CN113905069B - Data uploading method and device, client device and storage medium - Google Patents

Abstract

The invention discloses a data uploading method, which is applied to client equipment and comprises the following steps: when the self-checking is in a self-checking completion state, acquiring a self-checking result of the equipment; according to the type of the self-checking result of the equipment, correspondingly selecting a target data uploading time from a preset data uploading time interval; the type of the self-checking result of the equipment comprises any one of the following: abnormal equipment and normal equipment; and uploading the self-checking result of the equipment to a server based on the uploading moment of the target data. After the self-checking is finished, all the client devices do not upload the self-checking result at the same time, but correspondingly select a target time interval from preset data uploading time intervals according to the type of the self-checking result of the devices, and upload the self-checking result of the devices based on the target time interval, so that each client device uploads the self-checking result of the devices in a discrete mode, thereby preventing bandwidth congestion and improving the utilization rate of bandwidth.

Description

Data uploading method and device, client device and storage medium

Technical Field

The present invention relates to the field of medical electronics, and in particular, to a data uploading method, apparatus, client device, and storage medium.

Background

After the client device, such as an AED (Automated External Defibrillator, automatic external defibrillator), is put into use, a self-test procedure needs to be started at regular time, and the self-test result of the device is obtained and then automatically uploaded to a server, so that a device installer can check the running state of the client device through the server, and timely find out the abnormal condition of the device, thereby ensuring that the client can be used normally.

The client device will typically set to self-test for a fixed period of time, e.g., the AED is typically set to 00:00-06: and (3) carrying out self-checking on the whole points between 00, and uploading the self-checking result of the equipment to a server after the self-checking is finished.

In general, after a large number of client devices complete self-checking at the same time, the self-checking results of the devices are always uploaded immediately at the same time point, so that a situation that a large amount of data is uploaded to a server concurrently exists, bandwidth congestion is caused, and bandwidths at other times are idle, so that bandwidth utilization is insufficient.

Disclosure of Invention

The invention aims to provide a data uploading method and aims to solve the problem that bandwidth congestion is caused by uploading device self-checking results after self-checking is completed by client devices.

To achieve the above object, a first aspect of the present invention provides a data uploading method, applied to a client device, including the following steps:

when the self-checking is in a self-checking completion state, acquiring a self-checking result of the equipment;

according to the type of the self-checking result of the equipment, correspondingly selecting a target time interval from preset data uploading time intervals; the type of the self-checking result of the equipment comprises any one of the following: abnormal equipment and normal equipment;

uploading the self-checking result of the equipment to a server based on the target time interval.

In order to achieve the above object, a second aspect of the present invention provides a data uploading device, which is applied to a client device, and includes an acquisition module, a selection module, and an uploading module, wherein:

the acquisition module is used for: when the self-checking is in a self-checking completion state, acquiring a self-checking result of the equipment;

the selecting module is used for: according to the type of the self-checking result of the equipment, correspondingly selecting a target data uploading time from a preset data uploading time interval; the type of the self-checking result of the equipment comprises any one of the following: abnormal equipment and normal equipment;

the uploading module is used for: and uploading the self-checking result of the equipment to a server based on the uploading moment of the target data.

To achieve the above object, a third aspect of the present invention provides a client device, including a memory, a processor, and a data transmission program stored on the memory, where the data transmission program when executed by the processor implements the steps of the data uploading method described above.

In order to achieve the above object, a fourth aspect of the present invention provides a computer-readable storage medium having stored thereon a data transmission program which, when executed by a processor, implements the steps of the data uploading method described above.

According to the data uploading method, the device, the client device and the storage medium, compared with the prior art, after the self-checking is finished, all the client devices do not upload all the self-checking data at the same time, but the client devices respectively select the target time interval from the preset data uploading time interval according to the type of the self-checking result of the devices, upload the self-checking result of the devices based on the target time interval, so that the client devices upload the self-checking result of the devices in a discrete mode, the generation of bandwidth congestion is prevented, and the utilization rate of bandwidth is improved.

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 application.

Drawings

Fig. 1 is a schematic diagram of the hardware architecture of an AED according to various embodiments of the invention.

Fig. 2 is a flowchart of a first embodiment of the data uploading method of the present invention.

Fig. 3 is a detailed flowchart of step 202 of the first embodiment of the data uploading method of the present invention.

Fig. 4 is a detailed flowchart of step 302 of the first embodiment of the data uploading method of the present invention.

Fig. 5 is a flowchart illustrating steps 501-503 of a first embodiment of the data uploading method of the present invention.

Fig. 6 is a flow chart of steps 601-602 of a first embodiment of the data uploading method of the present invention.

Fig. 7 is a schematic functional block diagram of an embodiment of the data uploading device of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

Preferred embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While the preferred embodiments of the present application are shown in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to 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.

The client device in the embodiments of the present invention will be described below by taking an AED device as an example, but the client device is not limited to an AED device, and the client device may be various devices that need to be connected to a server by wire or wirelessly, and that need self-test and upload the device self-test result to the server, such as medical devices.

The AED (Automated External Defibrillator, automatic external defibrillator) to which embodiments of the present invention relate are also referred to as automatic external shock devices, automatic defibrillators, cardiac defibrillators, automatic shock devices, and the like. An AED is a portable medical device that diagnoses a particular arrhythmia and delivers shock defibrillation, a medical device that can be used by non-professionals to rescue a sudden cardiac arrest patient. During cardiac arrest, the most effective method of stopping sudden death is only to defibrillate and revive the heart and lung of a patient with an AED within "golden 4 minutes" of the optimal rescue time.

Referring to fig. 1, fig. 1 is a schematic diagram of the hardware architecture of an AED according to various embodiments of the invention. In various embodiments of the invention, an AED may include a processor 1001 (e.g., central processor Central Processing Unit, CPU), a communication bus 1002, an input port 1003, an output port 1004, and a memory 1005. Wherein the communication bus 1002 is used to enable connected communications between these components; the input port 1003 is used for data input; the output port 1004 is used for data output, and the memory 1005 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory, and the memory 1005 may be an optional storage device independent of the processor 1001. Those skilled in the art will appreciate that the hardware configuration shown in fig. 1 is not limiting of the invention and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components.

With continued reference to FIG. 1, the memory 1005 of FIG. 1, which is a readable storage medium, may include an operating system, a network communication module, an application engineering module, and a data transmission program. In fig. 1, the network communication module is mainly used for connecting with a server and performing data communication with the server; and the processor 1001 is configured to call a data transfer program stored in the memory 1005 and perform the following operations:

firstly, when the self-checking is in a self-checking completion state, acquiring a self-checking result of equipment;

then, according to the type of the self-checking result of the equipment, correspondingly selecting a target data uploading time from a preset data uploading time interval; the type of the self-checking result of the equipment comprises any one of the following: abnormal equipment and normal equipment;

and finally, uploading the self-checking result of the equipment to the server based on the uploading moment of the target data.

A first embodiment of the data upload method of the present invention is presented based on the AED described above. Referring to fig. 2, fig. 2 is a flowchart of a first embodiment of a data uploading method according to the present invention. A first embodiment of the present invention is directed to a data upload method for use with an AED, the method comprising the steps of:

201. when the self-checking is in a self-checking completion state, acquiring a self-checking result of the equipment;

it will be appreciated that AEDs are easy to operate and can be used with little training. In general, AEDs

The lid of the AED is required to be opened by an operator, and prompt operation is performed according to an indicator light, vibration, voice and the like; the electrode plates are tightly attached to the chest of a patient, and the two electrode plates are respectively attached to the upper part of the right chest and the outer side of the left nipple of the left chest of the patient under normal conditions; then the electrode plate plug is inserted into the host jack of the AED; the AED will then operate and function in accordance with the process. Routine maintenance of the AED is also important. Especially in public places where the external environment is complex, self-tests are required daily to ensure proper use of the AED. Common failures of an AED are a non-bright power supply after power-on and a chaotic screen display. In general, key self-checking items of the power-on self-check include battery power and impedance of a relay. The method also comprises the inspection of the electrode plate and the screen display. It will be appreciated that insufficient battery power, abnormal impedance of the relay, out of place electrode pads, abnormal screen display can have significant impact on the use of the AED and even delay the emergency treatment of the patient.

In this embodiment, each AED performs self-test according to a preset self-test procedure based on a preset self-test time, where the preset self-test time may be 0: at one time in the 00-06:00 interval, the current AED typically self-tests at the full-time instant, e.g., 0: 00. 01: 00. 02: 00. 05:00, etc. The preset self-test time can often be a default setting by the installer when the AED device is enabled or already present at the factory.

The preset self-checking flow can be to check and synchronously save the self-checking result of the equipment one by one according to self-checking items, for example, firstly checking the electric quantity of a battery, then checking the impedance of a relay, and then testing a screen. And when the self-checking flow is executed, obtaining a self-checking result of the equipment.

202. According to the type of the self-checking result of the equipment, correspondingly selecting a target data uploading time from a preset data uploading time interval; the type of the self-checking result of the equipment comprises any one of the following: abnormal equipment and normal equipment;

it can be appreciated that the types of device self-test results include abnormal devices and normal devices, and in order to solve the problem of bandwidth congestion caused by simultaneous uploading of the AEDs, the device self-test results of each AED are uploaded in a time-dispersive manner, and the device self-test results classified as abnormal devices are uploaded preferentially.

The preset data upload time interval may be a default self-checking time interval, for example, 0:00-06:00, or a time interval after a preset self-checking time, for example, 0:00 is a preset self-test time of a certain AED, and then 0:00-1:00 this time interval is the preset data uploading time interval of the AED, a target data uploading time is selected in the preset data uploading time interval, and the AED uploads the self-checking result of the device to the server at the target data uploading time.

The method for selecting the uploading time of the target data is that the uploading time of the target data in front is distributed to the self-checking result of the equipment with abnormal type, and the uploading time of the target data in back is distributed to the self-checking result of the equipment with normal type, so that the self-checking result of the equipment with abnormal type can be uploaded to the server preferentially.

203. Uploading the self-checking result of the device to the server based on the uploading time of the target data.

It will be appreciated that when the AED is in the self-test complete state, the acquired device self-test results are stored first, and when the target data upload time is reached, the device self-test results are uploaded to the server based on the target data upload time.

In this embodiment, after the step 103, the method may further include: and configuring the self-checking time for the next self-checking according to the uploading time of the target data.

It will be appreciated that the preset self-test time is a default setting set by the installer or carried by the factory when the AED is activated, and since the personnel cannot predict the number of AEDs performing self-tests at a certain preset self-test time, there may be a large number of AEDs self-tests at a certain preset self-test time, and then wait for the device self-test result to be uploaded, while other preset self-test times are few or none.

For example, the AED is set at 0 per day at the time of device start-up at all preset self-test moments: at 00 full-pel, there have been a number of AEDs for a long time at 0: self-checking the whole point time of 00, and uploading a time interval 0 in preset data: 00-1:00 there are a lot of device self-checking results to be uploaded, and other preset data uploading time interval 1:00-2:00,2:00-3:00, etc., little or no maldistribution.

The server can count the uploading number of the target time interval of the preset data uploading time interval, determine whether to adjust the self-checking time of the AED for the next self-checking, give an instruction to the AED by the server after uploading the self-checking result of the equipment to the server, configure the self-checking time of the next self-checking, the instruction type comprises adjustment or non-adjustment, and the instruction also comprises the adjusted self-checking time when the instruction is adjustment.

As shown in fig. 3, in this embodiment, in step 202, according to the type of the device self-checking result, a target data uploading time is selected from a preset data uploading time interval, which includes steps 301-303:

301. dividing a preset data uploading time interval into a first target time interval and a second target time interval; wherein the ending time of the first target time interval is earlier than or equal to the starting time of the second target time interval;

302. when the type of the self-checking result of the equipment is equipment abnormality, selecting a target data uploading moment from a first target time interval;

303. and when the type of the self-checking result of the equipment is that the equipment is normal, selecting a target data uploading moment from the second target time interval.

It can be understood that the preset data uploading time interval is divided into two target time intervals, namely a first target time interval and a second target time interval, wherein the ending time of the first target time interval is earlier than or equal to the starting time of the second target time interval, namely the first target time interval is positioned before the second target time interval, and when the type of the self-checking result of the equipment is abnormal, the target data uploading time of the first target time interval is selected; and when the type of the self-checking result of the equipment is that the equipment is normal, selecting the target data uploading time of the second target time interval.

The first target time interval and the second target time interval can be equal time length or unequal time length, and the device self-checking results classified as the device abnormality are reasonably distributed according to the proportion of the types of the device self-checking results, so that the device self-checking results classified as the device abnormality are preferentially uploaded.

In step 302, selecting a target data upload time from the first target time interval comprises: randomly selecting one target data uploading time from a plurality of data uploading times in a first target time interval;

in step 303, selecting a target data uploading time from the second target time interval includes: and randomly selecting one target data uploading time from a plurality of data uploading times in the second target time interval.

It can be appreciated that the data uploading time of the device self-checking result can be determined by adopting a random allocation method, in practical application, a first target time interval and a second target time interval of the AED uploading device self-checking result are calculated and set, a plurality of data uploading time intervals are set by taking seconds as a unit respectively, the interval between the data uploading time intervals can be 1 second or a few seconds, taking 1 second as an example, one target data uploading time is randomly selected from a plurality of data uploading time intervals in the corresponding target time interval according to the type of the device self-checking result, and the device self-checking result is uploaded to the server according to the target data uploading time.

There may be many AEDs in each target time interval to upload the device self-test result, and by randomly distributing one or more AEDs, each AED uploads the device self-test result in a discrete manner in the target time interval, thereby ensuring that the device self-test result with abnormal device is uploaded in time and improving the utilization rate of bandwidth.

As shown in fig. 4, in this embodiment, the above-mentioned technical solution of selecting the target data uploading time from the first target time interval in step 302 may further include steps 401-402:

401. acquiring the type of the equipment self-checking result as equipment abnormality grade when the equipment is abnormal;

402. and correspondingly selecting the uploading moment of the target data from the first target time interval by referring to the abnormal grade of the equipment.

It can be understood that when the type of the self-checking result of the device is abnormal, the abnormal device level of the abnormal device can be further divided, for example, the abnormal device level is divided into A, B, C three levels, the level a is the condition that the device cannot be used, the level C is the condition that some self-checking items are abnormal but the use is not affected, and the level B is between the level a and the level C. Referring to the equipment abnormality level, the priority uploading equipment abnormality level is A level, and then B level and C level.

Then, referring to the equipment anomaly level, a target data uploading time is correspondingly selected from a first target time interval, for example, a former target data uploading time A is allocated to an equipment self-checking result with the equipment anomaly level A, a target data uploading time B after the target data uploading time A is allocated to an equipment self-checking result with the equipment anomaly level B, and then a target data uploading time C after the target data uploading time B is allocated to an equipment self-checking result with the equipment anomaly level C, so that the equipment self-checking result with the equipment anomaly level can be preferentially uploaded to the server.

As shown in fig. 5, in this embodiment, after uploading the device self-checking result to the server based on the target data uploading time, steps 501-503 are further included:

501. uploading the client device identifier of the client device to a server;

502. the receiving server uploads the corresponding distributed target data according to the client device identification and/or the uploading sequence of the client device identification;

503. and when the self-checking result of the equipment is obtained again, uploading the self-checking result of the equipment to the server directly according to the uploading moment of the target data distributed by the server.

It will be appreciated that the time of data upload of the device self-test results is determined by the server and returned to the AED. The client device identifier may be a device serial number, when an installer performs an AED power-on test according to a requirement, after entering a connection state, the AED transmits the device serial number to the server, the server receives the serial number based on a preset wireless connection protocol, verifies the serial number and stores the serial number, thereby establishing wireless communication connection between the AED and the server.

The device serial number may also be present in the uploaded device self-checking result, and the receiving server may correspondingly allocate a target data uploading time to the client device based on the device serial number and/or the uploading sequence of the device serial number. And when the self-checking result of the equipment is obtained again, uploading the self-checking result of the equipment to the server directly according to the uploading moment of the target data distributed by the server.

The server may set a plurality of data upload time instants at the target time interval, the interval between the data upload time instants may be 1 second or several seconds, and the number of data upload time instants may be set to be not less than the estimated number of AEDs. Multiple data upload time instants are assigned to each AED in turn until each AED has a data upload time instant.

For example, the server sets T data upload moments in the target time interval, where each data upload moment is numbered 1 to T, and the duration between the data upload moments may be 1 second. And then the 1 st data uploading time is allocated to the 1 st AED, in turn, the T data uploading time is allocated to the T data AED, if more AEDs exist, the T+1st AED can be put again to the 1 st data uploading time, the T+2nd AED can be put to the 2 nd data uploading time, and the steps are repeated until all AEDs have one target data uploading time.

And when the self-checking result of the equipment is obtained again, uploading the self-checking result of the equipment to the server directly according to the uploading moment of the target data distributed by the server.

As shown in fig. 6, in the present embodiment, in step 101, the types of the device self-checking result further include: self-checking and error reporting; after obtaining the device self-checking result, steps 601-602 are further included:

601. when the type of the self-checking result of the equipment is self-checking report error, controlling the client equipment to perform self-checking again;

602. and when the self-checking of the equipment is finished again, immediately uploading the re-acquired self-checking result of the equipment to a server.

It will be appreciated that the self-test of the client device cannot be completed, for example, the self-test process is interrupted, a complete device self-test result cannot be obtained, the type of the device self-test result is a self-test error, the client device is controlled to perform self-test again, and since the self-test is performed again, other AEDs are located behind in time, the self-test process should be specially and preferentially uploaded, and the re-obtained device self-test result is immediately uploaded to the server at the moment when the device self-test is completed again.

It should also be noted that, in an alternative example, the step of selecting the target data uploading time from the preset data uploading time interval according to the type of the self-checking result of the device may include: according to the type of the self-checking result of the equipment, correspondingly selecting a plurality of target data uploading moments from a preset data uploading time interval; correspondingly, the step of uploading the self-checking result of the device to the server based on the uploading time of the target data may include: splitting the self-checking result of the equipment into a plurality of data packets corresponding to the uploading moments of the plurality of target data, and uploading the corresponding data packets to a server at the uploading moments of the target data respectively.

Therefore, by further splitting the single self-checking data, then selecting a plurality of data uploading time nodes for the single data, the granularity of data decentralized uploading is further improved, the concurrency of data uploading is effectively reduced, and the bandwidth of the server is fully utilized. And it should be understood that each data packet in this embodiment carries a client device identifier, and after receiving the data packet, the server splices a plurality of data packets belonging to the same device self-checking result according to the client device identifier, so as to obtain a complete device self-checking result.

As shown in fig. 7, a second embodiment of the present invention is to provide a data uploading apparatus, and fig. 7 is a schematic functional block diagram of an embodiment of the data transmission apparatus of the present invention, where the apparatus is applied to an AED, and includes an acquisition module 701, a selection module 702, and an uploading module 703, and where:

the acquisition module is used for: when the self-checking is in a self-checking completion state, acquiring a self-checking result of the equipment;

the selecting module is used for: according to the type of the self-checking result of the equipment, correspondingly selecting a target time interval from preset data uploading time intervals; the type of the self-checking result of the equipment comprises any one of the following: abnormal equipment and normal equipment;

the uploading module is used for: uploading the self-checking result of the equipment to the server based on the target time interval.

In an alternative example, the data transmission apparatus further includes: the configuration module is used for referring to the uploading time of the target data to configure the self-checking time of the next self-checking.

In an alternative example, the selection module is specifically configured to: dividing a preset data uploading time interval into a first target time interval and a second target time interval; wherein the ending time of the first target time interval is earlier than or equal to the starting time of the second target time interval; when the type of the self-checking result of the equipment is equipment abnormality, selecting a target data uploading moment from a first target time interval; and when the type of the self-checking result of the equipment is that the equipment is normal, selecting a target data uploading moment from the second target time interval.

Further, in an optional example, the selecting module, when executing the function of selecting the target data uploading time from the first target time interval, is specifically configured to: acquiring the type of the equipment self-checking result as equipment abnormality grade when the equipment is abnormal; and correspondingly selecting the uploading moment of the target data from the first target time interval by referring to the abnormal grade of the equipment.

Further, in another optional example, the selecting module, when executing the function of selecting the target data uploading time from the first target time interval, is specifically configured to: and randomly selecting one target data uploading time from a plurality of data uploading times in the first target time interval. The selecting module is specifically configured to, when executing the function of selecting the target data uploading time from the second target time interval: and randomly selecting one target data uploading time from a plurality of data uploading times in the second target time interval.

In an alternative example, the upload module is further configured to: uploading the client device identifier of the client device to a server; the receiving server uploads the corresponding distributed target data according to the client device identification and/or the uploading sequence of the client device identification; and when the self-checking result of the equipment is obtained again, uploading the self-checking result of the equipment to the server directly according to the uploading moment of the target data distributed by the server.

In an alternative example, the types of device self-test results further include: and (5) self-checking error reporting. Correspondingly, the data transmission device further comprises: and the self-checking module is used for controlling the client device to perform self-checking again when the type of the self-checking result of the device is self-checking error reporting. The uploading module is also used for: and when the self-checking of the equipment is finished again, immediately uploading the re-acquired self-checking result of the equipment to a server.

The embodiments of the present application have been described above, the foregoing description is exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (9)

1. A data uploading method, applied to a client device, comprising the steps of:

when the self-checking is in a self-checking completion state, acquiring a self-checking result of the equipment;

according to the type of the self-checking result of the equipment, correspondingly selecting a target data uploading time from a preset data uploading time interval; the type of the self-checking result of the equipment comprises any one of the following: abnormal equipment and normal equipment;

uploading the self-checking result of the equipment to a server based on the uploading moment of the target data;

configuring the self-checking time for performing self-checking next time according to the instruction sent by the server; the instruction is generated for the server by referring to the uploading quantity of the target time interval of the preset data uploading time interval, and the type of the instruction comprises adjustment or non-adjustment.

2. The method for uploading data according to claim 1, wherein the selecting the target data uploading time from the preset data uploading time interval according to the type of the self-checking result of the device includes:

dividing a preset data uploading time interval into a first target time interval and a second target time interval; wherein the ending time of the first target time interval is earlier than or equal to the starting time of the second target time interval;

when the type of the self-checking result of the equipment is equipment abnormality, selecting the uploading moment of the target data from the first target time interval;

and when the type of the self-checking result of the equipment is that the equipment is normal, selecting the target data uploading time from the second target time interval.

3. The method of claim 2, wherein the selecting the target data upload time from the first target time interval comprises:

acquiring the type of the equipment self-checking result as equipment abnormality grade when equipment is abnormal;

and correspondingly selecting target data uploading time from the first target time interval by referring to the equipment abnormality grade.

4. The method of claim 2, wherein the selecting the target data upload time from the first target time interval comprises:

randomly selecting a target data uploading time from a plurality of data uploading times in the first target time interval;

the selecting the target data uploading time from the second target time interval includes:

and randomly selecting one target data uploading time from a plurality of data uploading times in the second target time interval.

5. The method for uploading data according to claim 1, wherein after uploading the device self-test result to a server based on the target data uploading time, further comprising:

uploading the client equipment identifier of the server to the server;

the receiving server uploads the corresponding distributed target data according to the client device identifier and/or the uploading sequence of the client device identifier;

and when the self-checking result of the equipment is obtained again, uploading the self-checking result of the equipment to the server directly according to the uploading moment of the target data distributed by the server.

6. The method for uploading data according to any one of claims 1 to 5, wherein the type of the device self-test result further comprises: self-checking and error reporting;

after the self-checking result of the equipment is obtained, the method further comprises the following steps:

when the type of the self-checking result of the equipment is the self-checking error, controlling the client equipment to perform self-checking again;

and when the self-checking of the equipment is finished again, immediately uploading the re-acquired self-checking result of the equipment to the server.

7. The data uploading device is characterized by being applied to client equipment and comprising an acquisition module, a selection module, an uploading module and a configuration module, wherein:

the acquisition module is used for: when the self-checking is in a self-checking completion state, acquiring a self-checking result of the equipment;

the selecting module is used for: according to the type of the self-checking result of the equipment, correspondingly selecting a target data uploading time from a preset data uploading time interval; the type of the self-checking result of the equipment comprises any one of the following: abnormal equipment and normal equipment;

the uploading module is used for: uploading the self-checking result of the equipment to a server based on the uploading moment of the target data;

the configuration module is used for: configuring the self-checking time for performing self-checking next time according to the instruction sent by the server; the instruction is generated for the server by referring to the uploading quantity of the target time interval of the preset data uploading time interval, and the type of the instruction comprises adjustment or non-adjustment.

8. A client device comprising a memory, a processor and a data transfer program stored on the memory, which when executed by the processor performs the steps of the data upload method according to any of claims 1-6.

9. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a data transmission program which, when executed by a processor, implements the steps of the data uploading method according to any of claims 1-6.