Internet of things (IoT)-based dynamic monitoring platform for monitoring archaeological excavation field
An on-site monitoring and dynamic monitoring technology, applied in the field of dynamic monitoring platforms and archaeological excavation site monitoring dynamic monitoring platforms, can solve the problems of lack of wireless monitoring systems in archaeological excavation sites, difficulty in obtaining data by mobile devices, and poor adaptability of wired networks, etc., to achieve The effect of improving network communication quality, reducing data throughput, and extending network life
Inactive Publication Date: 2012-06-13
西安元智系统技术有限责任公司
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Problems solved by technology
[0002] The current archaeological excavation site lacks a real-time wireless monitoring system. The traditional wired networking method is to connect multiple sensors with cables, and use the wired network to transmit the data collected by the sensors to the on-site monitoring equipment and remote terminals. Such a method exists The following disadvantages:
Wired network wiring is inefficient, and there are many comprehensive factors to be considered and complex
[0004] 2) High cost of deployment
Wiring costs are high
[0005] 3) Poor adaptability of wired network
Compared with the conventional monitoring site, the terrain of the archaeological excavation site will change accordingly with the continuous development of the excavation progress. It is difficult for the wired network to adapt to this change. When the environment changes, it is necessary to consider the network topology and re-wiring. A lot of manpower and material resources are invested
[0006] 4) It is difficult for mobile devices to obtain data
Inconvenient for mobile devices to access the network
Method used
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[0023] see figure 1 , the present invention provides a dynamic monitoring platform for archaeological excavation site monitoring based on the Internet of Things. server.
[0024] The dynamic monitoring system for archaeological excavation site monitoring includes a monitoring gateway, a control gateway, a monitoring system for monitoring the weather and on-site environment of the excavation site, a control system for issuing various instructions, and a detection system for detecting excavation data; monitoring The system and the detection system are respectively connected to the Internet of Things through the monitoring gateway; the control system is connected to the Internet of Things through the control gateway; and the monitoring gateway is connected to the control gateway.
[0025] The system includes: a monitoring system, a control system, and a detection system, all of which are various systems commonly used in this field.
[0026] Monitoring system: including meteorol...
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The invention relates to an internet of things (IoT)-based dynamic monitoring platform for monitoring an archaeological excavation field. The IoT-based dynamic monitoring platform for monitoring the archaeological excavation field comprises a dynamic monitoring system for monitoring the archaeological excavation field, a remote database server and a local database server, wherein the remote database server and the local database server are respectively connected with the dynamic monitoring system for monitoring the archaeological excavation field through IoT. The IoT-based dynamic monitoring platform for monitoring the archaeological excavation field, provided by the invention, is simple in wiring manner, low in work load, low in deployment cost, strong in adaptability and easy for acquiring data by using mobile equipment.
Description
technical field [0001] The invention belongs to the field of computer control engineering and relates to a dynamic monitoring platform, in particular to a dynamic monitoring platform for archaeological excavation site monitoring based on the Internet of Things. Background technique [0002] The current archaeological excavation site lacks a real-time wireless monitoring system. The traditional wired networking method is to connect multiple sensors with cables, and use the wired network to transmit the data collected by the sensors to the on-site monitoring equipment and remote terminals. Such a method exists The following disadvantages: [0003] 1) The on-site wiring method is complicated and the workload is heavy. If the wired method is adopted, it is necessary to comprehensively consider the wiring method according to the terrain characteristics of the archaeological excavation site, and the wired network will also bring certain damage to the environment of the excavation...
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IPC IPC(8): H04L29/08H04W84/18G08C17/02G01D21/00
Inventor 邓宏林树笋宋涛郑玉东祁浩
Owner 西安元智系统技术有限责任公司
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