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TRANSCRIPT
National Intelligent Manufacturing
Standard System Construction
Guidelines
(Version 2015)
December 2015
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
Table of Contents
I. General Requirements ........................................................................... 2
(i) Guiding ideology .................................................................................. 2
(ii) Basic principle ................................................................................... 3
(iii) Construction target ............................................................................. 4
II. Construction Idea .................................................................................. 6
(i) Fig. 1 Intelligent manufacturing system framework ............................ 7
(ii) Structural diagram of intelligent manufacturing standard system ... 17
(iii) Framework of intelligent manufacturing standard system .............. 20
III. Construction Contents ...................................................................... 22
(i) Basic generality standards .................................................................. 22
(ii) Key technique standards .................................................................. 27
(iii) Key industries standards .................................................................. 43
IV. Implementation Organization .......................................................... 46
Appendix 1: Terms and Abbreviations related to Intelligent
Manufacturing ............................................................................................. I
Appendix 2: Basic Generality and Key Technical Standards of Intelligent
Manufacturing Released and Under Preparation ...................................... III
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
1
As the main orientation of China Manufacturing 2025
Strategy, intelligent manufacturing is the critical measure to
implement “Powerful Nation Strategy”, the development trend
for Chinese manufacturing industry to keep the same pace with
the world and the core to realize transformation and upgrading.
With strong comprehensiveness, intelligent manufacturing
stands for the conformity and integrity of all kinds of
manufacturing systems in a higher level. Standardization is an
indispensable basis to promote the development of intelligent
manufacturing. As the existing standards regarding intelligent
manufacturing are unavailable, undeveloped or repeated,
National Intelligent Manufacturing Standard System
Construction Guideline (Version 2015) (hereinafter referred to
as “the Construction Guideline") is hereby jointly prepared by
Ministry of Industry and Information Technology of the People’s
Republic of China and Standardization Administration of the
People's Republic of China based on the strategic deployment of
China Manufacturing 2025 Strategy, in order to guide the
intelligent manufacturing standardization at present and in
future.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
2
I. General Requirements
(i) Guiding ideology
Efforts should be made to fully exert the fundamental and
guiding role of standard in promoting the development of
intelligent manufacturing and resolve the imperfection and
low-level repetition of standard system. The overall planning
and macro guidance should be strengthened, the harmonious
development of standards prepared by the government and the
market should be established and the supporting new standard
system should be coordinated by strengthening standard
implementation and supervision and multi-industrial and
multi-field integrated innovation in order to establish the
intelligent manufacturing system that meets the actual situations
of China and keep pace with the world. The intelligent
manufacturing system framework consisting of 5+5+10 type
standards should be established from three aspects, namely basic
generality, key technique and major industries. Dynamic and
complete mechanism should be established and standard should
be gradually formed to support the development of intelligent
manufacturing. National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
3
(ii) Basic principle
Overall planning and implementation of classified
strategies. Standard resources should be overall planned,
standard structure should be optimized and the relevant
domestic intelligent manufacturing standards should be sorted
out; the complete intelligent manufacturing standard system
should be prepared in order to satisfy the development of
intelligent manufacturing. The application standard of key
intelligent manufacturing industries should be formed and the
standard systems that are connected and well matched mutually
should be established by focusing on the key industrial
development field along with traditional industry and by
combining the development level and features of the industry.
Cross-boundary integration and implementation of
urgent demands. Intelligent manufacturing refers to the
integration of new-generation information technology and
manufacturing technique as well as the integration and
interconnection of manufacturing industry in different links. The
multi-industrial and multi-field integrity innovation is needed
for preparing intelligent manufacturing standard system. As for
the key bottleneck problems promoting intelligent
manufacturing such as data integration and interconnection, the
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
4
fundamental standards such as data interface and
communication protocol should be prepared in priority.
Starting from actual situation and opening cooperation.
The preparation and industrialization of standards with
proprietary intellectual property rights and the communication
with the advanced manufacturing countries and international
standardization organization should be strengthened and Chinese
standards proprietary intellectual property rights should be
upgraded to international level in proper time by combining
actual situations such as the poor foundation of China’s
intelligent manufacturing standard and imbalanced industrial
development and considering the standard applicability fully. In
addition, the international standard that is applicable to the
development demand of China’s manufacturing industry should
be properly transformed into national standards and intelligent
manufacturing system with good compatibility and strong
openness should be established.
(iii) Construction target
The intelligent manufacturing standard system should be
established preliminarily in 2017. More than 60 key intelligent
manufacturing standards should be prepared, basic general
standards such as reference model, terminology & definition,
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
5
identification analysis and evaluation index as well as key
technical standards such as data format and communication
protocol should be prepared on the principle of “establishing
general ones and those in urgent need”, the intelligent
manufacturing standards for key industries should be explored
and prepared; breakthrough should be made in ten key fields of
China Manufacturing 2025 Strategy in priority. The national
standards for intelligent manufacturing should be upgraded to
international standards; the application and international level of
standards should be improved gradually.
A comparatively perfect intelligent manufacturing standard
system should be established in 2020. Above 500 intelligent
manufacturing standards should be prepared and revised to
cover both general standards and key technical standards
basically; the intelligent manufacturing standards should be
broadly used in enterprises and particularly in manufacturing
field in order to enhance China’s intelligent manufacturing level
significantly. Meanwhile, the international competitiveness of
Chinese intelligent manufacturing standards should be improved
substantially.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
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II. Construction Idea
There are generally three steps constructing intelligent
manufacturing standard framework. Firstly, a 3D intelligent
manufacturing system framework consisting of lifecycle, system
hierarchy and intelligent functions is constructed by extracting
the general abstract features of all kinds of intelligent
manufacturing application systems studied in order to define the
connotation and extension of intelligent manufacturing
standardization, recognize available and unavailable intelligent
manufacturing standards and understand the overlapping
relations of existing standards; secondly, the plane consisting of
lifecycle dimension and system hierarchy dimension of
intelligent manufacturing system framework is applied to the
five-level intelligent function dimension from upper to lower on
the basis of deeply analyzing the standard demand and by
comprehensively considering the logistic relations of all
dimensions of intelligent manufacturing system in order to form
five key technical standards such as intelligent equipment,
intelligent factory, intelligent service, industrial software, big National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
7
data and industrial internet and thus form intelligent
manufacturing standard system architecture together with basic
general standards and key industrial standards; thirdly, the
intelligent manufacturing standard system architecture should be
decomposed to establish intelligent manufacturing standard
system framework and guide the construction of intelligent
manufacturing standard system and the approval of relevant
standards.
(i) Fig. 1 Intelligent manufacturing system framework
Intelligent manufacturing system framework is constructed
from three dimensions such as lifecycle, system hierarchy and
intelligent functions, as shown in Fig. 1.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
8
Fig. 1 Intelligent Manufacturing System Framework
1. Lifecycle
Lifecycle refers to the chain integration consisting of a
series of mutually connected value creation activities such as
design, production, logistics, sales and service. All activities in
lifecycle are associated and influenced mutually. Lifecycle National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
9
differs in various industries.
2. System hierarchy
System hierarchy is composed of equipment level, control
level, workshop level, enterprise level and cooperation level
from the lower to the upper. In particular, the system hierarchy
of intelligent manufacturing represents the intelligence and
internet protocol of equipment as well as network flattening. In
particular:
(1) As the material technical basis for enterprise to deal
with production activities, equipment level is composed of
sensors, meters and instruments, bar code, radio frequency
identification (RFID), machine, machinery and device;
(2) Control level consists of programmable logic
controller (PLC), supervisory control and data acquisition
(SCADA), distributive control system (DCS) and field bus control
system (FCS);
(3) Workshop level is mainly about the production
management of factory/workshop, including manufacturing
execution system (MES);
(4) Enterprise level is focused on the operation
management of enterprises, including enterprise resources
planning (ERP), product lifecycle management (PLM), supply
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
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chain management (SCM) and client relationship management
(CRM);
(5) Cooperation level represents coordinated R & D,
intelligent production, precise logistics and intelligent service
realized by different enterprises of the industrial chain through
internet sharing information.
3. Intelligent functions
Intelligent functions include five layers such as resources
elements, system integration, interconnection, information
fusion and new business pattern. Specifically,
(1) Resources elements include physical entities such as
design & construction drawings, product technique documents,
raw materials, manufacturing equipment, production workshop
and factory along with energies such as power and gas.
Personnel are also part of resources.
(2) System integration means integrating all kinds of
manufacturing resources such as raw materials, parts, energy
and equipment by information technique such as 2D code, radio
frequency identification and software. It can realize the
integration of intelligent equipment, intelligent production unit,
intelligent production line, digital workshop, intelligent factory
and even intelligent manufacturing system from small to large
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
11
scale.
(3) Interconnection means realizing mutual connection
among machines, between machines and control systems and
among enterprises in virtue of wireless and wire communication
technique.
(4) Information fusion means realizing information
collaborative sharing through system integration and
communication under the premise of ensuring information
safety using new generation of information technology such as
cloud computing and big data.
(5) New business pattern means service manufacturing
mode such as personal customization, remote operation &
maintenance and industrial cloud.
The intelligent manufacturing system framework shows the
whole process of intelligent manufacturing in a 3D manner. In
the following, PLC, industrial robot and industrial internet are
used as examples to fully interpret the position of key intelligent
manufacturing field in system architecture and relevant
standards through point, line and surface level in order to better
annotate and understand system framework.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
12
Cooperation
LifecycleDesign
PLC
Manufac
ture
Logistic Sale Service
Enterprise
Workshop
Control
Equipment
Resources
Elements
System
Integration
Interconnection
Information
Fusion
New Business
Pattern
System
Hierarchy
Intelligent
Functions
Fig. 2 Position of PLC in Intelligent Manufacturing System
Framework
PLC is in the production segment in lifecycle dimension of
intelligent manufacturing system architecture, control level of
system hierarchy and system integration of intelligent functions,
as shown in Fig. 2. The released standards of PLC mainly
include:
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
13
GB/T 15969.1 Programmable Controllers Part 1:
General Information
IEC/TR 61131-9 Programmable Controllers Part 9:
Single-drop Digital Communication Interface for Small
Sensors and Actuators (SCDI)
Industrial
Robot
LifecycleManu
-factureLogistic Sale Service
Resources
ElementsDesign
System
Hierarchy
Cooperation
Enterprise
Workshop
Control
Equipment
System
Integration
Interconnection
Information
Fusion
New Business
Pattern
Intelligent
Functions
Fig. 3 Position of Intelligent Robot in Intelligent Manufacturing
System Framework
Intelligent robot is in the production link in lifecycle
dimension of intelligent manufacturing system architecture, National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
14
equipment level and control level of system hierarchy and
resources elements of intelligent functions, as shown in Fig. 3.
Industrial robots standards released mainly include:
GB/T 19399-2003 Industrial Robots Graphical User
Interfaces for Programing and Operation of Robots
(GUI-R)
GB/Z 20869-2007 Industrial Robot Intermediate Code for
Robot (ICR)
Industrial robots standards under preparation mainly
include:
20120878-T-604 Interface for Robot Simulation
Development Environment
20112051-T-604 Communication Interface Specification
of Open Robot Controller
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
15
Industrial Internet
Industrial Internet
System
Hierarchy
Cooperation
Enterprise
Workshop
Control
Equipment
System
Integration
Interconnection
Information
Fusion
New Business
Pattern
Intelligent
Functions
LifecycleManufac
tureLogistic Sale ServiceResources
ElementsDesign
Fig. 4 Position of Industrial Internet in Intelligent Manufacturing System
Framework
Industrial internet is in all links in lifecycle dimension of
intelligent manufacturing system architecture, five levels, i.e.,
equipment, control, workshop, enterprise and cooperation of National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
16
system hierarchy and interconnection of intelligent functions.
The released standards of Industrial internet mainly include:
GB/T 20171-2006 EPA System Architecture and
Communication Specification for Use in Industrial
Control and Measurement Systems
GB/T 26790.1-2011 Industrial Wireless Network WIA
Specification Part 1: WIA System Architecture
Communication Specification for Process Automation
(WIA-PA)
GB/T 25105-2014 Industrial Communication Networks
-Fieldbus Specifications Type 10: PROFINET IO
Specifications
GB/T 19760-2008 CC-Link (Control & Communication
Link) Specifications
GB/T 31230-2014 Industrial Ethernet Fieldbus EtherCAT
GB/T 19582-2008 Modbus Industrial Automation
Network Specification
GB/Z 26157-2010 Digital Data Communication for
Measurement and Control - Fieldbus for Use in Industrial
Control Systems - Type 2: Controlnet And Ethernet/Ip
Specification
GB/T 29910-2013 Industrial Communication Networks
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
17
-Fieldbus Specifications Type 20:HART Specification
GB/T 27960-2011 Ethernet POWERLINK
Communication Profile Specification
(ii) Structural diagram of intelligent manufacturing
standard system
The structural diagram of intelligent manufacturing
standard system generally includes “A Basic Generality” “B
Key Technique” and “C Key Industries”. In particular, “B Key
technique” is composed of “BA Intelligent equipment”, “BB
Intelligent factory”, “BC Intelligent service”, “BD Industrial
software and big data” and “BE Industrial internet”. See Fig. 5
for the structural diagram of intelligent manufacturing standard
system.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
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A Basic
Generality
BA
Intelligent
Equipment
Foundation
Embedded
SystemIndustrial
Robot
Sensors, Meters
and InstrumentsAdditive
ManufacturingHMI System
BE
Industrial
Internet
System
ArchitectureBB
Intelligent
Factory
BC
Intelligent
Service
Personalized
Customization
Remote Operation
& Maintenance
Industrial
Cloud
C
Industrial
Application
New
Gen
era
tion
of
Info
rm. T
ech
.
Indu
stry
Adv
anced
Tra
ck
Tran
spo
rt. Eq
uip
.
En
ergy-S
avin
g a
nd
New
Energ
y
Veh
icle
Oce
an E
ng
ineerin
g
Eq
uip
.and H
igh-
Tech
Ship
Hig
h-E
nd C
NC
Mac
hin
e Tool a
nd
Rob
ot
Aero
space E
quip
.
Safety ManagementInspection
EvaluationReliability
Intelligent
Management
Intelligent
Design
Intelligent
Logistics
Construction
Planning
System
Integration
Intelligent
Production
BD
Industrial
Software
and Big
Data
Industrial
Big Data
Product and
System
Management
and Service
B Key Technique
Network
Technique
Resources
Manag.
Network
Equipment
Control
System
Fig. 5 Structural Diagram of Intelligent Manufacturing Standard System
Specifically, located at the bottom of structural diagram of
intelligent manufacturing standard system, A Basic generality
standards are composed of five categories, i.e., foundation,
safety, management, inspection evaluation and reliability. The
basic generality standards studied support B Key technique
standards and C Key industries standards, both of which are
shown in the dotted line framework in the upper level of
standard system structural diagram. Located in the bottom of B
Key technique standards in the structural diagram of intelligent National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
19
manufacturing standard system, BA Intelligent equipment
standards are mostly closed to the actual production of
intelligent manufacturing; BB Intelligent factory standards are
on the top of BA intelligent equipment standards, which refer to
the comprehensive integration of intelligent manufacturing
device, software and data and play a role in connecting the
upper and lower levels in the structural diagram of intelligent
manufacturing standard system. Located at the top of B Key
technique standards, BC Intelligent service standards involve the
intelligent manufacturing new mode and new industry standard;
located at the left and right side of B Key technique standards of
structural diagram of intelligent manufacturing standard system,
BD industrial software and big data standards and BE Industrial
internet standards run through other 3 fields (BA, BB and BC)
of B key technique standards, connect physical world and
information world and promote the transformation of production
manufacturing to service manufacturing. C Key industries
standards are at the top of structural diagram of intelligent
manufacturing standard system in order to handle the specific
industrial demands. A Basic generality standards and B Key
technique standards are defined and implemented to guide the
intelligent manufacturing of all industries.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
20
(iii) Framework of intelligent manufacturing standard
system
According to the structural diagram of intelligent
manufacturing standard system, the frame of intelligent
manufacturing standard system is composed of “A Basic
Generality”, “B Key technique” and “C Key industries”, as
shown in Fig. 6.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
21
Framework of Intelligent
Manufacturing Standard System
A Basic Generality
AA
Fou
nd
ation
AB Safety AC
Man
ag.
AD
Insp
ection
Evalu
ation
术语定义
AA
B R
eference M
od
el
AB
B In
form
atio
n Safe
ty
AC
A In
form
. Safety M
anag. Sys.
AD
D In
dex System
AD
E Evaluatio
n M
etho
d
BA
BA
Interface
Spe
c.
BA
AA
Gen
eral T
ech
no
logy
BA
AB
Integratio
n
BA
EA
Mo
de
l De
sign
BEA
A In
ner-P
lan
t insid
e N
etw
ork o
f Fac.
BEA
B O
uter-N
etw
ork
of Facto
ry
BEB
A N
etwo
rk Tech
niq
ue
BD
BA
Ap
plicatio
n So
ftware
BC
AB
Interactio
n Sp
ec.
BC
AC
Pro
du
ction
Man
ag. P
roce
ss Spe
c.
BA
BB
Co
mm
un
icatio
n P
roto
col
BA
AC
Co
mm
un
icatio
n P
roto
col
BA
DA
Grap
hics &
Icon
s
BA
DC
Ph
on
etics & Se
man
tics
BD
BB
Ind
ustrial So
ftware
Inte
gratio
n
AA
C M
etad
ata &
data d
iction
ary
BD
AA
Da
ta Pro
cessin
g Te
chn
iqu
eB
DA
B D
ata M
anage
me
nt
AD
F Imp
lemen
tation
Gu
ide
BA
DB
To
uch
ing So
ma
tose
nso
ry Sys.
BA
FA C
om
mu
nicatio
nB
AFB
Inte
rface
BB
AC
System
Mo
de
ling
BB
AD
Hu
man
istic Wo
rkin
g Co
nd
ition
s
BB
DA
Inte
lligen
t Dia
gno
sis & M
ain
ten
ance
BB
DB
Ad
vanced
Co
ntro
l & O
ptim
izatio
n
BB
BA
Inte
rop
eration
Crite
ria
BB
BB
Inte
gration
Ab
ilityB
BB
C Te
st Ap
plica
tion
Service In
terface
BB
BD
Site Eq
uip
men
t Inte
gratio
n
BC
BA
Pla
tform
Inte
rface Sp
ec.
BC
BB
Gen
era
l Req
uirem
en
ts
C Key Industries
CB
High
-end
CN
C M
achin
e Too
l & R
ob
ot
CC
Aero
space Eq
uip
men
t
CD
Ocean
Engin
eering Eq
uip
. & H
igh-Tech
Ship
s
CE A
dvan
ced Track Tran
spo
rtation
Equ
ipm
ent
CK
Oth
ers
BA
EB
Ma
nu
factu
ring Eq
uip
. & In
terfa
ce
AA
AT
ermin
olo
gy
s & D
efinitio
ns
AE R
eliability
AEA
Pro
cess Stan
dard
AEB
Tech
nical M
eth
od
s
AA
D Id
en
tification
AB
A Fu
nctio
na
l Safety
BA
BC
Pe
rform
ance
Req
uire
me
nts
BEB
B In
du
strial W
irele
ss Co
mm
un
icatio
n
BB
AA
Gen
eral P
lann
ing
BB
AB
Imp
lem
en
tatio
n G
uid
e
BB
CA
Pro
du
ct De
sign Sim
ulatio
nB
BC
B In
telligent O
ptim
al D
esign
BB
FB E
-ide
ntifica
tion
BB
FC A
uto
matic G
uid
ed
Ve
hicle
BEB
C In
du
strial W
ire C
om
mu
nica
tion
BED
B In
du
strial Switch
BED
C C
hip
& C
om
mu
nica
tion
Mo
du
le
AC
B In
du
s. & in
form
. Integ. M
anag. Sys.
BED
E O
the
rs
AD
B Te
st Meth
od
AD
C Te
st Equ
ipm
ent
AD
A Te
st Pro
jects
BB
EA
Wo
rksho
p M
anage
me
nt
BB
EB
Ente
rprise
Ma
na
gem
ent
BB
EC
Visu
al Ma
na
gem
en
t
BC
AA
Desig
n Sp
ec.
BB
FA B
ar C
od
e
BD
CC
Softw
are
Asse
ts Man
agem
en
t
BD
CA
Service
Req
uire
me
nts
BD
CB
Softw
are
Qu
ality Ma
na
gem
ent
BED
A In
du
strial G
ate
wa
y
BC
BC
Safe
ty Spe
c.
BB
FD V
ertical W
areh
ou
se
BA
Intelligen
t Eq
uip
men
t
BB
Inte
lligent
Factory
BC
Inte
lligent
Service
BE In
du
strial In
tern
et
BD
Ind
ustrial
Softw
are & B
ig D
ata
BA
B Em
be
dd
ed
System
BA
A Sen
sors, M
eters &
In
strum
ents
BA
E Ad
ditive M
an
ufactu
ring
BA
F Ind
ustrial R
ob
ot
BEA
System
Arch
itectu
re
BEB
Arch
itecture
Fram
ewo
rk
BD
B P
rod
uct &
System
BC
A P
erso
na
lized
Cu
stom
.
BA
D H
MI Syste
m
BD
A In
du
strial Big D
ata
BC
B R
emo
te Service
BC
C In
du
strial Clo
ud
BC
D O
thers
BB
A C
on
structio
n P
lann
ing
BB
B Syste
m In
tegratio
n
BB
C In
telligen
t De
sign
BB
D In
telligen
t Pro
du
ction
BB
F Intellige
nt Lo
gistics
BB
E Intellige
nt M
anag.
BD
C Service &
Man
ag.
C
A N
ew
Gen
eration
of In
form
ation
Tech
no
logy
B Key Technique
BC
BD
Mo
nito
ring Sp
ec.B
CB
E Em
ergency M
an
ag. Sp
ec.
CG
Po
we
r Equ
ipm
ent
CH
Agricu
ltural M
achin
ery Equ
ipm
ent
CI N
ew M
aterials
CJ B
iol. M
edicin
e & H
igh-P
erfo
rm. M
edical D
evice
CF En
ergy-Saving &
New
Energy V
eh
icle
BA
FC C
oo
peratio
n
BC
CA
Reso
urce
s Sharin
gB
CC
B Se
rvice Ab
ility
BA
C C
on
trol System
BA
G O
thers
BC
D O
the
rs
BA
CA
Pro
gramm
ing Lan
gua
ge
BA
CC
Oth
ers
BA
CB
Interfa
ce
BEC
A IP
v6B
ECB
Freq
ue
ncy Sp
ectrum
BEC
C In
form
ation
Co
ord
inatio
nB
EC R
eso
urce
s Man
ag.
BED
Ne
two
rk Equ
ipm
ent
BB
FE Oth
ers
BA
DD
Bio
logica
l Fea
ture
s
Fig. 6 Framework of Intelligent Manufacturing Standard System
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
22
III. Construction Contents
(i) Basic generality standards
The basic generality standards mainly consist of five parts
such as foundation, safety, management, inspection evaluation
and reliability, as shown in Fig. 7.
A Basic Generality
AA
Fou
nd
ation
AB
Safety
AC
Man
ag.
AD
Insp
ection
Evalu
ation
术语定义
AA
B R
efe
ren
ce M
od
el
AB
B In
form
ation
Safety
AC
A In
form
. Safe
ty Ma
nag. Sys.
AD
D In
de
x System
AD
E Evalu
atio
n M
eth
od
AA
C M
eta
da
ta & d
ata d
iction
ary
AD
F Imp
lem
en
tation
Gu
ide
AA
A T
ermin
olo
gys &
Defin
ition
s
AE R
eliability
AE
A P
roce
ss Stand
ard
AE
B T
echn
ical Meth
od
s
AA
D Id
entificatio
n
AB
A Fu
nctio
na
l Safety
AC
B In
du
s.&in
form
.Inte
g.Ma
na
g. Sys.
AD
B T
est Me
tho
d
AD
C T
est Equ
ipm
ent
AD
A T
est Pro
jects
Fig. 7 Sub-system of Basic Generality Standard
1. Basic standards
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
23
Basic standards are composed of four parts, i.e.,
terminology and definitions, reference model, metadata, data
dictionary and identification.
Terminology and definitions are used for unifying the
relevant concepts related to intelligent manufacturing and
provide supports for the preparation of other parts of standards.
Reference model standards are used for assisting all parties
recognizing and understanding the objects and boundary of
intelligent manufacturing standardization as well as the
hierarchy and internal contact of all parts. Metadata and data
dictionary are used for specifying the naming rule, data format,
data model, data elements and registration requirements of
metadata in all such links as design, production and circulation
of intelligent manufacturing products, as well as the method to
establish data dictionary and lay a solid foundation to the data
integration, interaction and sharing of data in all intelligent
manufacturing links. Identification standards are used for the
exclusive identification and analysis of all kinds of objects in
intelligent manufacturing, efforts shall also be made to establish
intelligent manufacturing identification system; such system
shall be compatible to the manufacturing enterprises' existing
identification numbering system and can satisfy the
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
24
requirements of intelligent manufacturing development such as
equipment IP and intelligence.
2. Safety standards
Safety standards are mainly composed of functional safety
and information safety.
Functional safety standards are used for ensuring that the
safety functions of safety control system can be executed
correctly when danger happens so as to avoid personal injury,
environmental destruction and economic loss caused by
equipment failure or system function invalidity. They consist of
functional safety requirements as well as the implementation
and management of functional safety. Information safety
standards are used for ensuring that the information system will
not be destroyed, changed or leaked by occasional or malicious
cause while the system can be operated continuously, reliably
and normally. They mainly include five parts, i.e., software
safety, equipment information safety, network information
safety, data safety and information safeguarding.
3. Management standards
Management standards mainly include information safety
management system and industrialization and
informationization integration management.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
25
Information safety management system standards are used
for preparing intelligent manufacturing information safety
management standards according to the features and demands of
intelligent manufacturing of all industries and the key
manufacturing links. They mainly include management standard
and safety supervision. Industrialization and informationization
integration management standards are used for guiding relevant
enterprises to establish innovation management mechanism and
maintain the constant competition advantages. The improvement
of industrialization and informationization integration process
management mechanism by standardization mainly includes
requirements, foundation and terms, implementation guide,
evaluation specification and audit guide.
4. Inspection evaluation standards
Inspection evaluation standards are mainly composed of
test items, test method, test device, index system, evaluation
method and implementation guide.
The test items standards are used for guiding the scientific
order arrangement and effective management of intelligent
manufacturing device and system during the test process. Test
method standards are used for preparing standards which cover
the contents, way, steps, process and calculation analysis of test
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
26
for different kinds of intelligent manufacturing devices and
systems. Test device standards are used for ensuring the
operation stability of test device and accuracy and reliability of
test indexes during the process of intelligent manufacturing
device quality and system test. Index system standards are used
for appraising the application fields, application enterprises and
application projects of intelligent manufacturing in order to
promote enterprises to enhance their intelligent manufacturing
level constantly. Evaluation method standards are used for
guiding intelligent manufacturing enterprises to develop project
evaluation and prepare intelligent manufacturing evaluation
index system. Implementation guide standards are used for
guiding the specific work during the process of intelligent
manufacturing project evaluation.
5. Reliability standards
Reliability standards are mainly composed of process and
technical method.
Process standards are mainly used for analyzing the
reliability requirements of intelligent manufacturing system, risk
management and service life fees. They are mainly composed of
reliability management of intelligent manufacturing, fault
prediction of intelligent manufacturing equipment and
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
27
comprehensive guarantee of intelligent manufacturing system.
Technical method standards are used for guiding the reliability
analysis evaluation of intelligent manufacturing system as well
as the reliability design and test verification of intelligent
equipment.
(ii) Key technique standards
Key technique standards are mainly composed of
intelligent equipment, intelligent factory, intelligent service,
industrial software and big data and industrial internet.
1. Intelligent equipment standards
Intelligent equipment refer to the equipment or device
provided with such additional functions as digital
communication and configuration, optimization, diagnosis and
maintenance, in addition to the basic functions. They are
generally provided with such capacities as perception, analysis,
reasoning, decision-making and control, which are deep
integration of advanced manufacturing technique, information
technique and intelligent technique. Intelligent equipment
standards mainly consist of sensors, meters and instruments,
embedded system, control system, human-machine interactive
system, additive manufacturing and industrial robot, as shown in
Fig. 8.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
28
BA
BA
Interface
Spe
c.
BA
AA
Ge
ne
ral Te
chn
olo
gy
BA
AB
Integratio
n
BA
EA
Mo
de
l De
sign
BA
BB
Co
mm
un
icatio
n P
roto
col
BA
AC
Co
mm
un
icatio
n P
roto
col
BA
DA
Grap
hics &
Icon
s
BA
DC
Ph
on
etics & Se
man
tics
BA
DB
To
uch
ing So
ma
tose
nso
ry Sys.
BA
FA C
om
mu
nicatio
n
BA
FB In
terface
BA
EB
Ma
nu
factu
ring Eq
uip
. & In
terfa
ce
BA
BC
Pe
rform
ance
Req
uire
me
nts
BA
B Em
be
dd
ed
System
BA
A Sen
sors, M
eters &
In
strum
ents
BA
E Ad
ditive
Man
ufactu
ring
BA
F Ind
ustrial R
ob
ot
BA
D H
MI Syste
m
BA
FC C
oo
peratio
nBA Intelligent
Equipment
BA
C C
on
trol System
BA
CA
Pro
gramm
ing Lan
gua
ge
BA
CC
Oth
ers
BA
CB
Interfa
ce
BA
DD
Bio
logica
l Fea
ture
s
Fig. 8 Intelligent Equipment Standard Sub-system
(1) Sensors, meters and instruments standards
Sensors as well as meters and instruments standards are
mainly composed of general technical standards such as data
exchange, characteristics and classification, performance
evaluation and intelligent requirements; integration standards National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
29
such as clock synchronization, interface, functional block,
equipment integration and interoperability; communication
protocol standards such fieldbus, industrial Ethernet, wireless
industrial networks, safety communication, highly available
communication and conformity.
(2) Embedded system standards
The embedded system standards of intelligent
manufacturing standard system mainly consist of interface
specification, communication protocol and performance
requirements of embedded system.
(3) Control system standards
The control system standards of intelligent manufacturing
standard system mainly include programming languages such as
PLC, DCS and FCS, and also interface.
(4) Human-machine interactive system standard
The human-machine interactive system standard of
intelligent manufacturing standard system mainly include
graphic and icon standards such as human-machine interactive
graphics and icons in industrial control field, functional
attributes and registry management; touching somatosensory
standards such as somatosensory description language, gesture
order and functional attribute; phonetic and semantic standards
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
30
such as voice command, semantic comprehension and semantic
database; biometric features recognition standards such as
biometric features recognition technical interface and biometric
features recognition data exchange.
(5) Additive Manufacturing Standards
Additive manufacturing standards mainly include model
design standards such as design specification, document format,
data quality assurance, documents storage and data processing
as well as additive manufacturing equipment and interface
standard.
(6) Industrial robot standards
Industrial robot standards (including mobile robot) mainly
include communication standards such as data format,
communication protocol, communication interface and control
semantics; interface standards such as interface between
industrial robot programming and operation graphics user,
interface between programming system and robot control;
collaboration standards such as the collaborative operation
between robot and human during the manufacturing process,
collaborative operation of robots and collaborative operation
between robot and production line.
2. Intelligent factory standards
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
31
With respect to connecting all production operation
processes of the factory, intelligent factory realize fast
information exchange, transmission, storage, processing and
seamless intelligent integration of all links ranging from
production design and sales to equipment control and enterprise
resources management. Intelligent factory standards mainly
consist of six parts, i.e., construction planning of intelligent
factory, system integration, intelligent design, intelligent
production, intelligent management and intelligent logistics, as
shown in Fig. 9.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
32
BB
AC
System
Mo
de
ling
BB
AD
Hu
ma
nistic W
orkin
g Co
nd
ition
s
BB
DA
Inte
lligen
t Diagn
osis &
Ma
inte
nan
ce
BB
DB
Ad
vanced
Co
ntro
l & O
ptim
izatio
n
BB
BA
Inte
rop
eration
Crite
ria
BB
BB
Inte
gration
Ab
ility
BB
BC
Test A
pp
licatio
n Se
rvice Inte
rface
BB
BD
Fiedl Eq
uip
men
t Inte
gratio
n
BB
AA
Ge
ne
ral P
lann
ing
BB
AB
Imp
lem
en
tatio
n G
uid
e
BB
CA
Pro
du
ct De
sign Sim
ulatio
n
BB
CB
Inte
lligen
t Op
timal D
esign
BB
FB E-id
en
tificatio
n
BB
FC A
uto
ma
tic Gu
ide
d V
ehicle
BB
EA
Wo
rksho
p M
anage
me
nt
BB
EB
Ente
rprise
Ma
na
gem
ent
BB
EC
Visu
al M
an
age
men
t
BB
FA B
ar C
od
e
BB
FD V
ertica
l Wa
reh
ou
se
BB
A C
on
structio
n P
lann
ing
BB
B Syste
m In
tegratio
n
BB
C In
telligen
t De
sign
BB
D In
telligen
t Pro
du
ction
BB
F Intellige
nt Lo
gistics
BB
E Intellige
nt M
anag.
BB Intelligent FactoryB
BFE O
the
rs
Fig. 9 Intelligent Factory Standard Sub-system
(1) Construction planning standards
Construction planning standards mainly include general
planning standards such as basic functions of a factory, design
requirements and design model standards; implementation guide
standards required for reaching the planning design of intelligent
factory such as simulation analysis, collaborative design and
construction implementation standard; system modeling
standard such as intelligent factory-based technological process
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
33
and arrangement model, production process model and
organization model; design standard that provides employees
with humanistic working conditions.
(2) System integration standards
System integration standards mainly include
interoperability criteria such as descriptions on defining
intelligent manufacturing software interoperability and matching
of manufacturing unit; standards and specifications on the
integration ability such as integration functional module
descriptions and integration ability evaluation; test application
service standards such as interface service and protocol for
describing the capacity of intelligent manufacturing software,
relevant template specification, interface for visit/search
capacity and process definition matched based on the
requirements; field equipment integration standards such as
OPC UA, EDDL, FDT and FDI.
(3) Intelligent design standards
Intelligent design standards mainly include product design
simulation standards such as product digital definition, product
digital model machine, design simulation, process simulation
and digital test, as well as intelligent optimization design National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
34
standards such as optimizing product simulation results,
describing optimization model and optimization method.
(4) Intelligent production standards
Intelligent production standards mainly consist of two parts,
i.e., standards regarding the diagnosis and maintenance of
production process control system and standards regarding the
advanced control and optimization of production process system.
The former ones include the general requirements for defining
the diagnosis, capacity evaluation and maintenance of intelligent
production system while the latter ones include the integration
structure, functional module and information interaction mode
of control and optimization software for production
manufacturing system.
(5) Intelligent management standards
Intelligent management standards mainly include the
workshop management standards such as manufacturing
message specification and MES application; enterprise
management standards such as enterprise operation
decision-making management, plan management, production
management, technique management, quality management,
personnel management, finance management, equipment
management and logistics management; visual management
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
35
standards such as the visualization of standard products
information, equipment information, inventory information,
production status and energy supervision.
(6) Intelligent logistics standards
Intelligent logistics standards mainly include the standards
used for recognizing the bar code and e-identification of raw
materials, components and parts, equipment and product
information, for the equipment inside factory such as automatic
guided vehicle as well as the intelligent logistics equipment
standard used inside the factory and the vertical warehouse of
workshop.
3. Intelligent service standards
With respect to new business and new mode, intelligent
service provides all kinds of specification and reliable service
through using enterprise’s internal and external resources
comprehensively. Intelligent service standards mainly include
three parts, i.e., personalization manufacturing, remote operation
& maintenance and industrial cloud, as shown in Fig. 10.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
36
BC
AB
Inte
raction
Spe
c.
BC
AC
Pro
du
ction
Man
ag. Pro
cess Sp
ec.
BC
CA
Re
sou
rces Sh
arin
g
BC
CB
Service A
bility
BC
BA
Pla
tform
Inte
rface
Spe
c.
BC
BB
Ge
ne
ral R
eq
uirem
en
ts
BC
AA
Desig
n Sp
ec.
BC
BC
Safe
ty Spec.
BC
A P
erso
na
lized
C
usto
m.
BC
B R
emo
te Service
BC
C In
du
strial Clo
ud
BC
D O
thers
BC
BD
Mo
nito
ring Sp
ec.
BC
BE Em
erge
ncy
Ma
na
g. Spec.
BC Intelligent Service
Fig. 10 Intelligent Service Standard Sub-system
(1) Personalized customization standards National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
37
Personalized customization standards mainly include
personalized customization design specification satisfying the
large-scale individual production, interaction specification and
production management process specification.
(2) Remote operation & maintenance standards
Remote operation & maintenance standards mainly include
platform interface specification, general requirements, safety
specification, monitoring specification and emergency
management specification.
(3) Industrial cloud standards
Industrial cloud standards mainly include resources sharing
standards such as interface and protocol as well as service
capacity standards.
4. Industrial software and big data standards
Industrial software and big data provide supports for
connecting industrial software data chain and realizing the
comprehensive application of industrial big data by focusing on
the vertical and horizontal integration of enterprise information
system. Industrial software and big data standards mainly
include industrial big data, products and systems, and service
and management, as shown in Fig. 11. National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
38
BD
BA
Ap
plica
tion
Softw
are
BD
BB
Ind
ustria
l Softw
are
Inte
gration
BD
AA
Data
Pro
cessin
g Tech
niq
ue
BD
AB
Data
Man
agem
en
t
BD
CC
Softw
are
Asse
ts Man
agem
en
t
BD
CA
Service R
eq
uirem
en
ts
BD
CB
Softw
are
Qu
ality Man
agem
en
t
BD
B P
rod
uct &
System
BD
A In
du
strial Big D
ata
BD
C Service &
Man
ag.
BD Industrial Software & Big Data
BD
D O
thers
Fig. 11 Industrial Software and Big Data Standard Sub-system
(1) Industrial big data standards National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
39
Industrial big data standards mainly include data
processing technical standards for the intelligence of production
process, product, new-industry and new-mode intelligence,
management and service intelligence, as well as data
management standards such as data quality, capacity maturity,
data assets management, data opening and sharing and
transaction.
(2) Product and system standards
Product and system standards mainly include industrial
software standards such as the functional definition of software
product, tools, system and platform, business model, technical
requirements and interface specification and industrial software
integration standards such as enterprise resource plan, supply
chain management, client relationship management,
manufacturing execution system, product lifecycle management
and process control system.
(3) Service and management standards
Service and management standards mainly include service
process and service capacity for the development, integration,
outsourcing and operation & maintenance of industrial software,
and service requirements for industrial cloud service such as
service catalogue, service level protocol, service quality and
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
40
service procurement; industrial software quality standard such
as the measurement of industrial software quality and assets
maintenance as well as the management standard of industrial
software assets.
5. Industrial internet standards
Industrial internet is designed to constructing factory
internal and external networks featured by high reliability,
bandwidth, connecting number and low time delay; it tries to
run through all layers inside the factory and full value chain
beyond the factory by focusing on interconnection, low-cost
computing, safe and reliable interoperation industrial
information infrastructures in order to realize information
tracking and management of the whole lifecycle, and satisfy
factory's internal intelligence and network and external
exchange. Industrial internet standards mainly include four parts,
i.e., system architecture, network technique, resources allocation
and network equipment, as shown in Fig. 12.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
41
BEA
A In
ne
r-Pla
nt in
side
Ne
two
rk of Fa
c.
BEA
B O
ute
r-Ne
two
rk o
f Factory
BEB
A N
etw
ork
Tech
niq
ue
BED
B In
du
strial Switch
BED
C C
hip
& C
om
mu
nica
tion
Mo
du
le
BEC
A IP
V6
BED
A In
du
strial G
atew
ay
BEC
B Fre
qu
en
cy Spectru
m
BEA
System
Arch
itectu
re
BEB
Arch
itecture Fram
ewo
rk
BE Industrial Internet
BEC
Reso
urce
s Man
ag.
BED
Netw
ork Eq
uip
men
t
BEB
B In
du
strial W
irele
ss Co
mm
un
icatio
n
BEB
C In
du
strial W
ire C
om
mu
nica
tion
BEC
C In
form
atio
n C
oo
rdin
ation
BED
D O
the
rs
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
42
Fig. 12 Industrial Internet Standard Sub-system
(1) System architecture standards
System architecture standards mainly include factory’s
internal network standards such as network interconnection of
different layers inside enterprise, interconnection and
interoperation technique under the mode of design/supply
chain/manufacturing/service/consumption collaboration; it also
includes the industrial external network standards regarding the
interconnection of enterprise, business and industry.
(2) Network technique standards
Network technique standards mainly include the standards
regarding the low time delay and highly reliable connection
between fault machines, between machine and control system
and between upstream and downstream of enterprises and
intelligently interactive network technique; industrial wireless
network standard for the different demands of field equipment
level, workshop monitoring level and factory management level;
industrial wire communication standards for industrial field bus,
industrial Ethernet and industrial cabling.
(3) Resources management standards
Resources management standards mainly include IPv6
standards applied in industrial internet and frequency spectrum
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
43
and information coordination standards of wireless frequency
spectrum applied to industrial environment.
(4) Network equipment standards
Network equipment standards mainly include standards
regarding industrial gateway such as network equipment,
communication protocol and interface, industrial switch, chip
and communication module.
(iii) Key industries standards
In strict accordance with the standards of basic generality
and key techniques, breakthrough should be made in ten key
fields in priority and then cover all intelligent manufacturing
fields by focusing on the ten key fields in China Manufacturing
2025 Strategy and by considering the demands of upgrading and
transformation of traditional manufacturing industry. All
industries should prepare the intelligent manufacturing standards
of key industries by combining their development demand and
intelligent manufacturing level. The standard system for key
industries is shown in Fig. 13.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
44
C Key Industries
CB
High
-en
d C
NC
Mach
ine
Too
l & R
ob
ot
CC
Aero
space Eq
uip
men
t
CD
Ocean
Engin
eering Eq
uip
. & H
igh-Tech
Ship
s
CE A
dvan
ced Track Tran
spo
rtation
Equ
ipm
ent
CK
Oth
ers
CA
Ne
w G
en
era
tion
of In
form
atio
n T
ech
no
logy
CG
Po
we
r Equ
ipm
ent
CH
Agricu
ltural M
ach
ine
ry E
qu
ipm
en
t
CI N
ew M
aterials
CJ B
iol.M
ed
icine&
Hig
h-P
erfo
rm. M
ed
ical D
evice
CF E
ne
rgy-Savin
g & N
ew En
ergy Ve
hicle
Fig. 13 Key Industry Standard Sub-system
Intelligent manufacturing standard system does not belong
to the standards in manufacturing fields such as aviation, ship,
petrochemical engineering and steel or vice versa but both are
overlapped to certain extent. The application standard of key
industries in intelligent manufacturing standard system connects National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
45
both. For instance, ship industrial standard systems are used for
guiding the design, manufacturing, test, repairing management
and project construction of ship-related products and intelligent
manufacturing related contents such as interconnection in the
ship manufacturing process of ship industry key standards of
intelligent manufacturing standard system.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
46
IV. Implementation Organization
The construction and planning of intelligent manufacturing
standard system are developed by the National Intelligent
Manufacturing Standardization Working Group established by
the Ministry of Industry and Information Technology of the
People’s Republic of China and Standardization Administration
of the People’s Republic of China jointly. Dynamic upgrading
and improvement mechanism should be established. With the
constant improvement of intelligent manufacturing development
level and industrial recognition level, National Intelligent
Manufacturing Standard System Construction Guideline should
be upgraded for every two years. The approval green channel
for intelligent manufacturing standard should be established and
the timely approval of key standards should be ensured. Special
financial funds should be set to support the study of intelligent
manufacturing standards, construction of test and verification
platform and industrial promotion application. The role of local
competent departments, industrial associations and societies
should be fully exerted, and standards should be publicized and
implemented through training and consultation. Intelligent National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
47
manufacturing standardization forum should be held regularly in
virtue of Sino-Germany intelligent manufacturing /Industry 4.0
Standardization Working Group to organize industries to
develop in-depth communication and cooperation.
Communication should be actively made with ISO, IEC and
other relevant international standardization organizations and
efforts should be made to promote the Chinese standards with
proprietary intellectual property rights technology to
international standards.
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
I
Appendix 1: Terms and Abbreviations related to Intelligent
Manufacturing
4G: (the 4th Generation mobile communication technology)
5G: (the 5th Generation mobile communication technology)
CAD: (Computer Aided Design)
CAM: (Computer Aided Manufacturing)
CRM: (Customer Relationship Management)
DCS: (Distributed Control System)
EDDL: (Electronic Device Description Language)
EPA: (Ethernet in Factory Automation)
ERP: (Enterprise Resource Planning)
FCS: (Fieldbus Control System)
FDI: (Field Device Integration)
FDT: (Field Device Tool)
IEC: (International Electrotechnical Committee)
IP: (Internet Protocol)
IPv6: (Internet Protocol Version 6)
ISO: (International Organization for Standardization)
LTE-M:(LTE-Machine to Machine)
MBD: (Model Based Definition)
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
II
MES: (Manufacturing Execution System)
OPC UA: (OPC Unified Architecture)
PLC: (Programmable Logic Controller)
PLM: (Product Lifecycle Management)
SCADA: (Supervisory Control and Data Acquisition)
SCM: (Supply Chain Management)
WIA: (Wireless Networks for Industrial Automation)
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
III
Appendix 2: Basic Generality and Key Technical Standards of Intelligent Manufacturing Released and
Under Preparation
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
A Basic Generality
AA Foundation
1 1 Information Technology-- Vocabulary GB/T 5271 ISO/IEC 2382 Releas
ed
2 2 Information Technology-Terminology for Embedded
Systems GB/T 22033-2008
Releas
ed
3 3 Industrial-Process Measurement and Control--Terms and
Definitions GB/T 17212-1998
Releas
ed
4 4 Networked Manufacturing - Technical Terminology GB/T 25486-2010 Releas
ed
5 5 Technical Product Documentation--Requirements for
Computer Aided Design and Drafting--Vocabulary GB/T 15751-1995 ISO/TR 10623-1992 ISO
Releas
ed
6 6 Manufacturing Information - Technical Terminology GB/T 18725-2008 Releas
ed
7 7 Information Technology--Open Systems
Interconnection--Basic Reference Model GB/T 9387 ISO/IEC 7498
Releas
ed
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
IV
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
8 8 Process Detection and Control flow Chart--Symbols and
Letter Codes GB/T 2625-1981
Releas
ed
9 9 Industrial Process Measurement and Control--Data
Structures and Elements in Process Equipment Catalogues GB/T 20818 IEC 61987 IEC SC65E
Releas
ed
10 10
Industrial-Process Measurement, Control and Automation
Reference Model for presentation of Production Facilities
(Digital Factory)
GB/Z 32235-2015 IEC 62794 IEC TC65 Releas
ed
11 11 Supply Chain Management Business Reference Model GB/T 25103-2010 Releas
ed
12 12 Batch Control GB/T
19892.1~19892.2 IEC 61512 IEC SC65A
Releas
ed
13 13 Information Technology-Metadata Registries (MDR) GB/T
18391.1~18391.6 ISO/IEC 11179
ISO/IEC JTC1
SC32
Releas
ed
14 14 Information Technology - Procedures for Achieving
Metadata Registry Content Consistency GB/T 23824 ISO/IEC TR 20943
ISO/IEC JTC1
SC32
Releas
ed
15 15
Information Technology--Open Systems
Interconnection--Procedures for the Operation of OSI
Registration Authorities--Part 1:General Procedures
GB/T 17969.1-2000 ISO/IEC 9834-1 Releas
ed
16 16
Information Technology - Open Systems Interconnection -
National Numbering System and Registration Procedures for
Object Identifier (OID)
GB/T 26231-2010 Releas
ed
17 17 Information Technology―Sensor Networks―Part 501: GB/T Releas
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
V
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
Identification: Identifier Encoding Rules for Sensor Node 30269.501-2014 ed
18 18 Industry IOT Instrument Identity Protocol 20150005-T-604
Under
prepara
tion
19 19
Information Technology Open System Interconnection
Regulations used for Object Identifier Analysis Operation
Organization
20112007-T-604
Under
prepara
tion
20 20 Information Technology Open Systems Interconnection
Object Identifier Resolution System 20120558-T-469 ISO/IEC 29168-1:2011
Under
prepara
tion
21 21 Information Technology Sensor Network Part 502:
Label: Analysis and Management Specification 20120545-T-469
Under
prepara
tion
22 22 Sensor Network Label Analysis and Management
Specification 20120545-T-469
Under
prepara
tion
23 23 Intelligent Sensor Terminology 20150007-T-604 IEC TC65
Under
prepara
tion
24 24 Additive Manufacturing-Technology Terminology 20142484-T-604 ISO 17296-1:2014 ASTM
Under
prepara
tion
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
VI
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al No.
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Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
AB Safety
25 1 Evaluation Specification for Security in Industrial Control
Network GB/T 26333-2010
Releas
ed
26 2 Industrial Control System Security GB/T
30976.1~30976.2
Releas
ed
27 3 Safety Requirements forIndustrial Automation Products GB 30439 Releas
ed
28 4 Functional Safety- Safety Instrumented Systems for the
Process Industry Sector
GB/T
21109.1~21109.3 IEC 61511 IEC SC65A
Releas
ed
29 5 Specification of Control and Communication Network CIP
Safety 20132552-Z-604 IEC 61784-3 IEC SC65C
Under
prepara
tion
30 6 Control and Communication Network Safety-over-EtherCAT
Specification 20141330-T-604 IEC 61784-3 IEC SC65C
Under
prepara
tion
31 7
Industrial Communication Networks. Network and
System Security. Part 2-1: Establishing an Industrial
Automation and Control System Security Program
20120829-T-604 IEC 62443-2-1 IEC TC65
Under
prepara
tion
32 8 Safety Protection Standard of DCS 20130783-T-604
Under
prepara
tion
33 9 Safety Management Standard of DCS 20130784-T-604 Under
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
VII
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
prepara
tion
34 10 Safety Assessment Standard of DCS 20130785-T-604
Under
prepara
tion
35 11 Inspection Standard for DCS Risk and Fragility 20130786-T-604
Under
prepara
tion
36 12 EPA Specification for Industrial Measurement and Control
System Part 5: Network Safety Specification 20077698-Q-604
Under
prepara
tion
37 13 PLC Safety Requirements 20130787-T-604
Under
prepara
tion
38 14
Information Safety Technology Safety Controlling
Information System Safety Index System of Power
System
20120527-T-469
Under
prepara
tion
AC Management
39 1 Information Technology-Service Management GB/T 24405 ISO/IEC 20000 Releas
ed
AD Inspection Evaluation
40 1 Information Technology--Open Systems Interconnection-- GB/T ISO/IEC9646 Releas
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
VIII
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al No.
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Standards Standard No./Plan
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The corresponding
international standard
No.
International
standardizatio
n organization
Status
Conformance Testing Methodology and Framework 17178.1~17178.7 ed
41 2 Industrial-process Measurement and Control--Evaluation of
System Properties for the Purpose of System Assessment
GB/T
18272.1~18272.8 IEC 61069 IEC SC65A
Releas
ed
42 3 General Methods for Testing the Performance of Industrial
Process Measurement and Control Instruments GB/T 29247-2012
Releas
ed
43 4 Process Measurement and Control Devices--General
Methods and Procedures for Evaluating Performance
GB/T
18271.1~18271.4 IEC 61298 IEC SC65B
Releas
ed
44 5
Automation Systems in the Process Industry - Factory
Acceptance Test (FAT), Site Acceptance Test (SAT), and Site
Integration Test (SIT)
GB/T 25928-2010 IEC 62381 IEC SC65E Releas
ed
45 6 Modbus Test Specification GB/T 25919-2010 Releas
ed
46 7
Information Technology Open System Interconnection
Method for Testing and Specification (MTS) Test and Test
Control Method Version 3 Part 4: TTCN-3
Operational Semantics
20142102-T-469
Under
prepara
tion
47 8 Intelligent Sensor Performance Assessment Method 20150010-T-604
Under
prepara
tion
48 9 Additive Manufacturing -- Main Characteristics and
Corresponding Test Methods 2015139-T-604 ISO 17296-3:2014 ISO TC261
Under
prepara
tion
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
IX
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al No.
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Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
AE Reliability
49 1 Presentation of Reliability,Maintainability and Availability
Predictions GB/T 7289-1987
Releas
ed
50 2 Analysis Techniques for System Reliability - Procedure for
Failure Mode and Effects Analysis(FMEA) GB/T 7826-2012
Releas
ed
51 3 Electrical Equipment for Measurement, Control and
Laboratory Use-EMC Requirements GB/T 18268 IEC 61326 IEC SC65A
Releas
ed
52 4 Model and Data Manual for the Reliability Expectation of
Electronic Equipment 20132222-T-339
Under
prepara
tion
53 5 Guidance on System Dependability Specifications 20141011-T-339 IEC 62347:2006 IEC/TC56
Under
prepara
tion
54 6 Equipment Reliability Reliability Evaluation Method 20141010-T-339 IEC62308:2006 IEC/TC56
Under
prepara
tion
55 7 General Technique of IOT Method and Review of
Reliability Design of Intelligent Sensor 20150015-T-604
Under
prepara
tion
B Key Technique
BA Intelligent equipment
56 1 Programmable Controllers Part 1: General Information GB/T IEC 61131 IEC SC65B Releas
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
X
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
15969.1~15969.8 ed
57 2 Higher Performance Protocal for the Standard Digital
Interface for Programmable Instrumentation GB/T 15946-2008 IEC 60488 IEC SC65C
Releas
ed
58 3 Technical Specification for Industrial Ethernet Switchs GB/T 30094-2013 Releas
ed
59 4 Industrial Robots—Graphical User Interfaces for
Programming and Operation of Robots(GUI-R) GB/T 19399-2003
Releas
ed
60 5 Robot General Bus Communication Protocol GB/T 29825-2013 Releas
ed
61 6 Data Interface for Software of Rapid Prototyping GB/T 25632-2010 Releas
ed
62 7 Information Technology Requirements for Chinese Voice
Recognition Internet Service Interface 20141232-T-469
Under
prepara
tion
63 8 Information Technology Requirements for Chinese Voice
Synthesis Internet Service Interface 20141231-T-469
Under
prepara
tion
64 9 Information Technology Requirements for Chinese Voice
Terminal Internet Service Interface 20141233-T-469
Under
prepara
tion
65 10 Intelligent Sensor Part 1: General 20120832-T-604 Under
prepara
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XI
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al No.
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No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
tion
66 11 Intelligent Sensor Inspection and Routine Test Guideline 20150003-T-604
Under
prepara
tion
67 12 General Technique for Internet of Things Characteristics
and Category of Intelligent Sensor 20150018-T-604
Under
prepara
tion
68 13 General Technique for Internet of Things Specification of
Intelligent Sensor Interface 20150004-T-604
Under
prepara
tion
69 14 Protocol on the Mutual Operation of Industrial Internet of
Things 20150011-T-604
Under
prepara
tion
70 15 Protocol on Instrument Service of Industrial Internet of
Things 20150012-T-604
Under
prepara
tion
71 16 Protocol on Instrument Application Attribute of Industrial
Internet of Things 20150006-T-604
Under
prepara
tion
72 17 Technical Specification of Remote Terminal Unit (RTU) 20142423-T-604
Under
prepara
tion
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XII
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al No.
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The corresponding
international standard
No.
International
standardizatio
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Status
73 18 Robot Simulation Development Environment Interface 20120878-T-604
Under
prepara
tion
74 19 Robot Modular Operation System Interface 20130872-T-604
Under
prepara
tion
75 20 High-speed Robot Communication Bus Interface 20130873-T-604
Under
prepara
tion
76 21 Specification of Controller Communication Specification of
Open Robot 20112051-T-604
Under
prepara
tion
77 22 Standard Specfication for Additive Manufacturing File
Format 20142485-T-604
ISO/ASTM
52915:2013 ISO&ASTM
Under
prepara
tion
78 23 Standard Practice - Guide for Design for Additive
Manufacturing 20151392-T-604
ISO/ASTM DIS
20195 ISO&ASTM
Under
prepara
tion
BB Intelligent Factory
79 1 Information Technology - Radio Frequency Identification -
Air Interface Protocol at 800-900MHz GB/T 29768-2013
Releas
ed
80 2 Information Technology - Radio Frequency Identification - GB/T 28925-2012 Releas
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XIII
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al No.
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international standard
No.
International
standardizatio
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Status
Air Interface Protocol at 2.45 GHz ed
81 3 Information Technology - Radio Frequency Identification -
Conformance Test Methods for Air Interface at 2.45GHz GB/T 28926-2012
Releas
ed
82 4 Field Device Tool (FDT) Interface Specification GB/T 29618 IEC 62453 IEC SC65E Releas
ed
83 5 Function Blocks for Process Control GB/T
21099.1~21099.3 IEC/TS 61804 IEC SC66E
Releas
ed
84 6 Control Network LONWORKS Technology Specification GB/Z
20177.1~20177.4
Releas
ed
85 7 Control Network HBES Technical Specification -Home and
Building Control System GB/T 20965-2013
Releas
ed
86 8 Industrial Communication Networks - Installation of
Communication Networks in Industrial premises GB/T 26336-2010 IEC 61918
Releas
ed
87 9 Function Blocks for Industrial-Process Measurement and
Control System
GB/T
19769.1~19769.4 IEC 61499 IEC SC65B
Releas
ed
88 10 Technical Product Documentation--Lettering CAD
Lettering of the Latin Alphabet Numerals and Marks GB/T 18594-2001
Releas
ed
89 11 Technical Drawings Preparation of Lines by CAD Systems GB/T 18686-2002 Releas
ed
90 12 Technical Product Documentation--Organization and
Naming of Layers for CAD--Part 1:Overview and Principles
GB/T
18617.1~18617.11 ISO 13567 ISO
Releas
ed
91 13 Technical Product Documentation--Life Cycle Model and GB/T 19097-2003 ISO 15226:1999 ISO Releas
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
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al No.
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No.
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Status
Allocation of Documents ed
92 14
Technical Product Documentation - Handling of
Computer-based Technical Information - Security
Requirements
GB/T
16722.1~16722.4 ISO 11442 ISO
Releas
ed
93 15 Rule of CAD Engineering Drawing GB/T 18229-2000 Releas
ed
94 16 Management of CAD Documents GB/T
17825.1~17825.10
Releas
ed
95 17 Specification for Function of Computer Aided Process
Planning System GB/T 28282-2012
Releas
ed
96 18 Specification of Industry Enterprise Informationization
Integration System GB/T 26335-2010
Releas
ed
97 19 Industrial Automation Systems - Requirements for
Enterprise-reference Architectures and Methodology GB/T 18757-2008 ISO 15704:2000,IDT ISO TC184
Releas
ed
98 20 Industrial Automation Systems--Concepts and Rules for
Enterprise Models GB/T 18999-2003 ISO 14258:1998,IDT ISO TC184
Releas
ed
99 21 Industrial Automation Systems--Manufacturing Message
Specification
GB/T
16720.1~16720.4 ISO 9506 ISO TC184
Releas
ed
100 22
Industrial Automation Systems and
Integration-manufacturing Software Capability Profiling for
Interoperability-Part 1:Framework
GB/T
19902.1~19902.6 ISO 16100 ISO TC184
Releas
ed
101 23 Industrial Automation Systems and Integration-Service GB/T ISO 20242 ISO TC184 Releas
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al No.
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No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
Interface for Testing Applications 22270.1~22270.2 ed
102 24
Industrial Automation Systems and Integration- Open
Systems Application Integration Framework-Part 1: Generic
Reference Description
GB/T
19659.1~19659.5 ISO 15745 ISO TC184
Releas
ed
103 25 Industrial Automation Systems and Integration Product
Data Representation and Exchange
GB/T
16656.501-2005 ISO 10303 ISO TC184
Releas
ed
104 26
Industrial Automation Systems and Integration-
Diagnostics, Capability Assessment and Maintenance
Applications Integration- Part 1: Overview and General
Requirements
GB/T 27758 ISO 18435 ISO TC184 Releas
ed
105 27 Industrial Automation Systems and Integration - Process
Specification Language GB/T 20719 ISO 18629 ISO TC184
Releas
ed
106 28 Industrial Automation Systems and Integration--Functional
Architectureof Manufacturing Execution System GB/T 25485-2010
Releas
ed
107 29 Industrial Automation—Shop FloorProduction GB/T
16980.1~16980.2 IDT ISO/TR 10314 ISO TC184
Releas
ed
108 30 Implementation Guide for Enterprise Informationization
System Integration GB/T 26327-2010
Releas
ed
109 31 Enterprise Integration - Framework for Enterprise Modelling GB/T 16642-2008 ISO 19439-2006,IDT ISO TC184 Releas
ed
110 32 Enterprise Integration - Constructs for Enterprise Modeling GB/T 22454-2008 ISO 19440-2007,IDT ISO TC184 Releas
ed
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
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No.
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Status
111 33 Enterprise Resource Planning GB/T
25109.1~25109.4
Releas
ed
112 34 Enterprise Application PDM Implementing Specification GB/Z 18727-2002 Releas
ed
113 35 Enterprise-Control System Integration GB/T
20720.1~20720.3 IEC 62264 ISO TC184
Releas
ed
114 36 Networked Manufacturing System Implementing
Specification GB/T 25487-2010
Releas
ed
115 37 Networked Manufacturing Environment - Business
Interoperability Protocol and Model GB/T 30095-2013
Releas
ed
116 38 Integrated Model for Networked Manufacturing System GB/T 25488-2010 Releas
ed
117 39 Evaluation System for Manufacturing Informatization GB/T 31131-2014 Releas
ed
118 40 Condition Monitoring and Diagnostics of Machines - Data
Processing, Communication and Presentation
GB/T
22281.1~22281.2 ISO 13374 ISO TC184
Releas
ed
119 41 Functional Architecture of ASP Platform for Networked
Manufacturing GB/T 25460-2010
Releas
ed
120 42 Specification of Enterprise Information Integration in
Network Environment GB/T 18729-2011
Releas
ed
121 43 General Specifications of Automatic Guided Vehicles GB/T 20721-2006 Releas
ed
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
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international standard
No.
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Status
122 44 OPC Unified Architecture 20090699-T-60 IEC 62541 IEC SC65E
Under
prepara
tion
123 45 FDT/DTM and EDDL Mutual Operation Specification 20130772-T-604
Under
prepara
tion
124 46 PROFIBUS Installation Guideline Planning Design,
Wiring Assembly and Debugging Acceptance 20132542-T-604
Under
prepara
tion
125 47 Energy Efficiency through Automation Systems 20141328-T-604 IEC/TR 62837: 2013 IEC TC65
Under
prepara
tion
126 48 Technical Product Documents Product Lifecycle
Management Document Management 20130219-T-469
Under
prepara
tion
127 49
Advanced Automation Technologies and Applications
Requirements for EstablishingManufacturing Enterprise
Process Interoperability Part 1: Framework for Enterprise
Interoperability
20120881-T-604 ISO 11354-1:2011
IDT ISO TC184
Under
prepara
tion
128 50 Standard of Core Components for Group Enterprise
Operation Management Informationization 20132566-T-604
Under
prepara
tion
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XVIII
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No.
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Status
129 51 Reference Model of Operation Management Business of
Group Enterprise 20132567-T-604
Under
prepara
tion
130 52 Interface of Automatic Identification Technology, ERP,
MES and CRM 20132580-T-604
Under
prepara
tion
131 53
automation Systems and Integration -- Evaluating
Energy Efficiency and Other Factors of Manufacturing
Systems that Influence the Environment -- Part 1:
Overview and General Principles
20141341-T-604 ISO 20140-1:2013 ISO TC184
Under
prepara
tion
132 54
Automation System and Integration Manufacturing System
Advanced Control and Optimization Software Integration
Part 2: Structure and Function
20141342-T-604
Under
prepara
tion
133 55 Functional System of Logistics Equipment Management
Monitoring System 20130876-T-604
Under
prepara
tion
BC Intelligent Service
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XIX
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al No.
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No.
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standardizatio
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Status
134 1 Information Technology—Elastic Computing Application
Interface GB/T 31915-2015
Releas
ed
135 2
Information Technology--Cloud Data Storage and
Management--Part 2: Object-based Cloud Storage
Application Interface
GB/T 31916.2-2015 Releas
ed
136 3 Terminology of cloud computing 20120570-T-469
Under
prepara
tion
137 4 Reference structure of cloud computing 20121421-T-469
Under
prepara
tion
138 5 Information Technology Cloud Computing Cloud Service
Level Protocol Specification 20153705-T-469
Under
prepara
tion
BD Industrial Software and Big Data
139 1 Software Engineering - Product Quality GB/T
16260.1~16260.4
Releas
ed
140 2 Software Engineering - Software Product Quality
Requirements and Evaluation (SQuaRE) - Guide to SQuaRE GB/T 25000.1-2010
Releas
ed
141 3
Software Engineering - Software Product Quality
Requirements and Evaluation (SQuaRE) - Requirements for
Quality of Commercial Off-the-self (COTS) Software
GB/T 25000.51-2010 Releas
ed
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XX
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international standard
No.
International
standardizatio
n organization
Status
Product and Instructions for Testing
142 4 Embedded Software Quality Assurance Requirement GB/T 28172:2011 Releas
ed
143 5 Functionality of System and Software GB/T
29831.1~29831.3
Releas
ed
144 6 Reliability of System and Software GB/T
29832.1~29832.3
Releas
ed
145 7 Portability of System and Software GB/T
29833.1~29833.3
Releas
ed
146 8 Maintainability of System and Software GB/T
29834.1~29834.3
Releas
ed
147 9 Efficiency of System and Software GB/T
29835.1~29835.3
Releas
ed
148 10 Usability of System and Software GB/T
29836.1~29836.3
Releas
ed
149 11 Embedded Software Quality Metric GB/T 30961-2014 Releas
ed
150 12 Information Technology--Guide for Software Life Cycle
Processes GB/Z 18493-2001
Releas
ed
151 13 Systems Engineering - System Life Cycle Processes GB/T 22032-2008 Releas
ed
152 14 Systems Engineering―A Guide for the Application of GB/Z 31103-2014 Releas
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XXI
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al No.
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Status
GB/T 22032 (System Life Cycle Processes) ed
153 15 IOT Data Quality 20150046-T-469
Under
prepara
tion
154 16 Requirements for Multimedia Data Terms Descriptions 20141172-T-469
Under
prepara
tion
155 17 Information Technology Specification for Importing
Interface of General Data 20141204-T-469
Under
prepara
tion
156 18 Information Technology Model of Data Provenance
Descriptions 20141202-T-469
Under
prepara
tion
157 19 Information Technology Data Quality Evaluation Index 20141203-T-469
Under
prepara
tion
158 20 Information Technology Data Transaction Service Platform
Descriptions of Transaction Data 20141200-T-469
Under
prepara
tion
159 21 Information Technology Data Transaction Service
Platform General Functional Requirements 20141201-T-469
Under
prepara
tion
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XXII
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al No.
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No.
International
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Status
160 22 MES Specification 2012-0532T-SJ
Under
prepara
tion
161 23 Management Specification of Technical Data 2012-0546T-SJ
Under
prepara
tion
162 24 Management Specification of Product Life Cycle 2012-0547T-SJ
Under
prepara
tion
163 25 Data Capacity Maturity Evaluation Model 20141184-T-469
Under
prepara
tion
164 26 Software Assets Management Capacity Maturity Model 2012-2404T-SJ
Under
prepara
tion
165 27 Software Assets Management Implementation Guidance 2012-2405T-SJ
Under
prepara
tion
BE Industrial Internet
166 1
Information Technology—Sensor Networks—Part 301:
Communication and Information Exchange: Network Layer
and Application Support Sublayer Technical Specifications
GB/T
30269.301-2014
Releas
ed
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
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No.
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Status
for Low-Rate Wireless Sensor Networks
167 2
Information Technology—Telecommunications and
Information Exchange between Systems—Local and
Metropolitan Area Networks—Specific Requirements—Part
3:Carrier Sense Multiple Access with Collision Detection
(CSMA/CD) Access Method and Physical Layer
GB/T 15629.3-2014 Releas
ed
168 3
Information Technology--Telecommunication and
Information Exchange between Systems--OSI Routing
Framework
GB/Z 17977-2000 Releas
ed
169 4
Information Technology - Enhanced Communication
Transport Protocol - Part 1: Specification of Simplex
Multicast Transport
GB/T 26241.1-2010 Releas
ed
170 5 Information Technology Relayed Multicast Control
Protocol (RMCP): Part 1: Framework GB/T 26243.1-2010
Releas
ed
171 6 Information Technology-- Sensor Networks --Part 2:
Terminology GB/T 30269.2-2013
Releas
ed
172 7
Information Technology Sensor Network Part 302:
Communication and Information Exchange: Media Visit
Control and Physical Layer Specification of Wireless Sensor
Network for High Reliability Application
20120549-T-469 Releas
ed
173 8 Information Technology―Sensor Networks―Part 501:
Identification: Identifier Encoding Rules for Sensor Node
GB/T
30269.501-2014
Releas
ed
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
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Status
174 9
Information Technology - Telecommunications and
Information Exchange Between Systems Local and
Metropolitan Area Networks - Specific Requirements
GB/T 15629 Releas
ed
175 10 Information Technology--Sensor Network--Part 701: Sensor
Interface: Signal Interface
GB/T
30269.701-2014
Releas
ed
176 11
Digital Data Communication for Measurement and Control.
Fieldbus for Use in Industrial Systems. Type 3: PROFIBUS
Specification.
GB/T 20540-2006 IEC 61158, IEC
61784 IEC SC65C
Releas
ed
177 12
Digital Data Communication for Measurement and Control
- Fieldbus for Use in Industrial Control Systems Type 10:
PROFINET Specification
GB/T 20541-2006 IEC 61158, IEC
61784 IEC SC65C
Releas
ed
178 13
Digital Data Communication for Measurement and Control
- Fieldbus for Use in Industrial Control Systems Type 2:
ControlNet and EtherNet/IP Specification
GB/Z 26157-2010 IEC 61158, IEC
61784 IEC SC65C
Releas
ed
179 14
Digital Data Communication for Measurement and Control
- Fieldbus for Use in Industrial Control Systems - Type 8:
INTERBUS Specification
GB/Z 29619-2013 IEC 61158, IEC
61784 IEC SC65C
Releas
ed
180 15 Industrial Communication Networks―Fieldbus
Specifications―Type 20 HART specification GB/T 29910-2013
IEC 61158, IEC
61784 IEC SC65C
Releas
ed
181 16 Industrial Communication Networks―Fieldbus
Specifications―Type 10: PROFINET IO Specifications GB/T 25105
IEC 61158, IEC
61784
Releas
ed
182 17 Industrial Communication Networks―Fieldbus GB/T 29910.5-2013 IEC 62591:2010 IEC SC65C Releas
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Specifications―Type 20 HART Specification―Part 5:
Wireless HART Wireless Communication Network and
Communication Profile
ed
183 18 Industrial Ethernet Fieldbus EtherCAT GB/T 31230-2014 IEC 61158, IEC
61784 IEC SC65C
Releas
ed
184 19 Industrial Wireless Network WIA Specification GB/T
26790.1~26790.2 IEC 62601
Releas
ed
185 20 EPA System Architecture and Communication Specification
for Use in Industrial Control and Measurement Systems GB/T 20171-2006
IEC 61158, IEC
61784 IEC SC65C
Releas
ed
186 21 Ethernet POWERLINK Communication profile
Specification GB/T 27960-2011 IEC 61158 IEC SC65C
Releas
ed
187 22 Modbus - Industrial Automation Network Specification GB/T 19582-2008 IEC 61158, IEC
61784 IEC SC65C
Releas
ed
188 23 CC-Link ( Control & Communication Link ) Specification GB/T 19760-2008 IEC 61158, IEC
61784 IEC SC65C
Releas
ed
189 24 PROFIBUS&PROFINET Technical ProfilePROFIdrive GB/T 25740-2013 Releas
ed
190 25
Information Technology Inter-system Remote
Communication and Information Exchange Community
Energy-saving Control Network Protocol
20141206-T-469
Under
prepara
tion
191 26 Information Technology Sensor Network Part 901:
Gateway 20120550-T-469
Under
prepara
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XXVI
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
tion
192 27 Information Technology General Cabling Industrial
Building Cluster 20132347-T-469
Under
prepara
tion
193 28
Information Technology Inter-system Remote
Communication and Information Exchange Low-voltage
Power Line Communication
20141207-T-469
Under
prepara
tion
194 29
Information Technology Sensor Network Part 1:
Reference System Structure and General Technical
Requirements
20091414-T-469
Under
prepara
tion
195 30
Information Technology Sensor Network Part 303:
Communication and Information Exchange: Technical
Specification of Network Layer of IP-based Wireless Sensor
Network
20153381-T-469
Under
prepara
tion
196 31
Information Technology Sensor Network Part 305:
Communication and Information Exchange: Ultrasound
Communication Protocol Specification
20150041-T-469
Under
prepara
tion
197 32
Information Technology Sensor Network Part 401:
Collaborative Information Processing: Service and Interface
Supporting Collaborative Information Processing
20100400-T-469
Under
prepara
tion
198 33 Information Technology Sensor Network Part 502:
Mark: Specification of Analysis and Management of Sensing 20120545-T-469
Under
prepara
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XXVII
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
Node tion
199 34 Information Technology Sensor Network Part 504:
Mark: Management Specification of Identifier 20153386-T-469
Under
prepara
tion
200 35 Information Technology Sensor Network Part 601:
Information Safety: General Technical Specification 20091418-T-469
Under
prepara
tion
201 36
Information Technology Sensor Network Part 602:
Information Safety: Technical Specification of Network
Transmission Safety
20120551-T-469
Under
prepara
tion
202 37
Information Technology Sensor Network Part 603:
Information Safety Safety Assessment Specification of
Network Transmission
20150039-T-469
Under
prepara
tion
203 38
Information Technology Sensor Network Part 604:
Safety Assessment Specification of Network Layer and
Application Support Sub-layer of Low Rate Wireless Sensor
Network
20153385-T-469
Under
prepara
tion
204 39 Information Technology Sensor Network Part 702:
Sensor Interface: Data Interface 20100398-T-469
Under
prepara
tion
205 40 Information Technology Sensor Network Part 801:
Test: General Requirements 20120548-T-469
Under
prepara
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XXVIII
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
tion
206 41
Information Technology Sensor Network Part 802:
Test: Media Visit Control and Physical Layer of Low-speed
Wireless Sensor Network
20120546-T-469
Under
prepara
tion
207 42
Information Technology Sensor Network Part 803:
Test: Network Layer and Application Supporting Sub-layer
of Low-speed Wireless Sensor Network
20120547-T-469
Under
prepara
tion
208 43 Information Technology Sensor Network Part 804:
Test: Test Specification of Sensor Interface 20153384-T-469
Under
prepara
tion
209 44 Information Technology Sensor Network Part 805:
Test: Test Specification of Sensor Gateway 20153383-T-469
Under
prepara
tion
210 45
Information Technology Sensor Network Part 806:
Test: Technical Specification of Consistency of Sensing
Node Identification
20153382-T-469
Under
prepara
tion
211 46
Information Technology Sensor Network Part 1001:
Intermediate Parts: Sensor Network Node Data Interaction
Specification
20100399-T-469
Under
prepara
tion
212 47
Information Technology Inter-system Remote
Communication and Information Exchange Medium and
High-speed Wireless LAN Media Visit Control and Physical
20132349-T-469
Under
prepara
tion
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XXIX
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
Layer Specification
213 48
Information Technology Inter-system Remote
Communication and Information Exchange Special
Requirements for LAN and MAN VLC-based
Communication Media Visit Control and Physical Layer
Specification
20142105-T-469
Under
prepara
tion
214 49 IOT Reference Model of Collaborative Information
Processing 20150040-T-469
Under
prepara
tion
215 50 IOT Information Fusion Model of Perceptive Object 20150049-T-469
Under
prepara
tion
216 51 IOT Information Exchange and Sharing 20150042-T-469
Under
prepara
tion
217 52 IOT Reference System Structure 20130054-T-469
Under
prepara
tion
218 53 IOT Interface Requirements 20130055-T-469
Under
prepara
tion
219 54 Rules for the Implementation of IOT Integration Platform of 20132572-T-604 Under
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)
XXX
Gener
al No.
Secon
dary
No.
Standards Standard No./Plan
No.
The corresponding
international standard
No.
International
standardizatio
n organization
Status
Manufacturing Process prepara
tion
220 55 Reference System of Intermediate Parts Platform of
Manufacturing Process Material Connection 20132573-T-604
Under
prepara
tion
National Intelligent Manufacturing Standard System Construction Guidelines (Version 2015)