矿用5G智能终端数据交互和共享规范研究

蔡峰; 王陈书略; 乔梁; 包晓波; 张冬阳

doi:10.13272/j.issn.1671-251x.18109

矿用5G智能终端数据交互和共享规范研究

1.
中国中煤能源集团有限公司，北京　100120
2.
中煤信息技术（北京）有限公司，北京　100120
3.
上海山源电子科技股份有限公司，上海　201600
4.
应急管理部信息研究院，北京　100029

基金项目: 国家自然科学基金面上项目（52074120）。

详细信息

作者简介:
蔡峰（1985—），男，山西绛县人，高级工程师，博士，现主要从事煤炭生产技术管理及智能化技术应用研究工作，E-mail：caifeng868@126.com

中图分类号: TD65
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出版历程
- 收稿日期: 2023-04-20
- 修回日期: 2023-09-21
- 网络出版日期: 2023-09-27
- 刊出日期: 2023-09-27

Research on data exchange and sharing standards for mining 5G intelligent terminal

1.
China National Coal Group Co., Ltd., Beijing 100120, China
2.
China Coal Information Technology (Beijing) Co., Ltd., Beijing 100120, China
3.
Shanghai Sany Electronic Technology Co., Ltd., Shanghai 201600, China
4.
Information Institute of the Ministry of Emergency Management, Beijing 100029, China

摘要

摘要: 5G技术是实现矿山智能化建设的基础，针对不同厂商之间的矿用5G智能终端与管控平台很难实现互通的问题，需要统一和规范5G系统中的数据交互和共享流程。给出了“5G+智能矿山”的部署架构，即矿用5G智能终端通过井上下5G基站、交换机和5G核心网，与包含管控平台的服务器实现数据交互和共享。介绍了矿用5G系统中传输的消息类型、消息传输格式、消息组成和消息连接方式等。针对矿山领域的具体应用场景，将矿用5G系统中的数据分成语音数据、视频数据、传感数据和控制类数据等，并给出了矿用5G智能终端在不同应用场景下传输的数据类型。分析了矿用5G智能终端及管控平台应具备的能够满足数据交互的基本传输能力，指出矿用5G智能终端与管控平台数据交互时的流程包括设备信息查询与上报、设备升级、日志采集、告警下发及处理和平台配置下发及处理等。给出了矿用5G智能终端数据共享的参与实体、安全等级和流程（包括数据的汇聚、申请、授权、提供和反馈）。通过实施标准化流程，在保证通信可靠性的同时，简化了“5G+智能矿山”系统架构下的数据交互和共享流程，以加速矿山智能化建设。
- 智能矿山 /
- 矿用5G通信 /
- 矿用5G智能终端 /
- 管控平台 /
- 数据交互 /
- 数据共享
Abstract: 5G technology is the foundation for achieving intelligent mining construction. In response to the problem of difficult interoperability between mining 5G intelligent terminals and control platforms among different manufacturers, it is necessary to unify and standardize the data exchange and sharing process in the 5G system. The deployment architecture of "5G+intelligent mining" is proposed. The mining 5G intelligent terminals can interact and share data with servers containing control platforms through 5G base stations, switches, and 5G core networks in coal mines. This paper introduces the message types, message transmission formats, message composition, and message connection methods transmitted in the mining 5G system. For specific application scenarios in the mining field, the data in the mining 5G system is divided into voice data, video data, sensor data, and control data. The data types transmitted by the mining 5G intelligent terminal in different application scenarios are provided. This paper analyzes the basic transmission capabilities that mining 5G intelligent terminals and control platforms should have to meet data interaction. It is pointed out that the process of data interaction between mining 5G intelligent terminals and control platforms includes device information query and reporting, device upgrade, log collection, alarm issuance and processing, and platform configuration issuance and processing. It proposes the participating entities, security levels, and processes for data sharing of mining 5G intelligent terminals (including data aggregation, application, authorization, provision, and feedback). By implementing standardized processes, while ensuring communication reliability, the data exchange and sharing process under the "5G+intelligent mine" system architecture has been simplified to accelerate the intelligent construction of mines.
- intelligent mining /
- mining 5G communication /
- mining 5G intelligent terminal /
- control platform /
- data exchange /
- data sharing

HTML全文

图 1 “5G+智能矿山”的部署架构

Figure 1. Deployment architecture of "5G + intelligent mine"

下载: 全尺寸图片幻灯片

图 2 通信链路

Figure 2. Communication link

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图 3 数据共享流程

Figure 3. Data sharing flow

下载: 全尺寸图片幻灯片

表 1 消息类型

Table 1 Message type

数据类型	描述及要求
BYTE	无符号单字节整型（字节，8位）
WORD	无符号双字节整型（字，16位）
DWORD	无符号4字节整型（双字，32位）
MDWORD	无符号6字节整型（三字，48位）
BYTE[n]	n字节
FLOAT	4字节
DOUBLE	8字节
INT64	8字节
BCD[n]	8421码，n字节
STRING	GBK编码，采用0终结符，若无数据，则放1个0终结符

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表 2 消息头

Table 2 Message header

起始字节	字段	数据类型	描述及要求
0	消息ID	WORD	—
2	消息体属性	WORD	—
4	消息流水号	WORD	按发送顺序从0开始循环累加
6	消息总包数	—	消息分包后的总包数
8	包序号	—	从1开始

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表 3 MQTT协议下的QoS等级

Table 3 QoS level under MQTT protocol

QoS等级	说明
QoS 0	依赖于底层TCP/IP网络的消息发布，允许消息的丢失或重复
QoS 1	消息应至少传送1次至订阅者
QoS 2	保证消息仅1次传送至订阅者

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表 4 不同应用场景下的数据类型

Table 4 Data types in different application scenarios

应用场景		数据类型
露天矿	辅助驾驶	语音数据、视频数据、控制类数据
露天矿	矿山数字孪生	语音数据、视频数据、控制类数据
井工矿	远程控制	语音数据、视频数据、控制类数据
	智能探测	控制类数据、传感数据
	智能开采	语音数据、视频数据、控制类数据、传感数据
	智能掘进	语音数据、视频数据、控制类数据、传感数据

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参考文献(22)

[1]	张帆. 矿井移动通信理论与技术[M]. 哈尔滨:哈尔滨工业大学出版社,2021. ZHANG Fan. Mine mobile communication theory and technology[M]. Harbin:Harbin Institute of Technology Press,2021.
[2]	张胜利,汤家轩,王猛. “双碳”背景下我国煤炭行业发展面临的挑战与机遇[J]. 中国煤炭,2022,48(5):1-5. DOI: 10.3969/j.issn.1006-530X.2022.05.001 ZHANG Shengli,TANG Jiaxuan,WANG Meng. Challenges and opportunities for the development of China's coal industry under the background of carbon peak and carbon neutrality[J]. China Coal,2022,48(5):1-5. DOI: 10.3969/j.issn.1006-530X.2022.05.001
[3]	崔亚仲,白明亮,李波. 智能矿山大数据关键技术与发展研究[J]. 煤炭科学技术,2019,47(3):66-74. DOI: 10.13199/j.cnki.cst.2019.03.009 CUI Yazhong,BAI Mingliang,LI Bo,et al. Key technology and development research on big data of intelligent mine[J]. Coal Science and Technology,2019,47(3):66-74. DOI: 10.13199/j.cnki.cst.2019.03.009
[4]	王国法,任怀伟,赵国瑞,等. 煤矿智能化十大“痛点”解析及对策[J]. 工矿自动化,2021,47(6):1-11. DOI: 10.13272/j.issn.1671-251x.17808 WANG Guofa,REN Huaiwei,ZHAO Guorui,et al. Analysis and countermeasures of ten 'pain points' of intelligent coal mine[J]. Industry and Mine Automation,2021,47(6):1-11. DOI: 10.13272/j.issn.1671-251x.17808
[5]	王国法,王虹,任怀伟,等. 智慧煤矿2025情景目标和发展路径[J]. 煤炭学报,2018,43(2):295-305. DOI: 10.13225/j.cnki.jccs.2018.0152 WANG Guofa,WANG Hong,REN Huaiwei,et al. 2025 scenarios and development path of intelligent coal mine[J]. Journal of China Coal Society,2018,43(2):295-305. DOI: 10.13225/j.cnki.jccs.2018.0152
[6]	李艺,刘春平,武晓雪. 基于5G技术的智能矿山研究及应用[J]. 中国煤炭,2020,46(11):42-48. DOI: 10.3969/j.issn.1006-530X.2020.11.006 LI Yi,LIU Chunping,WU Xiaoxue. Research and application of 5G technology in intelligent mine[J]. China Coal,2020,46(11):42-48. DOI: 10.3969/j.issn.1006-530X.2020.11.006
[7]	孙继平,陈晖升. 智慧矿山与5G和WiFi6[J]. 工矿自动化,2019,45(10):1-4. SUN Jiping,CHEN Huisheng. Smart mine with 5G and WiFi6[J]. Industry and Mine Automation,2019,45(10):1-4.
[8]	吴群英,蒋林,王国法,等. 智慧矿山顶层架构设计及其关键技术[J]. 煤炭科学技术,2020,48(7):80-91. DOI: 10.13199/j.cnki.cst.2020.07.007 WU Qunying,JIANG Lin,WANG Guofa,et al. Top-level architecture design and key technologies of smart mine[J]. Coal Science and Technology,2020,48(7):80-91. DOI: 10.13199/j.cnki.cst.2020.07.007
[9]	王国法. 综采自动化智能化无人化成套技术与装备发展方向[J]. 煤炭科学技术,2014,42(9):30-34,39. WANG Guofa. Development orientation of complete fully-mechanized automation,intelligent and unmanned mining technology and equipment[J]. Coal Science and Technology,2014,42(9):30-34,39.
[10]	孙继平. 煤矿智能化与矿用5G和网络硬切片技术[J]. 工矿自动化,2021,47(8):1-6. DOI: 10.13272/j.issn.1671-251x.17821 SUN Jiping. Coal mine intelligence,mine 5G and network hard slicing technology[J]. Industry and Mine Automation,2021,47(8):1-6. DOI: 10.13272/j.issn.1671-251x.17821
[11]	张帆,葛世荣,李闯. 智慧矿山数字孪生技术研究综述[J]. 煤炭科学技术,2020,48(7):168-176. DOI: 10.13199/j.cnki.cst.2020.07.017 ZHANG Fan,GE Shirong,LI Chuang. Research summary on digital twin technology for smart mines[J]. Coal Science and Technology,2020,48(7):168-176. DOI: 10.13199/j.cnki.cst.2020.07.017
[12]	葛世荣,张帆,王世博,等. 数字孪生智采工作面技术架构研究[J]. 煤炭学报,2020,45(6):1925-1936. DOI: 10.13225/j.cnki.jccs.ZN20.0327 GE Shirong,ZHNAG Fan,WANG Shibo,et al. Digital twin for smart coal mining workface:technological frame and construction[J]. Journal of China Coal Society,2020,45(6):1925-1936. DOI: 10.13225/j.cnki.jccs.ZN20.0327
[13]	韩茜. 智慧矿山信息化标准化系统关键问题研究[D]. 北京:中国矿业大学(北京),2016. HAN Qian. Study on key issues of intelligent informatization standardization system[D]. Beijing:China University of Mining and Technology-Beijing,2016.
[14]	安标国家矿用产品安全标志中心有限公司. 煤矿5G通信系统安全技术要求(试行)[EB/OL]. [2023-04-17]. https://www.baidu.com/link?url=gPq5gIZOpSLgSmEel61jBNCs_RK1vn3suPV9ZEg0fmFnOfCd00jfNekmsm4RcR3bjtv1VE72aRV9MBh5brpvwYRkG18PWyIJ2CxX6qOJ2Q27J8XCLVo3bxdPihBcRbPb&;wd=&eqid=db78596e003baa7700000005650e8c54. China Mining Products Safety Approval and Certification Center. Safety technical requirements for 5G communication system in coal mines (to try out) [EB/OL]. [2023-04-17]. https://www.baidu.com/link?url=gPq5gIZOpSLgSmEel61jBNCs_RK1vn3suPV9ZEg0fmFnOfCd00jfNekmsm4RcR3bjtv1VE72aRV9MBh5brpvwYRkG18PWyIJ2CxX6qOJ2Q27J8XCLVo3bxdPihBcRbPb&;wd=&eqid=db78596e003baa7700000005650e8c54.
[15]	GB/T 36962—2018 传感数据分类与代码[S GB/T 36962-2018 Classification and coding of sensing data[S
[16]	ISO/IEC 20922:2016 Information technology-Message Queuing Telemetry Transport (MQTT) v3.1. 1[S
[17]	GB/T 41868—2022 Modbus TCP安全协议规范[S GB/T 41868-2022 Modbus TCP security protocol specification[S
[18]	GB/T 36006—2018 控制与通信网络 Safety-over-EtherCAT规范[S GB/T 36006-2018 Control and communication network:Safety-over-EtherCAT specification[S
[19]	DL/T 634.5104—2009 运动设备及系统第5−104部分:传输规约采用标准传输协议集的IEC 60870−5−101网络访问[S DL/T 634.5104-2009 Telecontrol equipment and system Part 5-104:Transmission protocols-Network access for IEC 60870-5-101 using standard transport profiles[S
[20]	YD/T 3627—2019 5G数字蜂窝移动通信网增强移动宽带终端设备技术要求(第一阶段)[S YD/T 3627-2019 5G digital cellular mobile telecommunication network-technical requirements of eMBB user equipment (Phase1)[S
[21]	YD/T 3561—2019 富通信业务(RCS)总体技术要求(第二阶段)[S YD/T 3561-2019 General technical requirements of rich communication suite(RCS) (Phase2)[S
[22]	YDT 3988—2021 5G通用模组技术要求(第一阶段)[S YDT 3988-2021 Technical requirement of 5G superior universal module(Phase1)[S

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