Title: Technology Foresight Pilot Project
1(No Transcript)
2TECHNOLOGY FORESIGHT is
Systematic exploration of the longer-term future
of science and technology, and their potential
impacts on society, with a view to identifying
emerging factors driving change, and the areas of
scientific research and technological development
likely to influence change and yield the greatest
economic, environmental and social benefits over
the next 10-25 years.
3The Disclaimer
The ideas, potential developments and prospective
events envisioned in this report have been
identified by participants as situations that
could occur in the future. They do not purport
to be predictive. The approach we are taking
relies upon consulting a wide range of expertise,
with the expectation that through our collective
experience, imaginative abilities and interactive
knowledge of technological development pathways,
we can begin to construct a coherent view of some
of the major developments that can be anticipated
within a 10-25 time horizon. This is the
nature of foresight - creating a range of
plausible future elements that in their diversity
should alert readers to the kinds of issues and
perspectives they may not have initially
considered in longer term research planning and
contingency thinking. Accordingly, this report
reflects the combined views of the participants,
and the best wisdom and creative thinking that we
could stimulate with the tools of foresight, but
it clearly does not represent an official view of
the Government of Canada or any of its
Departments and or Agencies.
4STFP Project Background
- Pilot project proposed by NRC, endorsed by FINE
DMs and ADMs. - Pilot project independent of any other ST
funding. - Funded by participating agencies.
- Multi-departmental Working Group identified 2 key
technology sectors for study - GEOSTRATEGICS including geo-spatial data
sensing, gathering, artificial intelligence,
pattern analysis and knowledge management. - BIOSYSTEMICS including nano to global
biotechnology, eco and food systems, emergent and
convergent trends in health, genomics disease
mitigation and cognitive science. - Project Team led by NRC Office of Technology
Foresight composed of seconded staff and
consultants
5PROJECT OBJECTIVES
- Create a futures context discussion framework
for the development of policies, agendas
investment strategies for ST and RD. - Initiate a network to create discussion and
emerging consensus on where and how to
collaborate among departments, agencies other
stakeholders. - Strengthen focus networks of collaboration
among Canadian international experts in
advanced 'geo' and 'bio' ST. - Design and test a collaborative learning
methodology and process for the inclusion of ST
input to the policy process.
6Purpose Practice
Society and Politics
Economics and Finance
Environment
Resource Management
Economic Development
Health
Security
Communities of Purpose
Communities of Practice
7Communities of Purpose
- Alignment along priority areas
- Often operate as specialty silos
- Use ST as a specialty skill set
- Compete for attention and funding
- May have conflicting priorities
- Environment vs. Resource management
- Economic development vs. Security
- Short term efficiency vs Long term effectiveness
- Opportunities may be missed or problems narrowed
to comply with mission boundaries
8Communities of Practice
- Alignment based on horizontal, affiliated
disciplines with traditional ways of working
together on broad issues - Society and Politics
- Value-based, distributes authority
- Operates on political, executive level
- Economics and Finance
- Money-based, distributes resource
- Operates at central bureaucratic level
9Science and Technology
- Knowledge-based, distributes capability
- Fragmented, does not act as a true horizontal
policy vector - Traditions of inter-disciplinarity only now
developing - Significant innovation potential
- Efficiency of existing programs
- Formulation of new policies
- Avoidance of problems created by a purely
commercial research agenda
10A Range of Prospects
- Sustainability science
- Remote environmental sensing
- Metabolomics
- Technology convergence/genetics
- DNA-based early warning
- Advanced power systems
- Microbial ecosystems
- Remote diagnosis/diseases
- Personalized medicine
- Biotechnology
- Human global health/environment
- Predictive modelling
- Security/Info systems, networks
- Integrated nanotechnology
- Regenerative medicine
- Advanced computational systems
- Climate change from space
- Sustainable manufacturing
- Intelligent robotics systems
- Space for environmental security
- Biomass energy
- Changing northern environment
- Space-enabling technologies
- Biodiversity/Invasive species
- Canadas sea floor
- Virtual ocean
- Proteomics/economy, health
- Space Surveillance and National Security
- Intelligent Autonomous Systems.
- Clean hydrocarbons, H2
- Sensors/Activators - health
- Biodiversity info for KBE
- Security of Info Infrastructure
11Geostrategics
- The future horizons and applications of
geo-spatial data and related knowledge management
technologies for decision support, including
pattern recognition software, wireless
communications infrastructure futures, and links
to major new capacities in surveillance,
ecological monitoring and resource management
technologies.
12The Geostrategics ?
- How will geo-strategic knowledge, technology and
prospective applications likely to be available
in 2015 reshape our understanding of Canada, its
land, sea and air/space resources, and provide
new capabilities for national security, and the
stewardship and sustainability of Canadas
resources?
13Biosystemics
- The convergence of nanotechnology, ecological
science, biotechnology, information technology
and cognitive sciences, and their prospective
impacts on materials science, the management of
complex public systems for bio-health, eco and
food system integrity and disease mitigation.
14The Biosystemics ?
- How can the federal government better understand
the complexities and interdependencies of
Canadas food, health and environmental systems,
and develop a 10 year horizon of actionable
intelligence for research and policy in these
areas, given new knowledge about emergence,
behavior of populations, disease ecology,
genomics, etc.?
15BioSystemics Characteristics
- Scale
- Nano-scale observations at low end
- Data handling and simulation at high end
- Convergence
- Unity at the material level
- Consilience
- High level models may result in unity at
theoretical level - Emergence
- Seeking to understand rules for networks, tipping
points, systems structure, chaos and complexity
16Science and Scale
17Convergence
Biotech
Computers
Bits
Genes
Neurons
Atoms
Networks
Nanotech
18Consilience
- Unity of theory and knowledge
- Vertical integration using computational models
- Hybrid technologies
- Nano-medecine
- Quantum computing
- May well include social sciences
Nano Bio Info/Cogno
19GeoStrategics Value System
20Focus Scope
- We approach Geostrategics from a application
perspective, as opposed to the technology areas
offered in Biosystemics. - 6 Topics Identified by the Scoping workshop
- Environment Resources
- National Security Emergency
- Transportation
- Sustainable Cities and Urban Development
- Heath Risks and Hazards
- Ocean and Inland Water Resources
21Convergence Of Sciences Advanced Technologies
Geoscience
Photonics
Nanotechnology
Climatology
Atmospheric Science
Meteorology
Oceanography
Biology
Mapping
Robotics
Ecology
Knowledge Management
Renewable Energy
Advanced Materials
Urban Studies
IT Information Technology
22Spectrum of Breakthrough GeoStrategic
Technologies Needed
Sensors
Sensorweb
Adaptive Data
3D Detectors
Management
Non
-
Linear Optics
Automated Calibration
Tunable
Lidar
Reconfigurable
Communications
Advanced microwave
Autonomous Operations
Micro
Lidar
Multi
-
Functional
Warm Focal Planes
Structures
Rad
-
Tolerant
Large Telescopes and
Antennas
Microelectronics
Biological Markers
Access to Knowledge
Information Synthesis
Human
-
Computer Interface for
Space/Ground Programming
.
Env.
Geo
-
Spatial Datasets
Reconfiguration Management
Collaborative Environments
Open Model Architecture
Distributed Visualization
Parallel Systems
High Bandwidth Delivery Systems
Geo
-
spatial DBMS
Data Mining/Dynamic Data Fusion
Standards Protocols
Geo
-
reference Standards
Source Dr. Bob Ryerson, NRCan
23DELIVERABLES REPORTING
- Summaries of results for each stage scoping
workshops technical panels synthesis, and
scenarios. - High priority 'robust' disruptive or
transformative technologies. - Potential collaborative RD strategies.
- Potential new planning and contingency roles or
foci for government, industry and academia. - Suggestions for action, including horizontal
ST/RD mechanisms and partnerships, capacity
requirements, best practices, improvements to
project methodology.
24Nanotechnology
- Present
- Nanotubes
- Nano-coatings
- Liposomes
- Lapping compounds
- Future
- Quantum dots
- Catalyst
- SET
- Self-org manufacture
- Convergence
- Microbivores
- Photonic crystals
- Molecular switching
- Sensors
- Consilience
- Reproduction of natural processes (DNA)
- Enable macro n/w
25Info-Cogno Technology
- Present
- Moores Law
- Internet
- Data Mining
- Simulation
- Future
- AI - Smart
- Controls
- Autonomic
- Pervasive
- Convergence
- Bio-interface
- Asynchronous
- Low energy chip
- Gigaflop modeling
- Consilience
- Singularity change so rapid it can only be
managed by trans-humans
26Systemics
- Present
- Top-down models
- Epidemiology
- Model results
- H. Scale dynamics
- Future
- Bottom-up
- Eco-epidemiology
- Model basic activity
- Micro-dynamics
- Convergence
- Biological models
- Replication
- Adaptation
- Heuristic
- Consilience
- Unified world view will require high level of
cross-disciplinary education.
27Geostrategic Future?
- Future
- Integrated Geo Utility at system level
- Open system integrated infrastructure
- Integrated data collection
- Seamless to users get what you want when you
want it - Real-time coverage, data and systems
- Significantly wireless
- Integrated, inexpensive sensors
- AI and pattern recognition pervasive
surveillance - Sensor webs with bio, physical, chemical and
physical measurements - Peer to peer calibration and validation real time
- Smart maps
- Smart systems
- Information and decision support focused for
customers
- Present
- Distributed silos
- Fragmented data collection
- Fragmented infrastructure, systems
- Some Interconnections
- Data focused
- Lack of real-time coverage, data, systems
- Difficult data integration
28Geostrategics Wild Cards
- Technology acceptance (e.g. privacy vs. security)
- International conflicts, war
- Terrorist attacks (chemical, biological,
radioactive, nuclear, information, internet) - Unexpected natural disasters (floods, droughts,
hurricanes etc.) - Climate change acceleration
- Satellite, ground station failures
- Collapse of the economy, financial system
- Collapse of the United Nations, change in world
order - Human made disasters and accidents (e.g.
Walkerton, genetic accident) - Technology breakthroughs or commercialization of
unknown military technologies with significant
impact - Pandemic
- Interstellar events
-
29Range of Enabling Technologies
- Nanotechnology
- Designer materials
- Increasing information processing power of
semiconductors, photonic, DNA, quantum computing - High speed, high bandwidth communications
- Semantic internet
- Smart systems and agents
- Autonomic software (self-repair and automatic
code generation) - Wireless communications, including peer to peer
communications and computing - Portable fuel cells and new forms of power
generation
- Real-time information systems
- Robotics, nanorobotics
- Organic, bio sensors
- Integrated, inexpensive, smart sensors (nano,
bio, chemical, physical, optical) - New human-machine interfaces (e.g. direct link to
the brain) - Virtual reality based visioning and
decision-support tools - Telepresence
- Smart vehicle technologies
- Geopositioning systems
- Micro, nano satellite constellations
- Ocean technologies
30Scenario Approaches
- Axes of Uncertainty boundaries of expectation,
quadrants of contrast - Themes that Colour technovectors and societal
receptions social diversity - Projective Analytics projecting the present and
adding spice to the space - Wildcards and Inversions thinking the
unthinkable and the reversals - ST Emergent Determinant technology as the
dominant driver and critical differentiator
31Scenario Purposes
- Tracking emergence prospective impacts of
influential trends technologies - Informing RD planners, policy makers
- Engaging, coalescing strategic thinking
- Elucidation of unseen connections, new insights
- Evaluating comparing a range of scenarios to
assess robustness of technologies - Facilitating long term RD and strategic
investments - Imagining future knowledge skills needs, job
shifts
32e.g. 15 Potential Themes
- GAIA Strikes Back technology systems
collapses, pervasive barriers - Agility Advantage Can succeeding, adapting,
competing, diversifying - Co-Evolu-Innova-tion Govt communities as
co-innovators - Insecure Cocoon terrorism unchecked, ever
present - Virtual Avatar cyber-reality
- Genomic Anomic biotech transformations upsets
- Comfortably Numb big brother takes care through
technology
- Birkenstock Bicycle toward assured
sustainability - Cool is Cruel cultural fixations for technology,
fast shifts - O Say Can You C AmeriCanada? Canada slow merge
into the USA - Navigation Net fully enabled wireless net
functionality - Techno Freak reversals of socio-technical
potential into problems - Other Sides parallel worlds of values
technology co-existing - True North Long Narrow life on the fringe
- Invisible Hand vibrant 21st century marketplaces
33VII. Implications for Federal Research
Development