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ICEBESS 2016
Taiwan’s Innovation Agenda: Mission,
Role, and Research-Business-Government
Integration
Chih C. Chao, Ph.D., P.Eng.
(Former) Vice President
Tunghai University, Taichung, Taiwan
16 September 2016, Yokyakarta, Indonesia
2
Outline of Presentation
Technology Innovation System
RTO/ITRI’s Role and Contributions
RTO/ITRI’s Open Innovation System
Research-Business-Government Integration
Thoughts about Moving Forward
3
Technology Innovation System
– Taiwan
2
Technology Innovation System
The network of organizations, individuals
and institutions which facilitates the
generation, use and sharing of technology
and other knowledge and which drives the
pace of economically successful innovation.
From: CARICOM-Canada Trade and Development Agreement
5
Taiwan’s ICT Production Volume
0%
20%
40%
60%
80%
100% 88.6%
70.0%
89.7%85.0%
40.9%
93.7%88.3%
46.0% 46.6%
9.0%
2010 World Market ShareShipment
Market Share(%)
Note: Including overseas production
5
Taiwan as the World’s Leading Supplier of High-Tech Products
• Due to a substantial extent of offshore production in numerous high-tech end productsand intermediate goods, Taiwan’s domestic production and exports are nowconcentrated on high-end intermediate goods such as ICs and LCD panels.
IC design, DRAM, WLANs, OLED panels, LED, TFT LCD panel, Glass fiber, IC Substrates, Power wheelchairs & power scooters, ABS, TN/STN LCD panels, PNDs
IC foundry, IC packaging, IC testing, Mask ROMs, Optical Disc, Chlorella, Electro-deposited copper foil
Top1
Top2
Top3 PCB, NB PC, Polyester Filament, PU Leather, PTA, Nylon Fiber
7
Taiwan Patents Granted by USPTO
Number of Patents Patents Per Million
Population
US (79,526) TW (267)
JP (33,334) JP (262)
DE (9,051) US (258)
KR (6,295) FI (161)
TW (6,128) IL (160)
(5,1)
Number of Patents Patents per Million
Population
US (77,502) TW (276)
JP (33,682) JP (265)
DE (8,914) US (249)
KR (7,548) IL (165)
TW (6,339) KR (157) (5,1)
Number of Patents Patents Per Million
population
US (82,382) TW (289)
JP (35,501) JP (279)
DE (9,000) US (264)
KR (8,762) IL (199)
TW (6,642) KR (182)
(5,1)
Data Source: USPTO
Note:(Ranking by the number of invention patents and patents per million population)
7
8
Shift of Focus in Value Chain from Mass Production to High Value Creation
Effective Mass Production
Novel Product/ System/ Service
OEMSystems
& Services
Brand Name
ProductsODM
Raw
Material
End User
Market
8
Taiwan’s Industrial DevelopmentShifting to Innovation Focus
Source: ITRI (2011)
1960’s 1970’s 1980’s 1990’s 2000’s 2010’s
Labor intensive
Light industries
Heavy industries
Capital intensive
Technology intensive
Knowledge intensive
Innovation focus
US$ 35,604
10X in 30 yrs
US$ 3,570
GDP per capita (PPP1)
1: Adjusted by Purchasing Power Parity (PPP) for proper country comparison. In 2010, nominal GDP per capita is US$ 18,588.
Stage of transition
towards industrial
textile
Stage of high-tech
development
Cross-industry integration/
Development of innovative
textiles
Taiwan’s Industrial Innovation - Success Example –Technology innovation process of textile industry
1990 2000 2010 2015 2020
• Textile industry value
chain and technology of
fast manufacturing
• Process technology for
microfiber, moisture-
wicking textile, water-
based PU coating, etc.
• Development functional fiber
textile: charcoal, anti-bacterial and
deodorizing, insulating, anti-static,
profiled fiber.
• Development of industiral textiles:
electrostatic spinning, sensor
textile, fractal fabric, etc.
• Development of differentiated
and high-value added nylon
textiles.
• Development of innovation
products: LED textile,
hermochromic textile, super
capacitor, elastic meltblown
nonwoven fabric.
• Development of biomass-based wear-
resistant fiber, development of
application for ionic liquid cellulose
fiber, polymer alloy fiber technology,
etc.
• Development of wearable technologies
textile, hermochromic textile,
inorganic fiber, etc.
• San Fang, Everest
Textile, Formosa
Taffeta and Gfun built
Taiwan's international status
in microfiber and moisture-
wicking textile and industry
infrastructure
• Chung Shing Textile,
Shinkong and
Tainanspin created
internationally known brands,
such as Cool Plus, Hi Cool,
etc.
Fu
nctio
na
l textile
s
• Phyllotex, NanYa and Triocean established
charcoal textile production alliance and supply
chain First case of trade mark license in textile
industry.
• Kang Na Hsiung, Formosa Taffeta,
Minlan Fabric, Singtex and Champak entered Europe, US and other high tech markets of
protective and function textile.
Ind
ustrial tex
tiles
• Zig Sheng, Chainlon, Acelon, Li-peng, Houndey , Shinkong and Far East Developed functional, differentiated and green nylon textiles products.
• Far East, Zig Sheng, Li-peng and
Super Testle actively developed cooling
and hermochromic textile products.
• Li-peng, Gfun, Everest, Honmyue、Makalot、Eclat textile, Jackwolfskin,
HydraKnight and ATUNAS promoted the
establishment of outdoor brands alliance, began to
develop OBM product.
• K.J.Filtration Technologies, Kang Na
Hsiung and e-nonwoven developed electric
spinnin/meltblown/ airlaid non-woven
technology, promoted the position of Taiwan in
filter textile.
• Litnertex, Jintex, HydraKnight and
Super Testle developed flexible fabric
capacitor emerging markets, and promoted
first start-up in textile industry formed with
technology developed with TDP.
10
Industrial technology change
◇upgraded and
transformed in response
to competition from
emerging economies.
◇ Started to invest in
the R&D of industrial
textile in 2000.
◇From 2004 started building
testing and verification
facilities.
◇ From 2010, emphasized aesthetic
design in textile manufacturing and
resulted in winning IF international
award.
◇ From 2014 strengthening differentiation/high-
value added new nylon fiber materials, and
develop wearable technology textile.
2000Industry structure
80:10:10*
*Proportion represents the structure of industry: "clothing", "home decoration", "industrial
textile".
2004Industry structure
63:12:25
2006Industry structuring
61:10:29
2010Industry structuring
58:10:32
2015Industry structuring
48:12:40
Go
ve
rnm
ent s
upp
ort
Stage of upgrading
and restructuring of
textile industry
Op
tim
izati
on
of
In
du
str
ial T
ech
no
log
ies /
Layo
ut
of
S
trate
gic
Targ
ets
11
• Department of Industrial Technology (DoIT)
– Organization TDP
– Business Innovative TDP
– Academic TDP
• Other Bureaus, Departments and Administrations
• State-owned Enterprises
Ministry of Economic
Affairs (MOEA)
• National Defense
University
• National Chung-shan
Institute of Science
and Technology
Ministry of National
Defense
Council of
Agriculture
• Departments for S&T
development
• Science Parks and
Research Centers
Ministry of Science
and Technology
Academia Sinica
Executive Yuan
Office of the President
Board of Science and
Technology
Ministry of Health
and Welfare
Ministry of
Education
Ministry of Transportation and Communications
Environmental Protection
Administration
……
Structure of Taiwan’s S&T
Innovation System
12
Taiwan Innovation Hub
Northern Taiwan 38 Incubators
Hsinchu Science Park
IC, ICT Industries
Central Taiwan 15 Incubators
Central Taiwan Science Park
Precision Machinery, TFT-LCDNational Chung Hsing Univ.
National Yunlin Univ.
of Science and Technology
Southern Taiwan 23 Incubators
Southern Taiwan Science Park
Biotech, Opto-electronicsNational Cheng Kung Univ.
National Sun Yat-Sen Univ.
National Chung Cheng Univ.
Eastern Taiwan 5 Incubators
Tourist IndustriesNational Dong Hwa University
Tzu Chi University
National Taiwan Univ.
National Chiao Tung Univ.
National Tsing Hua Univ.
From manufacturing clusters
to innovation clustersSince 1996 incubated over
1600 companies attracted
US$0.8b investments
1313
Basic
ResearchApplied
Research
Technology
DevelopmentCommercialization
Universities
Talent
Funding
Regulations
Infrastructure
Po
licy &
To
ols
fo
r S
cie
nce &
Tech
no
log
y
Industries
Taiwan’s Innovation System
International
Cooperation
ITRI
Academia Sinica
Nati
on
al
Vis
ion
Incu
bati
on
Flow of Talent
and Technology
Industrial
Prosperity
Economic
growth
Social well-
being
ITRI has formed >37 research and commercialization alliances
14
RTO/ITRI’s Role and Contribution
ITRI’s MissionsA NTO founded in 1973 by Ministry of Economic Affairs, ITRI’s missions are:• Research and develop key technologies• Stimulate and drive industrial development• Generate economic value• Elevate social well-being
No matter how brilliant the research innovation or invention there are,
the result has to contribute to the effects of economy to elaborate the meaning and explore the greatness.
Morris Chang
Chairman of TSMC, former President of ITRI
Our direction
Mechanical and Systems
Medical Device and Biomedical
Green Energy and Environment
Information and Communications
Electronics and Optoelectronics
Materials, Chemicalsand Nanotechnology
2015.08.01
Total Staff: ~6,000 Total Patents
~ 23,100
Startups & Spinoffs (2014)
260
Industry Services (2014)
Provided Services:~15,000
Transferred Technologies:626
1,310
3,030
1,220
23,500
Ph.D.:
Master:
Bachelor:
Alumni ~ :
•Bio-based Chemicals
•High-value
Petrochemicals
•Materials for Next
Generation ICT
•Plant Factory
• Intelligent Robot
•Electric Vehicle
•Additive
Manufacturing
•Digital Manufacturing
•Renewable Energy
•Energy Efficiency,
Management and Policy
•Clean Environment
•Energy ICT
•Flexible Display
•Lighting
•Semiconductor
Technologies
•Human Machine
Interface
• IoT & Wearable
Electronics
•Wireless
Communications
•Big Data and Cloud
Computing
•Medical Electronics &
Imaging
•Biomarker & In-vitro
Diagnostics
•Orthopedic Device &
Tissue Regeneration
Industrial Technology Research Institute
16
Industrial Technology Investment Corporation
17
Industrial Technology R&D at ITRI
BasicResearch
AppliedResearch
TechDevel.
TechTransfer
TechCommer.
Mfg/Services Market
Shared Innovation Platform
Open Labs, Incubation Center, VC
Universities
Industry
Global Collaboration Network
Every year ~100 ITRI researchers and senior managers work with research partners
worldwide
San JoseBerlin
Moscow
Tokyo
ITRI Operation at a Glance
R&D Contract51%
Knowledge-based Services 39%
IP/Technology Licensing10%
RTO: A Bridge Between Industry and University?
University Industry
University Industry
Pull
Push
(Too Far)
(Too Close)
RTO
RTO
Globalization: Threats to RTOs?
• Technology sources are available globally
• World leading universities actively collaborate with industries
• Decreasing financial support from local government
• Difficulty to attract international talents
• Disruptive economic, environmental and societal trends
• RTOs alone unable to cope with multi-disciplinary R&D of current needs
• Lack of integrated and overall strategy to deal with above issues
• Need to define new role and approach and realign with multi-disciplinary partners of complimentary strength in focal areas
危
機
Threats
Opportunities
R&D of Industrial Technology
Inspiration (scientific discovery or idea of application)(1%)
Perspiration (technology innovation & development)(99%)
+
R&D of Industrial Technology- Public-Private Partnership -
University
Industry
RTO
Government Policy and Environment
ITRI Example: International R&D Collaboration
Scope:
• Joint R&D for 3D IC Technology &
Packaging Platform.
Reasons for collaboration:
• Commercialization of 3D IC technology &
packaging through collaboration of TNO,
ITRI and GMM, a semiconductor
equipment vendor.
Benefits:
• Accelerating 3D IC technology & packaging
implementation to strike the market wave
front.
GMMSystem design
Alignment moduleAutomation
Software control
Mechanism design
Positioning stage
Pick-&-place module
Process evaluationTest vehicle design &
validationReliability assessment
3D IC Technology & Packaging Platform
+
Food for Thoughts
• Scientific discovery and technological innovation are essential to meeting the challenges of the newcentury
• In an accelerated future that is increasingly dominated by technology and knowledge, many R&D institutions may become marginalized …
• But an exceptional few will go to the next level to become true “knowledge hubs” of the knowledge economy
• Building, managing and leveraging Public-Private-Partnership is the key
28
RTO/ITRI’s Open Innovation
System
29
Strengthen international institute to institute (I-to-I)
cooperation and collaboration in academia-research
projects
Increase R&D on discovery based technologies
Develop competitive advantages via cross-field technical
integration and interdisciplinary cooperation
Strengthen Pre-competitive and Innovative R&D
29
30
ICT Enabled Implementation Emphasize on Systems, Services & Applications
Biomedical &
HealthcareSmart Living
Energy Saving &
Low Carbon
– i236 smart living
service platform
– Cloud computing
platform & services
– Distributed energy
management system
– Off-shore wind turbine
– Metropolitan e-vehicle and
services
– LED street lighting system
– Remote healthcare
– Emergency care
– Cloud-based electronic
medical records
30
31
Approach for Industry-University-
Research Institute Collaboration
New Value & Synergy -- Where Dreams and Technologies meet
People Innovation
Resource
R&D Partnership & Alliance
IP Pooling
Innovation Cluster
Recruit &
Development of
Talent
Joint Research Programs
Joint Research Centers
- with a central theme for
cooperation
32
ITRI’s Open Innovation System
Innovation
Platform
Commercial-
ization
Platform
Core Technology Platform
Front-End Platform
Input Output Outcome
• Economic
Value
• Social
Welfare
• Industry
Growth
• Patent
rights
• Startup
companies
• Servicing
industries
• Technology
transfer
• Government
Policy
• Demand
• Academic
breakthrough
• Funding
• Proposal
• People
Core Process
32
32
33
• Available Method: Two-step operation, time consuming (3-4 weeks), and
expensive (US $20,000).
• Our Approach: 30 min or less and lower cost. Achieve tissue treatment and
implantation, in one step, one stop and single operation.
• Current Status: Technology transferred to US Exactech, Inc. Started a multi-
center, Phase II clinical trial in December of 2011.
Collaboration Example -
Biphasic Scaffold for Osteochondral Repairs
A joint research project of Academia Sinica,National Taiwan University Hospital and ITRI
Articular cartilage
Subchondral bone
Cancellous bone
Injecting cartilage chips into biphasic scaffold
Cutting to small pieces
Enzyme digestion
33
34
Research-Business-Government
Integration
Emerging Innovation Network Model - a Conductor in the Innovation Eco-system
Government
University Research Institute(ITRI)
IndustryOutput-Products-Services-Applications...
Spin-Off/InLicense
Prototype
Resources-Idea
-Talents-Funding
-Knowledge…
Outcome-Employee-Revenue-Investment……
Other countries Adadted from: Huang, C. (2013)
Take a lead
36
Basic Research
Applied Research
Technology Development
Commercialization
Universities
Industries
Taiwan’s Innovation System from Linear Perspective- ITRI Bridges the Gaps
AcademiaSinica
•Innovation Driven Industries
•Economic growth•Social well-being
Government (Infrastructure, Regulation)
Outcome:
Adapted from :Coyle, “The Missing Middle”, National Security and Int’l Affairs, Office of S&T Policy, USA (May, 2011)
37
Thoughts about Moving Forward
Collaboration Leading to Sustainable Future
Better living
Better life
Better environment
Humanitarian
39
Some Thoughts on How to Pool Our Collective
Expertise and Efforts Together
1. Create an Open Innovation System and target challenging
innovative technologies that will have major impact to the world
2. Establish institute to institute, long-term mutually beneficial
relationships
3. Apply DARPA like methodology, invite experts to brainstorm
“unmet needs” and their implementation
4. Joint efforts to promote and to conduct technology
commercialization, increase global industrial value and create
new business opportunities
39
Joint effort on projects, incubating technologies, venture capital
and building research centers in Taiwan and strategic locations