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ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 1
The ARTEMIS Call 2012 Information Day
Nuremberg, 28th February 2012
ARTEMIS Joint Undertaking The public private partnership for R&D in embedded systems
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 2
AGENDA
10:30 Welcome & Introduction to ARTEMIS by Eric Schutz, Executive Director ARTEMIS JU
11:00 The ARTEMIS Innovation Programme by Alun Foster, Programme Manager ARTEMIS JU
11:30 ARTEMIS Innovation: a strategy in practice by Helen Finch of Infineon UK
12:15 Call 2012 Highlights: AWP A & AWP B By Alun Foster
13:00 Networking Lunch - offered by the ARTEMIS Joint Undertaking
14:10 How the Call works: procedure, FPP, time line ... (AF)
14:25 Submitting your proposal (EPSS) – (AF)
14:40
Finding partners: ARTEMIS Project Idea Tool & IDEAL IST & Networking events by Else Embregts
14:50
AIPP information: Introduction (AF) AIPP 2 (Ronald Begeer) AIPP 4 (Jerker Delsing)
15:50 Coffee : 1-1 meetings with Programme Manager - appointments via registration desk
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 3
The ARTEMIS Innovation Programme and Strategy
Alun Foster Programme Manager, ARTEMIS-JU
ARTEMIS Joint Undertaking The public private partnership for R&D in embedded systems
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 4
ARTEMIS-JU Funded Research
ARTEMIS = “Embedded Systems” Virtually any programmed device that is not a PC or a network
ES have major potential: Quality of life
Energy use / carbon footprint
Economic wellbeing
…
Everyone agrees that innovation is driven by ICT (= Embedded Systems) R&D, so the EC and 22 participating Member States have set up the ARTEMIS Joint Undertaking to finance R&D&I projects to make it happen
“Industry” define the Work Programme (via ARTEMISIA)
Problem: How to make the innovation results really “STICK”?
Some answers …
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 5
ARTEMIS JU Research: What it’s all about
The JU Research Agenda proposal considers the expectations of the JU and resulting projects:
“Think BIG” = projects with appropriate critical mass and significant societal impact
“Act Socio-Economic” = improved industrial efficiency “... to strengthen European competitiveness and
allow the emergence of new markets and societal applications.”
i.e. a focus on key technical issues, solving high-visibility issues with commercially valorisable results
“Act Multi-national” (= “Act Pan-European”) = considers national/regional strategic priorities
“Think Different” = significant and complementary added-value over existing programmes
This is the spirit of what ARTEMIS projects should achieve
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 6
The ARTEMIS STRATEGY in a nutshell
… Build upon publicly financed R&D to generate the constituents of Eco-Systems and create “Centres of Innovation Excellence” (CoIEs)
R&D Collaborative
Innovation
Business
Models
Standards Education
External
Relations
Tool
Platforms
SME
involve-
ment
ARTEMIS project clusters
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 7
ARTEMIS – the programme so far ARTEMIS’ industry-driven projects have a large footprint with rich content, addressing societal and business needs
Project clusters are developing:
Safety and reliability (CESAR, RECOMP, MBAT, pSafeCer, nSafeCer, iFEST, …)
Electric Vehicle (IoE, POLLUX with ENIAC-E3CAR and FP7-CASTOR/Smarttop)
Energy efficient communities (eDIANA , ENCOURAGE, IoE, eGOTHAM, …)
Low-power Multi-Core for embedded (SCALOPES, SMECY,…)
E-health (CHIRON, HIGH PROFILE)
“Things of the internet” (SOFIA, SIMPLE, SMARCOS, iLAND)
Sustainable Manufacturing (eSONIA, R3-COP)
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 8
The way forward
ARTEMIS is paving the way to larger scale and wider “Europeanization” of the R&D scene in Embedded Systems
Focus on “Market Impact” Aims directly at improved competitiveness
Establish “Self-sustaining Innovation Ecosystems” around CoIEs
Attracts large R&D projects supported by smaller, targeted initiatives
CLUSTERS of projects, actively encouraged by the ARTEMIS Technology Conferences
ARTEMIS sees this as a start to broader, more effective collaboration structures
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 9
The Future
ARTEMIS-JU R&D projects are now up and running
Clusters are forming
The formation of sustainable Innovation eco-systems is now a priority
The Next Step – “ARTEMIS Innovation Pilot Projects” (AIPPs in Call2012)
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 10
“Energy”
Time
Critical Mass for Self-
Sustainability
Non-European
valorisation
Single Projects
CLUSTERS
AIPPs
“E=MCS2 !”
CoIEs CoIEs
CoIEs
CoIEs
Self-
Sustaining
Innovation
Eco-systems
AIPPs – Step up to Innovation Excellence
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 11
The ARTEMIS AWP 2012
Alun Foster, Programme Manager ARTEMIS-JU
ARTEMIS Joint Undertaking The public private partnership for R&D in embedded systems
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 12
ARTEMIS-JU
MASP
ARTEMIS-JU
RA
ARTEMIS-JU AWP
ARTEMIS-JU
Call for Projects
ARTEMIS
SRA
ARTEMIS-JU Annual
Implementation
Plan
Strategy & Implementation Monitoring Actions
ARTEMIS Process for deriving the AWP
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 13
The HORIZONTALISATION to overcome the fragmentation, while mastering the
complexity, for yielding multi-domain reusable results
The ARTEMIS matrix approach extended to put applications contexts, research
priorities and societal challenges into perspective 1
3
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Application Contexts
IndustrialIndustrial Nomadic Environ-ments
Nomadic Environ-ments
Private Spaces
Private Spaces
Public Infra-
structure
Public Infra-
structure
Reference Designs & ArchitecturesReference Designs & Architectures
Seamless Connectivity & MiddlewareSeamless Connectivity & Middleware
System Design Methods & ToolsSystem Design Methods & Tools
IndustrialPriorities
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Application Contexts
IndustrialIndustrial Nomadic Environ-ments
Nomadic Environ-ments
Private Spaces
Private Spaces
Public Infra-
structure
Public Infra-
structure
Reference Designs & ArchitecturesReference Designs & Architectures
Seamless Connectivity & MiddlewareSeamless Connectivity & Middleware
System Design Methods & ToolsSystem Design Methods & Tools
Application Contexts
IndustrialIndustrial Nomadic Environ-ments
Nomadic Environ-ments
Private Spaces
Private Spaces
Public Infra-
structure
Public Infra-
structure
IndustrialIndustrial Nomadic Environ-ments
Nomadic Environ-ments
Private Spaces
Private Spaces
Public Infra-
structure
Public Infra-
structure
Reference Designs & ArchitecturesReference Designs & Architectures
Seamless Connectivity & MiddlewareSeamless Connectivity & Middleware
System Design Methods & ToolsSystem Design Methods & Tools
IndustrialPriorities
SRA 2011
ARTEMIS Strategic Research Agenda Vision, high level targets & Strategy
SRA 2006
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 14
Pre-
announcement
Call
Full
Project
Proposal
Closed
Project
Outline
Closed
Call
Open Project
Start
Projects
eval. and
Selection
Projects
Negotiation
Year n Year n+1
Grants
establishment
Through a yearly call based on an Annual Work Programme and a two-
step submission process
The Strategy Implementation
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 15
Pre-
announcement
Call
Full
Project
Proposal
Closed
Call
Open Project
Start
Projects
eval. and
Selection
Projects
Negotiation
Year 2012 Year 2013
Grants
establishment
To allow more time for implementing the two-part AWP of Call2012, the PO phase will not be used. Proposers may submit an FPP directly
The Strategy Implementation CALL 2012
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 16
Update of AWP for 2012 …The motivation and guiding principles
Fulfil ARTEMIS high level targets to achieve a world class position in Embedded Systems
Implement the “SRA” research topics and challenges and ensure good coverage through the AWPs and projects
Leverage and Maximize the use of available budgets Develop the concept of “pilot lines”; adapted to Embedded Systems :
ARTEMIS Innovation Pilot Projects (AIPPs)
Based on selected and focused domains
Sustain the road-map approach ARTEMIS now has a good portfolio of projects producing significant
results . They are ‘clustering’ around axes in line with the societal challenges
the CoIE environment is growing - having complementary specificities
CoIEs provide strategic guidance (Tool Platforms , ...).
1
6
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 17
The AWP 2012 is composed of two parts
Part A : similar structure and approach as the previous AWPs
Part B : a new approach to build and deliver “Innovation Pilot Projects”
17
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 18
Integrate the SRA 2011 impact
Technical
Societal
1
8
Develop around the “open networks” theme: Embedded Systems become the Neural System of Society
Focus on the Societal Challenges as they drive the R&D strategy to support the European Competitiveness
AWP 2012 “Part A” ….The Approach
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 19
Chapter 4 Requirements
4.1 General
4.2 Contribution to the ARTEMIS targets
4.3 Expected impact
4.4 Technology vis-à-vis Application
4.5 Co-operation
4.6 Evolution of markets and market environment
4.7 Standards & Regulations
4.8 Innovation environment
4.9 Contribution to the tool platform
4.10 Contribution to the repository
4.11 Project duration
1
9
AWP 2012 “Part A” Coverage and content
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 20
Section 6 : Eligibility and Evaluation criteria Five criteria - Each criterion is scored out of 10.
1. Relevance and contributions to the objectives of the Call.
2. R&D innovation and technical excellence.
3. Science and Technology (S&T) approach and work plan.
4. Market innovation and market impact.
5. Quality of consortium and management.
The threshold for the individual criteria (1), (2), (3), (4) will be 6.
There is no threshold for the individual criterion (5).
The overall threshold, applying to the sum of the five individual scores, is 40.
2
0
Weighting 2 = 20 points
AWP 2012 “Part A” Coverage and content
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 21
“the additional” AWP for 2012 : Part B …. The approach
Why: Speed-up “the innovation process”
Leading to “Self-Sustaining Innovation Ecosystems”
Available budgets are not growing as expected – is it a systemic problem?
How: Strengthen the dialogue with PAB
recommended in the ARTEMIS mid-term evaluation report
Take account of the Embedded Systems specificities
Build on the ARTEMIS assets
21
“ARTEMIS Innovation Pilot Projects”
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 22
The AWP 2012 “Part B” Structure:
Context
Specific requirements for “Innovation Pilot Projects” Industrial Priority to be addressed : Objectives
R&D and Innovation challenges
Overall strategy of the work plan logical phases of the implementation including prototyping, validation, certification …
Expected Outcome : Market innovation and market impact
Resources needed (size xxx M€/…specific investments… ) and duration
General Requirements
Eligibility and Evaluation Criteria
2
2
AWP 2012 “Part B”
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 23
AWP 2012 “Part B” Societal and Economic Context
Fulfil ARTEMIS high level targets achieve a world class position in Embedded Systems by implementing the SRA research
topics and addressing the challenges
Maximize the use of the available budgets
Foster the concept of “KET pilot lines”, adapted to Embedded Systems paving the way to the coming FP8 / “Horizon 2020”.
ARTEMIS Innovation Pilot Projects Based on selected and focused domains 1. Critical Systems Engineering Factories.
2. Innovative Integrated Care Cycles.
3. Seamless Communication & interoperability- smart environment (the neural system of society).
4. Production and Energy System Automation.
5. Computing platforms for embedded systems.
6. “Intelligent-Built” environment and urban infrastructure for sustainable and friendly cities.
Sustain the road-map approach
Build on ARTEMIS Projects portfolio and their results
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 24
ARTEMIS Innovation Pilot Projects are expected to
Create new business innovating eco-systems,
Efficiently use the Public, Private Partnership in Embedded Systems to overcome the resource deficit for R&D and foster innovation & collaboration in Europe,
Align implementation of R&D&I priorities in Europe to turn European “diversity” into a strength,
Achieve a “European Dimension” by combining the R&D efforts across Europe while pulling resources in key areas, and involving relevant players having the ability to ensure successful valorisation and take-up of the results.
Establish and sustain a holistic approach to R&D&I, by undertaking projects of critical mass, reconciling the market silos in a business efficient approach with cross-domain synergies.
Sharing Risk by allowing projects that otherwise would not be undertaken, setting and sharing of R&D&I infrastructures.
provide market driven solutions based on prototypes and demonstrations,
Pool industrial resources to foster synergies between various environments, to keep leadership position in traditional markets, and gain worldwide positions and more market share in new areas.
AWP 2012 “Part B” Sustaining the ARTEMIS Innovation Environment
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 25
AIPP 1: Critical Systems Engineering Factories.
AIPP 2: Innovative Integrated Care Cycles.
AIPP 3: Seamless Communication & interoperability smart environment (the neural system of society).
AIPP 4: Production and Energy System Automation.
AIPP 5: Computing platforms for embedded systems.
AIPP 6: “Intelligent-Built” environment and urban infrastructure for sustainable and “friendly” cities.
AWP 2012 “Part B”
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 26
High level strategic objectives
Strengthen the competitiveness of European systems industries
in the aerospace, automotive, rail, and automation domain.
Counteract the fragmentation of the European vendors’
landscape supporting such industries in critical systems engineering
processes.
Support emergence of strong European providers of solutions in
critical systems engineering.
Reduce the time to market of innovative engineering tools
solutions (to fight an emerging competition from low-cost countries).
Accelerate the technology acquisition cycle, through faster
demonstration of feasibility in a representative environment
Accelerate the tool development cycles for tool vendors
Federate a critical-systems engineering innovation eco-system
Facilitate the emergence of Europe-driven standards
AWP 2012 “Part B” …AIPP1 : Critical Systems Engineering Factories
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 27
Establishment of a mature perennial exchange platform for
sustained long-term collaboration in the R&D to improve critical
systems engineering
Preparation of industrial take up
R&D innovations in methods and techniques for critical systems
engineering, including
Variability management and support to product line development
Model based systems engineering techniques in the context of
certification processes (towards reducing drastically the quantity of
documentation that this processes are demanding; usage of models as
certification evidences will be considered)
Techniques for the integration of COTS building blocks in certified
architectures
Multi-viewpoint and multi-criteria engineering. This shall support
effective integration of dedicated analysis tools in the engineering
framework, and is a key enabler to efficient interactions between different
engineering disciplines (co-engineering).
AWP 2012 “Part B” …AIPP1 : Critical Systems Engineering Factories
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 28
… from episodic care using isolated equipment
… to care pathways, team coordination,
and connected workflow solutions.
Diagnosis Treatment Management Surveillance
AWP 2012 “Part B” …AIPP2 : Innovative Integrated Care Cycles
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 29
Innovation Areas covered by a Care Cycle e.g. Cardiac
Screening and
early detection
Discovery to
treatment
Minimally
invasive interventions
Chronic disease
management
Enabling early noninvasive screening and risk stratification of asymptomatic patients.
Reducing time to treatment for acute patients. Providing crucial decision support to diagnose each unique condition.
Innovating minimally invasive procedures for an ever-expanding range of cardiac conditions.
Enabling the management of chronic conditions in care settings outside the hospital.
AWP 2012 “Part B” …AIPP2 : Innovative Integrated Care Cycles
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 30
Sensor Networks:
Sensor (body) area networks
Sensor Fusion
Power management
Integration and interoperability:
Between and within use cases
On device level, system level and data level
Algorithmic level:
Both statistical data mining
Image quality, image enhancements, feature extraction
Image processing, image registration, 3D visualization
(Real time) Multi model (source) imaging
Embedded Data management:
Ontology: patient health Records, past surgeries DB, Reasoning engine, real-time image info guiding the surgery + augmenting reality systems.
Patient data and Medical data fusion
Middleware
Semantic Interoperability middleware among heterogeneous smart devices
Embedded systems & devices
Catheters, pace makers, diagnostic equipment
Workflow management and support
AWP 2012 “Part B” …AIPP 2 : Innovative Integrated Care Cycles
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 31
This program targets is to provide a solution set for interoperating systems which include
technologies to connect to any system,
means to access any kind of information in embedded systems, and
tools for handling mixed requirements.
The objective is to construct the real end-user systems instead of laboratory set-ups and to test the systems having real end-users in living labs.
This will require living lab installations in few selected locations recruiting a large number of Industry partners bringing the solutions and ARTEMIS technologies in to test/use.
AWP 2012 “Part B” …AIPP 3 :Seamless communication and interoperability - Smart environments: the Neural System for society
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 32
Very high level of challenges are facing our society
the cycle of production and consumption of resources like energy
integrating in an end to end process in manufacturing management and energy management
the reduction of heavy manual work, improved working conditions, and people and plant safety. Therefore, enabling the efficient integration of production and energy systems will be part of a developing eco-society paradigm.
These challenges require:
new and improved processes,
smarter and more flexible and sometimes fast reconfigurable production systems,
supply and efficient management of utilities and energy,
better use of new emerging paradigms and associated technologies, like Service-Oriented Architectures, Complex Systems-of-Systems Engineering resulting in Smart (efficient) Manufacturing Solutions,
resulting in Smart, Efficient Production Solutions.
AWP 2012 “Part B” …AIPP 4 : Production and Energy Systems Automation
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 33 ARTEMIS Industry Association
Software components
Service engineering
Automation optimization
Secure automation
Migration
Commissioning and run-time
Interoperability
Integration-ability
AWP 2012 “Part B” …AIPP 4 : Production and Energy Systems Automation
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 34
The objective of AIPP 5 is to provide to the European Embedded System Industry a heterogeneous MPSoC (multiprocessor-system-on chip) that realizes a cross-domain execution platform characterized by:
Utmost Flexibility
Extraordinary Dependability at
Affordable Cost
This execution platform will be used to build embedded systems of superb utility in the aerospace, automotive, medical, and industrial domain and thus strengthen the competitiveness of the European Embedded System industry.
Open challenges are: Security in MPSoCs; Active diagnosis in MPSoCs; Integrated resource management; Internet Integration of MPSoCs; Tool environment ;…
AWP 2012 “Part B” …AIPP 5 :Computing platforms for embedded systems
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 35
Projects in this area should contribute to one or more of the following objectives:
definition and initial instantiation of architectures and communication platforms to enable the flexible and evolvable interoperation of systems including sensors, actuators, information systems, and control systems across multiple domains
e.g. transport, urban lighting and energy management - and multiple vendors and service providers;
reference designs for energy efficient HW/SW architectures e.g. reference mobile handset, reference tiny communicating device;
definition of a standard HW and SW modelling framework and of development tools based on common industry driven meta-models, for high-level analysis and validation of resource usage, emphasizing composability and reuse;
design and realization of design-time energy exploration and optimization tools and methods;
models to enable energy efficient topology management in distributed systems, with emphasis on dynamic reconfiguration capabilities of resource management devices as key non-functional capability to cope with the legacy challenge;
Visualization of Sustainable Urban Life, and integration of such visualization with the underlying models and applications.
AWP 2012 “Part B” …AIPP 6 : “Intelligent-Built” environment and urban infrastructure for sustainable and “friendly” cities
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 36
Section 6 : Eligibility and Evaluation criteria
Five criteria - Each criterion scored out of 10.
1. Relevance and contributions to the objectives of the Call.
2. R&D innovation and technical excellence.
3. Science and Technology (S&T) approach and work plan.
4. Market innovation and market impact.
5. Quality of consortium and management.
Whole points only
Threshold for the individual criteria 1 to 4 is 6.
There is no threshold for the individual criterion 5.
Criterion 4 has a weight of 2
Overall threshold is 40.
AWP 2012 “Part A”
Section 6 : Eligibility and Evaluation criteria
Five criteria -
1. Relevance and contributions to the objectives of the Call.
2. R&D &I and technical excellence. (state of practise; previous projects, pilot description)
3. Technological solution for Innovation and work plan. (demonstration; “co-creation”)
4. Market innovation and market impact. (innovation process; end-users; eco-systems;)
5. Quality of consortium and management. ( eco-system; critical mass; tangible and intangible resources)
Whole points only
Criterion (1) - 5 points, a threshold 3.
Criteria (2) and (3) - 10 points, threshold 6.
Criterion (4) - 20 points, threshold 12.
Criterion (5) - 15 points, threshold 9.
Overall threshold is 40.
AWP 2012 “Part B”
ARTEMIS AWP 2012 – Sumary of the Evaluation Criteria
ARTEMIS Programme and Call 2012 – February 2012 ARTEMIS Joint Undertaking 37
Thank you for your attention! [email protected]
ARTEMIS Joint Undertaking The public private partnership for R&D in embedded systems