CN112291809B - Method for realizing frequency monitoring system - Google Patents

Abstract

The invention provides a method for realizing a frequency monitoring system, which comprises the following steps: the frequency monitoring system comprises a frequency monitoring server, a frequency monitoring client, a communication server, a frequency monitoring controller and a frequency monitoring receiver, and the frequency monitoring system is realized by the following steps: the frequency monitoring controller is added at the frequency monitoring receiver, so that the frequency monitoring controller realizes the analysis and processing of frequency spectrum information and reports the frequency spectrum information to the frequency monitoring server; controlling a frequency monitoring receiver to adjust operation parameters by a frequency monitoring controller according to an instruction of a frequency monitoring client; the frequency monitoring controller realizes the matching of the control protocols of different devices with the standard control protocol. The realization method can realize that a plurality of users share one receiver to realize frequency monitoring; remote control of a transmitting radio station and a receiver is realized on the same platform; the problem of positioning the illegal use of the frequency point is solved; effective received information can be recorded to the maximum extent; the use of less bandwidth ensures reliable transmission of information.

Description

Method for realizing frequency monitoring system

Technical Field

The invention relates to the technical field of radio monitoring, in particular to a method for realizing a frequency monitoring system.

Background

Through market research, frequency monitoring systems are highly valued by the countries, such as:

the Ministry of agriculture requires in the Fishery safety production strengthening section (seventeenth) of national fishery and fishery working points in 2018: the fishery radio standard management is promoted in a solid mode, the management maintenance and the optimized layout of fishery navigation marks and base station base stations are enhanced, and functions of management of mobile communication service identification codes on the sea of fishing boats and the like are carried out. Strengthen emergent on duty, strengthen the security precaution of key period ".

The requirement of the Ministry of agriculture in the 'Notification of the office hall of the Ministry of rural agriculture about strengthening fishery safety production work' (No. 2019 & lt 25) 'the eighth development of fishery safety science and technology' strengthening fishery telecommunication management, standardizing the application and the release of nine codes of fishing boats, carrying out fishery base station frequency band monitoring according to law and continuously optimizing the layout of the base station 'is met'.

The Ministry of industry and information technology (Ministry of industry and informatization) provides requirements in the third item (the Ministry of industry and informatization does not have the number of [2019] 57) for actually improving the construction level of radio monitoring facilities:

(1) and the monitoring coverage range is improved. 'perfecting a short wave monitoring network and improving the monitoring capability of key sea areas and peripheral areas'.

(4) The special monitoring capability is improved. The method improves special monitoring facilities such as civil aviation, railway, water and the like to ensure the frequency use safety of special environments such as airport periphery, high-speed rail lines, important ports and the like.

(5) And strengthening the construction of special projects. The construction engineering of the radio management technical facilities of the coastal areas is continuously promoted, and monitoring networks of the border areas, the important sea areas and the coastal areas are gradually improved.

After the research and discovery of patent, the realization of the system is mainly emphasized in the aspect of the frequency monitoring system at present, the technical researches on how to fully utilize the frequency monitoring equipment and facilitate the deployment, management and the like of the frequency monitoring equipment are less, and the following are similar solutions:

publication (bulletin) No.: CN108988961A, the invention discloses a radio monitoring operation management system, which includes a plurality of radio monitoring operation management devices, each radio monitoring operation management device is connected with a plurality of radio monitoring devices, obtains operation parameter data of the radio monitoring devices, and transmits the operation parameter data to a cloud server; the cloud server is used for receiving the data sent by the radio monitoring operation management device, storing, analyzing and processing the data and sending the data to the client; the client is used for receiving the data sent by the cloud server and carrying out display, data management and abnormity early warning on the data.

Publication (bulletin) No.: CN106911406A (CN106911406B), this invention discloses a radio monitoring network system, which includes a monitoring platform and one or more radio monitoring stations, wherein the monitoring platform includes: the monitoring station information acquisition module is used for acquiring the information of the radio monitoring station; the coverage calculation module is used for calculating the monitoring coverage of the radio monitoring station; the display module is used for displaying the coverage range of the radio monitoring station; and the evaluation module is used for evaluating the coverage capability of the radio monitoring station. The invention can visually display the supervision state and supervision capacity of monitoring resources in the jurisdiction on various services, and can carry out corresponding development planning design. And by combining the electromagnetic compatibility analysis capability, the monitoring coverage range of a single or all monitoring stations in the monitoring network to different service frequency bands is calculated, the coverage condition of the monitoring stations is displayed, the monitoring network coverage capability is evaluated, and scientific technical basis can be provided for the monitoring network construction.

Publication (bulletin) No.: CN110996336A supports the radio monitoring system of the mobile monitoring station, this invention provides a radio monitoring system supporting mobile monitoring station, including: monitoring system, management and control system, mobile monitoring station, wherein, monitoring system includes: the service management unit is configured to determine a monitoring task to be executed based on the operation of a user and issue the monitoring task to the management and control system; the signal analysis unit is configured to analyze the monitoring result forwarded by the management and control system; the management and control system comprises: the task scheduling management unit is configured to issue a task execution instruction to the mobile monitoring station based on the monitoring task; the data transmission unit is configured to forward a monitoring result returned by the mobile monitoring station to the monitoring system; the mobile monitoring station comprises: and the equipment operation service unit is configured to execute monitoring operation based on the task execution instruction, generate a monitoring result and return the monitoring result to the management and control system.

In the prior art, frequency monitoring information is mainly acquired by hardware and software methods and is fed back to a control system, a basic unit which only acquires signals is not formed and is completed by hardware, and other basic units are completed by software, namely, the development direction of software radio which is popular in the current communication field is formed.

In the prior art, the management center only passively receives and displays information, the receiver cannot only receive the required information according to the intention of a user, the total information amount received by the receiver is very large, and the information which is not screened is transmitted and processed, so that the waste is very large.

In the prior art, when a frequency monitoring manager finds abnormal frequency usage, the frequency monitoring manager needs to inform a current illegal resource occupying person to release resources or inhibit communication of the current illegal resource occupying person through other means, and the deployed radio station cannot be effectively utilized to directly communicate with an illegal user.

In the prior art, different solutions are used for a mobile monitoring station and a fixed monitoring station, so that a frequency point magnetic field distribution thermodynamic diagram is not convenient to form, and no effective guidance means is provided for positioning and deploying illegal occupied frequency points.

Therefore, in order to solve the above inconvenience and defects in the prior art, it is necessary to develop a more advanced technical solution.

Disclosure of Invention

The purpose of the invention is: in order to solve the above problems in the prior art, the present invention provides a method for implementing a frequency monitoring system, which can achieve the following objectives:

(1) a plurality of users share one receiver to realize frequency monitoring (the problems that the price of the receiver is high, the deployment site is far away, the throughput of received information is more than 100Mbps, and the remote information sharing is difficult to realize are solved);

(2) the remote control of a transmitting radio station and a receiver is realized on the same platform (solving the problem that the receiving and generating stations are generally arranged in different places and the radio station needs to be controlled to send warning information when the illegal use of frequency resources is monitored);

(3) the problem of positioning illegal use of frequency points (solving the problem that positioning is sometimes needed to be carried out on illegal frequency point occupation and a frequency monitoring system is needed to generate positioning guide information);

(4) recording effective receiving information to the maximum (solving the problem that the number of channels which can be monitored by a receiver at the same time is limited, and each channel is idle most of the time, so that the most active channel needs to be monitored and recorded in real time);

(5) the reliable transmission of information is ensured by using smaller bandwidth (the problems that the frequency spectrum information of a receiver and the real-time information of a channel transmission signal are large, the receiver is far away from an office area, and a high-bandwidth link is laid are solved).

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a method for implementing a frequency monitoring system, the frequency monitoring system comprising: the system comprises a frequency monitoring server, a frequency monitoring client, a communication server, a frequency monitoring controller and a frequency monitoring receiver, wherein the frequency monitoring server, the frequency monitoring controller, the frequency monitoring client and the communication server are communicated with each other through an INTERNET network; the frequency monitoring receiver is directly connected with the frequency monitoring controller; the frequency monitoring system is realized by the following steps: a frequency monitoring controller is added at a frequency monitoring receiver, and the frequency monitoring controller is used for analyzing and processing frequency spectrum information and reporting the frequency spectrum information to a frequency monitoring server; controlling a frequency monitoring receiver to adjust operation parameters by a frequency monitoring controller according to an instruction of a frequency monitoring client; the frequency monitoring controller realizes the matching of the control protocols of different devices and the standard control protocol; the information from and to the frequency monitoring controller is identified by a unique ID number, and the user control device only concerns the device ID and not the device type.

Further, the frequency monitoring controller processes the frequency spectrum information according to three-level precision, including a full frequency band, a specified frequency band and a specified frequency channel, so as to ensure that high-precision frequency spectrum analysis is completed with low transmission bandwidth requirement; the specific method comprises the following steps: the frequency monitoring controller receives the frequency spectrum information from the frequency monitoring receiver, processes the frequency spectrum information according to three-level precision, locally displays and reports result information to the frequency monitoring server, the frequency monitoring server receives the frequency spectrum information and pushes the frequency spectrum information to the concerned frequency monitoring client, and the frequency monitoring client receives the information and displays the information on the frequency monitoring client.

Furthermore, the frequency monitoring controller firstly discards invalid voices by using a voice recognition algorithm on channel voices and processes the valid voices by using a plurality of voice compression algorithms, so that the voices can be processed by using different voice compression algorithms according to the requirements of users on voice definition and transmission bandwidth limitation;

the frequency monitoring controller receives the frequency spectrum information from the frequency monitoring receiver, demodulates the voice information, checks the voice effectiveness, sends the voice information to local playing, codes the voice information according to voice coding parameters, sends the voice information to the frequency monitoring server after the voice information is coded, the frequency monitoring server stores the voice and pushes the voice information to a concerned frequency monitoring client, and the frequency monitoring client decodes and plays the voice information.

Further, the frequency monitoring controller sends heartbeat information including device states and operation parameters to the frequency monitoring server at regular time, and the frequency monitoring server controls the device states in real time, and the specific method includes: the method comprises the steps that a frequency monitoring controller collects the state and the operation parameters of a frequency monitoring receiver, the state and the operation parameters are displayed locally, the frequency monitoring controller sends heartbeat information to a frequency monitoring server, the frequency monitoring server receives the heartbeat information, stores the heartbeat information and sends the heartbeat information to a concerned frequency monitoring client, and the frequency monitoring client receives the heartbeat information and displays the state and the operation parameters of the frequency monitoring receiver;

the frequency monitoring client requests the frequency monitoring server for the state and the operation parameters of the frequency monitoring receiver, the frequency monitoring server returns the operation parameters of the specified frequency monitoring receiver to the frequency monitoring client, the frequency monitoring client receives the request return information, and the frequency monitoring client displays the state and the parameter information of the frequency monitoring receiver.

Further, the frequency monitoring client requests the frequency spectrum statistical information from the frequency monitoring server, the frequency monitoring server receives the frequency spectrum statistical information request from the frequency monitoring client and returns the statistical information, and the frequency monitoring client receives the frequency spectrum statistical information returned by the frequency monitoring server and displays the frequency spectrum statistical information, and the specific method comprises the following steps:

the frequency monitoring controller locally displays the received information, and can locally operate and control the frequency monitoring receiver, so that the installation, debugging and maintenance problem positioning are facilitated;

the frequency monitoring controller controls the frequency monitoring receiver to receive information in different frequency bands and channels, and a plurality of users can accurately monitor required monitoring points simultaneously under the support of a plurality of frequency monitoring receivers;

the frequency monitoring server pushes the frequency spectrum information, the voice information and the state information of the frequency monitoring receiver reported by the frequency monitoring controller to a concerned frequency monitoring client in time, the voice information and the frequency spectrum statistical information are stored in the frequency monitoring server in time, and the frequency monitoring client is prepared to inquire and count at any time;

and the frequency monitoring client automatically selects the most suitable frequency monitoring receiver to control according to the monitored frequency band and channel requirements according to the state information reported by the frequency monitoring controller, so that accurate frequency spectrum analysis is realized on one platform.

Further, the frequency monitoring client requests the frequency monitoring server for recording playback information, the frequency monitoring server returns a recording file list to the frequency monitoring client after receiving the recording playback information, the frequency monitoring client receives the recording file list information, selects a recording file and sends the recording file request to the frequency monitoring server, the frequency monitoring server receives the recording file request, the frequency monitoring server returns file content to the frequency monitoring client, and the frequency monitoring client receives the recording file content and decodes and plays the recording file content.

Further, the frequency monitoring client sends an operation parameter setting command to the frequency monitoring server, the frequency monitoring server receives the setting command and verifies the validity of the frequency monitoring client, the frequency monitoring server sends information to the controller, the frequency monitoring controller receives the control command and verifies the source validity and eliminates jitter, the controller controls the frequency monitoring receiver to execute, the frequency monitoring receiver returns an execution result to the frequency monitoring controller, the frequency monitoring controller reports the operation parameters of the frequency monitoring receiver to the frequency monitoring server, the frequency monitoring server receives the state and the operation parameters of the frequency monitoring receiver, stores the information and pushes the operation parameters of the frequency monitoring receiver to the concerned frequency monitoring client, the frequency monitoring client receives the operation parameters of the frequency monitoring receiver, and the frequency monitoring client displays the operation parameters.

Furthermore, the frequency monitoring client adds a call button on the frequency monitoring interface, and can select a radio station to initiate a call by clicking when a call is needed, and the specific method comprises the following steps: the frequency monitoring client selects a calling radio station and sends a calling request to the frequency monitoring server, the frequency monitoring server receives the calling request and sends the calling request to the communication server, the communication server returns the calling feasibility, the frequency monitoring server receives the calling feasibility information and sends the calling feasibility information to the requested frequency monitoring client, the frequency monitoring client initiates a call after receiving the call feasibility, the calling information is sent to the frequency monitoring server, and the frequency monitoring server receives the calling information and sends the calling information to the communication server to complete the call. The frequency monitoring server is used as a client of the transmitting radio station and shared by clients in the system, so that the client can complete frequency monitoring and radio station calling on one platform simultaneously.

Further, the frequency monitoring controller binds the analyzed and processed frequency spectrum information with the current position and time information and uploads the frequency spectrum information to the frequency monitoring server. The method comprises the following steps that a frequency monitoring client requests the signal strength of a frequency point bound with position and time from a frequency monitoring server to generate a frequency point distribution thermodynamic diagram, and specifically comprises the following steps: the frequency monitoring client requests the field intensity information of the frequency points at different positions from the frequency monitoring server, and the field intensity information is displayed on a map by using different color depths according to the field intensity.

Furthermore, the frequency monitoring controller firstly carries out legal check on the received control command, then carries out anti-jitter processing, and then controls the frequency monitoring receiver to execute so as to ensure accurate control; the frequency monitoring server firstly checks the source validity and the target validity for the control information from the frequency monitoring client, and then sends the legal information to the frequency monitoring controller.

The technical scheme provided by the embodiment of the invention has the beneficial effects that at least: the method for realizing the frequency monitoring system provided by the invention realizes that a plurality of users share one receiver to realize frequency monitoring; remote control of a transmitting radio station and a receiver is realized on the same platform; the problem of positioning the illegal use of the frequency point is solved; effective received information can be recorded to the maximum extent; the use of less bandwidth ensures reliable transmission of information. At least comprises the following steps:

(1) remote control of the radio station is integrated in the frequency monitoring system, and the radio station can be controlled to initiate a call by checking a frequency spectrum interface;

(2) the frequency monitoring system only needs basic communication hardware equipment, signal processing is realized by software, the frequency spectrum information is subjected to classification processing by the controller and then reported, channel voice is identified and then encoded and reported, statistical information is obtained by performing statistical analysis on the information in a time period and then reported, and information acquisition of a receiver is completed with low transmission bandwidth requirements;

(3) the controller is matched with the control protocol of the receiver, different receivers can be arranged in the system, and the transparent control of the receiver by the client can be realized;

(4) the server uniformly manages the receiver and the shared communication client, and the frequency monitoring client is used for completing frequency monitoring and radio station voice calling on the same platform.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a system composition diagram of an implementation method of a frequency monitoring system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited by the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

An embodiment of the present invention provides a method for implementing a frequency monitoring system, as shown in fig. 1, which is a diagram of the frequency monitoring system, and includes: the system comprises a frequency monitoring server, a frequency monitoring client, a communication server, a frequency monitoring controller and a frequency monitoring receiver.

The frequency monitoring server, the frequency monitoring controller, the frequency monitoring client and the communication server are communicated with each other through an INTERNET network;

the frequency monitoring receiver is directly connected with the frequency monitoring controller;

the radio stations are communicated with each other through wireless.

The realization method comprises the following steps: a frequency monitoring controller is added at the frequency monitoring receiver, the frequency monitoring controller is used for realizing analysis processing of frequency spectrum information and reporting the frequency spectrum information to a frequency monitoring server, the frequency monitoring controller is used for controlling the frequency monitoring receiver to adjust operation parameters according to an instruction of a frequency monitoring client, and the frequency monitoring controller is used for realizing matching of control protocols of different devices and a standard control protocol; the information from/to the frequency monitoring controller is identified by a unique ID number, and the user control device only concerns the device ID and not the device type. The implementation method mainly comprises the following steps:

the frequency monitoring controller sends heartbeat information (equipment state and operation parameters) to the frequency monitoring server at regular time, and the frequency monitoring server controls the equipment state in real time;

the frequency monitoring controller processes the frequency spectrum information according to three-level precision (full frequency band, designated frequency band and designated channel) to ensure that high-precision frequency spectrum analysis is completed with low transmission bandwidth requirement;

the frequency monitoring controller firstly discards invalid voice by using a voice recognition algorithm on channel voice, processes effective voice by using a plurality of voice compression algorithms, and realizes that different voice compression algorithms can be used for processing voice according to the requirement of a user on voice definition and the limitation of transmission bandwidth.

The frequency monitoring controller stores frequency spectrum statistical information locally, and reports the frequency spectrum statistical information to the frequency monitoring server after a certain statistical time is reached, so that accurate statistical reporting is completed by reporting the minimum information;

the frequency monitoring controller firstly carries out legal inspection on the received control command, then carries out anti-jitter processing, and controls the frequency monitoring receiver to execute so as to ensure accurate control;

the frequency monitoring controller locally displays the received information, can locally operate and control the frequency monitoring receiver, and is convenient for installation, debugging and problem location maintenance;

the frequency monitoring controller controls the frequency monitoring receiver to receive information in different frequency bands and channels, and a plurality of users can accurately monitor required monitoring points at the same time under the support of a plurality of frequency monitoring receivers;

and the frequency monitoring controller binds the analyzed and processed frequency spectrum information with the current position and time information and uploads the information to the frequency monitoring server.

The frequency monitoring server pushes the frequency spectrum information, the voice information and the receiver state information reported by the frequency monitoring controller to a concerned frequency monitoring client in time, saves the voice information and the frequency spectrum statistical information in the frequency monitoring server in time, and prepares the frequency monitoring client to inquire and count at any time;

the frequency monitoring server firstly checks the source validity and the target validity for the control information from the frequency monitoring client, and then sends the legal information to the frequency monitoring controller.

The frequency monitoring server is used as a frequency monitoring client of the transmitting radio station and is shared by clients in the system, so that the frequency monitoring client can complete frequency monitoring and radio station calling on one platform at the same time;

the frequency monitoring client selects an object to be controlled according to the ID of the frequency monitoring controller, so that the frequency monitoring receiver can be controlled without concerning about the specific type of the frequency monitoring receiver;

the frequency monitoring client automatically selects the most suitable frequency monitoring receiver to control according to the monitored frequency band and channel requirements according to the state information reported by the frequency monitoring controller, so that accurate spectrum analysis is realized on one platform;

the frequency monitoring client requests the signal strength (binding position and time) of the frequency point from the frequency monitoring server to generate a frequency point distribution thermodynamic diagram;

the frequency monitoring client adds a call button on a frequency monitoring interface, and can select a radio station to initiate a call by clicking when the call is needed.

The main implementation functions of the present invention will be described in detail below, but the present invention is not limited to the following functions.

1 Spectrum presentation

The frequency monitoring controller receives the frequency spectrum information from the frequency monitoring receiver, processes the frequency spectrum information according to three-level precision (full frequency spectrum, frequency band and frequency channel), locally displays and reports result information to the frequency monitoring server, the frequency monitoring server receives the frequency spectrum information and pushes the frequency spectrum information to a concerned frequency monitoring client, and the frequency monitoring client receives the information and displays the information on the frequency monitoring client.

2 channel voice playing

The controller receives the frequency spectrum information from the receiver, demodulates the voice information, checks the voice validity, sends the voice information to local playing, codes the voice information according to the voice coding parameters, sends the voice information to the server after the voice information is coded, the server stores the voice and pushes the voice information to the concerned client, and the client decodes and plays the voice information.

3 receiver state and operation parameter display

The controller collects the state and the operation parameters of the receiver, the state and the operation parameters are displayed locally, the controller sends heartbeat information to the server, the server receives the heartbeat information, stores the heartbeat information and sends the heartbeat information to the concerned client, and the client receives the heartbeat information and displays the state and the operation parameters of the receiver.

The client requests the receiver state and the operation parameters from the server, the server returns the specified receiver operation parameters to the client, the client receives the request return information, and the client displays the receiver state and the parameter information.

4 frequency spectrum statistical information display

The client requests the server for the frequency spectrum statistical information, the server receives the frequency spectrum statistical information request of the client and returns the statistical information, and the client receives the frequency spectrum statistical information returned by the server and displays the frequency spectrum statistical information.

Playback of 5-channel recorded information

The client requests the server for the recording playback information, the server returns a recording file list to the client after receiving the recording playback information, the client receives the recording file list information, selects the recording file and sends the recording file request to the server, the server receives the recording file request, the server returns the file content to the client, and the client receives the recording file content and decodes and plays the recording file content.

6 receiver operating parameter setting

The method comprises the steps that a client side sends an operation parameter setting command to a server, the server receives the setting command and verifies the validity of the client side, the server sends information to a controller, the controller receives the control command and verifies that the source is legal, jitter is eliminated, the controller controls a receiver to execute, the receiver returns an execution result to the controller, the controller reports receiver operation parameters to the server, the server receives a received state and the operation parameters, stores the information and pushes the receiver operation parameters to the concerned client side, the client side receives the receiver operation parameters, and the client side displays the operation parameters.

7 station calling

The client selects a calling radio station and sends a calling request to the frequency monitoring server, the frequency monitoring server receives the calling request and sends the calling request to the communication server, the communication server returns the calling feasibility, the frequency monitoring server receives the calling feasibility information and sends the calling feasibility information to the requested client, the client initiates a call after receiving the call feasibility, the calling information is sent to the frequency monitoring server, and the frequency monitoring server receives the calling information and sends the calling information to the communication server to complete the call.

Thermodynamic diagram display of 8-frequency point field strength

The client requests the field intensity information of the frequency points at different positions from the server, and the field intensity information is displayed on a map by using different color depths according to the field intensity.

It should be understood that the specific order or hierarchy of steps in the processes disclosed is an example of exemplary approaches. Based upon design preferences, it is understood that the specific order or hierarchy of steps in the processes may be rearranged without departing from the scope of the present disclosure. The accompanying method claims present elements of the various steps in a sample order, and are not intended to be limited to the specific order or hierarchy presented.

In the foregoing detailed description, various features are grouped together in a single embodiment for the purpose of streamlining the disclosure. This method of disclosure is not to be interpreted as reflecting an intention that the claimed embodiments of the subject matter require more features than are expressly recited in each claim. Rather, as the following claims reflect, invention lies in less than all features of a single disclosed embodiment. Thus, the following claims are hereby expressly incorporated into the detailed description, with each claim standing on its own as a separate preferred embodiment of the invention.

Those of skill would further appreciate that the various illustrative logical blocks, modules, circuits, and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both. To clearly illustrate this interchangeability of hardware and software, various illustrative components, blocks, modules, circuits, and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the overall system. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present disclosure.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. Of course, the storage medium may also be integral to the processor. The processor and the storage medium may reside in an ASIC. The ASIC may reside in a user terminal. Of course, the processor and the storage medium may reside as discrete components in a user terminal.

For a software implementation, the techniques described herein may be implemented with modules (e.g., procedures, functions, and so on) that perform the functions described herein. The software codes may be stored in memory units and executed by processors. The memory unit may be implemented within the processor or external to the processor, in which case it can be communicatively coupled to the processor via various means as is known in the art.

What has been described above includes examples of one or more embodiments. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the aforementioned embodiments, but one of ordinary skill in the art may recognize that many further combinations and permutations of various embodiments are possible. Accordingly, the embodiments described herein are intended to embrace all such alterations, modifications and variations that fall within the scope of the appended claims. Furthermore, to the extent that the term "includes" is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term "comprising" as "comprising" is interpreted when employed as a transitional word in a claim. Furthermore, any use of the term "or" in the specification of the claims is intended to mean a "non-exclusive or".

Claims (1)

1. A method for implementing a frequency monitoring system, the frequency monitoring system comprising: the system comprises a frequency monitoring server, a frequency monitoring client, a communication server, a frequency monitoring controller and a frequency monitoring receiver, wherein the frequency monitoring server, the frequency monitoring controller, the frequency monitoring client and the communication server are communicated with each other through an INTERNET network; the frequency monitoring receiver is directly connected with the frequency monitoring controller; the frequency monitoring system is realized by the following steps: the frequency monitoring controller is added at the frequency monitoring receiver, so that the frequency monitoring controller realizes the analysis and processing of frequency spectrum information and reports the frequency spectrum information to the frequency monitoring server; controlling a frequency monitoring receiver to adjust operation parameters by a frequency monitoring controller according to an instruction of a frequency monitoring client; the frequency monitoring controller realizes the matching of the control protocols of different devices and the standard control protocol; the information from and to the frequency monitoring controller is identified by the unique ID number, and the user control equipment only concerns the equipment ID and does not concern the equipment type;

the frequency monitoring controller processes the frequency spectrum information according to three-level precision, including a full frequency band, a specified frequency band and a specified frequency channel, so as to ensure that high-precision frequency spectrum analysis is completed with low transmission bandwidth requirement; the specific method comprises the following steps: the frequency monitoring controller receives frequency spectrum information from the frequency monitoring receiver, processes the frequency spectrum information according to three-level precision, displays the result information locally and reports the result information to the frequency monitoring server, the frequency monitoring server receives the frequency spectrum information and pushes the frequency spectrum information to a concerned frequency monitoring client, and the frequency monitoring client receives the information and displays the information on the frequency monitoring client;

the frequency monitoring controller firstly discards invalid voice by using a voice recognition algorithm on channel voice, and processes the valid voice by using a plurality of voice compression algorithms, so that the voice can be processed by using different voice compression algorithms according to the requirement of a user on the voice definition and the transmission bandwidth limitation;

the frequency monitoring controller receives the frequency spectrum information from the frequency monitoring receiver, demodulates the voice information, checks the voice effectiveness, sends the voice information to a local player, codes the voice information according to voice coding parameters, and sends the voice information to the frequency monitoring server after the voice information is coded, the frequency monitoring server stores the voice and pushes the voice information to a concerned frequency monitoring client, and the frequency monitoring client decodes and plays the voice information;

the frequency monitoring controller sends heartbeat information including equipment states and running parameters to the frequency monitoring server at regular time, and the frequency monitoring server controls the equipment states in real time, and the specific method comprises the following steps: the method comprises the steps that a frequency monitoring controller collects the state and the operation parameters of a frequency monitoring receiver, the state and the operation parameters are displayed locally, the frequency monitoring controller sends heartbeat information to a frequency monitoring server, the frequency monitoring server receives the heartbeat information, stores the heartbeat information and sends the heartbeat information to a concerned frequency monitoring client, and the frequency monitoring client receives the heartbeat information and displays the state and the operation parameters of the frequency monitoring receiver;

the frequency monitoring client requests the frequency monitoring server for the state and the operating parameters of the frequency monitoring receiver, the frequency monitoring server returns the operating parameters of the specified frequency monitoring receiver to the frequency monitoring client, the frequency monitoring client receives the request return information, and the frequency monitoring client displays the state and the parameter information of the frequency monitoring receiver;

the frequency monitoring client requests frequency spectrum statistical information from the frequency monitoring server, the frequency monitoring server receives the frequency spectrum statistical information request of the frequency monitoring client and returns statistical information, the frequency monitoring client receives the frequency spectrum statistical information returned by the frequency monitoring server and displays the frequency spectrum statistical information, and the specific method comprises the following steps:

the frequency monitoring controller locally displays the received information, can locally operate and control the frequency monitoring receiver, and is convenient for installation, debugging and problem location maintenance;

the frequency monitoring controller controls the frequency monitoring receiver to receive information in different frequency bands and channels, and a plurality of users can accurately monitor required monitoring points simultaneously under the support of a plurality of frequency monitoring receivers;

the frequency monitoring server pushes the frequency spectrum information, the voice information and the state information of the frequency monitoring receiver reported by the frequency monitoring controller to a concerned frequency monitoring client in time, the voice information and the frequency spectrum statistical information are stored in the frequency monitoring server in time, and the frequency monitoring client is prepared to inquire and count at any time;

the frequency monitoring client automatically selects the most suitable frequency monitoring receiver to control according to the monitored frequency band and channel requirements according to the state information reported by the frequency monitoring controller, so that accurate spectrum analysis is realized on one platform;

the frequency monitoring client requests recording playback information to the frequency monitoring server, the frequency monitoring server returns a recording file list to the frequency monitoring client after receiving the recording playback information, the frequency monitoring client receives the recording file list information, selects a recording file and sends the recording file request to the frequency monitoring server, the frequency monitoring server receives the recording file request, the frequency monitoring server returns file content to the frequency monitoring client, and the frequency monitoring client receives the recording file content and decodes and plays the recording file content;

the frequency monitoring client sends an operation parameter setting command to the frequency monitoring server, the frequency monitoring server receives the setting command and verifies the validity of the frequency monitoring client, the frequency monitoring server sends information to the controller, the frequency monitoring controller receives the control command and verifies the source validity and eliminates jitter, the controller controls the frequency monitoring receiver to execute, the frequency monitoring receiver returns an execution result to the frequency monitoring controller, the frequency monitoring controller reports the operation parameters of the frequency monitoring receiver to the frequency monitoring server, the frequency monitoring server receives the state and the operation parameters of the frequency monitoring receiver, stores the information and pushes the operation parameters of the frequency monitoring receiver to the concerned frequency monitoring client, the frequency monitoring client receives the operation parameters of the frequency monitoring receiver, and the frequency monitoring client displays the operation parameters;

the frequency monitoring client adds a call button on a frequency monitoring interface, and can select a radio station to initiate a call by clicking when the call is needed, and the specific method comprises the following steps: the frequency monitoring client selects a calling radio station and sends a calling request to a frequency monitoring server, the frequency monitoring server receives the calling request and sends the calling request to a communication server, the communication server returns the calling feasibility, the frequency monitoring server receives the calling feasibility information and sends the calling feasibility information to the requested frequency monitoring client, the frequency monitoring client initiates a call after receiving the call feasibility, the calling information is sent to the frequency monitoring server, and the frequency monitoring server receives the calling information and sends the calling information to the communication server to complete the call; the frequency monitoring server is used as a client of the transmitting radio station and is shared by clients in the system, so that the client can complete frequency monitoring and radio station calling on one platform simultaneously;

the frequency monitoring controller binds the analyzed and processed frequency spectrum information with current position and time information and uploads the information to a frequency monitoring server; the method comprises the following steps that a frequency monitoring client requests the signal strength of a frequency point bound with position and time from a frequency monitoring server to generate a frequency point distribution thermodynamic diagram, and specifically comprises the following steps: the frequency monitoring client requests field intensity information of the frequency points at different positions from the frequency monitoring server, and the field intensity information is displayed on a map by using different color depths according to the field intensity;

the frequency monitoring controller firstly carries out legal inspection on the received control command, then carries out anti-jitter processing, and then controls the frequency monitoring receiver to execute so as to ensure accurate control; the frequency monitoring server firstly checks the source validity and the target validity for the control information from the frequency monitoring client, and then sends the legal information to the frequency monitoring controller.

Images