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A Coal Mine Environmental Monitor System with Localization
I.RESEARCH STATUS
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As an important energy, coal plays a pivotal role in the economic development. Coal mine monitoring system, is the important guarantee for coal mine safety and high efficiency production. In order to ensure the safe operation, the installation of environment monitoring node in tunnels to real-time detection is very important. However, commonly ud traditional monitoring node wired connection to obtain communication with the control system, this node exist wiring difficulties, expensive and other shortcomings. In contrast, wireless nsor node can be easily with current mine monitoring network connection, and good compatibility, facilitate constituted mine gas monitoring network, to suit various size of mine applications. Since wireless nodes are battery powered, so completely out of the shackles of the cable, shorten the construction period can be arranged at any time where the need to u.
The Zigbee wireless communication technology is ud in this coal mine environmental monitor system. This is a new short-range, low complexity, low power, low data rate, low-cost two-way wireless communication technology. Now, wireless nsor network product bad on Zigbee technology are qu
小班绘画活动教案antity and variety, but the real product can be applied in underground environments of special nsor node is very few. The nsor node that we designed in the system is truly able to apply to in-well environment, it through the wireless nsor node curity certification. At the same time, due to the special nature of the wireless network is that it can spread the wireless signal, we can easily locate staff for coal mine safety monitoring provides more protection.甲鱼养殖
II. SYSTEM ARCHITECTURE
This system is a comprehensive monitoring system which is combined with software and hardware. Hardware part includes wireless mobile nodes and fixed nodes which were deployed in the underground tunnel, the main function of them is to collect coal mine environment data and require person’s location. Software part refers to the PC monitoring software which is designed in VC++ is ud to summarize and
display the data of each node. Monitoring node is divided into mobile nodes and fixed nodes; they are using Zigbee protocol for wireless transmission of data. Becau the fixed node is also using wireless data transmission method, so it's deployed in the underground roadway becomes very convenient. As the mobile node is carried by the miner, it must be using wireless transmission metho
d. This allows the mine to form a topology of Zigbee wireless nsor network. The fixed node in wireless nsor network is router device and the mobile node carried by miner is the end device. Normally, the router of Zigbee network has no nsor equipment; it is only responsible for data forwarding. But considering the practical application, we believe that add nsor devices on the router will be better on monitoring underground coal mine environment. So in our design, the router also has an environment monitoring function which is usually designed in end device.
Fixed node will nt received data from mobile node to the gateway, then the gateway transmits data to monitor computer through RS232 or optical fiber. The PC monitor software in the computer will process all data and display them in a visualization window. The PC software also calculates each mobile node’s real-time location through the specific localization algorithm, according to the received signal strength (RSSI) obtained from mobile nodes.认购股
春节初一到初七的风俗III. NODE DESIGN
Since the Zigbee wireless network platform sold on prent market was designed for the general environment, for special underground so they are not suitable for the environment. Therefore, we need to customize the system for underground environment whit a special hardware circuit. Node ph
oto are shown in Fig. 1 Then wireless microcontroller CC2530 chip is the core processor of the node device, it can constitute a Zigbee network with very few peripheral circuits. The CC2530 is an IEEE 802.15.4 compliant true System-on-Chip, supporting the proprietary 802.15.4 market as well as the Zigbee, Zigbee PRO, and Zigbee RF4CE standards. Unlike other wireless chip, CC2530 built-in 8051 monolithic integrated circuits kernel, therefore we no longer need to u a single MCU to control the circuit, and this save us a lot of cost.
A.Mobile Node
The mobile node is the end device of a Zigbee network that can be carried by miner; it should be a portable and low power consumption node. So the mobile node
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we designed is only as small as a mobile phone, and it is by built-in lithium ion battery power supply. In power loss, the core processor CC2530 is a low power consumption chip, when it is in the sleep mode, it only need to u less then 1uA work current. In order to reduce power consumption as much as possible on the display, a 100*32 pixel matrix with no backlighting LCD screen was ud. The battery’s capacity of the mobile node is 1500mAh, so it is enough to meet the miner’s long hour works in the underground. The battery charge management chip is TP4057, the maximum charge current can up to 500Ma.
The mobile node circuit includes the gas concentration nsor MJ4.0 and temperature nsor PT-1000. As far as we know, many wireless nsor platforms u the digital type nsor. The communication between the digital nsor and the MCU need strict timing requirements. But considering the actual application, the wireless MCU usually has a real-time operating system in general, if we u the microcomputer to simulate the strict timing, it will affect the real-time of whole operating system. The two nsors output analog signals not digital signals. Only input this signal into a differential amplifier, can we get an appropriate signal that can be converted to a digital signal by an ADC mode within the CC2530 chip. In order to facilitate the carrying, external antenna was not ud in our mobile node, instead of using a 2.4GHz patch antenna. And we customize a shell like a cell phone size; it is enough to put all PCBs, nsors and battery in it. Taking into account the small shell of the explosive performance is not very good, the design of PCBs and the lection of component are all carried out the safety asssment.
B. Fixed Node
Fixed node is installed in the wall of the underground tunnel. Becau it is big than the mobile node, it is not appropriate to carry around. The circuit of the fixed node is almost same with the mobile node, it also u a CC2530 chip as core processor. Becau of underground tunnels generally deplo
y with power cable, fixed nodes can u cable power-supply modes. At the same time, becau we u wireless signal transmission, the deployment of new fixed nodes become very convenient, which also resolves the problem of the signal lines deployment.
As a fixed node, the minor who is doing work may far from it, in order to facilitate the miners obrved environmental data around the fixed nodes, it us LED digital display. At the same time, the large current LED lights and buzzer are designed in the circuit; it makes the fixed node with the function of sound-light alarm.
Considering that it may occur the emergency of without electricity, fixed node also built-in a lithium-ion battery. Under normal conditions, lithium-ion battery is in charging status, when external cable disconnect, fixed node is automatic switched to battery power, which can ensure the mobile node can deliver the information through fixed nodes in underground.
Without regarding to fix ed nodes’ portability, we have a customized shell that has excellent explosion properties, and the internal space is enough to hold down the 2.4 GHz antenna. To ensure safety, all cables and the location of nsors are placed with particular glue aled, so that it has a good al.
IV. POSITIONING FUNCTION
One of the important functions of the wireless nsor networks is localization, especially in the underground tunnel, it relates to the safe of the miner's life. Currently most widely ud orientation method is GPS satellite positioning, it is a high precision, all-weather and global multifunctional system with the function of radio navigation, positioning and timing. But the GPS positioning method is not suitable for the underground work environment of coal mine, once you enter the underground, it cannot receive satellite signal, thus unable to achieve targeting. We need to consider how to u wireless network to realize positioning function, means using wireless signal between the communications of devices for positioning. The existing distance measuring technology between the wireless-devices basically is the following kinds of methods: TOA, TDOA, AOA and RSSI.
About the TOA method, the distance between the two devices is determined by the product of the speed of light and transmission time. Although the precision of this method is accurate, but it require a preci time synchronization, so it demand hardware is higher.
TDOA technology need ultrasonic signal,which is tting on a node with receive and transmit function. When measure the distance, it can nt ultrasonic wave and wireless signals together. By
measuring the difference between two signals arrival time, we can calculate the distance between two devices. Using this method can also obtain accurate result, but the method need to increa ultrasonic nding and receiving device on the node circuit, it will increa cost.
AOA technology needs to install multiple antennas through the nodes so it can obtain adjacent nodes’ signals on deferent directions. With this it can determine the
location information from number of adjacent nodes and calculate its own position. This method not only need to add additional hardware, but also it's still very vulnerable to external disturbance, therefore it's not suitable for utilize.
事端RSSI ranging is a cheap and easy technology. By using this method, we don't need to add additional hardware design. We also do not need very preci time requirements. This technique is about with measuring the wireless signals strength in the propagation of the loss, to measure the distance between two nodes. Becau of this method requires hardware equipment is less, algorithm is simple, so it has been using in many wireless communication field. Comprehensive all conditions, positioning on the u of RSSI ranging technique.
A. Hardware Location Engine
The CC2431 wireless microcontroller chip produced by TI Company has a hardware location engine. From the software's point of view, CC2431’s hardware location engine has a very simple API interface, as long as writing the necessary parameters and waiting for calculation, it can read the location results.
The hardware location engine is also bad on RSSI technology. The localization system includes reference nodes and blind nodes. The reference node is a fixed node that located in a known position, the node know their place and nd a packet notify to other nodes. The blind node receives packets from reference nodes, which can obtains reference nodes’ location and the corres ponding RSSI value and put them into the hardware location engine, and then the blind node’s location can be read from the engine.
On the surface, using the CC2431 hardware location engine targeting the program as a good choice, but considering the practical application, it will encounter the following problems. First of all, we have choo the CC2530 as the main chip of fixed nodes of the system, its internal programs is running in Zigbee2007 protocol, but CC2431 as a early chip, it applies only to Zigbee2006 protocol. In the communications between CC2431 and CC2530 that will have compatibility problems. Secondly, CC2431 hardware location engine u the distributed computing, all mobile nodes’ location are calcu
lated by themlves, and then they upload in formation to the gateway node, this will not only occupy the mobile node processing time, still it can take up more network resources. For this reason, we have to shelve this approach, consider how to implement location by using CC2530 chip.
B. Software Location Engine
