The Unified Code for Units of Measure (UCUM) is a system of codes for unambiguously representing measurement units. Its primary purpose is machine-to-machine communication rather than communication between humans.[1]
The code set includes all units defined in ISO 1000, ISO 2955-1983,[2][a] ANSI X3.50-1986,[3][b]HL7 and ENV 12435, and explicitly and verifiably addresses the naming conflicts and ambiguities in those standards to resolve them. It provides for representations of units in 7 bit ASCII for machine-to-machine communication, with unambiguous mapping between case-sensitive and case-insensitive representations.
Some of the UCUM base units are different from the SI base units. UCUM is compatible with, but not isomorphic with SI. There are four differences between the two sets of base units:
The gram is the base unit of mass instead of the kilogram, since in UCUM base units do not have prefixes.
Each unit represented in UCUM is identified as either "metric" or "non-metric".[4] Metric units can accept metric prefixes as in SI. Non-metric units are not permitted to be used with prefixes. All of the base units are metric.
UCUM refers to units that are defined on non-ratio scales as "special units". Common examples include the bel and degree Celsius. While these are not considered metric units by UCUM, UCUM nevertheless allows metric prefixes to be used with them where this is common practice.[4]
UCUM recognizes units that are defined by a particular measurement procedure, and which cannot be related to the base units.[4] These units are identified as "arbitrary units". Arbitrary units are not commensurable with any other unit; measurements in arbitrary units cannot be compared with or converted into measurements in any other units. Many of the recognized arbitrary units are used in biochemistry and medicine.
Derived unitsEdit
Any metric unit in any common system of units can be expressed in terms of the UCUM base units
^"UCUM". The UCUM Organization. Retrieved May 1, 2019.
^ISO 2955:1983 Information processing — Representation of SI and other units in systems with limited character sets [1]
^FLOWCHART SYMBOLS AND THEIR USAGE IN INFORMATION PROCESSING [2]
^ abcdSchadow, Gunther; McDonald, Clement J. (November 21, 2017). "The Unified Code for Units of Measure, version 2.1". Regenstrief Institute and the UCUM Organization. Retrieved 2019-05-13.
^Schadow, Gunther; McDonald, Clement J. (November 21, 2017). "The Unified Code for Units of Measure (XML specification), version 2.1". Regenstrief Institute and the UCUM Organization. Retrieved 2019-12-20.
Further readingEdit
Schadow, Gunther; McDonald, Clement J.; Jeffrey G., Suico; Föhring, Ulrich; Tolxdorff, Thomas (1999-03-01). "Units of Measure in Clinical Information Systems". Journal of the American Medical Informatics Association. 6 (2): 151–162. doi:10.1136/jamia.1999.0060151. PMC61354. PMID 10094068.
External linksEdit
Media related to Unified Code for Units of Measure at Wikimedia Commons
unitsofmeasure.org - The official UCUM web site. The UCUM Organization
Unified Code for Units of Measure (UCUM) at Lister Hill National Center for Biomedical Communications (LHNCBC), U.S. National Library of Medicine (NLM)
unified, code, units, measure, ucum, system, codes, unambiguously, representing, measurement, units, primary, purpose, machine, machine, communication, rather, than, communication, between, humans, code, includes, units, defined, 1000, 2955, 1983, ansi, 1986, . The Unified Code for Units of Measure UCUM is a system of codes for unambiguously representing measurement units Its primary purpose is machine to machine communication rather than communication between humans 1 The code set includes all units defined in ISO 1000 ISO 2955 1983 2 a ANSI X3 50 1986 3 b HL7 and ENV 12435 and explicitly and verifiably addresses the naming conflicts and ambiguities in those standards to resolve them It provides for representations of units in 7 bit ASCII for machine to machine communication with unambiguous mapping between case sensitive and case insensitive representations A reference open source implementation is available as a Java applet Also an OSGi based implementation at Eclipse Foundation Contents 1 Base units 2 Metric and non metric units 3 Arbitrary units 4 Derived units 5 See also 6 Notes 7 References 8 Further reading 9 External linksBase units EditUnits are represented in UCUM with reference to a set of seven base units 4 The UCUM base units are the metre for measurement of length the second for time the gram for mass the coulomb for charge the kelvin for temperature the candela for luminous intensity and the radian for plane angle The UCUM base units form a set of mutually independent dimensions as required by dimensional analysis Some of the UCUM base units are different from the SI base units UCUM is compatible with but not isomorphic with SI There are four differences between the two sets of base units The gram is the base unit of mass instead of the kilogram since in UCUM base units do not have prefixes Electric charge is the base quantity for electromagnetic phenomena instead of electric current since the elementary charge of electrons is more fundamental physically The mole is dimensionless in UCUM since it can be defined in terms of the Avogadro number The radian is a distinct base unit for plane angle to distinguish angular velocity from rotational frequency and to distinguish the radian from the steradian for solid angles UCUM base units Name Symbol Measure Dimensionsymbol 5 metre m length Lsecond s time Tgram g mass Mcoulomb C charge Qkelvin K thermodynamic temperature Ccandela cd luminous intensity Fradian rad plane angle AMetric and non metric units EditMetric prefixes in everyday usevte Prefix Symbol Factor Powertera T 1000 000 000 000 1012giga G 1000 000 000 109mega M 1000 000 106kilo k 1000 103hecto h 100 102deca da 10 101 none none 1 100deci d 0 1 10 1centi c 0 01 10 2milli m 0 001 10 3micro m 0 000001 10 6nano n 0 000000 001 10 9pico p 0 000000 000 001 10 12Each unit represented in UCUM is identified as either metric or non metric 4 Metric units can accept metric prefixes as in SI Non metric units are not permitted to be used with prefixes All of the base units are metric UCUM refers to units that are defined on non ratio scales as special units Common examples include the bel and degree Celsius While these are not considered metric units by UCUM UCUM nevertheless allows metric prefixes to be used with them where this is common practice 4 Binary prefixes are also supported Arbitrary units EditUCUM recognizes units that are defined by a particular measurement procedure and which cannot be related to the base units 4 These units are identified as arbitrary units Arbitrary units are not commensurable with any other unit measurements in arbitrary units cannot be compared with or converted into measurements in any other units Many of the recognized arbitrary units are used in biochemistry and medicine Derived units EditAny metric unit in any common system of units can be expressed in terms of the UCUM base units Units derived from UCUM base units Name Symbol Quantity UCUM base unitEquivalentshertz Hz frequency s 1steradian sr n 1 solid angle rad2millinewton mN force weight g m s 2millipascal mPa pressure stress g m 1 s 2millijoule mJ energy work heat g m2 s 2milliwatt mW power radiant flux g m2 s 3ampere A n 2 electric current C s 1millivolt mV voltage electrical potential difference electromotive force g m2 s 2 C 1kilofarad kF electrical capacitance g 1 m 2 s3 C2milliohm mW electrical resistance impedance reactance g m2 s 1 C 2kilosiemens kS electrical conductance g 1 m 2 s1 C2milliweber mWb magnetic flux g m2 s 1 C 1millitesla mT magnetic induction magnetic flux density g s 1 C 1millihenry mH electrical inductance g m2 C 2degree Celsius C Celsius temperature Klumen lm luminous flux cd rad2lux lx illuminance m 2 cd rad2becquerel Bq radioactivity decays per unit time s 1gray Gy absorbed dose of ionizing radiation m2 s 2sievert Sv equivalent dose of ionizing radiation m2 s 2Notes In the SI both the radian and steradian are dimensionless derived units In the SI the coulomb is derived from the ampere 1 C 1 A 1 s Kinematic units Name Symbol Quantity Expression in terms of UCUM base unitsmetre per second m s speed velocity m s 1metre per second squared m s2 acceleration m s 2metre per second cubed m s3 jerk jolt m s 3metre per second to the fourth m s4 snap jounce m s 4radian per second rad s angular velocity rad s 1radian per second squared rad s2 angular acceleration rad s 2hertz per second Hz s frequency drift s 2cubic metre per second m3 s volumetric flow m3 s 1Mechanical units Name Symbol Quantity Expression in terms of UCUM base unitssquare metre m2 area m2cubic metre m3 volume m3millinewton second mN s momentum impulse m g s 1millijoule second per radian mN m s rad angular momentum m2 g rad s 1millijoule per radian mN m rad mJ rad torque m2 g rad s 2millinewton per second mN s yank m g s 3reciprocal metre m 1 wavenumber optical power curvature spatial frequency m 1gram per square metre g m2 area density m 2 ggram per cubic metre g m3 density mass density m 3 gcubic metre per gram m3 g specific volume m3 g 1millijoule second mJ s action m2 g s 1millijoule per gram mJ g specific energy m2 s 2millijoule per cubic metre mJ m3 energy density m 1 g s 2millinewton per metre mN m mJ m2 surface tension stiffness g s 2milliwatt per square metre mW m2 heat flux density irradiance g s 3square metre per second m2 s kinematic viscosity thermal diffusivity diffusion coefficient m2 s 1millipascal second mPa s mN s m2 dynamic viscosity m 1 g s 1gram per metre g m linear mass density m 1 ggram per second g s mass flow rate g s 1milliwatt per steradian square metre mW sr m2 radiance g rad 2 s 3milliwatt per steradian cubic metre mW sr m3 radiance m 1 g rad 2 s 3milliwatt per metre mW m spectral power m g s 3gray per second Gy s absorbed dose rate m2 s 3metre per cubic metre m m3 fuel efficiency m 2milliwatt per cubic metre mW m3 spectral irradiance power density m 1 g s 3millijoule per square metre second mJ m2 s energy flux density g s 3reciprocal millipascal mPa 1 compressibility m g 1 s2millijoule per square metre mJ m2 radiant exposure g s 2gram square metre per steradian g m2 sr moment of inertia m2 g rad 2millijoule second per radian per gram mN m s rad g specific angular momentum m2 s 1 rad 1milliwatt per steradian mW sr radiant intensity m2 g rad 2 s 3milliwatt per steradian metre mW sr m spectral intensity m g rad 2 s 3Electromagnetic units Name Symbol Quantity Expression in terms of UCUM base unitscoulomb per square metre C m2 electric displacement field polarization density m 2 Ccoulomb per cubic metre C m3 electric charge density m 3 Campere per square metre A m2 electric current density m 2 s 1 Ckilosiemens per metre kS m electrical conductivity m 3 g 1 s1 C2kilofarad per metre kF m permittivity m 3 g 1 s2 C2millihenry per metre mH m magnetic permeability m g C 2millivolt per metre mV m electric field strength m g s 2 C 1ampere per metre A m magnetization magnetic field strength m 1 s 1 Ccoulomb per gram C g exposure X and gamma rays g 1 Cmilliohm metre mW m resistivity m3 g s 1 C 2coulomb per metre C m linear charge density m 1 Cmillijoule per millitesla mJ mT magnetic dipole moment m2 s 1 Csquare metre per millivolt second m2 mV s electron mobility g 1 s Creciprocal millihenry mH 1 magnetic reluctance m 2 g 1 C2milliweber per metre mWb m magnetic vector potential m g s 1 C 1milliweber metre mWb m magnetic moment m3 g s 1 C 1millitesla metre mT m magnetic rigidity m g s 1 C 1ampere radian A rad magnetomotive force C rad s 1metre per millihenry m mH magnetic susceptibility m 1 g 1 C2Photometric units Name Symbol Quantity Expression in terms of UCUM base unitslumen second lm s luminous energy s cd rad2lux second lx s luminous exposure m 2 s cd rad2candela per square metre cd m2 luminance m 2 cdlumen per milliwatt lm mW luminous efficacy m 2 g 1 s3 cd rad2Thermodynamic units Name Symbol Quantity Expression in terms of UCUM base unitsmillijoule per kelvin mJ K heat capacity entropy m2 g s 2 K 1millijoule per gram kelvin mJ K g specific heat capacity specific entropy m2 s 2 K 1milliwatt per metre kelvin mW m K thermal conductivity m g s 3 K 1kelvin per milliwatt K mW thermal resistance m 2 g 1 s3 Kreciprocal kelvin K 1 thermal expansion coefficient K 1kelvin per metre K m temperature gradient m 1 KSee also EditGNU Units International vocabulary of metrologyNotes Edit Withdrawn without replacement Superseded by ISO 5807 References Edit UCUM The UCUM Organization Retrieved May 1 2019 ISO 2955 1983 Information processing Representation of SI and other units in systems with limited character sets 1 FLOWCHART SYMBOLS AND THEIR USAGE IN INFORMATION PROCESSING 2 a b c d Schadow Gunther McDonald Clement J November 21 2017 The Unified Code for Units of Measure version 2 1 Regenstrief Institute and the UCUM Organization Retrieved 2019 05 13 Schadow Gunther McDonald Clement J November 21 2017 The Unified Code for Units of Measure XML specification version 2 1 Regenstrief Institute and the UCUM Organization Retrieved 2019 12 20 Further reading EditSchadow Gunther McDonald Clement J Jeffrey G Suico Fohring Ulrich Tolxdorff Thomas 1999 03 01 Units of Measure in Clinical Information Systems Journal of the American Medical Informatics Association 6 2 151 162 doi 10 1136 jamia 1999 0060151 PMC 61354 PMID 10094068 External links Edit Media related to Unified Code for Units of Measure at Wikimedia Commons unitsofmeasure org The official UCUM web site The UCUM Organization Unified Code for Units of Measure UCUM at Lister Hill National Center for Biomedical Communications LHNCBC U S National Library of Medicine NLM dimensioned unit systems ucum Rust The UCUM LHC Validator and Converter UCUM Web Service API UOMo Eclipse Foundation 2010 UCUM Regenstrief Institute 2008 Portal Physics Retrieved from https en wikipedia org w index php title Unified Code for Units of Measure amp oldid 1164933088, wikipedia, wiki, book, books, library,
