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ASTM E1780-12(2021)

(Guide)

Standard Guide for Measuring Outdoor Sound Received from a Nearby Fixed Source

Standard Guide for Measuring Outdoor Sound Received from a Nearby Fixed Source

SIGNIFICANCE AND USE
4.1 Situations for which outdoor sound level data are required include, but are not limited to, comparison of sound levels with criteria or regulatory limits.  
4.2 This guide provides information to (1) measure outdoor sound level in the vicinity of outdoor fixed noise sources, and (2) document other observations necessary for the measurements. This guide provides a standard procedure for a trained acoustical professional that will produce results and documentation which are consistent with the purposes cited in 1.1.1 – 1.1.5.  
4.3 These sound measurements should be performed by or under the direction of a person experienced in the measurement and analysis of outdoor sound, and who is familiar with the use of the required equipment and techniques.  
4.4 This guide can be used by individuals, regulatory agencies, or others as a measurement guide to collect data on the sound level received from a fixed source within the constraints cited in Section 8 and Appendix X1 and Appendix X2.  
4.5 This guide can be used to establish compliance or noncompliance at the time, distance, and conditions during which the data were obtained. However, this guide is only a measurement procedure and does not address the problem of projecting the acquired data outside those conditions, other times of day, other distances, or comparison with specific criteria. In particular, for a given sound source level, distant noise levels will often be found to be greater at night than during the day.
SCOPE
1.1 This guide covers the measurement of outdoor sound due to a fixed sound source such as a siren, stationary pump, power plant, or music amphitheater. Procedures characterize the location, sound level, spectral content, and temporal characteristics of that sound source at the time of measurement. Users should be aware that wind and temperature gradients can cause significant variations in sound levels beyond 300 m. With appropriate caution, the use of measurements resulting from this guide include but are not limited to:  
1.1.1 Assessing compliance with applicable regulations,  
1.1.2 Monitoring the effectiveness of a noise reduction plan,  
1.1.3 Verifying the effectiveness of measures for mitigation of noise impact,  
1.1.4 Validating sound prediction models, and  
1.1.5 Obtaining source data for use in sound prediction models.  
1.2 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.3 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

General Information

Status
Published
Publication Date
31-Dec-2020
ICS
17.140.01 - Acoustic measurements and noise abatement in general
Technical Committee
E33 - Building and Environmental Acoustics
Drafting Committee
E33.09 - Community Noise
Current Stage
Ref Project

Relations

Refers
ASTM C634-13 - Standard Terminology Relating to Building and Environmental Acoustics
Effective Date
01-Sep-2013
Refers
ASTM E1503-12 - Standard Test Method for Conducting Outdoor Sound Measurements Using a Digital Statistical Sound Analysis System
Effective Date
01-May-2012
Refers
ASTM C634-11 - Standard Terminology Relating to Building and Environmental Acoustics
Effective Date
01-Dec-2011
Refers
ASTM C634-10a - Standard Terminology Relating to Building and Environmental Acoustics
Effective Date
01-Sep-2010
Refers
ASTM C634-10 - Standard Terminology Relating to Building and Environmental Acoustics
Effective Date
01-Jun-2010
Refers
ASTM C634-09 - Standard Terminology Relating to Building and Environmental Acoustics
Effective Date
01-Apr-2009
Refers
ASTM C634-08a - Standard Terminology Relating to Building and Environmental Acoustics
Effective Date
01-Sep-2008
Refers
ASTM C634-08 - Standard Terminology Relating to Building and Environmental Acoustics
Effective Date
15-Mar-2008
Refers
ASTM E1014-08 - Standard Guide for Measurement of Outdoor A-Weighted Sound Levels
Effective Date
01-Mar-2008
Refers
ASTM E1503-06 - Standard Test Method for Conducting Outdoor Sound Measurements Using a Digital Statistical Sound Analysis System
Effective Date
01-Sep-2006
Refers
ASTM E1503-05 - Standard Test Method for Conducting Outdoor Sound Measurements Using a Digital Statistical Analysis System
Effective Date
01-Apr-2005
Refers
ASTM C634-02e1 - Standard Terminology Relating to Building and Environmental Acoustics
Effective Date
10-Apr-2002
Refers
ASTM C634-02 - Standard Terminology Relating to Environmental Acoustics
Effective Date
10-Apr-2002
Refers
ASTM C634-00 - Standard Terminology Relating to Environmental Acoustics
Effective Date
10-Jun-2001
Refers
ASTM C634-01 - Standard Terminology Relating to Environmental Acoustics
Effective Date
10-Jun-2001

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ASTM E1780-12(2021) - Standard Guide for Measuring Outdoor Sound Received from a Nearby Fixed SourceASTM E1780-12(2021) - Standard Guide for Measuring Outdoor Sound Received from a Nearby Fixed Source
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ASTM E1780-12(2021) - Standard Guide for Measuring Outdoor Sound Received from a Nearby Fixed Source
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This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the
Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.
Designation: E1780 − 12 (Reapproved 2021)
Standard Guide for
Measuring Outdoor Sound Received from a Nearby Fixed
Source
This standard is issued under the fixed designation E1780; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
INTRODUCTION
This is one of a series of standards and guidelines for measurement and evaluation of community
noise. Techniques and precautions in this guide are not fixed or mandatory and cannot replace the
judgment of acoustical professionals. Rather, this guide is a summary of processes found to be
productive and useful in ensuring that meaningful information will be gathered in an efficient manner
aboutfixedsourcesofnoiseinacommunityastheyeachmayexist.OthersinthisseriesincludeGuide
E1014, which covers manual A-Weighted measurements of outdoor noise using a simple meter, and
Test Method E1503. ANSI 12.18 provides a method of obtaining repeatable sound pressure level
measurementsofthesoundemittedbyasource.Thisdocumentdiffersinthatatmosphericandground
effects are not controlled. Thus, the results may not repeat if atmospheric conditions or ground
conditions between the source and the measurement position change. This guide provides only a
method of accurately documenting the sound levels occurring at the measurement position at the time
of measurement.
1. Scope priate safety, health, and environmental practices and deter-
mine the applicability of regulatory limitations prior to use.
1.1 This guide covers the measurement of outdoor sound
1.3 This international standard was developed in accor-
due to a fixed sound source such as a siren, stationary pump,
dance with internationally recognized principles on standard-
power plant, or music amphitheater. Procedures characterize
ization established in the Decision on Principles for the
the location, sound level, spectral content, and temporal
Development of International Standards, Guides and Recom-
characteristicsofthatsoundsourceatthetimeofmeasurement.
mendations issued by the World Trade Organization Technical
Usersshouldbeawarethatwindandtemperaturegradientscan
Barriers to Trade (TBT) Committee.
cause significant variations in sound levels beyond 300 m.
With appropriate caution, the use of measurements resulting
2. Referenced Documents
from this guide include but are not limited to:
1.1.1 Assessing compliance with applicable regulations,
2.1 ASTM Standards:
1.1.2 Monitoringtheeffectivenessofanoisereductionplan, C634Terminology Relating to Building and Environmental
1.1.3 Verifying the effectiveness of measures for mitigation Acoustics
of noise impact, E1014Guide for Measurement of Outdoor A-Weighted
Sound Levels
1.1.4 Validating sound prediction models, and
1.1.5 Obtaining source data for use in sound prediction E1503Test Method for Conducting Outdoor Sound Mea-
surements Using a Digital Statistical Sound Analysis
models.
System
1.2 This standard does not purport to address all of the
safety concerns, if any, associated with its use. It is the 2.2 ANSI Standards:
responsibility of the user of this standard to establish appro-
S1.4Specification for Sound Level Meters
1 2
This guide is under the jurisdiction ofASTM Committee E33 on Building and For referenced ASTM standards, visit the ASTM website, www.astm.org, or
EnvironmentalAcousticsandisthedirectresponsibilityofSubcommitteeE33.09on contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
Community Noise. Standards volume information, refer to the standard’s Document Summary page on
Current edition approved Jan. 1, 2021. Published February 2021. Originally the ASTM website.
approved in 1996. Last previous edition approved in 2012 as E1780–12. DOI: Available fromAmerican National Standards Institute (ANSI), 25 W. 43rd St.,
10.1520/E1780-12R21. 4th Floor, New York, NY 10036, http://www.ansi.org.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
E1780 − 12 (2021)
S1.11Octave-band and Fractional Octave-band Analog and 4.5 This guide can be used to establish compliance or
Digital Filters, Specifications for noncompliance at the time, distance, and conditions during
S1.13Methods for the Measurement of Sound Pressure which the data were obtained. However, this guide is only a
Levels in Air measurement procedure and does not address the problem of
S1.14Recommendations For Specifying And Testing The projecting the acquired data outside those conditions, other
Susceptibility Of Acoustical Instruments To Radiated times of day, other distances, or comparison with specific
RadiofrequencyElectromagneticFields,25MhzTo1Ghz criteria. In particular, for a given sound source level, distant
S1.17Microphone Windscreens - Part 1: Measurements and noise levels will often be found to be greater at night than
Specification of Insertion Loss in Still or Slightly Moving during the day.
Air
S12.1GuidelinesforthePreparationofStandardProcedures 5. Apparatus
to Determine the Noise Emission from Sources
5.1 Acoustical Measurements:
S1.40Specification for Verification Procedures for Sound
5.1.1 Sound Level Meter—Use a Type 1 or Type 2
Calibrators
integrating,oraveragingsoundlevelmeterasdefinedbyANSI
S1.43Specifications for Integrating-Averaging Sound Level
S1.43 and IEC 61672–1 with statistical analysis and capability
Meters
and with a dynamic range of at least 60 dB.
S12.18ProceduresforOutdoorMeasurementofSoundPres-
5.1.1.1 The instrument should have a buffered AC signal
sure Level
output port to permit the use of headphones. If measurements
2.3 IEC Standard:
are to be made in fractional octave-bands, the system should
61672–1Electroacoustics - Sound Level Meters - Part 1:
include filter sets that fulfill the objectives of the measurement
Specifications
plan. Filters should meet the requirements of ANSI S1.11.
5.1.1.2 The instrument shall be equipped with an
3. Terminology
A-Weighting network. It is recommended that the instrument
alsobeequippedwithaC-weightingnetworkoraZ-weighting,
3.1 Fordefinitionsoftermsusedinthisguideincluding,but
or both.
not limited to, barrier, dummy microphone, equivalent sound
level, Leq, impulse sound, interference, measurement plan,
NOTE1—Z-weighingisanunweighted(flat)network,thatissometimes
measurement set, noise floor, self-noise, and time average
called “Linear” by manufacturers.
sound level, see Terminology C634.
5.1.1.3 If “fast” or “slow” response is used, it should be so
3.2 fixed source—any permanently installed equipment ca-
stated in the report.
pable of emitting sound on a regular basis such as a pump,
5.1.2 Outdoor Microphone System—At a minimum the
power station, warning siren or sound amplification system
outdoor microphone system should consist of the following:
permanently installed or stationary for a concert.
5.1.2.1 Microphone and preamplifier recommended by the
manufacturer of the measurement instrument, and compatible
4. Significance and Use
withandsupportingtheANSIType1orType2requirementof
the sound level meter portion of the system. The microphone
4.1 Situations for which outdoor sound level data are
should also meet the measurement requirements for frequency
required include, but are not limited to, comparison of sound
response, directional response and internal background noise
levels with criteria or regulatory limits.
(self-noise).
4.2 This guide provides information to (1) measure outdoor
5.1.2.2 The windscreen recommended by the manufacturer
sound level in the vicinity of outdoor fixed noise sources, and
may not be adequate in quiet environments with mild wind
(2) document other observations necessary for the measure-
conditions.
ments. This guide provides a standard procedure for a trained
5.1.2.3 The microphone system should include the follow-
acoustical professional that will produce results and documen-
ing features as appropriate for the time duration and weather
tation which are consistent with the purposes cited in 1.1.1 –
conditions expected during the measurement set.
1.1.5.
5.1.2.4 Microphone and preamplifier system that does not
4.3 These sound measurements should be performed by or
experience a sensitivity or frequency response change beyond
underthedirectionofapersonexperiencedinthemeasurement
ANSI Type 1 or Type 2 limits caused by moisture and
andanalysisofoutdoorsound,andwhoisfamiliarwiththeuse
temperature effects during the course of the measurement.
of the required equipment and techniques.
5.1.2.5 Microphone rain shield for use when applicable.
5.1.3 Tripod—A tripod of the type normally used for sup-
4.4 This guide can be used by individuals, regulatory
porting photographic equipment, a mast, or other support
agencies, or others as a measurement guide to collect data on
sufficiently strong to support the weight of the microphone,
the sound level received from a fixed source within the
possibly the sound level meter and attached protective equip-
constraints cited in Section 8 and Appendix X1 and Appendix
ment.
X2.
5.1.3.1 To prevent fouling of windscreens by roosting birds
during long term and unattended measurement, it is recom-
mendedthatabirdrepellantdevice,knownasa“birdspike”be
Available from International Electrotechnical Commission (IEC), 3, rue de
Varembé, P.O. Box 131, CH-1211 Geneva 20, Switzerland, http://www.iec.ch. installed on the windscreen.
E1780 − 12 (2021)
and humidity data when meteorological instruments are not available on
5.1.4 Acoustical calibrator (required), with adapters neces-
site.
sary to fit the microphone.
5.3.2 Site absolute atmospheric pressure may be required
5.1.5 Headphones (recommended)—Headphones for moni-
for the proper use of the microphone calibrator. See Appendix
toring the AC output of the sound level meter portion of the
X1.
analyzer should have the ability to exclude external sound and
prevent sound from the earphones from reaching the measure-
5.4 Photographs—A camera should be carried by the mea-
ment microphone. The headphones, with an appropriate
surement team for the purpose of documenting the equipment
battery-powered driver, should have sufficient frequency re-
setup and surroundings at least once at each measurement
sponse to permit detection of anomalies in the data caused by
location.
wind, humidity, and electrical interference. A frequency re-
sponse of 50–20000 Hz is adequate. The headphones or other 6. Calibration and Self-Noise
load should be correctly matched to the source impedance of
6.1 The measurement system should be calibrated and its
the sound level meter AC output port.
self-noise,alsoknownas“noisefloor”determinedaccordingto
Appendix X1.
NOTE 2—Caution: Headphone impedance may not be compatible with
theAC output port of some sound level meter instruments.An impedance
7. Interference from Airborne Sound and
matching amplifier (buffer) may be required. Failure to use such an
amplifier,whenneeded,cancausethemetertoproduceinaccurateresults. Electromagnetic Fields
Ifthesoundlevelmetercircuitismodifiedtouseheadphones,afunctional
7.1 Sound level meter measurements are subject to interfer-
check and calibration of that sound level meter must be performed by a
encefromanumberofsources,someofwhicharediscussedin
qualified technician before using that instrument.
Appendix X2. See also ANSI S1.14.
5.1.6 When there is likelihood of rain, extreme heat or
humidity, or of extreme cold conditions, an enclosure capable
8. Measurement Plan and Procedure
of protecting the critical components of the measurement
8.1 A measurement plan should be established to produce
instruments from causing measurement error should be pro-
accurate data according to the stated objectives of the test.
vided. (See 5.1.4 regarding protection for the microphone.)
These objectives should be coordinated with the sponsoring
5.2 Physical Measurements:
person or agency, and if possible with representatives of any
5.2.1 Distance—To ensure an accuracy of 1 dB in values
contending person or agency.
obtained from calculations that include the results of distance
8.2 Measurement Locations—Establish a source envelope
measurements, the accuracy of the distance measurements to
which just encloses the noise sources. This may be a rectangle
be used in calculations must be within 5%.AGlobal Position-
A×B, or any other appropriate shape around the fixed source
ingSystem(GPS)oranytechniquethatprovidesthisdegreeof
or source complex, for example, a pumping station or amphi-
accuracyissatisfactory.Ifthedataaretobeusedformodeling,
theatre.Prescribeameasurementsurfaceat10morsomeother
and if the study area is undulating in nature, and the variation
fixed distance from that inner surface and where there is
in elevation exceeds2m(6 ft), it is recommended that a
confidence that the measurements so made will be meaningful
topographical map be consulted for estimating elevation of
in representing the sound level in that azimuthal direction of
sound sources, potential receptors, and potential acoustical
that or other identical fixed noise sources in the foreseeable
barriers.
future. See Fig. 1. Sound level measurements should be made
5.2.2 Direction—A pocket compass should be used for site
on this source emission surface for reference in evaluating
layout work and a wind vane capable of measuring wind
sound level data obtained at greater distances.
direction in octants should be used for determination of wind
8.2.1 Use USGS or other satellite imagery topographic
direction.
maps or appropriate site plans as a graph layout medium.
5.2.3 Site Map—A scale map of the measurement site
Circumscribe circles outside and centered on the centroid of
environs should be available while preparing for measure-
the source envelope. The radius ranges selected should be
ments.Thefixedsourcepositionandallmeasurementlocations
divided into nominal logarithmic increments that result in
should be annotated on that map.
equal decibel level reductions with a minimum of two radii.
For example, the set of 30 m, 100 m, 300 m, and 1000 m will
5.3 Meteorological Observations:
produce level reductions of about 10 dB each over hard
5.3.1 Observeandrecordwindspeed,relativehumidity,and
ground, but any convenient values may be used. Over soft
temperature for potential effects on the sound level meter
ground, the decay of the first 30 m could be greater. It is
instruments, and these factors plus wind direction for potential
emphasized that at distan
...

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4.1 Evaluation of Environmental Noise—Environmental noise is evaluated by comparing a measurement or prediction of the noise to one or more criteria. There are many different criteria and ways of measuring and specifying noise, depending on the purpose of the evaluation. Some evaluations are limited to determining compliance with existing regulations or ordinances. Others are done in the absence of such requirements or to supplement regulatory evaluations where the regulations do not address fully or at all the issues of concern.  
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5.2.2 The attenuation of speech signals due to distance or intervening barriers, and  
5.2.3 The reinforcement of speech signals due to reflections from surfaces such as the ceiling, furniture panels, light fixtures, walls, or windows.  
5.3 The ambient sound levels within a space often must be increased in order to mask intruding speech using an electronic sound masking system. However, in certain locations and in specific frequency ranges, the building mechanical, electrical and plumbing (MEP) equipment, and the heating, ventilating, or air conditioning equipment (HVAC) may increase ambient sound levels or add tonal noise components that may require mitigation before tuning the masking sound.  
5.4 The primary purpose of this test method is to assess the speech privacy for an average speech spectrum using the standard Articulation Index method. This requires measurement of the relevant acoustical characteristics discussed in 5.2 and 5.3 for a pair of locations and calculation of the Articulation Index using an average speech spectrum. The average speech spectrum is for male talkers speaking with normal voice effort. In specific cases such as designated quiet work zones for ‘focused work’ where administrative measures have been taken to reduce speech levels, a ‘casual’ voice spectrum should be used to calculate speech privacy, whereas in designated group work zones for ‘collaborative work’ where lively discussion is expected, a ‘raised’ voice spectrum should be used to calculate speech privacy.  
5.5 The Articulation Index ranges from a low value of 0.00, where speech is gener...
SCOPE
1.1 This test method describes a means of objectively assessing speech privacy between locations in open plan spaces. This test method relies upon acoustical measurements, published information on speech levels, and standard methods for assessing speech communication. This test method does not measure the performance of individual open plan components which affect speech privacy; but rather, it assesses the privacy which results from a particular configuration of components (1, 2).2  
1.2 This test method is intended to be a field test for the assessment of speech privacy in actual open plan spaces. However, this test method could be used in mock-up spaces and in environments arranged to simulate an open plan space.  
1.3 This test method is suitable for use in many open plan spaces including traditional open offices, focus areas, and collaboration spaces. In addition to office buildings, these types of spaces will also be found in healthcare buildings, institutional spaces, schools, etc. It is not directly applicable for measuring the speech privacy between open plan and enclosed spaces or between fully enclosed spaces.  
1.4 This test method relies upon the Articulation Index, which objectively predicts the intelligibility of speech. While both the Articulation Index and this test method can be expected to reliably predict speech privacy, neither predicts the specific effective speech privacy afforded to particular individual occupants.  
1.5 The values stated in SI units are to be regarded as the standard. The inch-pound units in parentheses are for information only.  
1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.7 This international standard was developed...

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ASTM
ASTM E1265-04(2021)(Test Method)
Standard Test Method for Measuring Insertion Loss of Pneumatic Exhaust Silencers

SIGNIFICANCE AND USE
5.1 This test method permits the evaluation of both the acoustical and mechanical performance of pneumatic exhaust silencers designed for quieting compressed gas exhausts (usually air). The data can be used by manufacturers to assess or improve their products, or by users to select or specify a silencer. The data acquired using this measurement method allow for performance comparisons of competitive products and aid in the selection of an appropriate device.  
5.2 Flow rate is an important parameter to consider when the application involves machinery or equipment that requires compressed air or other gases to be exhausted rapidly. For example, in an automatic pneumatic press, compressed air must be exhausted rapidly to avoid a premature second cycle. For this reason, flow ratio is reported in addition to acoustical performance.
SCOPE
1.1 This test method covers the laboratory measurement of both the acoustical and mechanical performance of pneumatic exhaust silencers designed for quieting compressed gas (usually air) exhausts from orifices connected to pipe sizes up to 3/4 in. NPT. This test method is not applicable for exhausts performing useful work, such as part conveying, ejection, or cleaning. This test method evaluates acoustical performance using A-weighted sound level measurements.  
1.2 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. Specific precautionary statements are given in Section 8.  
1.4 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM E1014-12(2021)(Guide)
Standard Guide for Measurement of Outdoor A-Weighted Sound Levels

SIGNIFICANCE AND USE
4.1 There are numerous situations for which outdoor sound level data are required. These include, but are not limited to, the following:  
4.1.1 Documentation of sound levels before the introduction of a new sound source (for example, assessment of the impact due to a proposed use).  
4.1.2 Comparison of sound levels with and without a specific source (for example, assessment of the impact of an existing source).  
4.1.3 Comparison of sound levels with criteria or regulatory limits (for example, indication of exceedence of criteria or non-compliance with laws).  
4.2 This guide provides a means for selecting measurement locations, operating a sound level meter, documenting the conditions under which the measurements were performed, and recording the results.  
4.3 This guide provides the user with information to (1) make and document the sound level measurements necessary to quantify relatively steady or slowly varying outdoor sound levels over a specific time period and at specific places and (2) make and document the physical observations necessary to qualify the measurements.  
4.4 The user is cautioned that there are many nonacoustical factors that can strongly influence the measurement of outdoor sound levels and that this guide is not intended to supplant the experience and judgment of experts in the field of acoustics. The guide is not applicable when more sophisticated measurement methods or equipment are specified. This guide, depending as it does on simplified manual data acquisition, is necessarily more appropriate for the simpler types of environmental noise situations. As the number of sources and the range of sound levels increase, the more likely experienced specialists with sophisticated instruments are needed.  
4.5 This guide can be used by individuals, regulatory agencies, or others as a measurement method to collect acoustical data for many common situations. Criteria for evaluating or analyzing the data obtained are beyond the scope of th...
SCOPE
1.1 This guide covers the measurement of A-weighted sound levels outdoors at specified locations or along particular site boundaries, using a general purpose sound-level meter.  
1.2 Three distinct types of measurement surveys are described:  
1.2.1 Survey around a site boundary,  
1.2.2 Survey at a specified location,  
1.2.3 Survey to find the maximum sound level at a specified distance from a source.  
1.3 The data obtained using this guide are presented in the form of either time-average sound levels (abbreviation TAV and symbol LAT, also known as equivalent sound level or equivalent continuous sound level abbreviated LEQ and with symbol LAeqT ) or A-weighted percentile levels (symbol LX).  
1.4 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM E2611-19(Test Method)
Standard Test Method for Normal Incidence Determination of Porous Material Acoustical Properties Based on the Transfer Matrix Method

SIGNIFICANCE AND USE
5.1 There are several purposes of this test:  
5.1.1 For transmission loss: (a) to characterize the sound insulation characteristics of materials in a less expensive and less time consuming approach than Test Method E90 and ISO 140-3 (“reverberant room methods”),  (b) to allow small samples tested when larger samples are impossible to construct or to transport, (c) to allow a rapid technique that does not require an experienced professional to run.  
5.1.2 For transfer matrix: (a) to determine additional acoustic properties of the material; (b) to allow calculation of acoustic properties of built-up or composite materials by the combination of their individual transfer matrices.  
5.2 There are significant differences between this method and that of the more traditional reverberant room method. Specifically, in this approach the sound impinges on the specimen in a perpendicular direction (“normal incidence”) only, compared to the random incidence of traditional methods. Additionally, revereration room methods specify certain minimum sizes for test specimens which may not be practical for all materials. At present the correlation, if any, between the two methods is not known. Even though this method may not replicate the reverberant room methods for measuring the transmission loss of materials, it can provide comparison data for small specimens, something that cannot be done in the reverberant room method. Normal incidence transmission loss may also be useful in certain situations where the material is placed within a small acoustical cavity close to a sound source, for example, a closely-fitted machine enclosure or portable electronic device.  
5.3 Transmission loss is not only a property of a material, but is also strongly dependent on boundary conditions inherent in the method and details of the way the material is mounted. This must be considered in the interpretation of the results obtained by this test method.  
5.4 The quantities are measured as a functio...
SCOPE
1.1 This test method covers the use of a tube, four microphones, and a digital frequency analysis system for the measurement of normal incident transmission loss and other important acoustic properties of materials by determination of the acoustic transfer matrix.  
1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.4 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM E1179-13(2019)(Specification)
Standard Specification for Sound Sources Used for Testing Open Office Components and Systems

ABSTRACT
This specification states the requirements for sound sources used for measuring the speech privacy between open offices or for measuring the laboratory performance of acoustical components. The sound source shall be a loudspeaker enclosed in a box that has a maximum dimension of 0.30 m (1 ft) on a side, to reduce spurious sound reflections. The measurements shall be carried out in a free sound field. The measurement microphone, amplifier, and level meter used to measure sound pressure levels shall satisfy the requirements prescribed. When the sound source is driven with the qualification signal, the sound output shall be adequate to maintain one-third octave-band sound pressure levels at least 10 dB above the corresponding background noise in each band at each measurement location. The directivity of the sound source shall be verified by driving the source with the qualification signal and measuring the sound pressure levels at measurement points.
SCOPE
1.1 This specification states the requirements for sound sources used for measuring the speech privacy between open offices and for measuring the laboratory performance of acoustical components (see Test Methods E1111 and E1130).  
1.2 The sound source shall be a loudspeaker located in an enclosure driven with an appropriate test signal.  
1.3 This specification describes the sound source and method of qualifying it using a special qualification signal. Test signals required by open office test methods may differ.  
1.4 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM E1110-06(2019)(Classification)
Standard Classification for Determination of Articulation Class

SIGNIFICANCE AND USE
4.1 Each weighting factor given in Table 1 represents the fraction of overall speech intelligence contained within the associated one-third octave frequency band.  
4.2 The weighting factors in Table 1 are obtained by multiplying each individual one-third octave band weighting factor of ANSI S3.5-1969 by 300. Articulation class (AC) values are thus related to but distinctly different from articulation index (AI) values. In particular, the AC considers only the effect of signal attenuation; while the AI considers such additional factors as speech level and spectrum and background sound level and spectrum.
Note 2: The AC is similar to the DAI rating proposed by Warnock6 and has been shown to correlate with AI values derived from ANSI S3.5, except where the AI approaches 1 or 0 (AI values range between 1 and 0 and approach 0 with increasing privacy and nonintelligibility). Articulation class values give the reverse. They usually exceed 100 and increase with increasing privacy and nonintelligibility. Extensive comparison between AC ratings and subjective judgments of open-plan speech privacy has not yet been accomplished.
SCOPE
1.1 This classification provides a single figure rating that can be used for comparing building systems and subsystems for speech privacy purposes. The rating is designed to correlate with transmitted speech intelligence between office spaces.  
1.2 Excluded from the scope of this classification are applications involving female speakers or children,2 languages other than English, and sound spectra other than speech. Thus excluded, for example, would be comparisons of building systems or subsystems for their effectiveness in reducing transmitted noise from machinery, industrial processes, bowling alleys, music rooms, places of entertainment, and the like.  
Note 1: Published work by Pearsons, et al, may eventually permit the restriction on female speakers to be relaxed.3  
1.3 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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