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Industrial wireless network WIA specification -- Part 1: WIA System architecture communication specification for process automation (WIA-PA)
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Basic data | Standard ID | GB/T 26790.1-2011 (GB/T26790.1-2011) | | Description (Translated English) | Industrial wireless network WIA specification -- Part 1: WIA System architecture communication specification for process automation (WIA-PA) | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | N10 | | Classification of International Standard | 25.040 | | Word Count Estimation | 173,161 | | Date of Issue | 2011-07-29 | | Date of Implementation | 2011-12-01 | | Quoted Standard | GB/T 9387.1; GB/T 19769.1; GB/T 19769.2; GB/T 19769.4; GB/T 21099.1; IEEE STD 802.15.4-2006 | | Regulation (derived from) | Announcement of Newly Approved National Standards No. 12 of 2011 | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This standard specifies based on IEEE STD 802. 15. 4-2006 the WIA-PA (Wireless Networks for Industrial Automation. Process Automation) system architecture and communication specification. This section applies to industrial process measurement, monitoring and control of wireless network systems. | GB/T 26790.1-2011: Industrial wireless network WIA specification -- Part 1: WIA System architecture communication specification for process automation (WIA-PA)
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Industrial wireless network WIA specification Part 1. WIA System architecture communication specification for process automation (WIA-PA)
ICS 25.040
N10
National Standards of People's Republic of China
Industrial Wireless Network WIA Specification
Part 1. for process automation
WIA system architecture and communications specifications
Part 1. WIASystemarchitectureandcommunicationspecification
forprocessautomation (WIA-PA)
Issued on. 2011-07-29
2011-12-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Preface Ⅺ
1 Scope 1
2 Normative references 1
3 Terms, Definitions and Abbreviations 1
3.1 Terms and definitions
3.2 Acronyms 5
4 data type definitions 7
4.1 Boolean type 7
Unsigned int 7 4.2
4.3 Eight-string type 7
4.4 floating-point type 7
5 Overview 7
7 5.1 Device Type
5.2 Topology 8
5.3 Stack Structure 9
5.4 data stream 10
5.5 Interconnection 10
6 11 System Management
6.1 Overview 11
6.2 Systems Management Architecture 13
14 6.3 devices to join the process
6.4 virtual communication relationships 17
6.5 routing configuration and communication resource allocation 18
6.6 21 polymerization and depolymerization
6.7 Network Performance Monitoring 28
6.8 device leaves the process 29
6.9 MIB and service 32
7 Physical Layer 44
44 8 the data link layer
8.1 Overview 44
8.2 protocol stack structure 44
8.3 MAC layer 45 Overview and extensions
Functional Description 47 8.4 DLSL
8.5 Data Link Data Services sublayer 53
8.6 Data Link sub-layer management services 57
8.7 the data link layer frame format 64
9 Network Layer 65
9.1 Overview 65
9.2 protocol stack structure 65
9.3 Functional Description 66
9.4 Network Layer Service Data 68
9.5 Network Layer Management Service 70
9.6 network layer packet format 117
10 Application Layer 128
10.1 Overview 128
10.2 user application process 129
10.3 application sub-layer 132
10.4 application sub-layer packet format 137
11 Security 140
11.1 Overview 140
11.2 Security Management Architecture 141
11.3 secure communication system protocol stack 142
144 11.4 Key Management
11.5 safety net process 146
11.6 Secure transport 151
Security Policy 153 Appendix A (Informative Appendix) WIA-PA network
A.1 WIA-PA network risk analysis 153
A.2 WIA-PA safety principles 153
A.3 WIA-PA security goals 153
A.4 WIA-PA hierarchical classification system security 153
Safety Classification A.5 WIA-PA security packet 154
Appendix B (Informative Appendix) WIA-PA prescribed format description 155
B.1 timing diagram 155
B.2 packet format and frame format 155
Annex C (informative) application layer user application object instance 157
C.1 Overview 157
C.2 Analog Input Object 157
References 159
Figure 1 WIA-PA network star and mesh topologies combining two 8
2 WIA-PA network star topology Figure 8
Figure 3 OSI Basic Reference Model WIA-PA mapping between the network protocol layer 9
Figure 4 basic data flow graph 10
Frame Figure 5 WIA-PA gateway 11
Figure 6 System Management DMAP 12
7 Distributed Systems Management Architecture 13
8 routing device to join the network via a gateway device process 14
9 routing device by the device through the network to join the network in the process of 15
10 field devices to join the process of the gateway device 16
11 field devices added to the routing device process 16
Device 16 Figure 12 long address
13 short address routing device 17
14 short field device address 17
15 communication resource allocation example of FIG. 19
A communication resource allocation process 16 of the routing device 20
17 field devices added to the routing device communication resource allocation process 21
18 field devices DAGO aggregate data format 23
19 routing equipment PAGO aggregate data format 23
20 package polymerization and depolymerization example 25
21 path failure reporting process 28
22 field device status reporting process 28
23 routing device status reporting process 29
24 channel status reporting process 29
25 to leave the network routing device active process 30
26 to leave the network routing device passive process 30
Process 27 initiative to leave the field device gateway device 31
Process field devices 28 initiative to leave the routing device 31
29 were forced to leave the field device gateway process 32
Figure 30 field devices were forced to leave the routing device process 32
Figure 31 WIA-PA data link layer stack structure 45
32 beacon frame payload content 46
Figure 33 MAC Layer Keep-alive command frame format 47
Figure 34 MAC time synchronization command frame format 47
35 Data Link sub-layer reference model 47
Figure 36 WIA-PA example super frame structure 48
Figure 37 R1, R2 and R3 superframe structure 50
Treatment Example 38 Example 50 long-period data
Figure 39 DLSL state machine 52
Figure 40 Figure 56 Timing Data Service
Figure 41 Network Discovery timing diagram 59
42 data link layer frame format 64 Universal
43 Data Link layer frame control format 64
Figure 44 Data Link Layer frame format 64
45 data link layer command frame format 65 Universal
46 position in the network layer protocol stack 65
Figure 47 Network Layer Reference Model 65
Figure 48 Network Layer state machine 68
Figure 49 timing diagram data service network layer 70
Figure 50 field devices added to the routing device timing chart (field devices --- routing device end) 73
Figure 51 field devices added to the routing device timing chart (routing devices --- gateway device) 73
52-hop routing equipment was added timing diagram 74
53 multi-hop routing equipment was added timing chart (to be added to the network by the routing devices --- device side) 74
Figure 54 multi-hop routing equipment was added timing diagram (network gateway device by the device --- end) 75
55 field devices initiative to leave the routing device timing chart (field devices --- routing device end) 77
Figure 56 field devices initiative to leave the routing device timing chart (routing devices --- gateway device) 77
57 were forced to leave the field device routing device timing chart (routing equipment --- field device end) 78
Figure 58 field devices were forced to leave the routing device timing chart (routing devices --- gateway device) 78
59 initiative to leave the routing device timing chart (routing devices --- gateway device) 79
Figure 60 timing diagram of the initiative to leave the routing device (routers --- field device end) 79
61 were forced to leave the routing device timing diagram (--- gateway routing device end) 80
62 were forced to leave the routing device timing chart (routing equipment --- field device end) 80
63 cluster members reported a timing diagram 82
64 reported neighbors of timing diagram 84
65 added to a route timing diagram 85
Figure 66 Figure 87 Timing routing updates
Figure 67 Delete route primitive timing diagram 89
68 network managers to increase routing device link timing chart 92
Figure 69 The routing device link field devices to increase timing chart 92
Figure 70 updates the routing gateway device links a timing diagram 94
71 field devices link routing device update timing chart 94
Figure 72 gateway routing device links release timing chart 96
Figure 73 field devices link routing device release timing chart 97
74 gateway devices add routing device configuration superframe timing diagram 99
Figure 75 The routing device to increase the field device timing chart super frame configuration 99
76 gateway device to update the routing configuration of the superframe timing diagram of the device 101
77 update routing device field device configuration superframe timing diagram 101
78 gateway routing equipment super frame configuration release timing diagram 103
Figure 79 routing device releases the field device configuration superframe timing diagram 104
Figure 80 field devices to the routing device status report timing device 107
Figure 81 The routing device to the gateway device status report timing chart 107
Figure 82 field devices to the routing device reporting channel state timing diagram 109
Figure 83 The routing device to the gateway device reporting channel state timing diagram 109
84 path failure report timing diagram 111
Figure 85 Network Properties Gets a timing diagram 114
Figure 86 Network Properties Gets a timing diagram 117
87 common network layer packet format 118
88 network layer packet format 119
Figure 89 polymeric network layer packet format 119
Figure 90 network layer packet format command 119
Figure 91 join a network layer packet format request command 121
92 in response to commands to join the network layer packet format 121
93 to leave the network layer packet format request command 121
Figure 94 Network Layer leave a response command packet format 121
Figure 95 reports of cluster members network layer packet format request command 122
96 members of the network layer reporting cluster response command packet format 122
97 network layer reporting neighbor information request command packet format 122
Figure 98 increase network layer routing request command packet format 122
99 increase in response to the command network layer routing packet format 122
Figure 100 Network layer routing update request command packet format 123
101 network layer routing updates in response to a command packet format 123
102 network layer routing delete request command packet format 123
103 network layer routing deletion response command packet format 123
Figure 104 Link increase network layer packet format request command 123
105 Network Link increase the response command packet format 124
106 network layer link update request command packet format 124
107 network layer link update response command packet format 124
108 network layer link release request command packet format 124
109 network layer link release response command packet format 124
Figure 110 Network Layer superframe increase request command packet format 125
111 network layer superframe increase the response command packet format 125
112 network layer super frame update request command packet format 125
113 network layer super frame update response command packet format 125
114 network layer superframe release request command packet format 125
115 network layer superframe release response command packet format 126
116 network layer device status report request command packet format 126
117 network layer device status information format 126
118 network layer channel status report request command packet format 126
The network layer 119 a channel quality information format 126
120 network layer packet path failure report request command format 126
121 Property Gets the network layer packet format request command 127
122 Property Gets the network layer packet format 127 in response to commands
123 Configuring network layer attributes request command packet format 127
124 Configuring network layer attributes response command packet format 127
125 128 Application Layer Structure
126 user application process implementations 129
Figure 127 Client-Server communication process 135
Figure 128 Publisher/Subscriber communication process (not enabled aggregation function) 136
Figure 129 Publisher/Subscriber communication process (enable aggregation function) 136
Figure 130 ReportSource/Sink communication process 137
131 Universal application sub-layer packet format 137
132 package format control field 138
133 application sub-layer packet format 139
134 confirmation packet format 140
Figure 135 WIA-PA network security system schematic 141
136 secure communication protocol stack 142 schematic
Figure 137 MAC layer PDU structure 142
Figure 138 DLPDU frame format 143
Chart 139 DLSL layer security head 143
Figure 140 application layer security packet format 144
141 key life cycle sequence 145
Figure 142 WA-PA network device security process 146
143 safety field devices added to the routing device timing chart (field devices --- routing device) 149
144 safety field devices added to the routing device timing chart (routing devices --- gateway device) 149
145 hop routing equipment was added timing diagram 150
146 multi-hop routing equipment was added timing chart (to be added to the network by the routing devices --- device) 150
147 multi-hop routing equipment was added timing chart (by the network equipment --- gateway device) 151
Figure B.1 timing diagram 155
Table 1 VCR protocol support required 18
Table 2 aggregation VCR and the corresponding list 22
Table 3 data aggregation object class level attributes 26
Table 4 data aggregation object instance instance-level property 26
Table 5 MEM_STRUCT structure 27
Table 6 packet aggregation object class level attributes 27
Table 7 packet aggregation instance of an object-level properties 27
Table 8 depolymerization object class level attributes 27
Table 9 depolymerization instance of an object-level properties 28
Table attributes Unstructured 10 33
Table 11 Structure of property 35
Table 12 NLRoute_Tbl structure definition 36
Table 13 Superframe_Struct structure definition 36
Table 14 Link_Struct structure definition 36
Table 15 Neighbor_Struct structure definition 37
Table 16 ChanCon_Struct structure definition 38
Table 17 Device_Struct structure definition 38
Table 18 VCR_Struct structure definition 40
Table 19 DevConRep_Struct structure definition 40
Table 20 Key_Struct structure definition 41
Table 21 ObjList_Struct structure definition 41
Table parameters 42 22 DMAP-MIB-GET.request primitive
Table parameters 42 23 DMAP-MIB-GET.confirm primitive
Table 24 DMAP-MIB-SET.request primitive parameter 43
Table 25 DMAP-MIB-SET.confirm primitive parameter 44
Table 26 MAC layer command frame extension 45
Table 27 MLME-TIME-SYN.request primitive parameter 46
Table 28 hopping mechanism 49
Table 29 DLSL state transition table 52
Table 30 DLDE-DATA.request primitive parameter 54
Table 31 DLDE-DATA.confirm primitive parameter 54
Table 32 lists the results of the command execution 55
Table 33 DLDE-DATA.indication primitive parameter 55
Table 34 DLME-DISCOVERY.request primitive parameter 57
Table 35 DLME-DISCOVERY.confirm primitive parameter 58
Table 36 NetDes_Struct element structure Table 58
Table 37 DLME-JOIN.request primitive parameter 59
Table 38 DLME-JOIN.indication primitive parameter 60
Table 39 DLME-JOIN.response primitive parameter 60
Table 40 DLME-JOIN.confirm primitive parameter 61
Table 41 DLME-LEAVE.request primitive parameter 61
Table 42 DLME-LEAVE.confirm primitive parameter 62
Table 43 DLME-CHANNEL-CONDITION.indication primitive parameter 63
Table 44 DLME-NEIGHBOR-INFO.indication primitive parameter 63
Table 45 DLME-TIME-SYN.request primitive parameter 63
Table 46 data link layer command frame format 65
Table 47 Example of Route 67
Table 48 network layer state definition 67
Table 49 Network Layer state transition table 68
Table 50 NLDE-DATA.request primitive parameter 69
Table 51 NLDE-DATA.confirm primitive parameter 69
Table 52 NLDE-DATA.indication primitive parameter 70
Table 53 NLME-JOIN.request primitive parameter 71
Table 54 NLME-JOIN.indication primitive parameter 71
Table 55 NLME-JOIN.response primitive parameter 72
Table 56 NLME-JOIN.confirm primitive parameter 72
Table 57 NLME-LEAVE.request primitive parameter 75
Table 58 NLME-LEAVE.indication primitive parameter 76
Table 59 NLME-LEAVE.response primitive parameter 76
Table 60 NLME-LEAVE.confirm primitive parameter 76
Table 61 NLME-RPT-CLRMEM.request primitive parameter 81
Table 62 NLME-RPT-CLRMEM.confirm primitive parameter 81
Table 63 NLME-RPT-CLRMEM.response primitive parameter 82
Table 64 NLME-NEIBOR-INFO.request primitive parameter 83
Table 65 NLME-NEIBOR-INFO.indication primitive parameter 83
Table 66 NLME-NEIBOR-INFO.confirm primitive parameter 83
Table 67 NLME-ADD_ROUTE.request primitive parameter 84
Table 68 NLME-ADD_ROUTE.confirm primitive parameter 85
Table 69 NLME-UPDATE_ROUTE.request primitive parameter 86
Table 70 NLME-UPDATE_ROUTE.confirm primitive parameter 86
Table 71 NLME-UPDATE_ROUTE.request primitive parameter 88
Table 72 NLME-DELETE_ROUTE.confirm primitive parameter 88
Table 73 NLME-ADD-LINK.request primitive parameter 90
Table 74 NLME-ADD-LINK.confirm primitive parameter 91
Table 75 NLME-UPDATE-LINK.request primitive parameter 93
Table 76 DLME-UPDATA-LINK.confirm primitive parameter 93
Table 77 NLME-RELEASE-LINK.request primitive parameter 95
Table 78 NLME-RELEASE-LINK.confirm primitive parameter 95
Table 79 NLME-ADD-SFR.request primitive parameter 97
Table 80 NLME-ADD-SFR.confirm primitive parameter 98
Table 81 NLME-UPDATA-SFR.request primitive parameter 100
Table 82 NLME-UPDATE-SFR.confirm primitive parameter 100
Table 83 NLME-RELEASE-SFR.request primitive parameter 102
Table 84 NLME-RELEASE-SFR.confirm primitive parameter 102
Table 85 NLME_AGG.indication primitive parameter 104
Table 86 NLME-AGO-SEND.request primitive parameter 105
Table 87 NLME-DAG.indication primitive parameter 105
Table 88 NLME-DEVICE-STATUS.request primitive parameter 106
Table 89 NLME-DEVICE-STATUS.indication primitive parameter 106
Table 90 NLME-DEVICE-STATUS.confirm primitive parameter 106
Table 91 NLME-CHANNEL-CONDITION.request primitive parameter 108
Table 92 NLME-CHANNEL-CONDITION.indication primitive parameter 108
Table 93 NLME-CHANNEL-CONDITION.confirm primitive parameter 108
Table 94 NLME-PATH_FAILURE.request primitive parameter 110
Table 95 NLME-PATH_FAILURE.indication primitive parameter 110
Table 96 NLME-PATH_FAILURE.confirm primitive parameter 110
Table 97 NLME-INFO_GET.request primitive parameter 111
Table 98 NLME-INFO_GET.indication primitive parameter 112
Table 99 NLME-INFO_GET.response primitive parameter 112
Table 100 NLME-INFO_GET.confirm primitive parameter 113
Table 101 NLME-INFO_SET.request primitive parameter 114
Table 102 NLME-INFO_SET.indication primitive parameter 115
Table 103 NLME-INFO_SET.response primitive parameter 116
Table 104 NLME-INFO_SET.confirm primitive parameter 117
Table 105 package control field 118
Table 106 Network Layer command packet type 119
Table 107 lists the results of the command packet to return 120
Table 108 RMS reason to leave subdomain 121
Table 109 User Application methods supported by the object 130
Table 110 READ request data format 130
Table 111 READ response data format 131
Table 112 WRITE request data format 131
Table 113 WRITE response data format 131
Table 114 PUBLISH data format 131
Table 115 REPORT Data Format 131
Table 116 REPORTACK data format 132
Table 117 ASLDE-DATA.request primitive parameter 133
Table 118 ASLDE-DATA.confirm primitive parameter 133
Table 119 ASLDE-DATA.indication primitive parameter 134
Table 120 ASLDE-AGG.request primitive parameter 134
Table 121 ASLDE-DAG.indication primitive parameter 135
Table 122 Packet Type value of 138 subfield
Table 123 Transfer Mode subfield 138 Value
Table 124 DLSL layer security control security header field 143
Table 125 DLSL Layer Security header information security control field 143
Table 126 application-layer security control field format 144
Table 127 DLME-SEC.request primitive parameter 147
Table 128 DLME-SEC.indication primitive parameter 147
Table 129 DLME-SEC.response primitive parameter 147
Table 130 DLME-SEC.confirm primitive parameter 148
Table A.1 WIA-PA hierarchical layered network security measures 154
Table A.2 legitimate packets into and out of the security level 154
Table B.1 bytes of packet/frame format 155
Table B.2 bit unit packet/frame format 156
Table C.1 Analog Input object class level attributes 157
Table C.2 Analog Input instance of an object-level properties 157
Foreword
GB/T 26790 "Industrial Wireless Network WIA standard" is divided into seven sections.
--- Part 1. WIA for Process Automation System Architecture specification and communication;
--- Part 2. WIA for Factory Automation system architecture and communications specifications;
Part --- Section 3. WIA safety regulations;
Part --- Chapter 4. WIA interoperability specifications;
Part --- Article 5. WIA test and evaluation specifications;
Part --- Article 6. WIA product standards Common Criteria;
Part --- Article 7. WIA industry standards.
This section GB/T Part of 126,790.
This section drafted in accordance with GB/T 1.1-2009 given rules.
Please note that some of the content of this document may involve patents. Release mechanism of the present document does not assume responsibility for the identification of these patents.
This part is proposed by China Machinery Industry Federation.
This part of the measurement and control of Standardization Technical Committee (SAC/TC124) is administered by the National industrial processes.
This part mainly drafted by. Shenyang Institute of Automation, Chinese Academy of Sciences, Zhejiang University of Instrumentation Technology & Economy
Research Institute, Beijing University of Technology, Chongqing University of Posts and Telecommunications, Shenyang Automation Technology Co., Ltd. Microcyber.
Participated in the drafting of this section. Shanghai Industrial Automation Instrument Research Institute, Northeastern University, Southwest University, Dalian University of Technology.
The main drafters of this section. Yu Haibin, Zeng Peng, Liang Wei, Chu Jian, Ouyang Jinsong, Wang Qin, XU Ai-dong, Wang Ping, Liu Dan, FENG Dong-qin.
The drafters of some of the participants. Peng Yu, Zhang Xiaotong, Wang, Wang Xingwei, Liu Feng, Zhang Xiaoling, Mei Ke, Wangzhong Feng, Shang Zhijun, Wan Yadong,
Liuquan Li, Xiao Jin Chao, Wei Min, Xiesu Fen, Yang Songhua.
Industrial Wireless Network WIA Specification
Part 1. for process automation
WIA system architecture and communications specifications
1 Scope
This section provides on IEEESTD802.15.4-2006 of WIA-PA (WirelessNetworksforIndustrial
Automation-ProcessAutomation) system architecture and communications specifications.
This section applies to industrial process measurement, monitoring and control of wireless network systems.
2 Normative references
The following documents for the application of this document is essential. For dated references, only the dated version suitable for use herein
Member. For undated references, the latest edition (including any amendments) applies to this document.
GB/T 9387.1 Information technology - Open Systems Interconnection - Basic Reference Model - Part 1. Basic model (ISO /IEC 7498-
1.1994, IDT)
GB/T 19769 (all parts) industrial process measurement and control systems function block (IEC 61499.2003, MOD)
GB/T 21099.1 process control function block application process constituted (IEC /T S61804-1.2003, IDT)
IEEESTD802.15.4.2006 Part 15.4. low data rate wireless personal area network (WPAN) Wireless MAC
(MAC) and Physical Layer Specifications [Part 15.4. WirelessMediumAccessControl (MAC) andPhysicalLayer (PHY)
SpecificationsforLow-RateWirelessPersonalAreaNetworks (WPANs)]
3 Terms, definitions and abbreviations
3.1 Terms and Definitions
The following terms and definitions apply to this document.
3.1.1
Absolute slot number absolutetimeslotnumber
From the network formation start counting all the time slots, usually it refers to the current value of the slot number.
Note. The value in increments of 1 count, usually the serial number of the current slot, and the maximum value of (248-1), after reaching the maximum value, the value is reset to 0.
3.1.2
Initiative to leave activeleaving
After routing to the gateway device or leave the application process field device to the routing device after application to leave.
3.1.3
AFH adaptivefrequencyhopping
In each time slot within the WIA-PA superframe cluster communication stage, according to the actual channel conditions to replace the communication channel.
3.1.4
Adaptive frequency switching adaptivefrequencyswitch
In WIA-PA superframe beacon Beacon phases and activities of a super-frame period in accordance with the actual replacement of the communication channel conditions
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