SFI Proposal 2005 Sentre for forskningsdrevet innovasjon

1
SFI Proposal 2005 Sentre for forskningsdrevet
innovasjon

• HiA Høgskolan i AgderAgder University College

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Summary of Discussion
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SFI Cooperation
Academia (HiA)
Regional Industry (Sörlandet)
SFI

• SFI or not, we need such an activity anyhow
• SFI should not be the only motivation

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Industry Target Segment?
ICT Industry

• ICT Industry should be applied to another
  industry
• We lack strong regional, industry-specific
  lobbying organizations
• We should contact Ugland and others for advice on
  target

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Time line
Industry Visions Scenarios to create
Norwegian Industry 2010
Norwegian Industry 2015
Norwegian Industry 2020
Norwegian Industry 2005
SFI
SFI
5 years
3 years
2007
2012
2015
SFI 8 years funding period

• Our research priorities topics will change
  during 8 years
• We should arrange for a major re-assessment
  event after 4 years

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Building the story ...
Industry Needs Priorities
Increased Biz Dynamics
Systems vs SW Engineering
Secure Organizational Processes
SFI Story
Ad-hoc Trust

Provisioning Complexity
Resource Awareness Discovery
Motivation Challenge Approach Desired Outcome
Mobile2Mobile
Upcoming trends for the next 10-15 years
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DatesOct 15 1-2 page outline Dec 1 Deadline
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Time Line
Proposal Deadline
Outline Deadline
Dec. 1
Oct. 15
TODAY
22.8
29.8
5.9
12.9
19.9
26.9
3.10
10.10
17.10
24.10
31.10
7.11
14.11
21.11
28.11
8 weeks
6 weeks
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Proposed Steps

• Agree on participation
• Identify strong trends
• Clarify HiA roles and contributions
• Summarize HiA consensus
• Approach industry partners
• Make adjustments in direction
• Summarize SFI consensus
• Setup work and management structure
• Draft Proposal
• Submit

Aug. 31
Oct. 10
Nov. 19
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Needed until Aug. 31 (HiA Consensus)

• Trend slide
• Contribution slide
• Summary package

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Trend upcoming Mobile-2-Mobile links
3
2
4
1
fixed
fixed-2-mobile
mobile-2-mobile
mobile-2-vehicle
vehicle-2-vehicle
Example
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Trend From SW to Systems Engineering

• From Software Engineering to System Engineering
• New software will be embedded into large system
  it will usually be a change to an existing and
  large system.
• Higher levels of abstraction
• Software, services and systems will be developed
  using higher and higher levels of abstraction,
  often combining several different abstractions
  into one system.
• Abstraction will be chosen on the fly and they
  will be domain-specific.
• Appearance of a virtual world
• The real world will be recreated more and more by
  virtual copies of the real things.
• These virtual parts communicate similar to the
  original ones.
• An obvious problem is to keep up the match
  between real and virtual worlds.

Example
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Mobile-to-Mobile Communications Using MIMO
Techniques

• Mobile-to-mobile communications are expected to
  play important roles in future ad hoc networks
  and intelligent transportation systems.
• Contribution Channel modeling (2007-2010),
  system design and performance analysis
  (2009-2012), realization of hardware components
  (2012-15)
• Contact Prof. Matthias Pätzold
• Proposed Norwegian Industry partners Ericsson,
  Telenor, MCP
• Proposed intern. academic partners SUPCOM,
  Ben-Gurion Uni., Polyt. Uni. Bucharest, Hanyang
  University

Example
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Enhanced Systems Engineering

• New software will be embedded into large system
  it will usually be a change to an existing and
  large system.
• Software, services and systems will be developed
  using higher and higher levels of abstraction,
  often combining several different abstractions
  into one system.
• Contribution
• The OSYS group can contribute in providing
  methodology and tools to handle abstractions -
  defining them and integrating them - using a
  meta-model-based approach.
• Contact Prof. Andreas Prinz
• Proposed Norwegian Industry partners Telenor,
  SmartSolutions (Grimstad), Intermedium
  (Grimstad)?
• Proposed international academic partners
• Humboldt-University Berlin, Germany, University
  of Pisa, Italy
• IRIT research institute, France, University of
  Kaiserslautern, Germany
• Simon-Fraser-University Vancouver, Canada,
  Babes-Bolyai-University, Romania
• SINTEF, Norway, University of Oslo, Norway

Example
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Resource Awareness Discovery

• Future mobile devices will integrate with the
  surrounding work or living environments. Users
  can now interact with people and services in a
  more direct and natural way.
• Contribution
• Resource awareness and discovery services for
  mobile devices and supporting infrastructure
  based services
• Prototypes of overall updated device and service
  oriented architectures applied to target industry
  
• Contact Prof. Frank Reichert
• Proposed Norwegian Industry partners
• Teleca, Ericsson, MCP, Telenor, BeepScience
• Proposed international academic partners
• HHS, Uppsala, BTH, Kassel, Bonn, Berkeley, NICTA
  Australia, NUS,

Example
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(No Transcript)
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Content

• NFR SFI background
• Target Segment ICT, Maritime, Construction
• Trends Initial Assumptions

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About NFR SFI
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Motivation

• Strengthen innovation in industry by long-term
  research in close cooperation between research
  intensive companies and leading research
  environments
• SFI shall
• stimulate industry innovation
• create active cooperation between innovative
  industry leading research
• establish internationally competitive research
  that are part of international networks
• stimulate research sponsoring of important
  research based knowledge and technology transfers

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SFI

• SFI Sentre for forskningsdrevet innovasjon
• long-term research
• strengthen technology exploitation,
  internationalization, and research exchange
• co-financing by bedrifter, vertsinstitusjon, og
  Forskningsrådet(companies, service industry,
  and Forskningsrådet)
• Duration max 53 years
• Main criteria for election potential for
  innovation and value creation

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Motivation and more

• aimed at research intensive part of industry
• support long-term competence development
• 10 centers
• 10 MNOK/year /center by NFR
• budget per center up to 20-30 MNOK

22
SFI Proposal Details

• goals objectives
• relevance for innovation and competence dev
• relevance for broader competence dev in the area
• project description
• status, relevant technologies, research tasks,
  methods, organization, international cooperation,
  time plan, cost, financing details, steering,
  letter-of-intend

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DatesOct 15 1-2 page outline Dec 1 Deadline
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Basic Strategy
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Example Areas (listed in SFI descriptions)

• bio technology
• bio production
• construction environmental industry
• energy oil
• pharmacy
• information communication technology
• knowledge intensive services
• material technology
• productivity, marketing, competence development
• process technology
• maritime? (!)

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Proposed Industry Target Segments

• Maritime Industry
• Construction Industry
• Information Communication technology

Maritime Industry
Innovative Products Innovative Services Higher
Efficiency Higher Quality Higher Security
ICT Industry
Construction Industry
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Critical Success Factors

• High Quality Proposal
• Credible Norwegian Industry Segment
• e.g. Maritime IKT
• e.g. Construction IKT
• Strong Regional Industry Commitment
• Leading enterprises, SMEs, Start-ups
• Alignment with regional industry organizations
• e.g., Agder Maritime Forum, Sydspissen,
• Cooperation with Competence Centers/Incubators
• e.g. Sørlandets Teknologisenter
• e.g. Arendal Kunnskapspark

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Proposed Steps

• Agree on participation
• Identify strong trends
• Clarify HiA roles and contributions
• Summarize HiA consensus
• Approach industry partners
• Make adjustments in direction
• Setup work and management structure
• Create Proposal
• Submit

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Basic Work Flow
how will our main industry sponsors relate to
new industries?
Sørlandets Teknologi- senter
Arendal Kunnskaps park
Sydspissen
SåkornInvest Sør
New Industry
Industry Needs
Industry
SFI Priorities
SFI Research
New Concepts
Trials
New Products
New Products
New Products
Trends
Academia
Iterate
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Time line
Industry Visions Scenarios to create
Norwegian Industry 2010
Norwegian Industry 2015
Norwegian Industry 2020
Norwegian Industry 2005
SFI
SFI
5 years
3 years
2007
2012
2015
SFI 8 years funding period
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Center Partners
International Academic Network
International Industry Network Partners
Ericsson Sweden
Polyt. Uni. Bucharest
Hanyang University
etc Norway
Center Core
HHS Sweden
etc Germany
BTH Sweden
Academia HiA NHH Maritime
Industry ICT Maritime
etc Sweden
etc China
??? Poland
Uppsala Sweden
SåkornInvest Sør
Uni Bonn Germany
NUS Singapore
Sydspissen
Aalborg Uni Danmark
Uni Kassel Germany
Arendal Kunnskaps park
Sørlandets Teknologi- senter
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(No Transcript)
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(No Transcript)
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(No Transcript)
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Target Segment

• Some Initial Ideas

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SFI Motivation

• Strengthen innovation in Norwegian industry by
  close cooperation between companies and leading
  research organizations

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Proposed Industry Target Segments
Maritime Industry
Energy Industry
ICT Industry
Construction Industry
Banking/Financial Industry
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Example Building site
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Norwegian Maritime Industry 13 of global
shipping fleet 50 shipyards In Norway Aker
Yards Europes largest (4th global)
http//www.nortrade.com/Aquaculture/Articles/ShowA
rticle.aspx?id151
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http//www.maritimt-forum.no/Article.asp?ArticleID
5468
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Industry vs. Individual Needs
Growth Profit
Industry Needs
Individual Needs
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Trends Assumptions
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Trend Provisioning is getting very complex
Services
People
My ResidentialServices
Operators
Things
My Relations to People, Things Services
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Trend Service Architecture must reflect
Business-2-Business relations
Internet Host Provider
Payment Aggregation Provider
Payment Provider
Payment Provider
Equipment Provider
Equipment Provider
User Domain
User Domain
Game Service Provider
Virtual Operator
Virtual Operator
Access Link Provider
Access Link Provider
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Trend upcoming Mobile-2-Mobile links
3
2
4
1
fixed
fixed-2-mobile
mobile-2-mobile
mobile-2-vehicle
vehicle-2-vehicle
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Trend Security - an increasing challenge

• Ad-hoc trust
• Privacy traceability
• Digital ID ( a political issue)
• Digital Signatures/Certificates
• Hierarchical Identities
• Interconnection of trust domains

Canal ID
MSN ID
Paypal ID
PrivateEmailID
AmazonID
WorkEmailID
MyMobileID
eBayID
InsuranceID
FrequentFlyerID
TicketID
ProjectID
EmployeeID
DepartmentID
CarID
BankID
CreditCardID
FamilyID
FamilyPhoneID
ME my IDs
20 pt
AT HOME
IN PUBLIC
AT WORK
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Trend Our world is increasingly digital

• Media become digital documents, photos, video,
  music
• Our homes are networked Ethernet, WiFi, UWB,
  ADSL
• We own many networked devices Xbox, PC, phone,
  media player, printers, servers, PSP (Playstation
  portable), home control,
• Media arrives in digital form TV, IP radio,
  telephony,

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Trend From SW to Systems Engineering

• From Software Engineering to System Engineering
• New software will be embedded into large system
  it will usually be a change to an existing and
  large system.
• Higher levels of abstraction
• Software, services and systems will be developed
  using higher and higher levels of abstraction,
  often combining several different abstractions
  into one system.
• Abstraction will be chosen on the fly and they
  will be domain-specific.
• Appearance of a virtual world
• The real world will be recreated more and more by
  virtual copies of the real things.
• These virtual parts communicate similar to the
  original ones.
• An obvious problem is to keep up the match
  between real and virtual worlds.

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HiA Contributions
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Area Map
Provisioning
New Services
Service Discovery Awareness
Trust MgmtSecurity PrivacyProtection
Adhoc Networking Transport
Media Access Error Handling
MIMO Mobile2Mobile Technologies
Integrated System Modeling Tools
52
Mobile-to-Mobile Communications Using MIMO
Techniques

• Mobile-to-mobile communications are expected to
  play important roles in future ad hoc networks
  and intelligent transportation systems.
• Contribution Channel modeling (2007-2010),
  system design and performance analysis
  (2009-2012), realization of hardware components
  (2012-15)
• Contact Prof. Matthias Pätzold
• Proposed Norwegian Industry partners Ericsson,
  Telenor, MCP
• Proposed intern. academic partners SUPCOM,
  Ben-Gurion Uni., Polyt. Uni. Bucharest, Hanyang
  University

53
Quality Security for Future Enterprises

• Security is fundamental for quality processes and
  competitiveness of future companies especially
  if they want to maintain long-term customer
  relationships user trust.
• contribution
• Contact Prof. Jose J. Gonzalez
• Proposed Norwegian Industry partners
• Proposed international academic partners

54
Enhanced Systems Engineering

• New software will be embedded into large system
  it will usually be a change to an existing and
  large system.
• Software, services and systems will be developed
  using higher and higher levels of abstraction,
  often combining several different abstractions
  into one system.
• Contribution
• The OSYS group can contribute in providing
  methodology and tools to handle abstractions -
  defining them and integrating them - using a
  meta-model-based approach.
• Contact Prof. Andreas Prinz
• Proposed Norwegian Industry partners Telenor,
  SmartSolutions (Grimstad), Intermedium
  (Grimstad)?
• Proposed international academic partners
• Humboldt-University Berlin, Germany, University
  of Pisa, Italy
• IRIT research institute, France, University of
  Kaiserslautern, Germany
• Simon-Fraser-University Vancouver, Canada,
  Babes-Bolyai-University, Romania
• SINTEF, Norway, University of Oslo, Norway

55
Resource Awareness Discovery

• Future mobile devices will integrate with the
  surrounding work or living environments. Users
  can now interact with people and services in a
  more direct and natural way.
• Contribution
• Resource awareness and discovery services for
  mobile devices and supporting infrastructure
  based services
• Prototypes of overall updated device and service
  oriented architectures applied to target industry
  
• Contact Prof. Frank Reichert
• Proposed Norwegian Industry partners
• Teleca, Ericsson, MCP, Telenor, BeepScience
• Proposed international academic partners
• HHS, Uppsala, BTH, Kassel, Bonn, Berkeley, NICTA
  Australia, NUS,

56
Ad-hoc Trust

• privacy? content protection? encryption? ???
• Contribution
• Contact Prof Vladimir Oleshchuk
• Proposed Norwegian Industry partners
• Proposed international academic partners

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???

• ???
• Contribution
• Contact Per E. Pedersen
• Proposed Norwegian Industry partners
• Proposed international academic partners

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Proposal Approach

• Write a vision driven proposal
• outline three major visions for 2010, 2015, 2020
• Team up with 1-2 other Høgskolor or
  Universities
• Host Grimstad (!?)
• Attract a team with operators, system
  integrators, service providers, and HW/SW
  manufacturers, and users
• Investigate user, technology and business
  aspects innovate in all three areas

59
Possible Partners

• operators MCP, Telenor
• System integrators Teleca
• Telecom Manufacturers Ericsson, Teleca
• SW Manufacturers BEEP Science, Opera
• Work places Ugland,
• Government places
• Private places
• Academic partners HiA, NTNU, NHH, Oslo?
• European partners HHS, BTH, UniBonn, UniKassel

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Budget

• 10 MNOK 10 MNOK per year
• 10 MNOK 1 PhD 600 kNOK gt max 16 PhD
• 10 MNOK 5-8 partners
• 1-2 per industry partner gt max 5-8 partners
• Project Management Overhead
• 1-2 persons (???)

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Integrated operations by Jose

• security fundamental for quality processes
• wide applicability
• covers hardware software aspects
• HiA has a leading edge here
• might address software quality issues
• need for new formal methods
• should address 5 senior competences
• need a common summary of topic for others to
  propose participation
• what scenarios?
• next meeting Monday, August 22, 1400

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More Material
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http//www.ecitizen.gov.sg/
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http//www.ecitizen.co.uk/about.htm
65
http//www.baltic.org/ecitizen/
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http//www.teleca.se/PSUser/servlet/com.ausys.ps.w
eb.user.servlet.AuthorizedPageServlet?nodeid4510
pageversion2
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http//www.beepscience.com/default.asp/
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http//www.item.ntnu.no/thanhvan/research.htm
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http//www.nhh.no/
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Next

• align HiA interests
• create overall 2-3 project outline
• refine project focus
• invite partners
• adjust project scope

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Old slides
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Proposal Ideas
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Ideas for Topics

• Area Mobile Telecommunications
• target group the eCitizen
• focus preparing Norwegian industry for the
  eCitizen age
• possible innovation areas
• Digital Identity
• e.g. hierarchical identities, link of trust
  domains)
• Provisioning
• helping users to configure, run, and
  upgrade/replace their environments
• Converged network and service infrastructure
• today All-IP tomorrow e.g., All-XML using
  SOA or event driven architectures
• Services Use Cases
• work, public/government, private

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An eCitizens world
Applications Services
People Communities
Operators
My digital side of lifebuddies, music, notes,
calendar, games, favorites, mail, and
relations spread across the world fortunately
kept together bymy convenient, trusted device
but I need support
Things facilities