CN117580082A - Method for identifying positioning pseudo base station and positioning system - Google Patents
Method for identifying positioning pseudo base station and positioning system Download PDFInfo
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- CN117580082A CN117580082A CN202410059617.4A CN202410059617A CN117580082A CN 117580082 A CN117580082 A CN 117580082A CN 202410059617 A CN202410059617 A CN 202410059617A CN 117580082 A CN117580082 A CN 117580082A
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- 238000001514 detection method Methods 0.000 claims description 258
- 238000012545 processing Methods 0.000 abstract description 2
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- 238000007796 conventional method Methods 0.000 description 1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/04—Arrangements for maintaining operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W64/00—Locating users or terminals or network equipment for network management purposes, e.g. mobility management
- H04W64/003—Locating users or terminals or network equipment for network management purposes, e.g. mobility management locating network equipment
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The invention relates to a method for identifying and positioning a pseudo base station and a positioning system, which belong to the technical field of electric digital data processing.
Description
Technical Field
The invention belongs to the technical field of electric digital data processing, and particularly relates to a method for identifying a positioning pseudo base station and a positioning system.
Background
The current stage is to the recognition and positioning common mode of the pseudo base station, (1) the touch control terminal sends the frequency range to be recognized to the pseudo base station recognition module; (2) The pseudo base station identification module sequentially decodes the broadcast channel information of each frequency, identifies the transmitting frequency of the pseudo base station and transmits the transmitting frequency to the touch control terminal in real time; (3) The touch control terminal sends the transmitting frequency of the pseudo base station to the pseudo base station detecting module; (4) The pseudo base station detection module performs frequency locking high-speed decoding measurement on the pseudo base station signal and then transmits the pseudo base station wireless parameters to the touch control terminal; (5) And the touch control terminal acquires and displays the geographic position of the pseudo base station according to the data acquired by the pseudo base station identification module and the pseudo base station detection module.
However, in the above scheme, if the final touch control terminal cannot visualize the position information of the pseudo base station due to hardware failure, the related staff is required to perform the manual failure location checking analysis, which has extremely low efficiency and has a manual error.
Therefore, a method and a positioning system for identifying and positioning a pseudo base station are needed to solve the above problems.
Disclosure of Invention
The invention aims to provide a method and a positioning system for identifying and positioning a pseudo base station, which are used for solving the technical problems in the prior art, namely, in the conventional method for identifying and positioning the pseudo base station at the present stage, if the final touch control terminal cannot visualize the position information of the pseudo base station due to hardware faults, related staff are required to perform manual fault positioning and checking analysis, and the efficiency is extremely low and manual errors exist.
In order to achieve the above purpose, the technical scheme of the invention is as follows:
the positioning system for identifying and positioning the pseudo base station comprises a touch control terminal, a pseudo base station identification module and a pseudo base station detection module, wherein a first output end of the touch control terminal is connected with an input end of the pseudo base station identification module, an output end of the pseudo base station identification module is connected with a first input end of the touch control terminal, a second output end of the touch control terminal is connected with an input end of the pseudo base station detection module, and an output end of the pseudo base station detection module is connected with a second input end of the touch control terminal;
the system further comprises a first control output detection device, a recognition input detection device, a recognition output detection device, a first control input detection device, a second control output detection device, a detection input detection device, a detection output detection device, a second control input detection device and a main control device, wherein the main control device is respectively connected with the first control output detection device, the recognition input detection device, the recognition output detection device, the first control input detection device, the second control output detection device, the detection input detection device, the detection output detection device and the second control input detection device.
Further, the first control output detection device is configured to detect whether an output signal exists at a first output end of the touch control terminal;
the identification input detection device is used for detecting whether an input signal exists at the input end of the pseudo base station identification module;
the identification output detection device is used for detecting whether an output signal exists at the output end of the pseudo base station identification module;
the first control input detection device is used for detecting whether an input signal exists at a first input end of the touch control terminal;
the second control output detection device is used for detecting whether an output signal exists at a second output end of the touch control terminal;
the detection input detection device is used for detecting whether an input signal exists at the input end of the pseudo base station detection module;
the detection output detection device is used for detecting whether an output signal exists at the output end of the pseudo base station detection module;
the second control input detection device is used for detecting whether an input signal exists at a second input end of the touch control terminal.
Further, the main control device controls the first control output detection device, the identification input detection device, the identification output detection device, the first control input detection device, the second control output detection device, the detection input detection device, the detection output detection device and the second control input detection device to be normally closed;
when the touch control terminal cannot visualize the position information of the pseudo base station, the main control device controls the first control output detection device to be started;
and if the first control output detection device detects that the first output end of the touch control terminal does not have an output signal, the main control device judges that the touch control terminal has an output fault.
Further, when the first control output detection device detects that an output signal exists at the first output end of the touch control type control terminal, the main control device controls the identification input detection device to be started;
if the identification input detection device detects that the input end of the pseudo base station identification module does not have an input signal, the main control device judges that a connecting line between the first output end of the touch control terminal and the input end of the pseudo base station identification module is faulty.
Further, when the identification input detection device detects that an input signal exists at the input end of the pseudo base station identification module, the main control device controls the identification output detection device to be started;
and if the identification output detection device detects that the output end of the pseudo base station identification module does not have an output signal, the main control device judges that the pseudo base station identification module fails.
Further, when the identification output detection device detects that an output signal exists at the output end of the pseudo base station identification module, the main control device controls the first control input detection device to be started;
if the first control input detection device detects that the first input end of the touch control terminal does not have an input signal, the main control device judges that a connecting line between the first input end of the touch control terminal and the output end of the pseudo base station identification module is faulty.
Further, when the first control input detection device detects that an input signal exists at a first input end of the touch control terminal, the main control device controls the second control output detection device to be started;
and if the second control output detection device detects that the second output end of the touch control terminal does not have an output signal, the main control device judges that the touch control terminal has an output fault.
Further, when the second control output detection device detects that an output signal exists at the second output end of the touch control type control terminal, the main control device controls the detection input detection device to be started;
if the detection input detection device detects that the input end of the pseudo base station detection module does not have an input signal, the main control device judges that a connecting line between the input end of the pseudo base station detection module and the second output end of the touch control terminal is faulty;
if the detection input detection device detects that an input signal exists at the input end of the pseudo base station detection module, the main control device controls the detection output detection device to be started;
if the detection input detection device detects that the output end of the pseudo base station detection module does not have an output signal, the main control device judges that the pseudo base station detection module fails.
Further, when the detection input detection device detects that an output signal exists at the output end of the pseudo base station detection module, the main control device controls the second control input detection device to be started;
if the second control input detection device detects that the second input end of the touch control terminal does not have an input signal, the main control device judges that a connecting line between the second input end of the touch control terminal and the output end of the pseudo base station detection module is faulty;
and if the second control input detection device detects that an input signal exists at the second input end of the touch control terminal, the main control device judges that the display instrument of the touch control terminal fails.
A method for identifying and positioning pseudo base stations adopts a positioning system for identifying and positioning pseudo base stations to identify and position pseudo base stations.
Compared with the prior art, the invention has the following beneficial effects:
one of the beneficial effects of this scheme lies in, through design first control output detection device, discernment input detection device, discernment output detection device, first control input detection device, second control output detection device, detect input detection device, detect output detection device, the ordered cooperation start between the second control input detection device, can be fast (under the condition that each detection device only needs to run once) carry out the hardware fault accurate positioning to the pseudo base station discernment location scheme that "touch control terminal, pseudo base station discernment module, pseudo base station detection module" are constituteed, the relevant staff of being convenient for takes corresponding emergency measure.
Drawings
Fig. 1 is a schematic system configuration diagram of the embodiment.
Fig. 2 is a schematic diagram of the system operation principle of the embodiment.
Detailed Description
For the purpose of making the technical solution and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not intended to limit the invention, i.e., the embodiments described are merely some, but not all, of the embodiments of the invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.
Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present invention. It is noted that relational terms such as "first" and "second", and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.
Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.
As shown in fig. 1, a positioning system for identifying and positioning a pseudo base station is provided, which comprises a touch control terminal, a pseudo base station identification module and a pseudo base station detection module, wherein a first output end of the touch control terminal is connected with an input end of the pseudo base station identification module, an output end of the pseudo base station identification module is connected with a first input end of the touch control terminal, a second output end of the touch control terminal is connected with an input end of the pseudo base station detection module, and an output end of the pseudo base station detection module is connected with a second input end of the touch control terminal;
the system further comprises a first control output detection device, a recognition input detection device, a recognition output detection device, a first control input detection device, a second control output detection device, a detection input detection device, a detection output detection device, a second control input detection device and a main control device, wherein the main control device is respectively connected with the first control output detection device, the recognition input detection device, the recognition output detection device, the first control input detection device, the second control output detection device, the detection input detection device, the detection output detection device and the second control input detection device.
Further, the first control output detection device is configured to detect whether an output signal exists at a first output end of the touch control terminal;
the identification input detection device is used for detecting whether an input signal exists at the input end of the pseudo base station identification module;
the identification output detection device is used for detecting whether an output signal exists at the output end of the pseudo base station identification module;
the first control input detection device is used for detecting whether an input signal exists at a first input end of the touch control terminal;
the second control output detection device is used for detecting whether an output signal exists at a second output end of the touch control terminal;
the detection input detection device is used for detecting whether an input signal exists at the input end of the pseudo base station detection module;
the detection output detection device is used for detecting whether an output signal exists at the output end of the pseudo base station detection module;
the second control input detection device is used for detecting whether an input signal exists at a second input end of the touch control terminal.
Further, as shown in fig. 2, the main control device controls the first control output detection device, the identification input detection device, the identification output detection device, the first control input detection device, the second control output detection device, the detection input detection device, the detection output detection device and the second control input detection device to be normally closed;
when the touch control terminal cannot visualize the position information of the pseudo base station, the main control device controls the first control output detection device to be started;
and if the first control output detection device detects that the first output end of the touch control terminal does not have an output signal, the main control device judges that the touch control terminal has an output fault.
Further, when the first control output detection device detects that an output signal exists at the first output end of the touch control type control terminal, the main control device controls the identification input detection device to be started;
if the identification input detection device detects that the input end of the pseudo base station identification module does not have an input signal, the main control device judges that a connecting line between the first output end of the touch control terminal and the input end of the pseudo base station identification module is faulty.
Further, when the identification input detection device detects that an input signal exists at the input end of the pseudo base station identification module, the main control device controls the identification output detection device to be started;
and if the identification output detection device detects that the output end of the pseudo base station identification module does not have an output signal, the main control device judges that the pseudo base station identification module fails.
Further, when the identification output detection device detects that an output signal exists at the output end of the pseudo base station identification module, the main control device controls the first control input detection device to be started;
if the first control input detection device detects that the first input end of the touch control terminal does not have an input signal, the main control device judges that a connecting line between the first input end of the touch control terminal and the output end of the pseudo base station identification module is faulty.
Further, when the first control input detection device detects that an input signal exists at a first input end of the touch control terminal, the main control device controls the second control output detection device to be started;
and if the second control output detection device detects that the second output end of the touch control terminal does not have an output signal, the main control device judges that the touch control terminal has an output fault.
Further, when the second control output detection device detects that an output signal exists at the second output end of the touch control type control terminal, the main control device controls the detection input detection device to be started;
if the detection input detection device detects that the input end of the pseudo base station detection module does not have an input signal, the main control device judges that a connecting line between the input end of the pseudo base station detection module and the second output end of the touch control terminal is faulty;
if the detection input detection device detects that an input signal exists at the input end of the pseudo base station detection module, the main control device controls the detection output detection device to be started;
if the detection input detection device detects that the output end of the pseudo base station detection module does not have an output signal, the main control device judges that the pseudo base station detection module fails.
Further, when the detection input detection device detects that an output signal exists at the output end of the pseudo base station detection module, the main control device controls the second control input detection device to be started;
if the second control input detection device detects that the second input end of the touch control terminal does not have an input signal, the main control device judges that a connecting line between the second input end of the touch control terminal and the output end of the pseudo base station detection module is faulty;
and if the second control input detection device detects that an input signal exists at the second input end of the touch control terminal, the main control device judges that the display instrument of the touch control terminal fails.
In the scheme, the hardware fault accurate positioning can be performed on the pseudo base station identification positioning scheme consisting of the touch control terminal, the pseudo base station identification module and the pseudo base station detection module rapidly (under the condition that each detection device only needs to run once) by designing the first control output detection device, the identification input detection device, the identification output detection device, the first control input detection device, the second control output detection device, the detection input detection device, the detection output detection device and the ordered matching starting of the second control input detection device.
A method for identifying and positioning pseudo base stations adopts a positioning system for identifying and positioning pseudo base stations to identify and position pseudo base stations.
The above is a preferred embodiment of the present invention, and all changes made according to the technical solution of the present invention belong to the protection scope of the present invention when the generated functional effects do not exceed the scope of the technical solution of the present invention.
Claims (8)
1. The positioning system for identifying and positioning the pseudo base station comprises a touch control terminal, a pseudo base station identification module and a pseudo base station detection module, and is characterized in that a first output end of the touch control terminal is connected with an input end of the pseudo base station identification module, an output end of the pseudo base station identification module is connected with a first input end of the touch control terminal, a second output end of the touch control terminal is connected with an input end of the pseudo base station detection module, and an output end of the pseudo base station detection module is connected with a second input end of the touch control terminal;
the system further comprises a first control output detection device, an identification input detection device, an identification output detection device, a first control input detection device, a second control output detection device, a detection input detection device, a detection output detection device, a second control input detection device and a main control device, wherein the main control device is respectively connected with the first control output detection device, the identification input detection device, the identification output detection device, the first control input detection device, the second control output detection device, the detection input detection device, the detection output detection device and the second control input detection device;
the first control output detection device is used for detecting whether an output signal exists at a first output end of the touch control terminal;
the identification input detection device is used for detecting whether an input signal exists at the input end of the pseudo base station identification module;
the identification output detection device is used for detecting whether an output signal exists at the output end of the pseudo base station identification module;
the first control input detection device is used for detecting whether an input signal exists at a first input end of the touch control terminal;
the second control output detection device is used for detecting whether an output signal exists at a second output end of the touch control terminal;
the detection input detection device is used for detecting whether an input signal exists at the input end of the pseudo base station detection module;
the detection output detection device is used for detecting whether an output signal exists at the output end of the pseudo base station detection module;
the second control input detection device is used for detecting whether an input signal exists at a second input end of the touch control terminal;
the main control device controls the first control output detection device, the identification input detection device, the identification output detection device, the first control input detection device, the second control output detection device, the detection input detection device, the detection output detection device and the second control input detection device to be normally closed;
when the touch control terminal cannot visualize the position information of the pseudo base station, the main control device controls the first control output detection device to be started;
and if the first control output detection device detects that the first output end of the touch control terminal does not have an output signal, the main control device judges that the touch control terminal has an output fault.
2. The positioning system for identifying and positioning a pseudo base station according to claim 1, wherein when the first control output detecting means detects that an output signal exists at a first output end of a touch control terminal, the main control means controls the identification input detecting means to be turned on;
if the identification input detection device detects that the input end of the pseudo base station identification module does not have an input signal, the main control device judges that a connecting line between the first output end of the touch control terminal and the input end of the pseudo base station identification module is faulty.
3. The positioning system for identifying and positioning a pseudo base station according to claim 2, wherein when the identification input detection means detects that an input signal exists at the input end of the pseudo base station identification module, the main control means controls the identification output detection means to be turned on;
and if the identification output detection device detects that the output end of the pseudo base station identification module does not have an output signal, the main control device judges that the pseudo base station identification module fails.
4. A positioning system for identifying and positioning a pseudo base station according to claim 3, wherein when said identification output detecting means detects that an output signal exists at the output end of the pseudo base station identification module, said main control means controls said first control input detecting means to be turned on;
if the first control input detection device detects that the first input end of the touch control terminal does not have an input signal, the main control device judges that a connecting line between the first input end of the touch control terminal and the output end of the pseudo base station identification module is faulty.
5. The positioning system for identifying a positioning pseudo base station according to claim 4, wherein when the first control input detecting means detects that an input signal exists at a first input end of a touch control terminal, the main control means controls the second control output detecting means to be turned on;
and if the second control output detection device detects that the second output end of the touch control terminal does not have an output signal, the main control device judges that the touch control terminal has an output fault.
6. The positioning system for identifying a positioning pseudo base station according to claim 5, wherein when the second control output detecting device detects that an output signal exists at the second output end of the touch control terminal, the main control device controls the detection input detecting device to be turned on;
if the detection input detection device detects that the input end of the pseudo base station detection module does not have an input signal, the main control device judges that a connecting line between the input end of the pseudo base station detection module and the second output end of the touch control terminal is faulty;
if the detection input detection device detects that an input signal exists at the input end of the pseudo base station detection module, the main control device controls the detection output detection device to be started;
if the detection input detection device detects that the output end of the pseudo base station detection module does not have an output signal, the main control device judges that the pseudo base station detection module fails.
7. The positioning system for identifying and positioning a pseudo base station according to claim 6, wherein when the detecting input detecting means detects that an output signal exists at an output end of the pseudo base station detecting module, the main control means controls the second control input detecting means to be turned on;
if the second control input detection device detects that the second input end of the touch control terminal does not have an input signal, the main control device judges that a connecting line between the second input end of the touch control terminal and the output end of the pseudo base station detection module is faulty;
and if the second control input detection device detects that an input signal exists at the second input end of the touch control terminal, the main control device judges that the display instrument of the touch control terminal fails.
8. A method of identifying a positioning pseudo base station, characterized in that a positioning system for identifying a positioning pseudo base station according to any of claims 1-7 is used for pseudo base station identification positioning.
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