photonics 4 automotive: the european vision · photonics ppp main socioeconomic challenges...
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Photonics 4 Automotive:
The European vision
Jan-Erik Källhammer, Work Area Chair
Veoneer Sweden AB & Photonics21 PPP
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Photonics R+I Process
Horizon2020 Photonics PPP (KET) calls derived from the
Multiannual Roadmap
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(C-level represent.)
Now
Photonics21 Italian Board of Stakeholders representatives
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Italian BOS representatives
Sbetti Maurizio ADIGE S.P.A. Italy
Ramponi Roberta Consiglio Nazionale delle Ricerche Italy
Cavaliere Fabio ERICSSON AB Italy
Melloni Andrea Filarete srl Italy
De Silvestri Sandro Politecnico di Milano Italy
Calefati Paolo Prima Industrie S.p.A. Italy
Villoresi Paolo Università degli Studi di Padova Italy
Photonics PPP
Identified missions area (March 2018)
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Photonics PPP
Workgroup contributions
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Automotive and transport
Agriculture and food
Two new application areas
New application area: Automotive and Transport
“Photonics technology the keys for making vastly safer, more efficient and more comfortable mobility services a reality”
Sensors detectpedestrians
Real-time traffic monitoringensures optimum capacity
utilisation of different transportation modes
Embedded sensors check thecar‘s distance from other
vehicles
Photonics competition from Asia at an increased paceEspecially China has aggressively entered the market
Growth 2005-2015:1. Europe: +64%2. North Am +65%3. Japan +6%4. Korea +107%5. China +417%6. World: +96%
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The importance of the automotive industry for the EU’s economy
• EU is one of the largest exporters of vehicles and vehicle components in the world• Trade surplus €90 billion (€90B)
• Overall EU-28 trade surplus of goods: €23B• Trade surplus for services: €133B.
• Taxation: €413 billion in EU15 alone • 13.3 million jobs (6.1% of all EU jobs)
• automotive manufacturing 2.5m jobs (8.3% of EU manufacturing employment• R&D investment €54B per year
• EU’s #1 investor in R&D (27% of total EU spending on innovation)• World’s #1 investor in automotive R&D.• Compare total budget for Horizon 2020 (FP8) €13B annual (€80B for 6 years 2014–2020)• Smart, green and integrated transport €6B• EU-funded research <2% of total, but an essential enabler• Innovation spending growth 7.4%, (substantially higher than growth of the EU economy)
▪ The EU in the world – international trade, Eurostat. https://ec.europa.eu/eurostat/statistics-explained/index.php/The_EU_in_the_world_-_international_trade#Balance_of_payments_.E2.80.94_share_of_world_trade. Retrieved 2018-10-16▪ Key Figures, ACEA, the European Automobile Manufacturers’ Association www.acea.be/statistics/tag/category/key-figures. Retrieved 2018-10-16.▪ Factsheet: Horizon 2020 budget, European Commission, Research and Innovation https://ec.europa.eu/research/horizon2020/pdf/press/fact_sheet_on_horizon2020_budget.pdf. Retrieved 2018-12-12.
Photonics PPP
Main socioeconomic challenges addressed (Nov 2018)
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1 Autonomous vehicles and improved road safety2017: 25,300 killed, 135,000 seriously injured• Self driving vehicles are arriving• Improved EU competitiveness (jobs & growth)• Reduction of injury and mortality
2 Cleaner mobility• Emissions of vehicles (electric, low emission alternatives) • Manufacturing footprint of industry (recycling, improved materials and components)
3 Reduced transport congestion (including urban freight transport and last mile)2017 : 1%EU GDP lost in road congestion• Mobility as a Service (MaaS)
4 Digitization of automotive industry• In vehicle connectivity and service providers• V2V, V2I, V2X
Photonics PPP
Identified key technological fields for photonics in automotive&transport 2021-2028
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1 Photonic sensing
2 Efficient and affordable ADB for mainstream vehicles
3 Information projection and communication with light
4 Immersive interaction
Photonics PPP
1. Photonic sensing
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• Progress towards “final” lidar technology• “Final” sensory configuration of the autonomous vehicle• All-weather performance• Industrialization aspects: packaging, scalability, cost, integration…• Advanced sensor fusion technologies: how does fusion affect sensor specs?
Example: LiDAR
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• Eye safety solution (wavelength dependent)• Novel emission & detection components and systems• Novel beam steering components and systems• Self-diagnosis of system condition• Adverse environmental conditions (weather, dust, spraying, self-immunity)• Integration and packaging• Novel architectures • Additional functionalities• Cost and scalability
Source LUMINAR Technologies ©
Photonics PPP
2. Affordable ADB for mainstream vehicles
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• Cooperative lighting scheme with sensors improving capabilities (bad weather)• Link to V2X, IoT as enablers for headlamp• Sensors within headlights? Radar, lidar, cameras… • Affordable, industrialized units for mainstream required (link to road safety)• Warranty and repair costs to be analyzed within the sustainability perspective
Photonics PPP
3. Information projection and communication
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• Cooperative communication between drivers/of drivers and other surrounding road users
• Effects of warning symbols and road guidance on other users? • LiFi as option of interaction between vehicles with high speed, short range
communication (repeaters-drones?- involved?)• Data emission from automotive lighting?
Example: Lighting
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• Interior/Exterior• Communication/Connectivity by LiFi (security, range…)• Communication with pedestrians/other road users• Physiological effects of lighting (wellbeing/emotional occupant monitoring)• Cooperative lighting (camera+lighting+infrastructure+…)
Example ADB
Photonics PPP
4.Immersive interaction
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• A new cockpit is required to• Cope with all the amount of information generated by the self-driving car• Display all the controls of the options and enable/disable option
• More immersive experience required• New HMIs for new uses, suitable for industrialization, conformability• Novel displays, conformal, holographic, larger, frameless required • Well integrated, reliable, low cost• Photonics and human factor specialists involvement required
Example: Advanced HMI
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• Physiological effects of lighting in automated vehicles (HMI)• Image quality enhancement in automated mode• Reduction of volume (packaging)• Augmented reality solutions • Novel types of smart displays (transparent, conformable, 3D ex.holographic)• New strategies for virtual display • Multimodal interaction strategies (using photonics)• Functional coatings (windows/windshield/interfaces/sensors)
Identified European photonics roadmap for our WG
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