CN112578720B - Equipment monitoring method, system and device - Google Patents

Abstract

The disclosure provides a device monitoring method, a device monitoring system and a device, relates to the technical field of electronic information, and can solve the problem of low management efficiency of ground measurement and control. The specific technical scheme is as follows: after acquiring parameter information of a target device and a task set by a user, a resource management device generates a target file, wherein the target file comprises: the target file is used for indicating task information and parameter information of each circle of the target equipment; the resource management equipment sends the target file to the monitoring equipment; and the monitoring equipment receives the target file sent by the resource management equipment, generates a target instruction, and sends the target instruction to the target equipment. The present disclosure is for monitoring management of a device.

Description

Equipment monitoring method, system and device

Technical Field

The present disclosure relates to the field of electronic information technologies, and in particular, to a method, a system, and an apparatus for monitoring a device.

Background

With the rapid development of aerospace technology, the monitoring and management of the spacecraft has become a problem to be solved. In the prior art, ground measurement and control equipment for measurement, operation and control services is configured for spacecraft management, but the equipment needs to manually apply for a measurement and control work plan of one week from a measurement and control center in the operation process, and after receiving the plan, the ground measurement and control equipment completes tasks according to the work plan and the plan of each circle.

Based on the management mode, the prior art cannot realize the unified management of a plurality of ground measurement and control devices based on different spacecrafts, and cannot realize the remote setting of parameter information and task information corresponding to the ground measurement and control devices, so that the problems of low management efficiency and high labor cost are caused.

Disclosure of Invention

The embodiment of the disclosure provides a device monitoring method, a system and a device, which can solve the problem of low monitoring management efficiency of ground measurement and control devices. The technical scheme is as follows:

according to a first aspect of the embodiments of the present disclosure, there is provided a device monitoring method, including:

a resource management device and a monitoring device;

the monitoring equipment is connected with the resource management equipment, the resource management equipment is used for managing at least one monitoring equipment, and the monitoring equipment is used for managing and monitoring at least one equipment in ground measurement and control equipment and a spacecraft;

the resource management equipment is used for acquiring parameter information of target equipment and a task set by a user, wherein the target equipment comprises at least one of spacecraft and ground measurement and control equipment;

generating an object file according to the parameter information and the task set by the user, wherein the object file comprises: the target file is used for indicating the task information and the parameter information of each circle of the target equipment;

sending the target file to the monitoring equipment;

the monitoring device is used for receiving the target file sent by the resource management device;

analyzing the target file, generating a target instruction according to an analysis result, wherein the target instruction is used for indicating target equipment to operate according to the target file and setting parameters according to the target file;

and sending the target instruction to the target device.

The resource management device in the system, in one embodiment, is further configured to,

acquiring preset file information corresponding to the target equipment, wherein the preset file information comprises planning information and parameter information;

and comparing the preset file information with the task set by the user, and generating the target file when the preset file information is matched with the task set by the user.

The resource management device in the system, in one embodiment, is further configured to,

analyzing the task set by the user, and determining planning information in the task set by the user, wherein the planning information comprises at least one arc segment information, and the arc segment information comprises: arc segment parameter information, time setting information, hardware setting information,

and generating the target file according to the planning information.

The resource management device in the system, in one embodiment, is further configured to,

analyzing the task set by the user, and determining the monitoring information of the monitoring equipment in the task set by the user, wherein the monitoring information comprises: tracking time information, tracking strategy information and frequency band parameter information;

and generating the target file according to the monitoring information.

The resource management device in the system, in one embodiment, is further configured to,

analyzing the task set by the user, and determining the parameter setting information of the target equipment in the task set by the user, wherein the parameter setting information comprises: working mode information, uplink carrier information, downlink carrier information and tracking parameter information;

and generating the target file according to the parameter setting information.

The monitoring device in the system, in one embodiment, is further configured to,

analyzing the target file, and acquiring monitoring information corresponding to the monitoring equipment and parameter setting information corresponding to the target equipment according to an analysis result;

generating a capturing instruction according to the monitoring information, wherein the capturing instruction is used for indicating the ground measurement and control equipment to track the spacecraft;

and generating a setting instruction according to the parameter setting information, wherein the setting instruction is used for indicating that the parameters of the ground measurement and control equipment are set according to the parameter setting information.

The monitoring device in the system, in one embodiment, is further configured to,

acquiring environmental data of a preset monitoring place, wherein the environmental data comprises: at least one of meteorological data within a preset range of the preset monitoring place, power data preset by the monitoring place, communication data of the monitoring place and monitoring data preset by the monitoring place;

and when the comparison result of the environmental data and the preset value does not meet the preset requirement, generating warning information and sending the warning information to the resource management equipment.

The monitoring device in the system, in one embodiment, is further configured to,

acquiring test data of the target device, wherein the test data comprises: ephemeris data, theoretical trajectory or satellite positioning equipment downloading data, and testing telemetering data transmission simulation data and monitoring frame synchronization bit error code data;

and generating a test result according to the test data and the comparison data of the preset threshold.

In the device monitoring system provided by the embodiment of the present disclosure, the resource management device generates a target file after acquiring parameter information of the target device and a task set by a user, where the target file includes: the target file is used for indicating the task information and the parameter information of each circle of the target equipment; the resource management device sends the target file to the monitoring device; the monitoring device receives the target file sent by the resource management device, generates a target instruction, and sends the target instruction to the target device. The target file is generated by the resource management equipment, and the monitoring equipment executes the target file, so that the unification of interfaces among the resource management equipment, the monitoring equipment and the ground measurement and control equipment is realized, the unified management of various types of equipment of different manufacturers is facilitated, and the expandability of the system is enhanced; the requirements of various task scenes in reality can be met, manual operation is greatly reduced, the management efficiency level of the measurement and control equipment is enhanced, and the operation and maintenance cost is reduced.

According to a second aspect of the embodiments of the present disclosure, there is provided a resource management device, including: a processor, a receiver and a transmitter;

the processor is respectively connected with the receiver and the transmitter;

the receiver is used for acquiring parameter information of target equipment and a task set by a user, wherein the target equipment comprises at least one of spacecraft and ground measurement and control equipment;

the processor is configured to generate an object file according to the parameter information and a task set by a user, where the object file includes: the target file is used for indicating the task information and the parameter information of each circle of the target equipment;

the transmitter is used for transmitting the target file to the monitoring equipment.

According to a third aspect of the embodiments of the present disclosure, there is provided a device monitoring method, applied to a resource management device and a monitoring device, the method including:

the resource management equipment acquires parameter information of target equipment and a task set by a user, wherein the target equipment comprises at least one of spacecraft and ground measurement and control equipment;

the resource management device generates a target file according to the parameter information and the task set by the user, wherein the target file comprises: the target file is used for indicating the task information and the parameter information of each circle of the target equipment;

the resource management device sends the target file to the monitoring device;

the monitoring equipment receives the target file sent by the resource management equipment;

the monitoring equipment analyzes the target file, generates a target instruction according to an analysis result, and the target instruction is used for indicating the target equipment to operate according to the target file and setting parameters according to the target file;

the monitoring device sends the target instruction to the target device.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic diagram of an equipment monitoring system provided by an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of an equipment work schedule file in an equipment monitoring system according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram of an apparatus operation flow file in an apparatus monitoring system according to an embodiment of the present disclosure;

fig. 4 is a schematic diagram of an equipment operation parameter file in an equipment monitoring system according to an embodiment of the present disclosure;

fig. 5 is a schematic diagram of a device monitoring method provided by an embodiment of the present disclosure;

fig. 6 is a schematic diagram of a resource management device according to an embodiment of the present disclosure.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

Example one

The disclosed embodiment provides an equipment monitoring system, as shown in fig. 1, the system 10 includes: a resource management device 101 and a monitoring device 102;

the resource management device 101 is configured to manage at least one monitoring device 102, where the monitoring device 102 is configured to monitor at least one of a ground measurement and control device and a spacecraft, where the ground measurement and control device may include a baseband device, an up converter, a down converter, an attenuator, a spectrometer, and the like.

The resource management device 101 is connected to the monitoring device 102.

The resource management device 101 is configured to obtain parameter information of a target device and a task set by a user, where the target device includes at least one of a spacecraft and a ground measurement and control device; the user-set mission comprises a spacecraft flight plan according to the user.

Generating an object file according to the parameter information and the task set by the user, wherein the object file comprises: an equipment working plan file, an equipment operation flow file and an equipment operation parameter file, wherein the target file is used for indicating the task information and the parameter information of each circle of the target equipment

The target file is sent to the monitoring device 102, and specifically, when the target file is sent to the monitoring device 102, the target file may be sent directly to the monitoring device, or sent to the monitoring device through another resource management device.

Further, the device work plan file in the target file is used for determining planning information corresponding to each target device according to the target task, and the device operation flow file is used for indicating instruction information when the target device executes the target task according to the planning information corresponding to each device, that is, the target task is further refined according to the planning information corresponding to each device, and the execution step corresponding to each target device is defined; the device operation parameter file is used for indicating parameter information of the target device when the target device completes the target task.

When generating the target file according to the task set by the user, the system provided by this embodiment first determines all target devices corresponding to the task in the target file when executing the task, and determines the target file corresponding to each target device according to the parameter information of different target devices, thereby completing the unified setting of all devices corresponding to the target task, and implementing automatic device testing according to the plan and automatic device maintenance according to the plan, so as to uniformly manage multiple target devices, and improve the compatibility between the devices and the efficiency of system management.

The resource management apparatus 101 provided by the present disclosure, before generating the object file, is further configured to,

acquiring preset file information corresponding to the target equipment, wherein the preset file information comprises planning information and parameter information;

and comparing the preset file information with the task set by the user, and generating the target file when the preset file information is matched with the task set by the user.

In the specific implementation process, because the resource management device manages a plurality of monitoring devices, and the monitoring devices also manage a plurality of ground measurement and control devices, various differences exist among the various devices. In order to support a wide variety of devices and efficiently complete various testing tasks and management tasks, the resource management device needs to be compatible with parameter information and task information of different ground measurement and control devices when generating a target file. Therefore, it is necessary to perform matching conversion on the parameter setting information or the task information in the target file according to the parameter information of different devices, so as to determine that the target device can execute the target file.

Example one: and generating an equipment work plan file.

The resource management device 101 generates a device work plan file according to the parameter information of the target device and the task set by the user, where the device work plan file includes the target device corresponding to the spacecraft in the whole period of completing the flight task and the task information that the target device needs to execute. The method replaces the prior art that only partial functions of fixed calibration items before tracking, fixed acquisition tracking processes, fixed measurement and control work and the like can be realized, intelligent selection or remote designation of the calibration items, automatic parameter change before tracking and during tracking and the like cannot be realized, and the method is not suitable for parameter change of the satellite.

The equipment working plan file comprises planning information corresponding to each target equipment, such as real-time measurement and control planning information, index test planning information, equipment maintenance planning information and the like. The planning information comprises all station-measuring work plans of all spacecrafts in a preset time period, wherein the preset time period can be from 0 monday to 24 sunday; and can be made and issued at any time according to the emergency work plan and inserted into the plan queue for execution.

The resource management device 101, when generating the device work plan file, may include:

the resource management device 101 analyzes the task set by the user, and determines planning information in the task set by the user, where the planning information includes at least one arc segment information, and the arc segment information includes: arc segment parameter information, time setting information, hardware setting information,

and generating the target file according to the planning information, wherein the target file comprises an equipment working plan file.

Wherein, the arc segment information can refer to fig. 2, which includes: total arc segment information and each arc segment information; the total arc segment information includes: number information, time system information, time information, equipment code number; each arc segment information includes: the number of arc sections, the planning property information, the preparation time of the arc section, the tracking start time, the tracking end time, the end time of the arc section and the number of targets; the arc segment information may include information for a plurality of arc segments, each of which is distinguished by a different number.

The following further explanation is made based on the parameter information in the arc segment information described above: the number information is the number from 1, which is the same as the number in the file name. Time information is the date and time when the source generated the file. The device code, i.e. the source identifier of each device, is used to indicate which device the file corresponds to. The number of arc segments, which can be counted from 1, represents the total number of arc segments tracked in the planning file. The plan property information may include: normal planning, emergency planning, equipment testing and equipment maintenance. The arc segment preparation time is used for indicating the starting time of parameter setting of the target device before the target task is started, and particularly represents the starting time of device testing and maintenance when the planning property is a target device testing plan and a device maintenance plan. The start time of the arc segment is used for indicating that the antenna is preset to a waiting position. The target number is used for indicating the target number in the single-beam multi-target task, specifically, the single-beam single-target task is performed when the target number is 1, and the single-beam multi-target task is performed when the target number is more than 1. The target number information is used for indicating the number of the target in the single-beam multi-target task, and the target is sequenced according to the station-entering time or the sequence of the main satellite and the auxiliary satellite, wherein the single-target task defaults to 1, and the multi-target main satellite defaults to 1. The circle mark information is used for indicating the track number of the flying of the target device 1 in the current arc section. The operation modes may include: the system comprises a standard mode, a coherent spread spectrum mode, a non-coherent spread spectrum mode, a measurement and control data transmission integrated mode, a medium and low speed data transmission single receiving mode, a medium and low speed data transmission transmitting mode and a high speed data transmission receiving mode.

The above parameters may be set according to specific implementation, and are only exemplary.

Example two, generation of a device operational flow file.

The resource management device 101 may further generate a device operation flow file of the target device according to the device operation flow file, where the device operation flow file is used to indicate that the ground measurement and control device and the spacecraft corresponding command information are within the control range of the monitoring device in the whole period of completing the flight task of the spacecraft.

The file comprises all the parameters related to the working process of the corresponding spacecraft and ground measurement and control equipment in the preset time. The resource management device 101 may schedule the completion of the delivery before a preset time. And can also be scheduled and issued at any time and executed. When the equipment operation parameter file needs to be changed, a certain item in the file has a plurality of values, and a certain value needs to be changed temporarily in a certain circle, and the certain value can be added into the process file to issue a part of parameter values.

When generating the device operation flow file, the resource management device 101 may include:

the resource management device 101 determines monitoring information of the monitoring device in the task set by the user by analyzing the task set by the user, where the monitoring information includes: tracking time information, tracking strategy information and frequency band parameter information;

and generating the target file according to the monitoring information, wherein the target file comprises an equipment operation flow file.

Wherein, the arc segment information can refer to fig. 3, which includes: total monitoring information and monitoring information of each target device; the total monitoring information includes: number information, time system information, time information, equipment code number; the monitoring information of each target device includes: the method comprises the following steps of tracking start time, tracking end time, track circle number, execution mode of the circle, receiving equipment parameters, program data source, guide mode, tracking mode selection, tracking frequency point selection, tracking turning switching, main tracking target selection, S frequency band uplink sending, S frequency band uplink stopping, S frequency band power value, S frequency band distance measurement adding and adjusting, S frequency band remote control adding and adjusting, S frequency band blind sending, S frequency band remote control coding mode, S frequency band remote control code rate switching, S frequency band remote control decoding, S frequency band data transmission uplink adding and adjusting, S frequency band data transmission uplink code rate switching, S frequency band data transmission uplink coding mode, S frequency band data transmission downlink code rate switching, S frequency band data transmission downlink decoding mode, S frequency band working mode switching parameter name and the like.

The following further explanation is made based on the parameter information in the monitoring information:

the number is the number from 1, and is the same as the number in the target file name. The time system is used to indicate the date and time when the source generated the file. The device code number is used to indicate that it can be represented by a 4-byte 16-ary number. The target number n is counted from 1. The tracking start time is consistent with the tracking start time in the equipment work plan file. The tracking end time is consistent with the tracking end time in the equipment work plan file. The track circle number is used for indicating the track circle number of the target flying in the arc section. The execution mode of the circle can comprise: normal tracking, cancellation of the current circle and emergency tracking. The receiving device parameters are used for indicating the target device to operate the parameter file and calling default macro parameters. The journey data source is used for indicating the number of instantaneous tracks and the number of two rows of tracks at the station entering point. The guiding mode can comprise a default journey guide and an ephemeris number guide. The tracking mode selection can comprise default self-tracking, local program guide and central number guide. The tracking frequency point selection may include S, X, Ka frequency bands. Tracking handoffs may include: default no switching, left switching, right switching. The master tracking target selection may include no handover by default, or any of handover targets 1 to 4.

The above parameters may be set according to specific implementation, and are only exemplary.

And example three, generation of a device operation parameter file.

The resource management device 101 may further generate a device operation parameter file of the target device according to the device operation flow file, where the device operation parameter file has continuous expansion capability. The equipment operation parameter file can be issued after the task state is clear, and can also be issued along with the equipment work plan and the equipment work flow file; therefore, the operation of the ground measurement and control equipment and the establishment and binding of the satellite parameter macro are realized in a remote measurement and control mode.

In the measurement and control task preparation period, after the resource management device 101 identifies the parameter file corresponding to the target device, a device operation parameter file is generated, and after the comparison of the monitoring device is confirmed to be correct, the target device is automatically loaded.

When generating the device operation parameter file, the resource management device 101 may include:

analyzing the task set by the user, and determining the parameter setting information of the target equipment in the task set by the user, wherein the parameter setting information comprises: working mode information, uplink carrier information, downlink carrier information and tracking parameter information;

and generating the target file according to the parameter setting information, wherein the target file comprises an equipment operation parameter file.

The parameter setting information may refer to fig. 4, where the parameter setting information may include a working mode, an uplink carrier frequency, an uplink transmission power, an uplink signal polarization rotation direction, tracking, a receiving carrier frequency, a downlink signal polarization rotation direction, a tracking mode, a tracking signal polarization rotation direction, a tracking error signal, an angle measurement sampling rate, and a servo bandwidth.

After the resource management device 101 generates the object file, the file is transmitted to the monitoring device 102.

The monitoring device 102 is configured to receive the target file sent by the resource management device;

analyzing the target file, generating a target instruction according to an analysis result, wherein the target instruction is used for indicating target equipment to operate according to the target file and setting parameters according to the target file;

and sending the target instruction to the target device.

When receiving the target file, the monitoring device 102 provided by the present disclosure may first determine whether the parameter file and the preset task file of the target device in the target file conflict with the parameter file and the task file in the target file, and if they match, generate a corresponding instruction according to the target file, thereby completing a calibration task, a capture task, a test task, and other various spacecraft support services in a spacecraft flight task.

Specifically, the monitoring device 102 provided in the present disclosure may generate instruction information including:

analyzing the target file, and acquiring monitoring information corresponding to the monitoring equipment and parameter setting information corresponding to the target equipment according to an analysis result;

generating a capturing instruction according to the monitoring information, wherein the capturing instruction is used for indicating the ground measurement and control equipment to track the spacecraft;

and generating a setting instruction according to the parameter setting information, wherein the setting instruction is used for indicating that the parameters of the ground measurement and control equipment are set according to the parameter setting information.

The monitoring device 102 provided by the present disclosure, while generating the instructional information, is further configured to,

acquiring environmental data of a preset monitoring place, wherein the environmental data comprises: at least one of meteorological data within a preset range of the preset monitoring place, power data preset by the monitoring place, communication data of the monitoring place and monitoring data preset by the monitoring place;

and when the comparison result of the environmental data and the preset value does not meet the preset requirement, generating warning information and sending the warning information to the resource management equipment.

The monitoring device 102 provided by the present disclosure is also operable to,

acquiring running state data of the target device, wherein the running state data comprises: comparing the external measurement with ephemeris data, theoretical trajectory or satellite positioning equipment downloading data, and testing telemetering data transmission simulation data and monitoring frame synchronization bit error code data;

and generating a test result or alarm information according to the running state data and the comparison data of the preset threshold.

The test result is generated to the resource management device 101.

The monitoring device 102 provided by the present disclosure may also display the operation state data of all the target devices and the operation state data of the measurement and control site where the target device is located. In specific implementation, the overall situation of all the measurement and control sites, or the operation state data of all the devices in one measurement and control site, or the operation state data of a specific device can be displayed.

Further, the monitoring device 102 may display the operation status data based on the geographic location when displaying the operation status data specifically: and displaying information of all measurement and control places and distribution conditions of used measurement, operation and control stations on a global map, and simultaneously displaying information of whether each measurement and control place is tracking a target spacecraft, monitoring satellite off-satellite points and the like.

Further, the monitoring device 102 may enter a list information page of the measurement and control device by clicking an icon of a certain measurement and control site. And after the equipment name is clicked, a monitoring page of each target equipment corresponding to the measurement and control place, and all equipment lists and related information of measurement and control, communication, weather, auxiliary power supply and distribution, security and the like of the measurement and control place can be opened.

In the device monitoring system provided by the embodiment of the present disclosure, the resource management device generates a target file after acquiring parameter information of the target device and a task set by a user, where the target file includes: the target file is used for indicating the task information and the parameter information of each circle of the target equipment; the resource management device sends the target file to the monitoring device; the monitoring device receives the target file sent by the resource management device, generates a target instruction, and sends the target instruction to the target device. The target file is generated by the resource management equipment, and the monitoring equipment executes the target file, so that the unification of interfaces among the resource management equipment, the monitoring equipment and the ground measurement and control equipment is realized, the unified management of various types of equipment of different manufacturers is facilitated, and the expandability of the system is enhanced; the requirements of various task scenes in reality can be met, manual operation is greatly reduced, the management efficiency level of the measurement and control equipment is enhanced, and the operation and maintenance cost is reduced.

Example two

Based on the device monitoring system described in the embodiment corresponding to fig. 1, the following is an embodiment of the method of the present disclosure, which may be used to implement an embodiment of the system of the present disclosure.

An embodiment of the present disclosure provides an apparatus monitoring method, as shown in fig. 5, the method includes:

501. the resource management device acquires parameter information of the target device and a task set by a user.

The target device includes at least one of a spacecraft and a ground test control device.

502. And the resource management equipment generates a target file according to the parameter information and the task set by the user.

The object file includes: the target file is used for indicating the task information and the parameter information of each circle of the target equipment.

503. And the resource management equipment sends the target file to the monitoring equipment.

504. And the monitoring equipment receives the target file sent by the resource management equipment.

505. The monitoring equipment analyzes the target file, generates a target instruction according to an analysis result, and the target instruction is used for indicating the target equipment to operate according to the target file and setting parameters according to the target file.

The monitoring device sends 506 the target instruction to the target device.

In the device monitoring method provided by the embodiment of the present disclosure, the resource management device generates a target file after acquiring parameter information of the target device and a task set by a user, where the target file includes: the target file is used for indicating the task information and the parameter information of each circle of the target equipment; the resource management device sends the target file to the monitoring device; the monitoring device receives the target file sent by the resource management device, generates a target instruction, and sends the target instruction to the target device. The target file is generated by the resource management equipment, and the monitoring equipment executes the target file, so that the unification of interfaces among the resource management equipment, the monitoring equipment and the ground measurement and control equipment is realized, the unified management of various types of equipment of different manufacturers is facilitated, and the expandability of the system is enhanced; the requirements of various task scenes in reality can be met, meanwhile, manual operation is greatly reduced, the management efficiency level of the monitoring method is enhanced, and the operation and maintenance cost is reduced.

EXAMPLE III

Based on the device monitoring system described in the embodiment corresponding to fig. 1, the following is an embodiment of the apparatus of the present disclosure, which may be used to execute an embodiment of the method of the present disclosure.

The embodiment of the present disclosure provides a resource management device 60, where the resource management device 60 includes: a processor 602, and a receiver 601, a transmitter 603;

the processor 602 is connected to the receiver 601 and the transmitter 603, respectively;

the receiver 601 is configured to obtain parameter information of a target device and a task set by a user, where the target device includes at least one of a spacecraft and a ground measurement and control device;

the processor 602 is configured to generate an object file according to the parameter information and a task set by a user, where the object file includes: the target file is used for indicating the task information and the parameter information of each circle of the target equipment;

the transmitter 603 is configured to transmit the target file to the monitoring device.

The resource management device provided by the embodiment of the present disclosure generates a target file by acquiring parameter information of a target device and a task set by a user, where the target file includes: the target file is used for indicating the task information and the parameter information of each circle of the target equipment; and the resource management equipment sends the target file to the monitoring equipment. The resource management equipment provided by the disclosure realizes the unification of interfaces among the resource management equipment, the monitoring equipment and the ground measurement and control equipment, is convenient for the unified management of various types of equipment of different manufacturers, and enhances the expandability of the system; the requirements of various task scenes in reality can be met, manual operation is greatly reduced, the management efficiency level of the measurement and control equipment is enhanced, and the operation and maintenance cost is reduced.

Based on the device monitoring method described in the embodiment corresponding to fig. 5, an embodiment of the present disclosure further provides a computer-readable storage medium, for example, the non-transitory computer-readable storage medium may be a Read Only Memory (ROM), a Random Access Memory (RAM), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like. The storage medium stores computer instructions for executing the device monitoring method described in the embodiment corresponding to fig. 2, which is not described herein again.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

Claims (10)

1. An equipment monitoring system, comprising: a resource management device and a monitoring device;

the monitoring equipment is connected with the resource management equipment, the resource management equipment is used for managing at least one monitoring equipment, and the monitoring equipment is used for managing and monitoring target equipment, wherein the target equipment comprises at least one of ground measurement and control equipment and spacecraft equipment;

the resource management device is used for acquiring the parameter information of the target device and the task set by the user;

generating a target file according to the parameter information and a task set by a user, wherein the target file comprises: the target file is used for indicating task information and parameter information of each circle of the target equipment;

sending the target file to the monitoring equipment;

the monitoring equipment is used for receiving the target file sent by the resource management equipment;

analyzing the target file, generating a target instruction according to an analysis result, wherein the target instruction is used for indicating target equipment to operate according to the target file and setting parameters according to the target file;

and sending the target instruction to the target equipment.

2. The system of claim 1, wherein the resource management device is further configured to,

acquiring preset file information corresponding to the target equipment, wherein the preset file information comprises planning information and parameter information;

and comparing the preset file information with the task set by the user, and generating the target file when the preset file information is matched with the task set by the user.

3. The system of claim 1, wherein the resource management device is further configured to,

analyzing the task set by the user, and determining planning information in the task set by the user, wherein the planning information comprises at least one arc segment information, and the arc segment information comprises: arc segment parameter information, time setting information, hardware setting information,

and generating the target file according to the planning information.

4. The system of claim 1, wherein the resource management device is further configured to,

analyzing the task set by the user, and determining monitoring information of the monitoring equipment in the task set by the user, wherein the monitoring information comprises: tracking time information, tracking strategy information and frequency band parameter information;

and generating the target file according to the monitoring information.

5. The system of claim 1, wherein the resource management device is further configured to,

analyzing the task set by the user, and determining the parameter setting information of the target equipment in the task set by the user, wherein the parameter setting information comprises: working mode information, uplink carrier information, downlink carrier information and tracking parameter information;

and generating the target file according to the parameter setting information.

6. The system of claim 5, wherein the monitoring device is further configured to,

analyzing the target file, and acquiring monitoring information corresponding to the monitoring equipment and parameter setting information corresponding to the target equipment according to an analysis result;

generating a capturing instruction according to the monitoring information, wherein the capturing instruction is used for indicating the ground measurement and control equipment to track the spacecraft;

and generating a setting instruction according to the parameter setting information, wherein the setting instruction is used for indicating that the parameters of the ground measurement and control equipment are set according to the parameter setting information.

7. The system of claim 1, wherein the monitoring device is further configured to,

acquiring environmental data of a preset monitoring place, wherein the environmental data comprises: at least one of meteorological data within a preset range of the preset monitoring place, power data preset by the monitoring place, communication data of the monitoring place and monitoring data preset by the monitoring place;

and when the comparison result of the environmental data and a preset value does not meet the preset requirement, generating warning information and sending the warning information to the resource management equipment.

8. The system of claim 1, wherein the monitoring device is further configured to,

acquiring test data of the target device, wherein the test data comprises: ephemeris data, theoretical trajectory or satellite positioning equipment downloading data, and testing telemetering data transmission simulation data and monitoring frame synchronization bit error code data;

and generating a test result according to the test data and the comparison data of the preset threshold.

9. A resource management device, comprising: a processor, a receiver and a transmitter;

the processor is respectively connected with the receiver and the transmitter;

the receiver is used for acquiring parameter information of target equipment and a task set by a user, wherein the target equipment comprises at least one of spacecraft and ground measurement and control equipment;

the processor is configured to generate an object file according to the parameter information and a task set by a user, where the object file includes: the target file is used for indicating task information and parameter information of each circle of the target equipment;

and the transmitter is used for transmitting the target file to the monitoring equipment.

10. A device monitoring method is applied to a resource management device and a monitoring device, and comprises the following steps:

the resource management equipment acquires parameter information of target equipment and a task set by a user, wherein the target equipment comprises at least one of spacecraft and ground measurement and control equipment;

the resource management equipment generates a target file according to the parameter information and a task set by a user, wherein the target file comprises: the target file is used for indicating task information and parameter information of each circle of the target equipment;

the resource management equipment sends the target file to the monitoring equipment;

the monitoring equipment receives the target file sent by the resource management equipment;

the monitoring equipment analyzes the target file, generates a target instruction according to an analysis result, and the target instruction is used for indicating the target equipment to operate according to the target file and setting parameters according to the target file;

and the monitoring equipment sends the target instruction to the target equipment.

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