulation for supporting to create new industries･technologies and its demonstration supports

- For the regulation of Future Growth Engines, continuously discover required improvements and proceed to check progress, focusing on convergence of opinions and proposed ones in media

※ Checked performances for projects established in 2015 (18 of 38 improvements being proceeded), newly discovered 18 improvements in 2016

※ Through the Meeting Promoting Trade and Investment (February, 2016) and the Ministerial Meeting on Regulatory Reforms (May, 2016), other than what the Ministry of Science, ICT, and Future Planing has found, regulatory reform for 86 regulations in 11 fields, including teat-driving areas for autonomous cars, negative regulatory reform in the drone business area, and others, is in process.

- Prepared a continuous discovery system of inhibitory regulations for new technologies·industries, focusing on the project implementation committee for each field, and improved them by negative regulations

※ Quickly proceeded improvements based on the ' Allowing Principle･Prohibiting Exception' criteria by cooperating with Office for Government Policy Coordination (Investment Committee for New Industry)

- In case of fields related with the Regional Flagship Industry, actively support projects, including new technology-based business, special case of demonstration, and others, by utilizing the Center for Creative Economy & Innovation and Regulation-Free Zone.

※ Match it with the establishment of special act for regulation-free zone

※ Set up supporting base through securing new budgets (7.2 billion won by 2017) to promote flagship projects of CCEIs and build cooperative network between CCEIs and local related partners (including Regional Strategic Industry Bureaus and others) to be in full operation when introducing regulation-free zone

- Proceed full-scale demonstration projects to visualize performances on each field, including UAV delivery, building test-route for smart car (Sejong-Deajeon ITS), development of trial service system for 5G (in Pyeongchang), and others

- Strengthened implementation system for Future Growth Engine Flagship Project that supports commercialization of private enterprises‧demonstration R&D projects (4 systems in 2016)

※ Plan for supporting themes after setting up TF in Future Growth Engines Bureau

※ Demonstrated new technologies, discovered regulations, and proceeded with subsequent R&D through budget support of about 1 billion won per project

∙ Actual investigation and support for creation of public market

- To promote private investment, look into demands in policies by investigating･analyzing current state of major corporations (sales･investment･employment)

※ Survey participants / period / contents : 5,000 companies for Future Growth Engines / June ~ October, 2016 / Economic achievements, including sale․employment․R&D investment, and etc., effectiveness of government supporting policy, acceptance of difficulites and improvements required

- Proceed to complement the procurement system* of governments such as the Public Procurement Service and related institutions and to confirm new systems by reflecting new products·services related to Future Growth Engines

* Designation Regulation for Excellent Procurement (the Public Procurement Service), Purchase Priority Regulation for Products Developed by Technology (Small and Medium Business Administration),　Regulation for Mandatory Purchase of New Products (Ministry of Trade, Industry and Energy), and etc.

※ Prepared improvement plans for relevant regulations for government procurement to publicly purchase new products and services relating to Future Growth Engines (November 23, 2016)

Enhancement of Public Perception Level for Future Growth Engines[편집]

∙ Demonstration experience for the public and performance exhibition

- Through the '2016 Challenge Parade for Future Growth Engines (December 3, 2016 on Youngdong Street)' that demonstrates‧exhibits new technologies in Future Growth Engines, including change in means of transportation, exploration of Mars' base, entertainment using buildings in downtowns, and etc., provides opportunities to experience achievements in the field of growth engines (linked with the Creative Economy Expo)

※ The first 5 demonstrations in Korea, including car-driving by robot on real road, facilitating collaborations among industry, academia and research institutes (430 people in 48 institutions), participation of 2000 people for installing AR platform, operation of special zone to provide opportunity to experience technologies, and etc.

- By holding the 'Open Talk Relay for Future Growth Engines' (9 relays in 2016), introduced policies in research fields, held discussions among industrial‧academic‧research professionals, and continuously holding exhibitions․demonstrations(about 900 participants in a year)

※ Round/Topic/Date and Time/Location : 17th/UAVs/February 24, 2016/Korea Aerospace Research Institute, 18th/Smart Car/March 25, 2016/Hanyang University, 19th/Intelligent Robot/April 27, 2016/KIST, 20th/Wearable Smart Device/May 17, 2016/Dongdaemum Design Plaza, 21st/Realistic Content/June 29, 2016/SK Research Institute, 22nd/5G Mobile Communication/September 28, 2016/ETRI, 23rd/Personalized Wellness Care/October 25. 2016/Seoul National University Hospital in Bundang, 24th/Special Debate/November16, 2016/Post Tower, 25th/Performance Conference/December 1, 2016/COEX

- Through holding the Joint Workshop for Working Groups of OECD-the Ministry of Science, ICT and Future Planning (7.7), demonstrative cases of new technology for Future Growth Engines were shared and proceeded to promote global policies

* OECD final report including the Korea Future Growth Engine Policies such as study on driverless car, and other cases. (in the first half of 2017)

∙ Activation of Online‧Offline Promotion for Future Growth Engines

- Promote performances and policies for Growth Engines by using online‧offilne media such as social media newsletter, online report by blogger, media contributions, TV documentary, and etc.

- Release videos on Youtube channel including the 'Open Talk Relay for Future Growth Engines', a policy forum for the private sector to learn about governmental policy and share business status with industrial‧academic‧research professionals and to discuss ways for improvement

Introduction of 19 Future Growth Engines[편집]

5G Mobile Communications[편집]

Compared to 4G, 1000-times faster mobile technology‧service for the future

∙ Target for 2020 : provide world's first 5G commercialization service

∙ Examples of major products‧services

- Mobile 3D display service

- Mobile 3D display terminal

- Maintenance of base station for 5G mobile communication

∙ Performance history (2014～2015)

Development of core technologies for 5G such as small-scale base station SW (54.4 billion won for 5G integrated challenges, 70.3 billion won support for Giga Korea), Implementation of Pre-5G, a trial service that is constructed·operated by the 'Strategy and Planning Committee', at ETRI (December, 2015)　and　subway Line 8 (January, 2016).

※ Giga-class video-based communication, machine-to-machine communication, high-quality and low-delay communication, 5G integration solution service, and etc.

∙ Implementation plan

- Development of core technologies and construction of systems relating to trial service for 2017 Pyeongchang Pre-Olympics

※ Construct 5G trial service network, the giga-class mobile communication, by combining mobile communication and wireless backhaul system to support high speed moving terminals and establish practical plans for C-P-D-N-linked trial services

- Extend participation in R&D projects of small-sized and medium-sized enterprises and government and construct supporting system for connecting to large corporations by selecting and nurturing excellent small- and medium sized companies and mid-size corporations

Smart Car[편집]

Provide diverse services by closely connecting cars with driver, surrounding, transportation infrastructure, and etc.

∙ Target for 2022 : Realize 3 powerful nations for global smart vehicle industru ∙ Examples of major products‧services

- Lane keeping assistance and distance control system between vehicles

- Last mile, short-distance traffic service system

- Cloud center-based connected car service

∙ Performance history (2014～2015)

- Secure our own technology for key components such as smart sensing system and etc., secure key technologies for integrated support system for safe-driving, and develop key technologies and devices for 4-channels scanning lidar

- study on technology of SW factors for cloud-based self-driving, demonstrate the first self-driving car on the real road in Korea (November 29, 2015), and prepare temporary permit system for test-drive of autonomous vehicles

※ Building mapping tool for labeling of lanes based on cloud computing, setting up RTOS-based SW platform for autonomous driving control

∙ Implementation plan

- Construct assessment environment for self-driving cars on the real road and detailed road map systems and draw enactment․revision of Automobile Management Acts and related regulations for early commercialization

※ Newly construct detailed road maps for 2 routes of national highways (133 km)

- Construct driving infrastructure for smart cars and support to secure key technologies of small- and medium-sized enterprises

※ Study on ICT infrastructure-based perception for driving environment such as development of smart sensing system, key components, system technologies, deep learning-based pedestrian detection, and etc. and design key technologies for driving computing systems

 Realistic Content[편집]

Next generation contents using virtual reality, hologram 4D, and other technologies ∙ Target for 2020 : Foster 10 strong-small companies and preoccupy 5% market share of global market

∙ Examples of major products‧services

- Personalized experience service using IoT and wearable device

- Sensing-based realistic visual media service for remote user

- Personal emotion/neuroscience-based health care contents and services

∙ Performance history (2014～2015)

- Develop the 'Digital Theme Park' technologies converging with virtual reality/3D and realize Join&joy contents to create the new Korean business model

- Hold the 'DMC Festival with K-ICT' (September, 2015) and proceed to found content companies and nurture customized human resources geared towards job matching (210 people in 2015)

∙ Implementation plan

- Develop convergence service technologies for realistic contents such as real image-based 3D technologies and spatial information-based platform, and etc.

※ Technology development for low-altitude, up-close footage-based objects/3D models of major facilities and convergence modeling of spatial information-realistic contents

- Implement package-type 5 leading projects for 'SW+Contents+Devices' and build converged base for culture·ICT in Sangam DMC

※ Development of VR game·experience, VR theme park, VR video platform, screen X, and global distribution

Wearable Smart Device[편집]

Smart Device that enables computing when on-body

∙ Target for 2020 : Preoccupy global markets for creative·emotional devices

∙ Examples of major products‧services

- Health care products‧services for body‧health fields

- Detection and protection products‧services for safety‧security fields

- Products‧services for game and leisure in convenience‧entertainment

∙ Performance history (2014～2015)

- Open ｢K-ICT Device Lab｣, an exclusive support system of startup for wearable smart devices

※ Create supporting performances of 5 investments in capital areas (Pangyo, November, 2014), Daegyeong regions (Daegu, April, 2015), Jeolla regions (Jeonju, November, 2015), and Chungcheong regions (Ochang, November, 2015) and 7 startups resulting from the K-ICT Device Lab

- Implement projects for bio-information-based self-perception and smart helmet for leisure(June, 2015) and support space·equipment·education through the 'Embedded SW Developer Center'

∙ Implementation plan

- Strengthen development and commercialization of key technologies for smart devices, develop converged·connected technologies in other fields, and support industrialization through the K-ICT Device Lab

※ Development of wearable sensor coupled with multi-devices and platforms for personal training

- Prepare integrated support system for global star companies, develop certified labs for foreign mobile carriers, and implement leading certification and standardization.

Internet of Things (loT)[편집]

Hyper-connected internet to utilize generation‧collection‧sharing·utilization of information by connecting all things such as human, objects, space, and others.

∙ Target for 2020 : Achieve 30 trillion won in domestic market scale for IoT

∙ Examples of major products‧services

- Public IoT : Smart City

- Private IoT : Smart Wellness

- Industrial IoT : Smart Factory, Smart Farm

- IoT Common Platform

∙ Performance history (2014～2015)

- Pursue global partnership and operate professional courses in connection to global companies in the IoT field with the support of the IoT Innovation Center (156 graduates)

- Operate IoT Support Center (IoTC), discover‧foster 37 IoT startups, and support development of smart, new products‧services for 30 small- and medium sized companies

∙ Implementation plan

- Facilitate diffusion of utilizing IoT through expansion of demonstration projects for various fields, including home appliances, health care, automobile, energy, and etc.

※Pre-implementation of construction for Health Care Test Complex in 2015 (Daegu), and Smart City Test Complex (Busan)

- Expand development environment for D.I.Y. and implement to discover promising IoT products·services using smart sensors and others

Intelligent Semiconductor[편집]

Converged SW‧SoC semiconductor to realize IT convergence products and services, including smart car, wearable smart devices, and etc.

∙ Target for 2020 : Achieve second-largest share (10%) in the global market

∙ Examples of major products‧services

- Neuromorphic intelligent computing semiconductor

- Super-high-performance intelligent computing semiconductor

- Super-micro and ultra-low power IoT/wearable semiconductor

- Ultra-low power connectivity semiconductor

∙ Performance history (2014～2015)

- Support high definition image processing functions for SXGA automobiles and ECU integrated Soc developments and proceed mass-production of camera ISP and SoC demo production for image processing

※ Recorded 143 thousand dollars in gross sales for Automotive ISP prototypes (July, 2015)

- Improve real-time processing for high-performance embedded CPU·GPU and recognition performance

∙ Implementation plan

- Develop human resource training program for design research areas and build the distribution infrastructure for designed assets

- Support technology development for intelligent computing semiconductor to secure technical competitiveness in next generation markets as a leader

※ Development of performance measuring system for high-speed future computing system and ultra-low power/light SW-SoC platform architecture

 High Performance UAVs[편집]

Next generation UAVs with expanding roles including autonomous flight, operational ranges, and performances of missions, by combining aviation with ICT

∙ Target for 2020 : world’s top 3 UAVs as global leaders

∙ Examples of major products‧services

- High-speed UAVs capable of vertical takeoff and landing

- 3D detailed map-based drone route

- Integrated operation system for manned/unmanned aerial vehicles

∙ Performance history (2014～2015)

- Improve regulations and designate exclusive demonstration zones to facilitate UAV industry

※ Designation of regulation-free zone for UAVs (Goheung in Jeollanam-do, December, 2015) and exclusive operation zone for the demo-project (5 regions: Goheung in Jeollanam-do, Yeongwol in Gangwon-do, Dalseong in Daegu, Haeundae in Busan, Jeonju in Jeollabuk-do)(October～December, 2015)

- Develop technology for UAVs, develop tiltrotor UAV equipped with extended wings, the first solar-powered UAV to succeed in flying through the stratosphere

∙ Implementation plan

- Demonstrate promising fields such as monitoring･delivery and others, launch expansion for comprehensive national flight test facilities and etc., construct 3D detailed map on trial basis, and implementing negative regulatory reform for UAV operation zone

- Continuously support for R&D to strengthen private sector competitiveness focusing on small- and medium-sized companies and develop original technologies for next generation unmanned vehicles

※ Development of collision avoidance technology to enter operation areas, develop and diffuse small-sized UAVs-based technologies (improved safety, operation in dire condition, and etc.) and autonomous cooperative unmanned vehicles, and etc.

 Intelligent Robot[편집]

Machine that operates autonomously by perceiving external environment and making decisions by itself

∙ Target for 2020 : Record 6 trillion won in domestic robot production market ∙ Examples of major products‧services

- Medical robot, security robot, and next generation manufacturing robot

- Personal and national defensive robot able to communicate with humans

- Artificial intelligence-based robot

∙ Performance history (2014～2015)

- Prototype production of logistics robot for medical application (November, 2015), final passage of feasibility pre-study in national safety robot project (August, 2015), win in disaster countermeasure competition for DARPA robot

- Promotion of robot industry cluster development and establishment of health care robot complex

∙ Implementation plan

- Promotion of securing and spreading original technology in main areas such as automatic factory, safety and welfare for senior

※ Expansion of robot application in small manufacturing firms, Establishment of initial application structure through matching demand in public sector

- Establishment of full cycle support infrastructure and supporting system for

demonstration utilization of service robot

※ Infrastructure for supporting companies of robot industry cluster, demonstration infrastructure for robot development in the areas of safety and health

Big data[편집]

Platform that leads value-added creation and innovation such as knowledge creation/future forecast and etc. by utilizing‧analyzing large-scale data

∙ Target for 2020 : 3 major countries in big data

∙ Examples of major products‧services

- Analysis based predictable decision making system

- Analysis platform for big data of complex high performance

- Convergence service for big data to correspond to national demands

∙ Performance history (2014～2015)

- Development of analysis platform for multi tenant data and solution for high performance database

- Launched Korea·China data technology collaboration center, manpower cultivation in K-ICT big data center*

* Training 415 of working level staffs and 251 of top level human resource, training 1334 of potential professionals

∙ Implementation plan

- Advance big data technology for providing service responding to the needs of private sector and government

※ Development of processing technology for complex high speed streaming big data, securement of high performance visual discovery platform

- Activate data exchange to foster data distributors and promote to build a virtuous cycle distribution ecosystem

※ Activation of private data brokers, including KoDB(data store), SKT(Hub), and etc., that sell·distribute data by collecting·processing them

 Converged & Combined Material[편집]

Ultra-light, high performance and multi-functional materials through novel physico‧chemical combination

∙ Target for 2024 : Realize the goal for becoming 4 major countries for futuristic and industrial materials

∙ Examples of major products‧services

- Materials that can withstand extreme conditions, quantum‧alchemy composite materials, materials for stimulating five human senses

- Carbon fiber complex, hyper plastic, titanium

∙ Performance history (2014～2015)

- Development of original chemical materials for 30 % weight reduced components in vehicle headlight (2015)

- Introduction of foreign advanced technology in 'manufacturing technology of plastic complex' and support of tax credit on investment (2014)

- Selection of research institute for future materials (4), organization and management of 'Titanium Industrial development council'

∙ Implementation plan

- Activation of futuristic materials, securement of source technology of fast-follower materials, design of materials, manufacturing technology development

※ Organization of future materials project group, development of platform technology in computational science, establishment of analyzing and designing methods for nanoparticles, establishment of foundation of managing technology to strategic materials and parts for advanced industry, securement of technology on hyper plastic

- Construction of portfolio for essential patent of futuristic materials, regulatory improvement for patent registration system, training professionals in the area of convergence materials tailored to company needs, establishment of an inter-ministerial council for overcoming difficulty in industrialization of futuristic materials

 Offshore/Subsea Production Plant[편집]

Offshore/subsea production plant to develop oil‧gas resources from oceans in extreme environment such as extreme location, high wave, strong wind or in deep sea located in more than 500 meter depth

∙ Target for 2020 : Achieve 50 % domestic share and 30 % global market share

∙ Examples of major products‧services

- Floating type offshore platform of oil/gas

- Production/process system of oil/gas in deep sea

- Installation service of offshore plant in deep sea

∙ Performance history (2014～2015)

- Completing development of 2000m Steel Tube control Umbilical(STU) (January 2015, LS Cable & System)

- Completion of developing fiber rope for deep-sea mooring (March 2015, DSR)

- Launch of constructing marine plant supporting center (July 2015)

∙ Implementation plan

- Development of engineering system for processing oil·gas in deep sea and designing offshore plant in extreme condition

- Development of training program for professionals, infrastructure of research on offshore plant, mitigation of regulation for drying stage, establishment of supporting system for technology commercialization

※ Deep sea engineering tank, highly accurate operation system, infrastructure DB of offshore plant, facilities for verifying materials·components·equipment

 Virtual Training System[편집]

Training system to enable a safe experience of virtual environment similar to real world

∙ Target for 2021 : 20 star company and accomplish 10 billion

dollar in sales

∙ Examples of major products‧services

- Motion platform of precise military training

- 3D virtual immersive training system, virtual training simulator for medical operation

∙ Performance history (2014～2015)

- Analysis of requirements on common platform (core engine, integrated development environment, marketplace) and design of overall structure, development of essential component engine (8 types)

- Development of immersive and experimental products (medical training, heavy equipment etc.) and hosting conference

※ Hold and advertise '2015 virtual training conference’ (July, 2015)

∙ Implementation plan

- Establishment of common platform for virtual training through development of core element technology and integrated development environment

※ Development of marketplace, development of core engine coupled with marketplace, development of immersive component technology

- Support of infrastructure·system for industrial promotion and distribution such as comprehensive training plan

※ Exploration of demands for virtual training and market, analysis of ecosystem state, legislation of public training

 Personalized Wellness Care[편집]

Personalized health care service combined with IT/BT

∙ Target for 2020 : Enter into global top five in personalized wellness

market

∙ Examples of major products‧services

- Integrated management platform for personal health information

- Commercialization service DB for genetic information

- Personalized health care service

- Development of medical wearable device

∙ Performance history (2014～2015)

- Secure core technology ICT platform for open health information, development of mobile service based management platform for chronic disease, construction of health care complex

- Completion of revision of medical law (Article 16) that allows to store and mange electronic medical records by external institute (February 5, 2016)

∙ Implementation plan

- Training specialized staffs of wellness device service by supporting wellness IT program·platform in collaboration with hospital and company

※ 'List of premium smart health care medical equipment', mentoring program in collaboration between industries and academia

- Supporting international standard acquisition of wellness device and development of service guideline reflecting test·certification and demands of customers

※ Support of Korean Agency for Technology and Standards’ PHR export, mobile health care business of public health center

 Smart Bioproduction System[편집]

Required in producing bio-products and devices designed for biotechnology

∙ Target for 2020 : Foster 10 medium enterprises in bioproduction system

∙ Examples of major products‧services

- Cell culture system for bio-medicine

- Separation and purification system for bio-medicine

- 3D bio printing system

∙ Performance history (2014～2015)

- One-off prototype production of cell culture system for bio-medicine, protocol production for processing 3D printing bio-materials, technology development related to cell culture system

- Development and manufacturing of digital microscope based on LED light and laser (2 types)

∙ Implementation plan

Support of core products for promoting innovative capability in domestic bio-device companies

※ Disposable cell culture system, 3D bio printing system, automated cell culture system etc.

- Establishment of test bed platform for training and supporting human resource meeting on-site demand

※ Training GMP professional manpower, establishment of 'global vaccine industrialization center' (Ministry of Strategy and Finance, September, 2016)

 New & Renewable Energy Hybrid System[편집]

Integrated system combining production and energy storage system for supplying electricity, heat and gas including new and renewable energy

∙ Target for 2024 : 10 % market share in the global renewable energy field

∙ Examples of major products‧services

- Dispersed/independent electricity and heat production system

- NRE-H system for reducing carbon with high efficiency

- Integrated hybrid solution in low carbon renewable energy

∙ Performance history (2014～2015)

- Foundation of business on 'renewable energy fusion' (8bn won), establishment of technology road map, core technology development for floating wave force and offshore wind power generation system

- Raising weighted value on REC (Renewable Energy Certificate) regarding renewable energy hybrid power system and expanding financial support in renewable energy (128.4bn won)

∙ Implementation plan

- Development of renewable energy hybrid system2.0 module integrated technology

※ Development of NRE-H 2.0 type micro-grid system, development of technology in NRE-H system active combination

- Recharge system demonstration in the hybrid type of solar·wind·fuel cell

※ Demonstration of system producing electricity, heat and hydrogen by introducing the concept of on-site recharge station

 Disaster Management System[편집]

Real time disaster safety management system combined with high technology such as ICT and aerospace technology

∙ Target for 2020 : Realize Safe Korea through tailored to on-site disaster safety technology

∙ Examples of major products‧services

- Smart and integrated management of disaster

- IoT-based real time smart disaster detection platform

- Smart disaster forecasting·corresponding platform

∙ Performance history (2014～2015)

- Collecting·monitoring technology in disaster information, simulation model of offshore disaster resulting from wave, development of response framework to extreme weather including climate change

- Construction of infrastructure to strengthen disaster safety management (May, 2016) and designation of specially classified disaster safety industry (7 broad category, 21 mid category, 62 detailed category)

∙ Implementation plan

- Construction of disaster management system and simulation by applying Post ICBM (IoT, Cloud, Big Data, Mobile)

※ Monitoring technology in disaster situation, analysis technology for information of disaster site, prediction technology of rainfall

- Support for specialized human resource and infrastructure to promote related industries

※ Training disaster profilers, designation·management of specialized university (graduate school) and construction of open platform management system for disaster control

 DC Transmission & Distribution System[편집]

DC type of transmission･distribution system for stabilizing electric supply and resolving issues related to extension of power line

∙ Target for 2020 : 7% market share of the global market for DC electric power industry

∙ Examples of major products‧services

- Equipment for minimizing multi-level reactive power

- MMC type regenerative converter system

- High speed and capacity hybrid DC breaker

∙ Performance history (2014～2015)

- Expansion to global market after developing STATCOM(Static Synchronous Compensator) which is var compensator (Hyoseong)

※ Conclusion of contract worth of 30 million dollars to India and Panama (December, 2015)

- Promotion of domestic industry through technology transfer of Alstom (LS Industrial System Co., Ltd.)

※ Conclusion of contraction in HVDC between N. Dangjin and Godeok (318bn won, June, 2014), commencement of planning

∙ Implementation plan

-Development of core technology by utilizing ICT that has competitive edge over leading countries

※ Development of voltage type MMC system with DC±200kV, 200MW and carrying out basic research on MVDC type DC distribution system

-Construction of demonstration site for verifying performance of products and improving reliability

※ Design of 80kV HVDC demonstrative site and MVDC DC distribution system reliable site

Supercritical CO2 Power Generation System[편집]

Power generator using supercritical CO2 that contains both characteristics of liquid and gas as a source power

∙ Target for 2022 : World’s second highest technological competitiveness

∙ Examples of major products‧services

- 10MW supercritical CO2 power generator

- CO2 turbine with high temperature and pressure

- Compressor of supercritical CO2

- Heat exchanger with high temperature, pressure and concentration

∙ Performance history (2014～2015)

- Construction of CO2 power generator with academic laboratory scale (300kW), the third sucess in the world to develop generator in 2015

- Development of framework in Front End Engineering Design (1 project, 0.5bn won), development of magnetic bearing technology which is the original technology for turbine (1 project, 0.4bn won)

∙ Implementation plan

- Securement of high value-added element technology including turbine, compressor, heat exchanger and localization of core technology

※ Development of magnetic bearing technology for supercritical liquid turbine

- Construction of education and practice supporting network through building partnership with foreign institute and cooperative system

 Advanced Material Machining System[편집]

Core technology and system for processing advanced materials used in main components in aerospace‧vehicle industries

∙ Target for 2020 : Realize the goal of becoming 4 major nations in machining system of advanced material

∙ Examples of major products‧services

- Carbon fiber reinforced polymer processing system

- Corrosive metal, ceramic material processing system

- High functional equipment for processing advanced materials

∙ Performance history (2014～2015)

- Launch development of processing technology in advanced materials (carbon fiber composite, titanium/sapphire machine, carbon composite forming) and development of core component technology

- Passing preliminary feasibility test regarding advanced equipment development and building infrastructure (54.5bn won) and adding new growth engine and source technology to the list of tax support

∙ Implementation plan

- Prototype production of advanced material machining system and launching of core technology in advanced equipment

※ Development of carbon fiber composite, corrosive metal, sapphire glass processing system, heat resistant alloy basic material and thin film processing technology

- Expansion of infrastructure for strengthening competitiveness of domestic small and medium businesses

※ Launch of construction･core equipment related to advanced materials and tools