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| GB/T 34082-2017 | English | RFQ |
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Radio monitoring network transfer protocol
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GB/T 34082-2017
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PDF similar to GB/T 34082-2017
Basic data | Standard ID | GB/T 34082-2017 (GB/T34082-2017) | | Description (Translated English) | Radio monitoring network transfer protocol | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | M10 | | Classification of International Standard | 35.100.70 | | Word Count Estimation | 94,921 | | Date of Issue | 2017-07-31 | | Date of Implementation | 2017-11-01 | | 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 | GB/T 34082-2017: Radio monitoring network transfer protocol---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Radio monitoring network transfer protocol
ICS 35.100.70
M10
National Standards of People's Republic of China
Radio monitoring network transmission protocol
2017-07-31 Posted
2017-11-01 implementation
General Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
China National Standardization Administration released
Directory
Foreword V.
Introduction Ⅵ
1 Scope 1
2 Normative references 1
3 Terms and definitions 1
4 instruction identification 2
5 instruction format 3
6 protocol interaction 4
6.1 protocol interaction timing 4
6.2 Establish connection 5
6.3 authorized certification 5
6.4 Session Properties 5
6.5 redirect 5
6.6 Information Release 5
6.7 tasks and priorities 6
7 data frame format 6
7.1 Data Frame Composition 6
7.2 frame first 6
7.3 Message Data 7
7.4 frame tail 8
7.5 Message Extensions and Combinations
7.6 Message Type 8
7.7 frame extension 18
Monitoring business 18
8.1 Frequency Measurement 18
8.2 frequency table scan 20
8.3 Band Scanning 21
8.4 Broadband Measurement 22
8.5 Quadrature Demodulation 23
8.6 Audio Monitoring 24
8.7 single frequency direction 25
8.8 Broadband direction finding 26
8.9 Spatial Spectrum Orientation 27
8.10 TV monitoring 28
8.11 Emergency interventions 29
Manage business
9.1 Device Usage Statistics Query 31
9.2 Monitoring business statistics time query 31
9.3 Location Search 32
9.4 switch machine control 32
9.5 switch machine status inquiry 33
9.6 air conditioning switch machine control 34
9.7 Antenna Control 34
9.8 Business Function Inquiry 35
9.9 Environmental Monitoring 36
9.10 System Time 36
9.11 System self-test 37
9.12 Troubleshooting 37
9.13 Mission Inquiries 38
9.14 User Inquiries 38
9.15 System Serial Number Inquiry
9.16 Configuration Query 39
9.17 Traffic Query 40
9.18 Stop Monitoring 40
10 Radio Monitoring Network Transport Protocol (RMTP) Regulations and Instructions 41
10.1 Instructions 41
10.2 Business Function Instruction Key 41
10.3 monitoring executive station business function description 42
10.4 Enter the keyword 42
10.5 output keyword 44
10.6 Frame Type Keyword 44
10.7 Modem Mode Keyword 45
10.8 Sub Audio Signaling 46
10.9 Monitoring File Formats 47
10.10 log file format 48
Appendix A (Normative) Monitoring Executive Station Business Function Description 49
Appendix B (normative) Monitoring control center and monitoring station coding table 72
References 87
Figure 1 protocol interaction timing diagram 4
Table 1 Function Instruction ID 2
Table 2 string name and description 3
Table 3, the definition of frame 6
Table 4 header definition 7
Table 5 Message Body Definition 7
Table 6, the definition of the end of frame 8
Table 7 Composition of Certification Message 9
Table 8 Composition of request information 9
Table 9 Composition of result data 10
Table 10 Status Code Meaning 11
Table 11 Composition of ITU measurement data 11
Table 12 Composition of spectrum data 11
Table 13 Composition of DPX Spectrum 12
Table 14 Composition of IQ Data 12
Table 15 Signal Identification Data Composition 12
Table 16 Composition of scan data 13
Table 17 Composition of Directional Data 13
Table 18 Composition of audio data 13
Table 19 Composition of time data 14
Table 20 Composition of Location Data 14
Table 21 Composition of System Configuration Information 14
Table 22 Composition of mission information 15
Table 23 Composition of User Information 15
Table 24 Composition of equipment time data 15
Table 25 Traffic Query Data Composition 16
Table 26 Composition of TRACE data 16
Table 27 Composition of self-test data
Table 28 System Serial Number Composition 17
Table 29 Composition of Environmental Parameters Frames 17
Table 30 Composition of monitoring service statistics timeframes 17
Table 31 Composition of antenna status response information 18
Table 32 Composition of the original data 18
Table 33 Request Parameters for Frequency Measurement 19
Table 34 Data Response Frame for Frequency Measurement 19
Table 35 Frequency table scan request parameters 20
Table 36 Frequency Response Scanned Data Response Frame 21
Table 37 Frequency sweep request parameters 21
Table 38 Frequency Band Scan Response Data Frame 22
Table 39 Request Parameters for Broadband Measurement 22
Table 40 Data Response Frame for Broadband Measurement 22
Table 41 Orthogonal Demodulation Request Parameters 23
Table 42 Orthogonal Demodulated Data Response Frames 23
Table 43 Request Parameters for Audio Monitoring 24
Table 44 Audio Monitoring Data Response Frames 24
Table 45 Single frequency direction request parameters 25
Table 46 Single frequency DF data response frame 25
Table 47 Request Parameters for Broadband DF 26
Table 48 Data Response Frame for Broadband Direction Finding 27
Table 49 Spatial Spectrum Direction-finding Request Parameters 27
Table 50 Spatial spectrum direction-finding data response frame 28
Table 51 TV monitoring request parameters 28
Table 52 Monitoring Channel Code 29
Table 53 TV monitor data response frame 29
Table 54 Request for emergency intervention parameters 30
Table 55 Emergency response data response frame 30
Table 56 Request Parameters for Device Usage Statistics Time Query 31
Table 57 Data Response Frame for Equipment Usage Statistics Query 31
Table 58 Request Parameters for Monitoring Business Time of Statistics Query 32
Table 59 Data Response Frame for Monitoring Business Statistics Time Inquiry 32
Table 60 Location Query Data Response Frame 32
Table 61 Switch-on control request parameter 33
Table 62 Switch Control Data Response Frame 33
Table 63 request parameters for on/off status inquiry
Table 64 Switch Status Inquiry Data Response Frame 33
Table 65 Air-conditioning switch machine control request parameters 34
Table 66 Air conditioner control data response frame 34
Table 67 Antenna Control Request Parameters 34
Table 68 Antenna Control Data Response Frame 35
Table 69 Data Response Frame for Business Function Query 35
Table 70 Environmental Monitoring Request Parameters 36
Table 71 Environmental Monitoring Data Response Frame 36
Table 72 System request parameters 36
Table 73 System Response Data Frame 37
Table 74 System self-test data response frame 37
Table 75 Fault response data response frame 38
Table 76 Task Response Data Response Frame 38
Table 77 User Query Data Response Frame 38
Table 78 Data Response Frame for System Serial Number 39
Table 79 Configuration Query Data Response Frame 39
Table 80 Data Response Frame for Traffic Query 40
Table 81 Data Monitoring Frames to Stop Monitoring 40
Table 82 Definition of Task ID 40
Table 83 Business Function Instruction Keywords 41
Table 84 Enter the keyword 42
Table 85 outputs the keyword 44
Table 86 Frame Type Keywords 44
Table 87 Modem Mode Keywords 46
Table 88 Subsonic (CTCSS) Frequency Table 47
Table 89 Digital Subsystem (DCS) Code Table 47
Table 90 Monitoring Document Header 47
Table 91 Log File Data
Foreword
This standard was drafted in accordance with the rules given in GB/T 1.1-2009.
Please note that some of this document may be patentable. The issuing agencies of this document do not bear the responsibility of identifying these patents.
This standard by the Ministry of Industry and Information Technology (Communications) centralized.
This standard was drafted unit. National Radio Monitoring Center, Sichuan Provincial Radio Monitoring Station, Beijing Starcom Electronic Technology Co., Ltd., into
Duhua Communication Technology Co., Ltd., Xihua University, Chengdu lattice Technology Co., Ltd., Zigong City Radio Monitoring Station.
The main drafters of this standard. Huang Jia, Li Chuan, Sun Hao, Yang Xu, Ma Fangli, Chen Tao, Ling Hong, Zhu Xudong, Ao Qian, Liu Zhicai,
Tang Yu Lin, Chen Yi-Jun, Zhou Kang surgery, Jia years.
Introduction
With the rapid development of radio monitoring services, multi-channel access to monitoring services has become a trend. In recent years, all walks of life based on shift
Mobile communications business is developing rapidly, therefore, combined with the characteristics of the radio monitoring business itself, the existing network infrastructure, equipment, technology and other resources
In the system architecture, multi-channel access unified planning.
In order to unify the access of radio equipment providers and vigorously promote and develop radio monitoring services, this standard is based on the National Radio Management
Agency technical regulations and the actual operational and functional requirements of the existing radio monitoring, monitoring of the radio monitoring equipment available and
Management of business input and output interfaces, data frame format for a unified specification.
This standard is based on the TCP communication protocol on the application level communication protocol is to solve the data transmission between different radio monitoring system
Lose the standard agreement. Different radio monitoring systems provide a standard interface service to the radio monitoring network transmission protocol to allow other
System to obtain radio monitoring data, in order to achieve interoperability between radio monitoring systems, and thus achieve the purpose of remote control and networking.
Radio monitoring network transmission protocol
1 Scope
This standard specifies the radio monitoring network for equipment remote control and data transmission involved in the commonly used monitoring and management services instruction format
And returns the data frame format, and specifies the instruction combination and extension methods.
This standard applies to real-time radio monitoring business and related management business.
This standard does not apply to the database, data processing tasks scheduling.
2 Normative references
The following documents for the application of this document is essential. For dated references, only the dated version applies to this article
Pieces. For undated references, the latest edition (including all amendments) applies to this document.
GB/T 13622 radio management terminology
3 Terms and definitions
GB/T 13622 and defined by the following terms and definitions apply to this document.
3.1
Monitoring station radiomonitoringstation
Technical equipment and ancillary facilities capable of identifying and locating transmissions and measuring the basic characteristics of the transmission.
3.2
Monitoring implementation remotemonitoringstation
Equipment controlled by a monitoring control center to perform monitoring tasks. Is a fixed station, mobile station, mobile station collectively.
3.3
Fixed station fixedremotemonitoringstation
Monitoring and enforcement stations set up for monitoring at fixed locations.
3.4
Mobile station mobileremotemonitoringstation
A monitoring station that is located in a vehicle and can be monitored while it is moving.
3.5
Removable station portableremotemonitoringstation
Monitoring and enforcement stations that can be set up and implemented in different locations on a temporary basis.
3.6
Monitoring control center radiomonitoringcontrolcenter
Has the control of multiple monitoring stations for joint monitoring, data collection and statistical analysis, command and scheduling functions of the agency.
3.7
Monitoring Executive host host identifier remotemonitoringstationhostID
It is used to identify and distinguish different monitoring execution stations, which can be the code of monitoring execution station, the host name where the monitoring service is located or the monitoring service
Host's IP address.
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