CN210742390U - Unmanned aerial vehicle-based base station environmental assessment test system - Google Patents
Unmanned aerial vehicle-based base station environmental assessment test system Download PDFInfo
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- CN210742390U CN210742390U CN201920261017.0U CN201920261017U CN210742390U CN 210742390 U CN210742390 U CN 210742390U CN 201920261017 U CN201920261017 U CN 201920261017U CN 210742390 U CN210742390 U CN 210742390U
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Abstract
The utility model discloses a base station environmental assessment test system based on unmanned aerial vehicle, including unmanned aerial vehicle, radiation tester, unmanned aerial vehicle remote controller, GPS module, data transmission module, wherein unmanned aerial vehicle includes flight control system and fuselage, GPS module, data transmission module, radiation tester carry on the fuselage, flight control system and unmanned aerial vehicle remote controller set up wireless connection; the GPS module and the radiation tester are electrically connected with the data sending module. The utility model provides a test system is commented on to basic station ring based on unmanned aerial vehicle is through installing the radiation tester at unmanned aerial vehicle, through controlling to unmanned aerial vehicle, can realize being located aerial problem to the test point on the 50m radius of base station antenna within range and the directional diagram mainlobe, and the locating process is high efficiency simultaneously, has removed the long condition of time that the manual positioning spent from.
Description
Technical Field
The utility model relates to a communication base station field, more specifically relates to a basic station environmental assessment test system based on unmanned aerial vehicle.
Background
With the increasing density of mobile communication base stations, the environmental awareness of public on electromagnetic radiation pollution is continuously improved, and the problem of environmental electromagnetic radiation caused by the communication base stations becomes a problem of special concern. In order to more scientifically see the problem of electromagnetic radiation generated by a communication base station and eliminate the deep worry of the public about the electromagnetic radiation of the base station, a critique test needs to be carried out on the communication base station so as to judge whether the electromagnetic signal emitted by the communication base station at the side of the user accords with the national standard radiation.
The direction with the strongest radiation capability of the base station is on the main lobe of the antenna directional diagram of the base station, so that the test point with the strongest radiation capability of the base station is at a distance of 50m away from the antenna of the base station. If the test is carried out on the ground, the strongest point of the field intensity at the distance of 50m of the base station antenna is probably in the air; therefore, in the process of carrying out the base station environmental assessment test by the manual handheld radiation tester in the prior art, the radiation tester cannot test on the aerial test point with the maximum radiation field intensity of the base station antenna.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem that in the existing method, a radiation tester is difficult to control the test distance to a test point in the antenna main lobe range of a base station antenna and the existing manual handheld radiation tester cannot test the test distance in the air. The utility model provides a basic station environmental assessment test system based on unmanned aerial vehicle.
A base station environmental assessment test system based on an unmanned aerial vehicle comprises the unmanned aerial vehicle, a radiation tester, an unmanned aerial vehicle remote controller, a GPS module and a data sending module, wherein the unmanned aerial vehicle comprises a flight control system and a machine body; the GPS module and the radiation tester are electrically connected with the data sending module.
The utility model provides a test system is when specifically using, thereby control unmanned aerial vehicle's flight through unmanned aerial vehicle remote controller control flight control system, and gather unmanned aerial vehicle's real-time position then send ground terminal through data transmission module through GPS, ground terminal's staff can confirm unmanned aerial vehicle's real-time position then control unmanned aerial vehicle's flight according to the GPS data of gathering, thereby make unmanned aerial vehicle can reach the position that needs carry out the ring evaluation test, when unmanned aerial vehicle reachs the relevant position, the electric field intensity data is gathered in the radiation tester measurement, then the data that will gather pass through data transmission module and transmit to ground terminal, accomplish the ring evaluation test.
Preferably, the utility model provides a base station environmental assessment test system based on unmanned aerial vehicle still includes the terminal, the terminal include data processing module and data transceiver module, wherein data processing module and data transceiver module are connected; the data transceiver module is connected with the data sending module. After the radiation tester measures and collects the electric field intensity data, the electric field intensity data are firstly processed and transmitted to the data transmitting module and the data receiving and transmitting module through the data processing module.
Preferably, the terminal further comprises a storage module and a key module, and the storage module and the key module are connected with the data processing module. The storage module is used for receiving the position information and the data of the radiation tester by the data processing module, and when a user needs to call the data, the data can be called by the data processing module through inputting a command by the key module and displayed by the display module.
Preferably, unmanned aerial vehicle still including shoot the module, shoot the module and carry out the electricity with data sending module and be connected, shoot the module and shoot the base station antenna real-time picture and with its transmission data sending module, then transmit to data processing module through data sending module, data transceiver module's data transmission effect, unmanned aerial vehicle controls personnel and can assist the flight environment who confirms unmanned aerial vehicle according to the image that the terminal was received.
Preferably, the terminal further comprises a display module, and the display module is electrically connected with the data processing module. The display module is used for synchronously displaying the position information of the unmanned aerial vehicle, which is received by the data processing module, the test data collected by the radiation tester and the image shot by the shooting module.
Preferably, the shooting module is a camera or a mobile phone.
Preferably, the data sending module and the data receiving and sending module are wireless communication modules.
Preferably, the data sending module and the data receiving and sending module are zigbee modules, and the unmanned aerial vehicle remote controller is connected with the flight control system through a WiFi technology.
Preferably, unmanned aerial vehicle still include the laser rangefinder module, the laser rangefinder module carries on the fuselage, the laser rangefinder module carry out the electricity with data transmission module and be connected, use the supplementary distance of judging unmanned aerial vehicle and basic station antenna of laser rangefinder module.
Compared with the prior art, the utility model discloses technical scheme's beneficial effect is:
the utility model provides a base station environmental assessment test system based on unmanned aerial vehicle, which is characterized in that a radiation tester is installed on the unmanned aerial vehicle, and the unmanned aerial vehicle is used for carrying the radiation tester to perform base station environmental assessment test within the radius range of 50m of a base station antenna; through controlling unmanned aerial vehicle, can realize being located the problem in the air to the test point on 50m radius within range of base station antenna and the directional diagram mainlobe, the positioning process is high efficiency simultaneously, has removed the long condition that spends of artifical location from.
Drawings
Fig. 1 is a schematic structural diagram of a base station environmental assessment test system based on an unmanned aerial vehicle according to the present invention;
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, which are used for illustration only and are not to be construed as limitations of the present patent. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
Example 1
A base station environment assessment test system based on an unmanned aerial vehicle is shown in figure 1 and comprises the unmanned aerial vehicle, a radiation tester, an unmanned aerial vehicle remote controller, a GPS module and a data sending module, wherein the unmanned aerial vehicle comprises a flight control system and a machine body; the GPS module and the radiation tester are electrically connected with the data sending module.
When the test system provided by the invention is used specifically, the flight control system is controlled through the unmanned aerial vehicle remote controller so as to control the flight of the unmanned aerial vehicle, the real-time position of the unmanned aerial vehicle is collected through the GPS and then is sent to the ground terminal through the data sending module, a worker of the ground terminal can determine the real-time position of the unmanned aerial vehicle according to the collected GPS data and then control the flight of the unmanned aerial vehicle, so that the unmanned aerial vehicle can reach the position needing the environmental assessment test, when the unmanned aerial vehicle reaches the corresponding position, the radiation tester measures the collected electric field intensity data, and then the collected data are transmitted to the ground terminal through the data sending module, and the environmental assessment test is completed.
Example 2
The unmanned aerial vehicle-based base station environmental assessment test system provided by the embodiment is consistent with the embodiment 1, and only the internal structure of the unmanned aerial vehicle is further limited.
The unmanned aerial vehicle-based base station environmental assessment test system further comprises a terminal, wherein the terminal comprises a data processing module and a data transceiver module, and the data processing module is connected with the data transceiver module; the data transceiver module is connected with the data sending module. After the radiation tester measures and collects the electric field intensity data, the electric field intensity data are firstly processed and transmitted to the data transmitting module and the data receiving and transmitting module through the data processing module.
As a further preferred embodiment, the terminal further comprises a storage module and a key module, and the storage module and the key module are connected with the data processing module. The storage module is used for receiving the position information and the data of the radiation tester by the data processing module, and when a user needs to call the data, the data can be called by the data processing module through inputting a command by the key module and displayed by the display module.
As a further preferred embodiment, unmanned aerial vehicle still include and shoot the module, shoot the module and carry out the electricity with data sending module and be connected, shoot the module and shoot the base station antenna real-time map and with its transmission data sending module, then transmit to data processing module through data sending module, data transceiver module's data transmission effect, unmanned aerial vehicle control personnel can assist according to the image that the terminal was received and confirm unmanned aerial vehicle's flight environment.
As a further preferred embodiment, the terminal further comprises a display module, and the display module is electrically connected with the data processing module. The display module is used for synchronously displaying the position information of the unmanned aerial vehicle, which is received by the data processing module, the test data collected by the radiation tester and the image shot by the shooting module.
As a further preferred embodiment, the shooting module is a video camera or a mobile phone.
As a further preferred embodiment, the data sending module and the data receiving and sending module are wireless communication modules.
As a further preferred embodiment, the data sending module and the data receiving and sending module are zigbee modules, and the unmanned aerial vehicle remote controller is connected with the flight control system through a WiFi technology.
As a further preferred embodiment, unmanned aerial vehicle still include laser rangefinder module, laser rangefinder module carries on the fuselage, laser rangefinder module and data processing module carry out the electricity and be connected, use the supplementary distance of judging unmanned aerial vehicle and basic station antenna of laser rangefinder module.
It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.
Claims (9)
1. A base station environmental assessment test system based on an unmanned aerial vehicle is characterized by comprising the unmanned aerial vehicle, a radiation tester, an unmanned aerial vehicle remote controller, a GPS module and a data sending module, wherein the unmanned aerial vehicle comprises a flight control system and a machine body; the GPS module and the radiation tester are electrically connected with the data sending module.
2. The unmanned aerial vehicle-based base station environmental assessment test system according to claim 1, further comprising a terminal, wherein the terminal comprises a data processing module and a data transceiver module, wherein the data processing module is connected with the data transceiver module; the data transceiver module is connected with the data sending module.
3. The unmanned aerial vehicle-based base station environmental assessment test system according to claim 2, wherein the terminal further comprises a storage module and a key module, and the storage module and the key module are connected with the data processing module.
4. The unmanned aerial vehicle-based base station environmental assessment test system according to claim 2, wherein the terminal further comprises a display module, and the display module is electrically connected with the data processing module.
5. The unmanned aerial vehicle-based base station environmental assessment test system according to claim 2, wherein the base station environmental assessment test system further comprises a shooting module, the shooting module is mounted on the machine body, and the shooting module is electrically connected with the data sending module.
6. The unmanned aerial vehicle-based base station environmental assessment test system according to claim 5, wherein the shooting module is a camera or a mobile phone.
7. The unmanned aerial vehicle-based base station environmental assessment test system according to claim 2, wherein the data sending module and the data receiving and sending module are wireless communication modules.
8. The unmanned aerial vehicle-based base station loop evaluation test system of claim 7, wherein the data sending module and the data receiving and sending module are zigbee modules, and the unmanned aerial vehicle remote controller is connected with the flight control system through a WiFi technology.
9. The unmanned aerial vehicle-based base station environmental assessment test system according to claim 2, wherein the base station environmental assessment test system further comprises a laser ranging module, the laser ranging module is mounted on the machine body, and the laser ranging module is electrically connected with the data sending module.
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CN113727387A (en) * | 2021-08-28 | 2021-11-30 | 赵斌 | Intelligent scheduling method and system for communication base station environment assessment based on big data |
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CN113727387A (en) * | 2021-08-28 | 2021-11-30 | 赵斌 | Intelligent scheduling method and system for communication base station environment assessment based on big data |
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