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ISO 362-3:2022

(Main)

Acoustics — Measurement of noise emitted by accelerating road vehicles — Engineering method — Part 3: Indoor testing M and N categories

Acoustics — Measurement of noise emitted by accelerating road vehicles — Engineering method — Part 3: Indoor testing M and N categories

This document specifies an engineering method for measuring the noise emitted by road vehicles of categories M and N by using a semi anechoic chamber with a dynamometer installed. The specifications are intended to achieve an acoustical correlation between testing the exterior noise of road vehicles in a semi anechoic chamber and outdoor testing as described in ISO 362-1. This document provides all necessary specifications and procedures for indoor testing to obtain results which are comparable to typical run-to-run variations of measurements in today’s type approval tests. This document provides a method designed to meet the requirements of simplicity as far as they are consistent with the reproducibility of results under the operating conditions of the vehicle. NOTE 1 The results obtained by this method give an objective measure of the noise emitted under the specified conditions of test. It is necessary to consider the fact that the subjective appraisal of the noise annoyance of different classes of motor vehicles is not simply related to the indications of a sound measuring system. As annoyance is strongly related to personal human perception, physiological human conditions, culture, and environmental conditions, there is a large variation and annoyance is therefore not useful as a parameter to describe a specific vehicle condition. NOTE 2 If measurements are carried out in rooms which do not fulfil the requirements stated in this document, the results obtained can deviate from the results using the specified conditions.

Acoustique — Mesurage du bruit émis par les véhicules routiers en accélération — Méthode d'expertise — Partie 3: Essais en intérieur pour les catégories M et N

General Information

Status
Published
Publication Date
28-Sep-2022
ICS
17.140.30 - Noise emitted by means of transport
Technical Committee
ISO/TC 43/SC 1 - Noise
Drafting Committee
ISO/TC 43/SC 1/WG 42 - Joint ISO/TC 43/SC 1 - ISO/TC 22 WG: Measurement of noise emission (external) from road vehicles
Parallel Committee
ISO/TC 22 - Road vehicles
Current Stage
6060 - International Standard published
Start Date
29-Sep-2022
Due Date
24-Apr-2023
Completion Date
29-Sep-2022
Ref Project

Relations

Revises
ISO 362-3:2016 - Measurement of noise emitted by accelerating road vehicles — Engineering method — Part 3: Indoor testing M and N categories
Effective Date
08-May-2020

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ISO 362-3:2022 - Acoustics — Measurement of noise emitted by accelerating road vehicles — Engineering method — Part 3: Indoor testing M and N categories Released:29. 09. 2022ISO 362-3:2022 - Acoustics — Measurement of noise emitted by accelerating road vehicles — Engineering method — Part 3: Indoor testing M and N categories Released:29. 09. 2022
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ISO 362-3:2022 - Acoustics — Measurement of noise emitted by accelerating road vehicles — Engineering method — Part 3: Indoor testing M and N categories Released:29. 09. 2022
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INTERNATIONAL ISO
STANDARD 362-3
Second edition
2022-09
Acoustics — Measurement of noise
emitted by accelerating road vehicles
— Engineering method —
Part 3:
Indoor testing M and N categories
Acoustique — Mesurage du bruit émis par les véhicules routiers en
accélération — Méthode d'expertise —
Partie 3: Essais en intérieur pour les catégories M et N
Reference number
ISO 362-3:2022(E)
© ISO 2022

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ISO 362-3:2022(E)
COPYRIGHT PROTECTED DOCUMENT
© ISO 2022
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting on
the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address below
or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Geneva
Phone: +41 22 749 01 11
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
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ISO 362-3:2022(E)
Contents Page
Foreword .v
Introduction . vi
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 2
4 Symbols and abbreviated terms.2
5 Acceleration for vehicles of categories M1 and M2 having a maximum authorized
mass not exceeding 3 500 kg, and of category N1 . 5
5.1 Applicability and conditions . . . 5
5.2 Calculation of acceleration . 5
5.2.1 Calculation procedure for vehicles with manual transmission, automatic
transmission, adaptive transmission, and continuously variable
transmission (CVT) tested with locked gear ratios . 5
5.2.2 Calculation procedure for vehicles with automatic transmission, adaptive
transmission, and CVT tested with non-locked gear ratios. 5
5.3 Calculation of the target acceleration . 5
5.4 Calculation of the reference acceleration . 5
5.5 Partial power factor, k . 6
P
6 Instrumentation . 6
6.1 Instruments for acoustical measurement . 6
6.1.1 General . 6
6.1.2 Calibration . . . 6
6.2 Conformity with requirements. 7
6.3 Instrumentation for speed measurement . 7
6.4 Meteorological instrumentation . 7
7 Test room requirements . 7
7.1 General . 7
7.2 Test room dimensions . 8
7.2.1 Test room dimensions for measurements where the length of the test track
is greater than 20m . 10
7.3 Acoustical qualification of the room . 11
7.3.1 General . 11
7.3.2 Validation of free-field conditions of the microphone array . 11
7.3.3 Qualification procedure . 14
7.4 Condition of the floor .15
7.5 Cooling, ventilation, air temperature, exhaust gas management.15
7.6 Background noise. 15
8 Dynamometer requirements .16
8.1 Type of texture of the rollers . 16
8.2 Diameter of the rollers. 16
8.3 Reproducibility of the pass-by dynamics. 17
8.4 Single-axle or multi-axle operation . 17
8.5 Noise emission limit under operating conditions produced by the dynamometer
rollers . 17
9 Test procedures .18
9.1 General . 18
9.2 Microphone array — Hardware and software . 18
9.3 Vehicle fixing system . 18
9.4 Conditions of the vehicle . 18
9.4.1 General conditions . 18
9.4.2 Test mass of the vehicle . 19
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ISO 362-3:2022(E)
9.4.3 Tyre selection and tyre condition . 19
9.4.4 Calculation of total engine power . 20
9.4.5 Battery state of charge . . .20
9.4.6 Additional sound emitting devices . 20
9.4.7 Vehicle cooling fans or cooling systems . 20
9.5 Operating conditions . 20
9.5.1 Vehicles of categories M1, M2 having a maximum authorized mass not
exceeding 3 500 kg, and N1 . 20
9.5.2 Vehicles of categories M2 having a maximum authorized mass exceeding
3 500 kg, M3, N2 and N3 . 21
9.6 Measurement readings and reported values . 22
9.6.1 General .22
9.6.2 Data compilation .23
9.6.3 Vehicles of categories M1 and M2 having a maximum authorized mass not
exceeding 3 500 kg, and of category N1 . 23
9.6.4 Vehicles of categories M2 having a maximum authorized mass exceeding
3 500 kg, M3, N2, and N3 . 23
9.7 Measurement uncertainty . .23
10 Test methods and test report .24
10.1 General . 24
10.2 Variant A . 24
10.2.1 General . 24
10.2.2 Power train noise . 24
10.2.3 Tyre/road noise .25
10.2.4 Calculation of the total vehicle noise using variant A . 25
10.3 Test report . 25
Annex A (normative) Validation of method .27
Annex B (normative) Procedure for measurement, evaluation, and calculation of tyre/road
noise when using variant A .31
Annex C (informative) Procedure for description of tyre torque influence by an energetic
model .49
Annex D (informative) Procedure for measurement, evaluation, and calculation of tyre/
road noise when using variant B .54
Annex E (informative) Measurement uncertainty — Framework for analysis according to
ISO/IEC Guide 98-3 .56
Annex F (informative) Room length deviation from recommendation .64
Bibliography .66
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ISO 362-3:2022(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www.iso.org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the meaning of ISO specific terms and expressions related to conformity assessment,
as well as information about ISO's adherence to the World Trade Organization (WTO) principles in the
Technical Barriers to Trade (TBT) see the following URL: www.iso.org/iso/foreword.html.
This document was prepared by Technical Committee ISO/TC 43, Acoustics, Subcommittee SC 1, Noise.
This second edition cancels and replaces the first edition (ISO 362-3:2016), which has been technically
revised.
The main changes compared to the previous edition are as follows:
— Improvement of the wording for a better understanding
— Definition of a data exchange format for the tyre-/road noise coefficients
— Introduction of an energetic model of the tyre torque influence (Annex C)
— Revision of 9.7, Annex B and Annex E.
A list of all parts in the ISO 362 series can be found on the ISO website.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www.iso.org/members.html.
v
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ISO 362-3:2022(E)
Introduction
The external sound emission of a vehicle is one out of a multitude of requirements that needs to be
considered by manufacturers during design and development of vehicles. For health and environmental
protection reasons, the sound emission should be reduced under all relevant driving conditions.
However, there is a growing awareness that vehicles should not be too quiet either to ensure that they
are still acoustically perceivable by pedestrians and don’t endanger them as they might be missed.
To meet all these demands, an efficient test site is needed that can be operated the whole year round,
independent of weather conditions or other outside factors. In many countries, the meteorological
conditions are so adverse that outdoor testing on a classical proving ground is only possible in a very
limited timeframe. While this was acceptable in the past, the increasing workload in the future will
make it nearly impossible to do the complete development of a vehicle on a single test track at one
particular place. However, performing sound emission tests on various test tracks highly increases the
uncertainty and multiplies the workload for a manufacturer.
This document gives specifications for an indoor noise test bench and a test procedure that delivers
precise results for indoor testing, comparable to a certified type approval test track. The results are
intended to be within the run-to-run variation of the actual valid exterior noise test described in
ISO 362-1, which is the test standard used for type approval of vehicles.
An indoor test bench requires tight specifications for the equipment and set up, such as the acoustical
treatment, the microphone arrays, the roller bench, the adjustment for the dynamic behaviour of the
vehicle on the roller test bench, the preconditioning of the vehicle, as well as the thermal conditions for
testing. Special treatment needs to ensure that all rolling sound components of the tire are comparable
to the rolling sound on a road surface as specified in ISO 10844 and as applied in type approvals.
It is conceivable that in the future, certain sound emissions of vehicles (like e.g. minimum sound
emission of electric vehicles) can be verified on an indoor test bench, as the natural background noise
might prohibit testing on a classical outdoor test track. The specifications set forth in this document
could be transferred to a future minimum noise test procedure.
This document provides all necessary specifications and procedures to ensure comparability between
todays common and well accepted testing on outdoor test tracks with future indoor facilities. It
incorporates all relevant International Standards for equipment, measurement uncertainty, and test
procedures.
vi
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INTERNATIONAL STANDARD ISO 362-3:2022(E)
Acoustics — Measurement of noise emitted by accelerating
road vehicles — Engineering method —
Part 3:
Indoor testing M and N categories
1 Scope
This document specifies an engineering method for measuring the noise emitted by road vehicles of
categories M and N by using a semi anechoic chamber with a dynamometer installed.
The specifications are intended to achieve an acoustical correlation between testing the exterior noise
of road vehicles in a semi anechoic chamber and outdoor testing as described in ISO 362-1.
This document provides all necessary specifications and procedures for indoor testing to obtain results
which are comparable to typical run-to-run variations of measurements in today’s type approval tests.
This document provides a method designed to meet the requirements of simplicity as far as they are
consistent with the reproducibility of results under the operating conditions of the vehicle.
NOTE 1 The results obtained by this method give an objective measure of the noise emitted under the specified
conditions of test. It is necessary to consider the fact that the subjective appraisal of the noise annoyance of
different classes of motor vehicles is not simply related to the indications of a sound measuring system. As
annoyance is strongly related to personal human perception, physiological human conditions, culture, and
environmental conditions, there is a large variation and annoyance is therefore not useful as a parameter to
describe a specific vehicle condition.
NOTE 2 If measurements are carried out in rooms which do not fulfil the requirements stated in this
document, the results obtained can deviate from the results using the specified conditions.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments) applies.
ISO 362-1, Measurement of noise emitted by accelerating road vehicles — Engineering method — Part 1: M
and N categories
ISO 1176, Road vehicles — Masses — Vocabulary and codes
ISO 2416, Passenger cars — Mass distribution
ISO 3745, Acoustics — Determination of sound power levels and sound energy levels of noise sources using
sound pressure — Precision methods for anechoic rooms and hemi-anechoic rooms
ISO 10844, Acoustics — Specification of test tracks for measuring sound emitted by road vehicles and their
tyres
ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories
ISO 26101, Acoustics — Test methods for the qualification of free-field environments
IEC 60942, Electroacoustics — Sound calibrators
1
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ISO 362-3:2022(E)
IEC 61672-1, Electroacoustics — Sound level meters — Part 1: Specifications
IEC 61672-3, Electroacoustics — Sound level meters — Part 3: Periodic tests
ISO/IEC Guide 98-3, Uncertainty of measurement — Part 3: Guide to the expression of uncertainty in
me a s ur ement (GUM: 1995)
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 362-1, ISO 1176 and ISO 2416
and the following apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https:// www .iso .org/ obp
— IEC Electropedia: available at https:// www .electropedia .org/
3.1
virtual vehicle speed
virtual speed of the test vehicle calculated from the circumference and the revolutions of the roller
Note 1 to entry: See Formula 1.
3.2
virtual line AA'
virtual position for the definition of the virtual vehicle speed (3.1), v
AA’
3.3
virtual line PP'
virtual position for the definition of the virtual vehicle speed (3.1), v
PP’
3.4
virtual line BB'
virtual position for the definition of the virtual vehicle speed (3.1), v
BB’
4 Symbols and abbreviated terms
Table 1 lists the symbols used in this document and the clause number where they are used for the first
time.
Table 1 — Symbols used and corresponding clauses
Symbol Unit Clause Designation
2
a, a m/s B.3.3 vehicle acceleration (at power train noise measurement)
PTN
AA' — 3.1 line perpendicular to vehicle travel which indicates beginning of zone in
which to record sound pressure level during test
BB' — 3.1 line perpendicular to vehicle travel which indicates end of zone in which
is 10,00 m behind line PP'
d m 7.2 thickness of absorbing elements
absorb
d m 5.1.1 diameter of dynamometer roller
roller
F N B.4.1 propulsion force of the vehicle
F dB D.4 correction for tyre/road noise in variant B
Cor
F N B.4.4 propulsion force of the vehicle to be tested indoor
PTN
F N B.4.3 propulsion force of the tyre test vehicle
TRN
K dB/°C B.2.4 temperature correction coefficient
2
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ISO 362-3:2022(E)
TTabablele 1 1 ((ccoonnttiinnueuedd))
Symbol Unit Clause Designation
k — 5.5 partial power factor
P
virtual length of test section for calculation of acceleration from AA' to
l m 3.2
AB
BB'
l m 7.2 minimum length of the test room
min,room
virtual length of test section for calculation of acceleration from PP' to
l m 3.2
PB
BB'
l m 7.2 length of vehicle
veh
L dB E.2.1 reported vehicle sound pressure level at wide-open throttle
acc rep
L dB E.2.1 reported vehicle sound pressure level at constant speed
crs rep
L dB B.4.1 free rolling noise sound pressure level
FRN
L dB 10.2.4 power train noise sound pressure level
PTN
L dB D.3 power train noise sound pressure level indoor
PTNi
L dB C.2 torque influence sound pressure level
TI
L dB 10.2.4 tyre/road noise sound pressure level
TRN
L dB D.3 tyre/road noise sound pressure level indoor
TRNi
L dB B.6 calculated tyre/road noise sound pressure level indoor
TRN indoor
L dB D.4 tyre/road noise sound pressure level outdoor
TRNo
L dB 10.2.4 total vehicle noise sound pressure level
TVN
L dB B.6 total vehicle noise sound pressure level indoor
TVNi
L dB D.5 total vehicle noise sound pressure level outdoor
TVNo
L dB 9.7 reported vehicle sound pressure level representing urban operation
urban
m kg 9.4.2.2.3 maximum rear axle capacity
ac ra max
m kg 9.4.2.2.3 mass of driver
d
m kg 9.4.2.2.3 unladen front axle load
fa load unladen
m kg 9.4.2.2.3 kerb mass of the vehicle
kerb
m kg 9.4.2.2.3 unladen rear axle load
ra load unladen
m kg 9.4.2.2.3 kerb mass + 75 kg for the driver
ref
m kg 9.4.2.2.3 mass in running order
ro
m kg B.6 mass in running order of the vehicle to be tested indoor
ro indoor test
m kg B.4.3 test mass of the tyre test vehicle (including driver and test equipment)
tyre test
m kg 9.4.2.2.3 virtual or actual physical test mass of the vehicle, that is used as an input
t
for simulating the vehicle transient behaviour by the dynamometer
control system
m kg 9.4.2.2.3 target mass of the vehicle
target
m kg 9.4.2.2.3 unladen vehicle mass
unladen
m kg 9.4.2.2.3 extra loading
xload
n r/min 10.3 engine speed when the reference point passes BB’
BB'
n r/min 10.3 engine speed when the reference point passes PP’
PP'
n r/min 5.1.1 rotational speed of the dynamometer roller for the test run i
roller AA‘ test i
P hPa B.2.3 Tyre inflation pressure recommended by the vehicle manufacturer
ref
P hPa B.2.3 Tyre test inflation pressure
test
PP' — 3.2 line perpendicular to vehicle travel which indicates location of micro-
phones
Q kg B.2.3 weight of the vehicle to be tested indoor
ref
Q kg B.2.3 weight of the tyre test vehicle
test
3
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ISO 362-3:2022(E)
TTabablele 1 1 ((ccoonnttiinnueuedd))
Symbol Unit Clause Designation
r m 7.3.2.4 reference path length of the centre measurement position
0
r m 7.3.2.4 path length to the microphone at distance x
x
is the standard deviation of the sound pressure level under urban condi-
u dB E.2.2
L,urban,i
tions for the quantity i
v km/h B
...

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ISO 2922:2020(Main)
Acoustics — Measurement of airborne sound emitted by vessels on inland waterways and harbours

This document specifies the conditions for obtaining reproducible and comparable measurement results of the airborne sound emitted by vessels of all kinds, on inland waterways and in ports and harbours, except powered recreational craft as specified in the ISO 14509 series. This document is applicable to sea-going vessels, harbour vessels, dredgers, and all watercraft, including non-displacement craft, used or capable of being used as a means of transport on water. There are no limitations to the application of this document with regard to speed, length and height of vessels, as long as the ship is determined to act like a point source at the reference distance of 25 m. All noise data obtained in accordance with this document are referred to a reference distance of 25 m.

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ISO
ISO 5130:2019(Main)
Acoustics — Measurements of sound pressure level emitted by stationary road vehicles

This document specifies a test procedure, environment and instrumentation for measuring the exterior sound pressure levels from road vehicles under stationary conditions, providing a continuous measure of the sound pressure level over a range of engine speeds. This document applies only to road vehicles of categories L, M, and N equipped with internal combustion engines. Vehicles where an internal combustion engine cannot operate when the vehicle is at stationary conditions are outside the scope of this document. The method is designed to meet the requirements of simplicity as far as they are consistent with reproducibility of results under the operating conditions of the vehicle. It is within the scope of this document to measure the stationary A-weighted sound pressure level during — type approval measurements of vehicle; — measurements at the manufacturing stage; — measurements at official testing stations; — measurements at roadside testing. This document specifices a test method to determine a reference sound level which is unique for the vehicle and therefore not suitable to compare against a general limit, as test condition, microphone condition location relative to the sound sources can vary significantly. The test conditions in proximity and at engine speeds significantly higher compared to real operation conditions in traffic are deliberately chosen to enable in-use tests at higher background conditions, which are typical for road-side checks. Technical background information is given in Annex A.

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ISO
ISO 13473-1:2019(Main)
Characterization of pavement texture by use of surface profiles — Part 1: Determination of mean profile depth

This document describes a test method to determine the average depth of pavement surface macrotexture (see Clause 3) by measuring the profile of a surface and calculating the texture depth from this profile. The technique is designed to provide an average depth value of only the pavement macrotexture and is considered insensitive to pavement microtexture and unevenness characteristics. The objective of this document is to make available an internationally accepted procedure for determination of pavement surface texture depth which is an alternative to the traditionally used volumetric patch technique (generally using sand or glass beads), giving comparable texture depth values. To this end, this document describes filtering procedures that are designed to give the best possible representation of texture depths determined with the volumetric patch method[13]. Modern profilometers in use are almost entirely of the contactless type (e.g. laser, light slit or light sheet, to mention a few) and this document is primarily intended for this type. However, this does not exclude application of parts of it for other types of profilometers. This ISO 13473 series has been prepared as a result of a need identified when specifying a test surface for vehicle noise measurement (see ISO 10844:2014[6]). Macrotexture depth measurements according to this document are not generally adequate for specifying test conditions of vehicle or traffic noise measurements, but have limited applications as a supplement in conjunction with other ways of specifying a surfacing. This test method is suitable for determining the mean profile depth (MPD) of a pavement surface. This MPD can be transformed to a quantity which estimates the macrotexture depth according to the volumetric patch method. It is applicable to field tests as well as laboratory tests on pavement samples. When used in conjunction with other physical tests, the macrotexture depth values derived from this test method are applicable to estimation of pavement skid resistance characteristics (see e.g. Reference [15]), estimation of noise characteristics and assessment of the suitability of paving materials or pavement finishing techniques. The method, together with other measurements (where applicable), such as porosity or microtexture, can be used to assess the quality of pavements. This document is adapted for pavement texture measurement and is not intended for other applications. Pavement aggregate particle shape, size and distribution are surface texture features not addressed in this procedure. The method is not meant to provide a complete assessment of pavement surface texture characteristics. In particular, it is known that there are problems in interpreting the result if the method is applied to porous surfaces or to grooved surfaces (see Annex B). NOTE Other International Standards dealing with surface profiling methods include, for example, References [1], [2] and [3]. Although it is not clearly stated in these, they are mainly used for measuring surface finish (microtexture) of metal surfaces and are not intended to be applied to pavements.

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