The Vine BreakthroughTechnology for our Health & our Planet Supply Chain_Roa… · Technology...
Transcript of The Vine BreakthroughTechnology for our Health & our Planet Supply Chain_Roa… · Technology...
The VineBreakthrough Technology for our Health & our PlanetDan Holladay
May 2020
Objective 1:
Establish a Food Supply Chain Roadmap that provides immediate solutions, technical and logistical, for the US Food Supply Chain Ecosystem.
❖ Organize, facilitate, publish, and support execution on key Food & Ag. industry roadmaps
#1) Food Supply Chain Technical & Logistical Roadmap, Farm-to-Fork
❖ In parallel, work with the Food & Ag. industry, USDA & ARS, California and other key US Ag. states, research institutes, trade associations, and International Partners (where appropriate) to lay the groundwork for a more comprehensive Food and Ag. Innovations-Based Technology Roadmap - merging the chapter listed above.
➢ Expanded Categories / Key Drivers Examples:
• Smart Farming (Digitized Ag., AI, Sensor Technologies, Robotics, i.e.)
• Environmental
• Public Health
• Food Quality
• Distribution
• Conservation
2020 Post COVID-19 Food & Ag. Roadmapping Strategic Plans
BRIDG Construction Status
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BACKGROUND: The VINE PPP is based on the proven SEMATECH model that overcame national security, economic threats, loss of US technology leadership
SEMATECH effect - Austin• Played critical role in national security
initiative – US recaptured lead in semiconductors
• Attracted hundreds of companies, billions of dollars in investments, thousands of jobs
• Leader in government technology & economic development policy and investment
• Average member-reported → ROI > 5x
SEMATECH effect – New York• SEMATECH wrote the strategy and co-anchored the launch
and expansion of the Albany NanoTech Complex (w/CNSE, IBM, and the State of New York)
• Fully-integrated research, development, prototyping, and educational facility that provides strategic support through outreach, technology acceleration, business incubation, pilot prototyping, and test-based integration
• “next generation” nanotechnology research activities • Expanded strategy state-wide to Buffalo (medical
innovation & commercialization; IT; innovation hub), Rochester (photonics; PV; power electronics; smart systems), Syracuse (emerging nano industries)
Investment to date: more than $24 billionFacility space to date: 1,650,000 sq ftR&D jobs onsite: over 4,000
Over 300 corporate partners including IBM, Intel, GlobalFoundries, SUNY Poly SEMATECH, Samsung, TSMC, Applied Materials, Tokyo Electron, ASML and Lam Research, and many others
[SEMATECH] will advance the technologies that will help drive our state's economy for the next 50 years. Texas Governor Rick PerryAMRC Launch
“[SEMATECH North is] the most exciting development since the construction of the Erie Canal.”New York GovernorGeorge PatakiSEMATECH North ribbon cutting, 2003
Background – SEMATECH Model
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Institute Research
CONCEPT:
➢ Technology Roadmaps
➢ Creative Ideas
➢ Centers of Excellence
➢ Novel Techniques
➢ Fundamental Research
➢ Intelligence
Ag. & Food INTEGRATION CENTER:
➢ Complete industry-based Eco-System needs aligned through Technology Roadmaps
➢ Partners provide program direction through industry-based Roadmaps and resources
➢ High potential technologies become integrated into Commercialization Centers
➢ Capability for proof of concept, custom development, pilot production
➢ IP Protection for company specific products
COMMERCIALIZATION:
➢ Market-pull and needs guided by Business & Technology Roadmaps
➢ Smart Ag., Food, & Health systems and products
➢ Integrate IoT, AI, 5G, Autonomous Systems, Robotics, and other leading-edge technologies
➢ Nanotechnology & Emerging Technology solutions
SEMATECH Model & The Vine Innovation Cycle Support and Enable Complex Path from Concept to Commercialization
- Guided by Industry Directed Technology Roadmaps
IndustryIndustry Based Technology
Development Infrastructure
• Consensus-based
– Global span
• Living document
– Annual update
– “1000 people…1000 pages”
• Gives entire industry a view into the future
• Coordinates the R&D collaboration pipeline
Collaboration begins with the Industry Roadmap (ITRS)
INTERNATIONAL
TECHNOLOGY ROADMAP
FOR
SEMICONDUCTORS
2009 EDITION
THE ITRS IS DEVISED AND INTENDED FOR TECHNOLOGY ASSESSMENT ONLY AND IS WITHOUT REGARD
TO ANY COMMERCIAL CONSIDERATIONS PERTAINING TO INDIVIDUAL PRODUCTS OR EQUIPMENT.
Materials EquipmentManufacturing
ProcessesInstallation
Module
Assembly
Balance
of System
Example – complete value chain
6 6
Food Supply Chain Technology & Logistical Roadmap Initiative “Example”
2020 2021 2022
Some facts
The world is changing …
opportunities …
Agri-food
▪ Traditional sector + trends towards artisanal, local
▪ SME-driven
▪ Economical important sector in EU…
Lets interconnect and integrate our chain!
Key D
rivers 1) Food & Ag. Producers
(Farms, Livestock, Dairy & Poultry)
2) Distribution
3) Processing
4) Access to Markets
• Broad & Flexible
Ch
all
en
ges • Access to processing
• Ability to transfer products to new markets / buyers
• Contagious disease management
• Ability to manage product availability & Transportation
So
luti
on
s
• IT market and distribution platforms
• Smart / flexible packaging
• Contamination detection and control
• Farm-to-Fork tracking and redirecting -Blockchain System
• Processing automation
Interconnected
and integrated
food supply chain
Challenges
International Organizations Recognizing Challenges and Economic Opportunities
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Smart Agriculture Technology Roadmap Project “Example”
2020 2021 2022 2023 2024
Some facts
The world is changing …
opportunities …
Agri-food
▪ Traditional sector + trends towards artisanal, local
▪ SME-driven
▪ Economical important sector in EU…
Lets interconnect and integrate our chain!
Key D
rivers 1) Smart farming
2) Environmental
3) Public health
4) Food quality
5) Distribution
6) Conservation
Ch
all
en
ges • Ability to measure
• Resource Optimization
• Manage Contamination
• Manage Transportation
So
luti
on
s • Sensor based solutions for yields/conservation
• Setting up pilot line adaptation bed
• Contamination detection and control
• Smart packaging
• Farm-to-fork Blockchain System
Interconnected
and integrated
food value chain
Meeting Objective:
Involve the complete Food Supply Chain in helping frame the critical roadmap workshop focus areas:
❖ Key Drivers (topics / critical areas of focus)
❖ Identify initial top challenges under each Key Driver❑ List known solutions
❖ List of who should participate in the upcoming Roadmapping Workshop❑ potential subject matter experts for the “Working Group Leads”
❖ Collect feedback on date for workshop
❖ Others
Fast-Track Plan: Organize, facilitate, publish and support execution on a 3-year Food Supply Chain Technology and Logistical Industry-led Roadmap - heavily focused on immediate (2020) solutions
1) Food Supply Chain Technical & Logistical Roadmap, Farm-to-Fork
Food Supply Chain Roadmap Discussion
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Smart Restaurant Roadmap Workshop: 16-Jan19
2019 12 mths 24 mths >36 mths
Key
Dri
vers 1) Food Quality
2) Food Waste
3) Food Safety
4) Food Efficiency
Ch
alle
nge
s • Food Contamination
• Shelf-life Optimization
• Operational Efficiency
• Monitoring/Control
• Traceability
• Efficiency & Simplification
• Speed of Service
Solu
tio
ns
• Sensor based integrated solutions
• Setting up pilot line adaptation bed
• Blockchain
• Contamination detection and control technologies
Interconnected and integrated food service chain
Waste Management
Resource Management
ServiceEfficient
production / Cooking
StoragePre-processingDistributionTransportationAg Production
Some facts
The world is changing …
opportunities …
Agri-food
▪ Traditional sector + trends towards artisanal, local
▪ SME-driven
▪ Economical important sector in EU…
Lets interconnect and integrate our chain!
Some facts
The world is changing …
opportunities …
Agri-food
▪ Traditional sector + trends towards artisanal, local
▪ SME-driven
▪ Economical important sector in EU…
Lets interconnect and integrate our chain!
Back-up Slides
Industry Roadmapping - in General…
• Industry roadmaps are inclusive of the entire industry community –manufacturers, suppliers, research institutes, Public-Private Partnerships.
• The process requires equitable participation from the industry and needs members recognized for their expertise.
• The initiative and infrastructure support [website, meeting facilitation, reports] are coordinated by a neutral organization, usually a PPP or industry association team.
• Working groups are the heart of the roadmapping effort – formed around a specific industry products / topics / key drivers.
• A Leadership Team (Industry Statesman) help guide the process to seek consensus on drivers, needs, and business-ready solutions.
• Roadmapping information and solutions will initially be exclusive for team members, and release of the information will be managed as appropriate.
• Technology and standards requirements are captured and prioritized as they are identified by the WGs, with standards associations’ support.
➢ Industry roadmaps are a game-changing corporate technology business tool for internal business and strategic planning decisions.
16 May 2020
Technology Roadmap Methodology
Define Roadmap
Objectives - Key Driver
CategoriesIndustry-Based
Committee Identifies
Technical & Non-Technical
Gaps & Challenges
TWGs Identify technology
Solutions across RM needs
timeline
Reach
Consensus(peer review)
Review, Revise
Publish & Distribute
Industry
Implements
Roadmap
Industry Provides
Feedback
1-2 year cycle
Agriculture appropriations bill for FY2020• Agricultural Research Facilities.—The Committee directs ARS to explore ways in which its labs could
be better utilized, in cooperation with non-profits, consortiums, and land grant universities, to
achieve new scientific goals that benefit the nation’s food and agriculture system. In addition, the
Committee encourages ARS to work with the entities listed above to develop a smart
agriculture industry technology roadmap. This research strategy can help guide the future
development of technology in the agriculture industry and maintain U.S. leadership.
• Sensor Technologies.—The Committee encourages NIFA to work cooperatively with non-profit
institutions, consortia, and land-grant universities to conduct research on advanced sensor
manufacturing techniques to improve the agricultural industry.
• Blockchain Food Traceability.—The Committee notes the potential of blockchain technology to
revolutionize the practice of food traceability, tracking food products from origin through every point
of contact on the journey to the consumer. The Committee is interested in how blockchain
technology can be utilized to accurately trace food and mitigate the risks associated with food
contaminated outbreaks and to develop effective strategies for controls. The Committee
encourages NIFA to coordinate research to reduce the risk of foodborne illness through the
application of blockchain technology.
Smart Sensors @ IMAPS |
US Smart Ag. Initial Roadmapping Partners
International
* Imec / Belgium
* Netherlands
➢Agriculture
➢FoodProduction
➢High-Tech
Kitchens
➢Food basedProducts
Overlapping Market Challenges - Farm-to-Fork
• Nitrates
• Chlorophyll/Solanine/Aflatoxin
• Temperature / Moisture
• Insects / Microbial / Bacteria
• Defect (fruits/eggs/meat)
• Air / Water quality
• Pesticides / Herbicides
• Food doneness
• Fat in meat / Preservatives
• Nutrient content (Zn, Mg, Co)
• Gluten
• Ethylene
Markets Technology Based Sensors
Smart Sensors @ IMAPS | 17
Sensor / Imager Solutions, from Farm to Fork
Produce inspection Perfect red apple shows
bruising by IR imaging.
• Innovative technologies can provide answers for specific quality and safety needs
– Hyperspectral
– Raman spectroscopy
– mm- wave
– MWIR
– Thz & X-ray
– Broadband IR
• Applications in the food industry: in-line or at-line– Foreign object detection (e.g. plastics, glass, small stones)
– Screening hidden and latent quality defects at (or immediately below) the product surface
– Quick determination of composition and distribution (e.g. fat, sugar, protein)
– Pattern recognition, color and color stability
– Bacteria and Hygiene screening (e.g. urine, feces)
Hygiene, quality, and
safety screening
Sensor / Imager Solutions from Farm to Fork
Manufacturing USA InstitutesRegional Hubs with National Impact
Flexible Hybrid Electronics
San Jose, CA
New in FY
2017
Smart Sensors and Digital
Process Control
Los Angeles, CA
Regenerative Manufacturing
Manchester, NH
Advanced Fibers and
Textiles
Cambridge MA
Digital Manufacturin
g & Design
Chicago, IL
Sustainable Manufacturing
Rochester, NY
Integrated Photonics
Albany, NY
Modular Chemical Process
Intensification
New York, NY
Bio-pharmaceutical Manufacturing
Newark, DE
Wide Bandgap Semiconductors
Raleigh, NC
Advanced Robotics
Pittsburgh, PA
Advanced Composites
Knoxville, TN
Additive Manufacturing
Youngstown, OH
Lightweight Metals
Detroit, MI
Establish a US Ag. Innovation Institute - similar to other “industry specific” US Regional Hubs
Food 3.0 Institute Advancing Smart Ag.
Production Technologies
Roadmap Executive Steering Committee (RESC)
Leadership Team
Industry Models
Business Analysis
Roadmap Working Groups RESC “Champions”
Roadmap Organizational Infrastructure
Roadmap Working Groups – general topic
areas set by industry challenges/gaps
assessments
• Materials
• Packaging
• Test / Metrology
• ______________?
• ______________?
• ______________?
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May 25, 2012 Pre-read for RESC teleconference
Standards associations
IndustryStartups
Producers/SuppliersRetailers
Tech & Finance
GovernmentNational Labs
Research Agencies
State & Local Governments
UniversityBasic/Applied Research
Cooperative Extension
Intellectual Capital
Talent Pipeline
• Neutral, trusted• Industry-led, pre-competitive• Non-profit consortium• IP protection & flexibility
• Idea-sharing culture• Risk-taking entrepreneurship• Incubators & accelerators• Angel & venture capitalFood 3.0
Agricu lture + Food + Health Innovat ion
Food 3.0 Will Combine The Best of Proven PPP Models
• Ag, food, health focus• Digital tech integration• Industry-university• Economic development
• Apply high-tech to Agri-Food
• Industry-focused• Regional collaboration• Testbeds & manufacturing