ECS-SRA Digital Life. The future of Digital Life in Europe. Paul Merkus Philips Lighting

ECS-SRA The future of in Europe Paul Merkus Philips Lighting paul.merkus@philips.com

Overall SRA Process Oct 18 Core team Nov 20 Core team + comm. Apr 17 May 17 Jun 17 Jul 17 Aug 17 Sep 17 Oct 17 Nov 17 Dec 17 Jan 18 April 19 Core team 1st meeting May 4 Kick-off June 9 Core team & chapter leaders July 4 Core team & chapter leaders July 18 Core team Aug 25 Core team Sep 7 Sep 29 Core team Core & chapter team leaders Oct 12 Beg Nov. Core team (no mtg) & chapter leaders Dec 5-6 EFECS Workshops Dec 18 (no mtg except if needed) End Jan (no mtg) Outline & teams definition First draft Second draft for comments by community Final version Over 250 experts across core team + 10 chapter teams Team, half page & «Game Changers» description V1 Major challenges identified V2 For review by assoc. expert councils. Topic & Major Challenges V3 For review by assoc. mgmt. bodies V4 Publicly available for comments + Preliminary input To ECSEL MASP V5 Final draft for review by assoc. mgmt. bodies Final version 2

Overall SRA structure 3

Positioning on top of other application Chapters Personal life Enabling applications Health & Wellbeing Transportation Energy Professional life Digital Industry Technological enablers Technology chapters

Chapter contributors core team First Name Last Name Organisation Country PaoloAzzoni EuroTech IT CharlyBastiaansen Philips Lighting FR RonaldBegeer Philips Healthcare NL AlbertoBianchi Leonardo Group IT Jose LuisConesa Telefonica ES Klaas JanDamstra GrassValley NL WolfgangDettmann Infineon DE MarioDiaz-Nava ST Microelectronics FR AntonioJara HOP Ubiquitous ES AntonioLionetto ST Microelectronics IT PaulMerkus Philips Lighting NL MichaelOffenberg Robert Bosch DE Carlos EnriquePalau Salvador Polytechnic University of Valencia ES PatrickPype NXP Semiconductors BE MarinaSettembre Leonardo Group IT OvidiuVermesan SINTEF NO

Game Changers/SWOT + Internal to the EU industry* S: Presence of strong industrial players in EU Citizen protection by EU through privacy regulations Much creativity in EU Great design capabilities in EU Experience in embedded systems W: External to the EU industry* O: Ubiquitous availability of smart phones Low-cost availability of accurate sensors Advent of IoT, 5G and AI/DeepLrng Advent of VR, AR, BCI, Robotics, Advent of self-parking car, Disruption: collaborative business models T: Game changing trends - Fragmented market across countries Limited start-up / VC culture Few social media companies in EU Personalised cloud providers from US Ageing population Rural-urban migration Climate change Competition from other continents 6

The four (smart) s targeted by the Chapter Distinguishing four s to live in Space: Public Professional Private Personal Environment in a public environment in the work environment in the home environment anywhere Company with anyone with your colleagues with your family with yourself Examples of situations In the street At a stadium In an office In a factory At a farm, At home Visiting family Anywhere Business B2G Business to Government B2B: Business to business B2C: Business to consumer B2C: Business to consumer Product examples Traffic lights Smart Office Domotics Smart phone 7

Major Challenges # Major Challenge 1. Ensuring safe and secure s 2. Ensuring healthy and comfortable s 3. Ensuring anticipating s 4. Ensuring sustainable s Different major challenges have overlapping areas The order is not suggesting any priority 8

Public Spaces Professional Spaces Private Spaces Personal Spaces and its neighboring chapters Infrastructure related only Comfort related domotics Transportation Health & Wellbeing Health related domotics only Energy Production related industry only Digital Industry Generation Distribution 9

R&D&I areas # Major Challenge #.# High priority R&D&I areas 1 2 3 4 Ensuring safe and secure s Ensuring healthy and comfortable s Ensuring Anticipating s Ensuring Sustainable s 1.1 Emergency management and evacuation systems 1.2 Mission critical, safety critical feature rich communication systems for law enforcement 1.3 New concepts and architectures for increasing the trustworthy of digital services and platforms 1.4 Distributed AI, cognitive learning and distributed security (based on blockchain technology) 1.5 Surveillance systems using advanced video pattern recognition for large numbers of video streams 2.1 Development of sensor devices to measure and digitize physical quantities 2.2 Compact, energy efficient actuators to allow a better physical activation 2.3 Sensors and actuators fusion technology and methodologies (using machine learning and adaptive solutions) 2.4 Larger diffusion of the physical edge nodes (making them more performant) 2.5 Improvement on interoperability among different domains through improved exchange of context information 3.1 Robotics in care and smart assisted living environments 3.2 Anticipate and prepare events in the office 3.3 Providing navigation tips in the public to avoid congestion 3.4 Identification of potentially dangerous situations, using VR and AR 3.5 Further development of data analytics to realise anticipation functionality 4.1 Concepts for smart street lighting (lowering energy usage while enhancing safety) 4.2 Embedded air quality monitoring (particles/gas) solutions for efficient energy usage 4.3 Integrated sensors to detect leakage in ageing infrastructure 4.4 Systems solutions for sustainable agri-food industry 4.5 Context awareness for energy reduction and improved living 10

Areas for R&D&I for the Major Challenges Identified Public Professional Private Personal s: Characteristics: Major Challenges: in a public environment, with anyone in the work environment, with your colleagues in the home environment, with your family with yourself Safety & security Public safety Emergency and crowd mgnt. Access control Anti-burglary Wallet Biometrics Healthy & Comfortable (indoor) navigation Healthy office Productivity Home Assistant Personal assistant Quantified self Anticipating Traffic mgnt. Asset tracking Adaptive work e-butler Coaching Wearables Sustainable Energy saving Water saving Air-pollution Carbon neutral offices Off-grid living Micro housing Sharing rather than owning 12

Expected achievements # Major Challenge Expected achievements A. Ensuring safe and secure s Reduction of the number of safety/security incidents Mitigation of impact of incidents: emergency management system Identification of the emergence of potentially dangerous situations B. Ensuring healthy and comfortable s Wider adoption of IoT devices for smart home, smart building, smart office Collaborative robots ( cobots ) and cooperation with other machines and humans Distributed AI enabled AR: integration of physical objects with virtual s Automatic adaptation to operator conditions and operator age C. Ensuring anticipating s Anticipation at the personal level in smart phone Robotics in care and smart assisted living environments Anticipation in events management: travel booking, room reservation, catering, Technologies that use VR and AR to provide education of security measures D. Ensuring sustainable s Smart energy monitoring by IoT devices Creating front runners for sustainable, i.e. projects in selected cities Energy efficient public safety systems, including crowd alarming and evacuation Energy efficient smart traffic management 13

: Time Frames 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 1 - Ensuring safe and secure s 1.1 1.2 1.3 1.4 1.5 Emergency management and evacuation systems Mission critical, safety critical feature rich communication systems for law enforcement New concepts and architectures for increasing the trustworthy of digital services and platforms Distributed AI, cognitive learning and distributed security (based on blockchain technology) Surveillance systems using advanced video pattern recognition for large numbers of video streams For each of the high priority R&D&I areas 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2 - Ensuring healthy and comfortable s 2.1 2.2 2.3 2.4 2.5 Development of sensor devices to measure and digitize physical quantities Compact, energy efficient actuators to allow a better physical activation Sensors and actuators fusion technology and methodologies (using machine learning and adaptive solutions) Larger diffusion of the physical edge nodes (making them more performant) Improvement on interoperability among different domains through improved exchange of context information 3 - Ensuring anticipating s 3.1 3.2 3.3 3.4 3.5 Robotics in care and smart assisted living environments Anticipate and prepare events in the office Providing navigation tips in the public to avoid congestion Identification of potentially dangerous situations, using VR and AR Further development of data analytics to realise anticipation functionality 4.1 Concepts for smart street lighting (lowering energy usage while enhancing safety) 4 - Ensuring sustainable s 4.2 4.3 4.4 4.5 Embedded air quality monitoring (particles/gas) solutions for efficient energy usage Integrated sensors to detect leakage in ageing infrastructure Systems solutions for sustainable agri-food industry Context awareness for energy reduction and improved living 14

The floor is yours! Questions? Feedback? Inputs? 15

: Ideas (to be) pitched Idea Name Title Presenter Organization Major Challenge Brainbedded AI PRISMA Infrared4You SEDAPINS SMART4PAX StarWars Brain-Derived Neural Networks for Artificial Intelligence and Learning PResence Intelligence through Smart MicrowAve sensors Smart thermal vision for a wide range of applications Secure, reliable data provision for interoperable networked systems - MaaS application Smart solutions to improve Passenger seamless Mobility and experience STAndard Resilient Workflow for Advanced Reliable Systems Florian Walter TU Munich MajCh B: Healthy and comfortable s Paul Merkus Philips Lighting MajCh C: Anticipating Spaces Sophie Bethoux ULIS MajCh s A, B and D Sven Jansen TNO MajCh s A: Safe and Secure s Georges Mykoniatis Emmanuel Vaumorin Ecole Nationale de lávation Civile (ENAC) Magillem Design Services 16

R&I funding instrument landscape NATIONAL CROSS BORDER COOPERATION NATIONAL EUREKA ECSEL-JU H2020 Develop & Maintain Trans-National ECS Programmes Innovation & Infrastructure Critical Mass Programmes National & European European Priorities National contract National Priorities Priorities EC contract National contract EC contract & National contract NATIONAL FUNDING EUROPEAN FUNDING

ECS-related R&I funding programme information Available in the Exhibition Hall ECSEL 2018 RIA and IA calls: Calls open: 21/02/2018 Project Outline deadline: 26/04/2018 Full Project Proposal deadline: 20/09/2018 Based on ECS SRA Open, closing date February 15 th 2018 Open, deadline for PO February 13th, 2017 PO deadline March 12 th 2018 Call closure April 23rd, 2018 Call opens Dec 11 th 2017 PO deadline March 9 th 2018 PO deadline March 12 th 2018 18 Call open, cut-off date March 1st, 2018

Contact Information Paul Merkus, Philips Lighting paul.merkus@philips.com Mario Diaz Nava, STMicroelectronics mario.diaznava@st.com 19

ECS-SRA The future of in Europe Paul Merkus Philips Lighting paul.merkus@philips.com