SURFACE PAVEMENT SURFACE CHARACTERISATION FOR SMART AND EFFICIENT ROAD LIGHTING

EMPIR 16 NRM02 SURFACE EMPIR European Metrology Programme for Innovation and Research Initiative co-funded by European Union’s Horizon2020 between 2014 and 2020 EURAMET The European Association of National Metrology Institutes

EMPIR 16 NRM02 SURFACE EMPIR call 2014 – 2020 Total budget: of 600 M € 300 M € from the participating states up to 300 M € from the European Commission Priority areas: Health, Energy, Environment, Industry, Fundamental metrology Standardization

Standardization EMPIR call

• 3 stage selection: • PRT • SRT • JRP

ROAD TO SUCCESS • Standardization body support • Industrial support • NMI - INDUSTRY consortium • Stakeholder • Collaborators

16 NRM02 SURFACE • 16 NRM 02 • SURFACE PAVEMENT SURFACE CHARACTERISATION

FOR SMART AND EFFICIENT ROAD LIGHTING

16 NRM02 SURFACE NEEDS • The reflection characteristics of the road surfaces play a

key role in the design of road lighting installations, when the average luminance is the target quantity standards specify to assure the required safety conditions of the road traffic.

• The average luminance requirement is generally adopted for motorized traffic, especially in Europe, where the greatest number of road lighting installations has been designed considering this requirement.

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CIE

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16NRM02 SURFACE NEEDS

16NRM02 SURFACE NEEDS

OSRAM©

16NRM02 SURFACE NEEDS

New aspects Spectral characterization

Mesopic conditions The spectral distribution of the light reflected by the road surface should be considered

CONSORTIUM - NMI

Italy France Finland

Switzerland Estonia Sweden

CONSORTIUM – INDUSTRIAL PARTNERS Funded Unfunded

France France Switzerland

Manufacturer of high level measuring and testing instruments

IT Company Simulation software for ligh and virtual reality

Centre d’études et d’expertise sur les risques, l’environnement, la mobilité et l’aménagement

Stakeholder

LOGO PIARC

16 NRM02 SURFACE IMPACTS

EU 202020 ACTION

5,5 106 km 40% road lighting

50 % of city energy

PAVEMENT SURFACE CHARACTERISATION FOR SMART AND EFFICIENT ROAD LIGHTING

70% OFF

16 NRM02 SURFACE IMPACTS

Smart lighting

Objectives

1. optimised measurement geometries for q (r) coefficient (WP3)

2. technical and metrological specifications for instruments (WP1)

3. pre-normative guidelines for measurement methods and procedures (mesopic conditions, obtrusive light, and light pollution) (WP3)

4. pre-normative guidelines for road characterisation (aging, wet conditions, spectral properties, adaptive lighting systems, luminous intensity distribution, uncertainty in tolerance) (WP3)

5. contribute to works of CEN TC169/WG12 and CIE TC4-50 (WP3, WP4)

Lux Europa – Ljubljana - Slovenia – September 18-20 2017 -19-

WP1 INSTRUMENTS • Analysis the technical and

metrological Instruments specification

• Measurement Intercomparison • Reference materials

development • Software for Uncertainty

analysis

WP2 APPLICATIONS • Analysis of different scenario

and applications in actual and upcoming road surfaces

• Uncertainty analysis vs normative Tolerances

• Spectral influences • Impact of new geometries

WP3 GUIDELINES – DATABASE

• Guidelines on instruments requirements

• Guidelines on measurement procedures

• Guidelines on additional aspect (mesopic aeging, wet surfaces, adaptive lighting system)

• Database of q data in current r-table

• Database of q in new r-tables

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WP1 Tasks Metrological traceability of

measurements Metrological specifications for

instruments luminance coefficient reduced luminance coefficient

Data Calibration procedure in labs on- site

Reference materials for intercomparison

Accredited laboratories (softwareCC)

WP1 INSTRUMENTS • Analysis the technical and

metrological Instruments specification

• Measurement Intercomparison

• Reference materials development

• Software for Uncertainty analysis

Metas leadership Peter Blattner

WP1 Details Reference materials Intercomparison Uncertainty software Technical specification for instruments

WP1 INSTRUMENTS • Analysis the technical and

metrological Instruments specification

• Measurement Intercomparison

• Reference materials development

• Software for Uncertainty analysis

Metas leadership Peter Blattner

WP1 Next Actions • Data collection on available instruments

• Laboratory • Portable

• Data collection on procedures Ref. Person:

Peter Blattner – METAS peter.blattner@metas.ch

WP2 Tasks New type of pavements

Different materials New implementation techniques Wet/dry New/old surfaces

New measurement conditions Expand the actual tables as

requested in EN 13201-3 New angles for:

simplifying measurements on-site Pedestrian visibility models (STV) intrusive lighting and lighting

pollution LED luminaires

WP2 APPLICATIONS • Analysis of different scenario

and applications in actual and upcoming road surfaces

• Uncertainty analysis vs normative Tolerances

• Spectral influences • Impact of new geometries

Cerema leadership Valerie Muzet/Cyril Chain

WP2 Details Instruments prototype New geometries Instrument prototype Tolerances vs uncertainty WP2 APPLICATIONS

• Analysis of different scenario and applications in actual and upcoming road surfaces

• Uncertainty analysis vs normative Tolerances

• Spectral influences • Impact of new geometries

Cerema leadership Valerie Muzet/Cyril Chain

Smart lighting

< 10 ° - 12° luminance is proportional to 1° luminance

> 10 ° - 12° luminance is proportional to road surface illuminance

Road surface luminance versus viewing angle

Overdimensioning Importance of accurate data

Overdimension of installation

WP2 Next actions • Data collection of measured q data

• Increase the statistics • Increase the types of road surfaces included in future tables Ref. Person

Valerie Muzet - Cerema

valerie.muzet@cerema.fr

WP3 Tasks • Put together results of

WP1 and WP2 producing: • guidelines • Database R-tables

WP3 GUIDELINES – DATABASE • Guidelines on instruments

requirements • Guidelines on measurement

procedures • Guidelines on additional aspect

(mesopic aeging, wet surfaces, adaptive lighting system)

• Database of q data in current r-table • Database of q in new r-tables

AALTO leadership Farshild Manoocheri

WP3 Details • Guidelines on instruments

requirements • Guidelines on

measurement procedure • Guidelines on additional

aspect (mesopic, ageing, wet, adaptive lighting system)

• Fill actual r-tables, provide new r-tables data

WP3 GUIDELINES – DATABASE • Guidelines on instruments

requirements • Guidelines on measurement

procedures • Guidelines on additional aspect

(mesopic aeging, wet surfaces, adaptive lighting system)

• Database of q data in current r-table • Database of q in new r-tables

AALTO leadership Farshild Manoocheri

WP4 Details 1. CEN TC169/WG12,

• EN 13201 revision and new edition

2. CIE • TC4-50: Road Surface Characterization for

Lighting Applications • TC 4-51: Optimizing of Road Lighting

3. National SDO 4. Brochure / national level 5. PIARC

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RISE leadership Fmikael Lindgren

WP4 Details This Workshop Next Consortium meeting Feb 2018 Bern @METAS 1st Stakeholder meeting in Berlin Div4 meeting (25 May 2018, to be confirm) Consortium meeting in Opis November 2018 Final Event @CEREMA June 2020 workshop on road surface, call for abstract

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RISE leadership Fmikael Lindgren

For more info

www.surface-nrm02.eu

p.iacomussi@inrim.it