CN113760593B - Server positioning method and system - Google Patents
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- CN113760593B CN113760593B CN202110875378.6A CN202110875378A CN113760593B CN 113760593 B CN113760593 B CN 113760593B CN 202110875378 A CN202110875378 A CN 202110875378A CN 113760593 B CN113760593 B CN 113760593B
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/07—Responding to the occurrence of a fault, e.g. fault tolerance
- G06F11/0703—Error or fault processing not based on redundancy, i.e. by taking additional measures to deal with the error or fault not making use of redundancy in operation, in hardware, or in data representation
- G06F11/0706—Error or fault processing not based on redundancy, i.e. by taking additional measures to deal with the error or fault not making use of redundancy in operation, in hardware, or in data representation the processing taking place on a specific hardware platform or in a specific software environment
- G06F11/0721—Error or fault processing not based on redundancy, i.e. by taking additional measures to deal with the error or fault not making use of redundancy in operation, in hardware, or in data representation the processing taking place on a specific hardware platform or in a specific software environment within a central processing unit [CPU]
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/07—Responding to the occurrence of a fault, e.g. fault tolerance
- G06F11/0703—Error or fault processing not based on redundancy, i.e. by taking additional measures to deal with the error or fault not making use of redundancy in operation, in hardware, or in data representation
- G06F11/079—Root cause analysis, i.e. error or fault diagnosis
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/70—Protecting specific internal or peripheral components, in which the protection of a component leads to protection of the entire computer
- G06F21/71—Protecting specific internal or peripheral components, in which the protection of a component leads to protection of the entire computer to assure secure computing or processing of information
- G06F21/73—Protecting specific internal or peripheral components, in which the protection of a component leads to protection of the entire computer to assure secure computing or processing of information by creating or determining hardware identification, e.g. serial numbers
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Abstract
The application discloses a server positioning method and a server positioning system, wherein the method is applied to a server positioning system and comprises a transmitting electronic module and a receiving electronic module. The receiving electronic module is externally connected with the server and stores an identification code representing the identity of the server. The transmitting electronic module responds to the server serial number input by the user, generates an identification code corresponding to the server serial number, processes the identification code, acquires a processed electric wave signal, and sends the electric wave signal to the receiving electronic module. The receiving electronic module receives the electric wave signal, processes the electric wave signal, acquires the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server. Because the receiving electronic module is externally connected with the server, the user can determine the position of the server according to the response of the receiving electronic module. By adopting the wireless radio frequency technology, when the server has network failure, the accurate positioning of the server can be realized.
Description
Technical Field
The present disclosure relates to the field of positioning technologies, and in particular, to a server positioning method and system.
Background
When the server in the machine room breaks down, if the server needs to be manually operated to solve the fault, the position of the server in the machine room needs to be positioned, and after the maintenance personnel arrives at the position of the server, the fault is solved.
At present, the position of the server can be obtained through remote page operation, and then a serviceman can reach the position of the server to repair the server. However, if a network failure occurs in the server, the network between the remote page and the server is not open, and the conventional method of acquiring the server location through the remote page is no longer applicable.
Disclosure of Invention
In order to solve the technical problems, the application provides a server positioning method and a system, which are used for accurately positioning the position of a server when the server is in a network.
In order to achieve the above object, the technical solution provided in the embodiments of the present application is as follows:
the embodiment of the application provides a server positioning method, which is applied to a server positioning system, wherein the server positioning system comprises a transmitting electronic module and a receiving electronic module, the receiving electronic module is externally connected with a server, and an identification code for representing the identity of the server is stored;
the method comprises the following steps:
the transmitting electronic module responds to a server serial number input by a user, generates an identification code corresponding to the server serial number, processes the identification code, acquires a processed electric wave signal, and sends the electric wave signal to the receiving electronic module;
the receiving electronic module receives the electric wave signal, processes the electric wave signal, obtains the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server.
Optionally, the transmitting electronic module at least comprises a display device, a transmitting switch, an integrated circuit and a transmitting antenna.
Optionally, the integrated circuit includes an identification code storage loop and a modulation loop;
the transmitting electronic module responds to a server serial number input by a user, generates an identification code corresponding to the server serial number, processes the identification code, obtains a processed electric wave signal, and sends the electric wave signal to the receiving electronic module, and the method comprises the following steps:
the display device displays that a user inputs a server serial number on the display device;
after the display device displays the input server serial number, the transmitting switch responds to the pressing operation of the user; when the pressing operation triggers, the server serial number is sent to the integrated circuit;
the identification code storage loop receives the server serial number, generates an identification code corresponding to the server serial number according to the server serial number, and sends the identification code to the modulation loop;
the modulation loop receives the identification code, modulates the identification code and generates an electric wave signal;
the transmitting antenna transmits the electric wave signal to the receiving electronic module.
Optionally, the receiving electronic module includes at least a receiving antenna, a distributor, an electronic controller, and a response module.
Optionally, the electronic controller includes a demodulation loop;
the receiving electronic module receives the electric wave signal, processes the electric wave signal, obtains the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server, and comprises the following steps:
the receiving antenna receives the electric wave signal sent by the transmitting electronic module;
the distributor transmits the electric wave signal to the demodulation circuit;
the demodulation circuit demodulates the received electric wave signal to obtain an identification code to be authenticated;
the electronic controller compares the identification code to be authenticated with the identification code stored with the identity of the characterization server, and generates a command signal when the identification code to be authenticated is consistent with the identification code stored with the identity of the characterization server, and sends the command signal to the response module;
and the response module responds after receiving the command signal.
The embodiment of the application also provides a server positioning system, which comprises: a transmitting electronic module and a receiving electronic module; the receiving electronic module is externally connected with the server and stores an identification code representing the identity of the server;
the transmitting electronic module is used for responding to a server serial number input by a user, generating an identification code corresponding to the server serial number, processing the identification code, acquiring a processed electric wave signal, and transmitting the electric wave signal to the receiving electronic module;
the receiving electronic module is used for receiving the electric wave signals, processing the electric wave signals, obtaining identification codes to be authenticated, and responding after the identification codes to be authenticated are consistent with the stored identification codes representing the identity of the server.
Optionally, the transmitting electronic module at least comprises a display device, a transmitting switch, an integrated circuit and a transmitting antenna.
Optionally, the display device is used for a user to input a server serial number on the display device;
the transmitting switch is used for responding to the pressing operation of the user after the display device displays the input server serial number; when the pressing operation triggers, the server serial number is sent to the integrated circuit;
the integrated circuit comprises an identification code storage loop and a modulation loop; the identification code storage loop is used for receiving the server serial number, generating an identification code corresponding to the server serial number according to the server serial number, and sending the identification code to the modulation loop;
the modulation loop is used for receiving the identification code, modulating the identification code and generating an electric wave signal;
the transmitting antenna is used for transmitting the electric wave signal to the receiving electronic module.
Optionally, the receiving electronic module includes at least a receiving antenna, a distributor, an electronic controller, and a response module.
Optionally, the electronic controller includes a demodulation loop;
the receiving antenna is used for receiving the electric wave signals sent by the transmitting electronic module;
the distributor is used for sending the electric wave signals to the demodulation loop;
the demodulation circuit is used for demodulating the received electric wave signals to obtain identification codes to be authenticated;
the electronic controller is used for comparing the identification code to be authenticated with the identification code stored with the identity of the characterization server, generating a command signal when the identification code to be authenticated is consistent with the identification code stored with the identity of the characterization server, and sending the command signal to the response module;
and the response module is used for responding after receiving the command signal.
According to the technical scheme, the application has the following beneficial effects:
the embodiment of the application provides a server positioning method and a server positioning system, wherein the method is applied to a server positioning system, the server positioning system comprises a transmitting electronic module and a receiving electronic module, the receiving electronic module is externally connected with a server, and an identification code representing the identity of the server is stored. When the user needs to determine the position of the server, a server serial number of the server to be determined is input in the transmitting electronic module. The transmitting electronic module responds to the server serial number input by the user, generates an identification code corresponding to the server serial number, processes the identification code, acquires a processed electric wave signal, and sends the electric wave signal to the receiving electronic module. The receiving electronic module receives the electric wave signal, processes the electric wave signal, acquires the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server. Because the receiving electronic module is externally connected with the server, the user can determine the specific position of the server according to the response of the receiving electronic module. According to the server positioning method, the network is not used for communication, but a wireless radio frequency technology is used, so that when the server has network faults, the accurate positioning of the server can be realized.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
Fig. 1 is a schematic diagram of an exemplary application scenario provided in an embodiment of the present application;
fig. 2 is a flowchart of a server positioning method provided in an embodiment of the present application;
fig. 3a is a schematic structural diagram of a transmitting electronic module according to an embodiment of the present application;
fig. 3b is a schematic structural diagram of a receiving electronic module according to an embodiment of the present application.
Detailed Description
In order to make the above objects, features and advantages of the present application more comprehensible, embodiments accompanied with figures and detailed description are described in further detail below.
In order to facilitate understanding of the technical solutions provided in the present application, the background art related to the present application will be described first.
When the server in the machine room breaks down, if the server needs to be manually operated to solve the fault, the position of the server in the machine room needs to be positioned, and the fault is solved after the server reaches the position of the server manually.
Currently, the UID lights in the server may be turned on by operating a virtual button in the remote page, thereby locating the server's location. Wherein UIDs and the like are in one-to-one correspondence with virtual buttons on the operation remote page. For example, if the server a fails, the virtual button a on the remote page corresponds to the server a, and when the virtual button a is pressed, the UID lamp in the server a is turned on, so that the maintenance personnel can smoothly locate the failed server a.
After the maintenance personnel obtains the position of the server, the maintenance personnel arrives at the position of the server to maintain the server. However, if a network failure occurs in the server, the network between the remote page and the server is not open, and the conventional method of acquiring the server location through the remote page is no longer applicable.
Based on the above, the embodiment of the application provides a server positioning method and a server positioning system. In order to facilitate understanding of the server positioning method provided in the embodiment of the present application, an exemplary description is provided below with reference to fig. 1. Fig. 1 is a schematic diagram of an exemplary application scenario provided in an embodiment of the present application.
As shown in fig. 1, the method is applied in a server positioning system 1, the server positioning system 1 comprising a transmitting electronic module 2 and a receiving electronic module 3. The receiving electronic module 3 is externally connected with a server, and an identification code representing the identity of the server is stored.
When the user needs to determine the location of the server, a server serial number of the server to be determined is input in the transmitting electronic module 2. The transmitting electronic module 2 generates an identification code corresponding to the server serial number in response to the server serial number input by the user, processes the identification code, acquires a processed radio wave signal, and transmits the radio wave signal to the receiving electronic module 3.
The receiving electronic module 3 receives the electric wave signal, processes the electric wave signal, obtains the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server.
Those skilled in the art will appreciate that the frame diagram shown in fig. 1 is but one example in which embodiments of the present application may be implemented. The scope of applicability of the embodiments of the application is not limited in any way by the framework.
Based on the foregoing description, a detailed description will be given below of a server positioning method provided in an embodiment of the present application with reference to the accompanying drawings.
Referring to fig. 2, fig. 2 is a flowchart of a server positioning method provided in an embodiment of the present application. The method may be implemented by the server positioning system described in the above embodiment, where the server positioning system includes a transmitting electronic module and a receiving electronic module. As shown in fig. 2, the method includes S201 to S202:
s201: the transmitting electronic module responds to the server serial number input by the user, generates an identification code corresponding to the server serial number, processes the identification code, acquires a processed electric wave signal, and sends the electric wave signal to the receiving electronic module.
In practical applications, the transmitting electronic module is configured to transmit an electric wave signal to the plurality of receiving electronic modules for identification. The electronic module which successfully receives the electric wave signals is identified to respond, so that a user can conveniently position a required server from a plurality of servers according to the response of the electronic module.
As an alternative example, the transmitting electronic module is implemented with a single chip integrated circuit, which may be considered a locator.
As an alternative example, the server serial number is the server's product serial number SN code.
In one possible implementation manner, the embodiment of the application provides a specific structure of a transmitting electronic module, and the transmitting electronic module at least comprises a display device, a transmitting switch, an integrated circuit and a transmitting antenna.
Wherein the integrated circuit comprises an identification code storage loop and a modulation loop.
Correspondingly, the embodiment of the application provides a specific implementation manner that the transmitting electronic module responds to the server serial number input by the user, generates an identification code corresponding to the server serial number, processes the identification code, obtains a processed electric wave signal, and sends the electric wave signal to the receiving electronic module, and the specific implementation manner comprises the following steps:
a1: the display device displays a server serial number entered by a user on the display device.
When the user needs to locate the server, the serial number of the server is acquired, and the serial number of the server is input to the display device. The display device displays a server serial number entered by a user on the display device.
A2: when the display device displays the input server serial number, the transmitting switch responds to the pressing operation of the user; when the press operation triggers, the server serial number is sent to the integrated circuit.
As an alternative example, the emission switch is implemented by a snap-type lithium battery.
After the user inputs the server serial number, each time the user presses the transmitting switch, the server serial number on the display device is sent to the integrated circuit when the pressing operation is triggered.
A3: the identification code storage loop receives the server serial number, generates an identification code corresponding to the server serial number according to the server serial number, and sends the identification code to the modulation loop.
An identification code storage loop in the integrated circuit receives the server serial number and generates an identification code corresponding to the server serial number according to the server serial number. It will be appreciated that the identification code is represented by a piece of code.
Since the generated identification code may contain codes of other interference properties that do not correspond to the server serial number. Therefore, it is preferable that the identification code is first subjected to a code cleaning process, the interference code not corresponding to the server serial number is cleaned, and then the identification code after the cleaning process is transmitted to the modulation circuit.
A4: the modulation circuit receives the identification code, modulates the identification code, and generates a radio wave signal.
As an alternative example, the modulation loop is a frequency shift keying FSK modulation loop. The modulation circuit transmits the radio wave signal to the transmitting antenna.
A5: the transmitting antenna transmits the electric wave signal to the receiving electronic module.
It will be appreciated that the typical transmit frequency may be selected from 27MHz, 40MHz, 62MHz, etc.
S202: the receiving electronic module receives the electric wave signal, processes the electric wave signal, acquires the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server.
The receiving electronic module is externally connected with the server and stores an identification code representing the identity of the server. It can be understood that, when a plurality of servers are provided, each receiving electronic module is externally connected to a corresponding server. The receiving electronic modules are in one-to-one correspondence with the servers, and when the receiving electronic modules respond, a user can position the servers corresponding to the receiving electronic modules, so that the purpose of positioning the servers is achieved.
As an alternative example, embodiments of the present application provide a specific constituent structure of a receiving electronic module. The receiving electronic module at least comprises a receiving antenna, a distributor, an electronic controller and a response module. Wherein the electronic controller comprises a demodulation loop;
correspondingly, the embodiment of the application provides a specific implementation manner that a receiving electronic module receives an electric wave signal, processes the electric wave signal to obtain an identification code to be authenticated, and responds after the identification code to be authenticated is consistent with a stored identification code representing the identity of a server, the specific implementation manner comprises the following steps:
b1: the receiving antenna receives the electric wave signal sent by the transmitting electronic module.
A receiving antenna in the receiving electronic module receives the electric wave signal sent by the transmitting electronic module and sends the received electric wave signal to the distributor.
As an alternative example, the receiving antenna is a frequency modulated antenna, i.e. an FM antenna.
B2: the distributor transmits the radio wave signal to the demodulation circuit.
The distributor transmits the received radio wave signal to the demodulation circuit for demodulation.
B3: the demodulation circuit demodulates the received electric wave signal to obtain the identification code to be authenticated.
As an alternative example, the demodulation loop is an FM high frequency amplification processor.
B4: the electronic controller compares the identification code to be authenticated with the identification code stored with the identity of the characterization server, and generates a command signal when the identification code to be authenticated is consistent with the identification code stored with the identity of the characterization server, and sends the command signal to the response module.
And the electronic controller compares the identification code to be authenticated obtained by demodulation of the demodulation loop with the identification code which characterizes the identity of the server and is stored by the receiving electronic module. When the identification code to be authenticated is consistent with the identification code stored with the identity of the characterization server, the server which indicates that the user needs to be positioned is the server corresponding to the receiving electronic module. At this time, the receiving electronic module generates a command signal and transmits the command signal to the response module.
B5: the response module responds after receiving the command signal.
As an alternative example, the response module includes a response light and a buzzer. When receiving the command signal, the response lamp lights up, while the buzzer responds.
Since both the server cabinet and the server enclosure are made of metal. The metal cabinet and the server may interfere with the electrical wave signals generated by the transmitting electronic module. Based on this, in one possible implementation manner, another server positioning method is provided in the embodiments of the present application, where the method is located after S201 and before S202, and includes:
the signal enhancement module receives the electric wave signal, enhances the electric wave signal and sends the enhanced electric wave information to the receiving electronic module.
The server positioning system comprises a signal enhancement module. The signal enhancement module is externally connected with the server and is connected with the transmitting electronic module. The signal enhancement module is used for receiving the electric wave signals sent by the transmitting antenna, enhancing the electric wave signals and sending the enhanced electric wave signals to the receiving electronic module.
As an alternative example, the signal enhancement module consists of an amplifier.
The embodiment of the application provides a server positioning method, which is applied to a server positioning system, wherein the server positioning system comprises a transmitting electronic module and a receiving electronic module, the receiving electronic module is externally connected with a server, and an identification code representing the identity of the server is stored. When the user needs to determine the position of the server, a server serial number of the server to be determined is input in the transmitting electronic module. The transmitting electronic module responds to the server serial number input by the user, generates an identification code corresponding to the server serial number, processes the identification code, acquires a processed electric wave signal, and sends the electric wave signal to the receiving electronic module. The receiving electronic module receives the electric wave signal, processes the electric wave signal, acquires the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server. Because the receiving electronic module is externally connected with the server, the user can determine the specific position of the server according to the response of the receiving electronic module. According to the server positioning method, the network is not used for communication, but a wireless radio frequency technology is used, so that when the server has network faults, the accurate positioning of the server can be realized.
Based on the server positioning method provided by the embodiment of the method, the embodiment of the application also provides a server positioning system. The system is described below in connection with fig. 3.
Referring to fig. 3a and fig. 3b, fig. 3a is a schematic structural diagram of a transmitting electronic module provided in an embodiment of the present application, and fig. 3b is a schematic structural diagram of a receiving electronic module provided in an embodiment of the present application.
The server positioning system 1 comprises a transmitting electronic module 2 and a receiving electronic module 3. The receiving electronic module 3 is externally connected with a server, and an identification code representing the identity of the server is stored.
As shown in fig. 3a, the transmitting electronic module 2 is configured to generate an identification code corresponding to a server serial number in response to the server serial number input by a user, process the identification code, obtain a processed radio signal, and send the radio signal to the receiving electronic module.
The transmitting electronic module 2 comprises at least a display device 4, a transmitting switch 5, an integrated circuit 6 and a transmitting antenna 7.
Wherein the display device 4 is used for a user to input a server serial number on the display device.
The transmitting switch 5 is used for responding to the pressing operation of a user after the display device 4 displays the input server serial number; when the pressing operation triggers, the server serial number is sent to the integrated circuit 6.
The integrated circuit 6 comprises an identification code storage loop 61 and a modulation loop 62; the identification code storage circuit 61 is configured to receive the server serial number, generate an identification code corresponding to the server serial number according to the server serial number, and send the identification code to the modulation circuit 62.
The modulation circuit 62 receives the identification code, modulates the identification code, and generates a radio wave signal. As an alternative example, the modulation loop is a frequency shift keying FSK modulation loop. The modulation circuit transmits the radio wave signal to the transmitting antenna.
The transmitting antenna 7 is used for transmitting an electric wave signal to the receiving electronic module 3.
The receiving electronic module 3 is configured to receive the electric wave signal, process the electric wave signal, obtain an identification code to be authenticated, and respond when the identification code to be authenticated is consistent with the stored identification code representing the identity of the server.
In addition, the receiving electronic module 3 comprises at least a receiving antenna 8, a distributor 9, an electronic controller 10 and a response module 11.
Wherein the electronic controller 10 comprises a demodulation loop 101.
The receiving antenna 8 is used for receiving the radio wave signal sent by the transmitting electronic module 2. As an alternative example, the receiving antenna is a frequency modulated antenna, i.e. an FM antenna.
The distributor 9 is configured to transmit the radio wave signal to the demodulation circuit 101.
The demodulation circuit 101 is configured to demodulate a received radio wave signal to obtain an identification code to be authenticated. As an alternative example, the demodulation loop is an FM high frequency amplification processor.
The electronic controller 10 is configured to compare the identification code to be authenticated with the identification code stored with the identity of the token server, and generate a command signal when the identification code to be authenticated is consistent with the identification code stored with the identity of the token server, and send the command signal to the response module 11.
The response module 11 is configured to respond after receiving the command signal.
As an alternative example, the response module includes a response light and a buzzer. When receiving the command signal, the response lamp lights up, while the buzzer responds.
As an alternative example, the server positioning system includes a signal enhancement module. The signal enhancement module is externally connected with the server and is connected with the transmitting electronic module. The signal enhancement module is used for receiving the electric wave signals sent by the transmitting antenna, enhancing the electric wave signals and sending the enhanced electric wave signals to the receiving electronic module. The signal enhancement module may be comprised of an amplifier.
The embodiment of the application provides a server positioning system, which comprises a transmitting electronic module and a receiving electronic module, wherein the receiving electronic module is externally connected with a server and stores an identification code representing the identity of the server. When the user needs to determine the position of the server, a server serial number of the server to be determined is input in the transmitting electronic module. The transmitting electronic module responds to the server serial number input by the user, generates an identification code corresponding to the server serial number, processes the identification code, acquires a processed electric wave signal, and sends the electric wave signal to the receiving electronic module. The receiving electronic module receives the electric wave signal, processes the electric wave signal, acquires the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server. Because the receiving electronic module is externally connected with the server, the user can determine the specific position of the server according to the response of the receiving electronic module. According to the server positioning method, the network is not used for communication, but a wireless radio frequency technology is used, so that when the server has network faults, the accurate positioning of the server can be realized.
It should be noted that, in the present description, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different manner from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the method disclosed in the embodiment, since it corresponds to the system disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the system part.
It should also be noted that, in this document, 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.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (6)
1. The server positioning method is characterized by being applied to a server positioning system, wherein the server positioning system comprises a transmitting electronic module and a receiving electronic module, the receiving electronic module is externally connected with a server, and an identification code for representing the identity of the server is stored;
the method comprises the following steps:
the transmitting electronic module responds to a server serial number input by a user, generates an identification code corresponding to the server serial number, processes the identification code, acquires a processed electric wave signal, and sends the electric wave signal to the receiving electronic module;
the receiving electronic module receives the electric wave signal, processes the electric wave signal, acquires an identification code to be authenticated, and responds after the identification code to be authenticated is consistent with a stored identification code representing the identity of the server;
the emission electronic module at least comprises a display device, an emission switch, an integrated circuit and an emission antenna;
the integrated circuit comprises an identification code storage loop and a modulation loop;
the transmitting electronic module responds to a server serial number input by a user, generates an identification code corresponding to the server serial number, processes the identification code, obtains a processed electric wave signal, and sends the electric wave signal to the receiving electronic module, and the method comprises the following steps:
the display device displays that a user inputs a server serial number on the display device;
after the display device displays the input server serial number, the transmitting switch responds to the pressing operation of the user; when the pressing operation triggers, the server serial number is sent to the integrated circuit;
the identification code storage loop receives the server serial number, generates an identification code corresponding to the server serial number according to the server serial number, and sends the identification code to the modulation loop;
the modulation loop receives the identification code, modulates the identification code and generates an electric wave signal;
the transmitting antenna transmits the electric wave signal to the receiving electronic module.
2. The method of claim 1, wherein the receiving electronics module comprises at least a receiving antenna, a splitter, an electronic controller, and a response module.
3. The method of claim 2, wherein the electronic controller comprises a demodulation loop;
the receiving electronic module receives the electric wave signal, processes the electric wave signal, obtains the identification code to be authenticated, and responds after the identification code to be authenticated is consistent with the stored identification code representing the identity of the server, and comprises the following steps:
the receiving antenna receives the electric wave signal sent by the transmitting electronic module;
the distributor transmits the electric wave signal to the demodulation circuit;
the demodulation circuit demodulates the received electric wave signal to obtain an identification code to be authenticated;
the electronic controller compares the identification code to be authenticated with the identification code stored with the identity of the characterization server, and generates a command signal when the identification code to be authenticated is consistent with the identification code stored with the identity of the characterization server, and sends the command signal to the response module;
and the response module responds after receiving the command signal.
4. A server positioning system, the system comprising: a transmitting electronic module and a receiving electronic module; the receiving electronic module is externally connected with the server and stores an identification code representing the identity of the server;
the transmitting electronic module is used for responding to a server serial number input by a user, generating an identification code corresponding to the server serial number, processing the identification code, acquiring a processed electric wave signal, and transmitting the electric wave signal to the receiving electronic module;
the receiving electronic module is used for receiving the electric wave signals, processing the electric wave signals, obtaining identification codes to be authenticated, and responding after the identification codes to be authenticated are consistent with the stored identification codes representing the identity of the server;
the emission electronic module at least comprises a display device, an emission switch, an integrated circuit and an emission antenna;
the display device is used for inputting a server serial number on the display device by a user;
the transmitting switch is used for responding to the pressing operation of the user after the display device displays the input server serial number; when the pressing operation triggers, the server serial number is sent to the integrated circuit;
the integrated circuit comprises an identification code storage loop and a modulation loop; the identification code storage loop is used for receiving the server serial number, generating an identification code corresponding to the server serial number according to the server serial number, and sending the identification code to the modulation loop;
the modulation loop is used for receiving the identification code, modulating the identification code and generating an electric wave signal;
the transmitting antenna is used for transmitting the electric wave signal to the receiving electronic module.
5. The system of claim 4, wherein the receiving electronics module comprises at least a receiving antenna, a splitter, an electronic controller, and a response module.
6. The system of claim 5, wherein the electronic controller comprises a demodulation loop;
the receiving antenna is used for receiving the electric wave signals sent by the transmitting electronic module;
the distributor is used for sending the electric wave signals to the demodulation loop;
the demodulation circuit is used for demodulating the received electric wave signals to obtain identification codes to be authenticated;
the electronic controller is used for comparing the identification code to be authenticated with the identification code stored with the identity of the characterization server, generating a command signal when the identification code to be authenticated is consistent with the identification code stored with the identity of the characterization server, and sending the command signal to the response module;
and the response module is used for responding after receiving the command signal.
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