CN113316190B - Wisdom cloud box and system - Google Patents

Abstract

The invention discloses an intelligent cloud box and a system, which relate to the technical field of data wireless transmission equipment and comprise a data processing module, a marking module, a sending module, a storage module, a first ordering module, a first judging module, a reminding module and a recording module; the data processing module is used for acquiring a plurality of data packets; the marking module is used for associating the data packet with the increment identifier; the sending module is used for sending the data packet to the cloud server; the storage module is used for storing the increment identifier in real time; the first ordering module is used for sequentially ordering the plurality of increment identifiers stored in the storage module according to a preset arrangement standard to form a sending sequence; the first judging module is used for judging whether the adjacent increment identifiers in the sending sequence are continuous or not, if the adjacent increment identifiers are discontinuous, the reminding module is controlled to send out first reminding information, and the recording module is controlled to generate an error log. The invention has the advantages of realizing the transmission process of dynamic observation data, along with sensitive detection and low operation cost.

Description

Wisdom cloud box and system

Technical Field

The invention relates to the technical field of data wireless transmission equipment, in particular to an intelligent cloud box and system.

Background

Along with the development of internet technology, a cloud box appears, and is a device which is connected with a data acquisition system by wireless or wire, and through the cloud box, the functions of acquisition, information input, information output, centralized control, remote control, linkage control and the like of system information are realized, for example, the cloud box is needed in the cloud printing technology, and data are remotely transmitted to a cloud server through the cloud box, so that printing server resources can be integrated, a shared printing platform is built, the quality standardized printing service is provided for the whole society at any time and any place, and convenience is provided for life and work of people. However, the existing cloud boxes have the problem of insufficient reliability in terms of data transmission and processing, such as interruption of lost data, disordered transmission progress, and useless storage of data by the cloud boxes, and more importantly, repeated communication and disordered receiving and transmitting occur in the transmission process.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an intelligent cloud box and an intelligent cloud system.

An intelligent cloud box comprises a data processing module, a marking module, a sending module, a storage module, a first ordering module, a first judging module, a reminding module and a recording module which are electrically connected with each other; the data processing module is used for acquiring a plurality of data packets; the marking module is used for associating the data packets with the increment identifiers, and the increment identifiers associated with different data packets are different; the sending module is used for sending the data packet to the cloud server; the storage module is used for storing the increment identifier associated with the transmitted data packet in real time to form a transmission log; the first ordering module is used for sequentially ordering the plurality of increment identifiers stored in the storage module according to a preset arrangement standard to form a sending sequence; the first judging module is used for judging whether adjacent increment identifiers in the sending sequence are continuous or not, if not, controlling the reminding module to send out first reminding information, and controlling the recording module to record a plurality of discontinuous increment identifiers to generate an error log. The data packet is formed by integrating a plurality of real-time data, and the integrating process can be performed according to the standards of data type, acquisition time period or data size and the like; the increment identifier associated with each data packet is unique, the type of the increment identifier can be numerals, letters or other easily-identified characters, the marking module marks according to a preset marking standard when marking, and the preset marking standard is preset according to the type of the increment identifier, for example, the preset marking standard can be 1.2.3.4.5 … …, 1.10.11.100.101 … …, a, b, c, d, e … … or the like; the preset arrangement standard is the same as the preset marking standard; the first reminding information can be one or a combination of a plurality of image reminding, text reminding or sound reminding.

Specifically, the first judging module comprises a first judging unit and a second judging unit; the first judging unit is used for judging whether adjacent increment identifiers exist in the sending sequence or not, if so, the adjacent increment identifiers in the sending sequence are discontinuous; the first judging unit is used for judging whether the increment identifier is missing in the sending sequence, and if so, judging that the adjacent increment identifiers in the sending sequence are discontinuous. There are discontinuous adjacent delta identifiers in the transmission sequence, with two cases: one case is that there is a missing delta identifier between adjacent delta identifiers, i.e. representing a packet transmission failure or a packet missing; another situation is that the same incremental identifier exists, i.e. the data packet is sent repeatedly on behalf of; the data transmission result can be rapidly and sensitively obtained by judging the two conditions respectively by the first judging unit and the second judging unit.

Specifically, the system also comprises a feedback module and an elimination module; the feedback module is used for acquiring an increment identifier associated with the data packet received by the cloud server in real time and transmitting the increment identifier to the elimination module; the elimination module is used for receiving the plurality of increment identifiers and sending deletion information to the storage module; the storage module is further configured to delete a plurality of delta identifiers according to deletion information, where the deleted delta identifiers are identical to delta identifiers received by the cancellation module.

The deletion information is a plurality of increment identifiers associated with a plurality of data packets received by the integrated cloud server. The incremental identifiers related to the data packets received by the cloud server are acquired in real time through the feedback module, namely, paths of the data packets which are successfully transmitted are obtained, the reliability of acquisition of transmission results is guaranteed, more importantly, the incremental identifiers of the data packets which are successfully transmitted are stored in the storage module without effect, and the redundant incremental identifiers in the storage module are deleted through the elimination module, so that the space is saved, and invalid storage is avoided.

Specifically, the elimination module is connected with the recording module, and the elimination module is further used for controlling the recording module to record the deletion information after sending the deletion information so as to form a deletion log. By recording the deleted information, the historical deleted information can be checked at any time, so that the full observation of the data transmission process is further realized, and the retrospective property of the data transmission is improved.

Specifically, the system also comprises a second ordering module and a second judging module; the second ordering module is used for sequentially ordering the plurality of increment identifiers acquired by the feedback module according to a preset arrangement standard to form a receiving sequence; the second judging module is used for judging whether the sending sequence is the same as the receiving sequence, and if so, the reminding module is controlled to send second reminding information. Likewise, the second reminder information may be one or a combination of a graphical reminder, a text reminder, or an audible reminder. The second sorting module sorts the multiple increment identifiers acquired by the feedback module according to a preset arrangement standard, namely, multiple data packets received by the cloud server are acquired, and the same way, namely, paths of the data packets which are successfully transmitted are acquired, so that the reliability of acquisition of transmission results is ensured.

Specifically, the second judging module is connected with the recording module, and is further used for generating loss information when the sending sequence is different from the receiving sequence, and controlling the recording module to record the loss information so as to form a loss log. Similarly, by recording the lost information, the historical lost information can be checked at any time, so that the full observation of the data transmission process is further realized, and the traceability of the data transmission is improved.

Specifically, the transmitting module comprises a cis-position unit and a transmitting unit; the cis-position unit is used for acquiring a plurality of increment identifiers associated with a plurality of data packets to be transmitted, sequentially ordering the increment identifiers according to a preset arrangement standard to form a pre-transmission sequence, and arranging the data packets according to the pre-transmission sequence to form the pre-transmission sequence; the sending unit is used for sending the data packets to the cloud server according to the pre-sending sequence. The multiple increment identifiers are sequentially ordered to obtain the pre-sending sequence, the multiple data packets are ordered according to the number of the pre-sending sequence to form the pre-sending sequence, and finally the multiple data packets are sequentially transmitted according to the pre-sending sequence, so that orderly and controllable transmission is realized, and the disorder of receiving and sending is effectively prevented.

Specifically, the system further comprises a third judging module, wherein the third judging module is used for judging whether the pre-sending sequence is the same as the sending sequence, and if the pre-sending sequence is different from the sending sequence, the reminding module is controlled to send third reminding information. By comparing the pre-sending sequence with the sending sequence, whether the transmission process before sending a plurality of data packets is reliable or not can be obtained, and the situation of data packet loss is further prevented.

Specifically, the data processing module includes an acquisition unit and an integration unit: the acquisition unit is used for acquiring real-time data; the integration unit is used for integrating the real-time data according to a preset integration standard to form a plurality of data packets. The preset integration standard may be a standard such as a data type, an acquisition time period, or a data size, and the real-time data is integrated into a plurality of data packets by selecting different standards.

Also provided is an intelligent system comprising the intelligent cloud box described in any of the above embodiments.

The beneficial effects of the invention are as follows:

in the invention, firstly, a plurality of data packets are acquired through a data processing module, then the data packets are associated with increment identifiers through a marking module, a plurality of data packets are associated with a plurality of different increment identifiers one by one, then the data packets are sent to a cloud server through a sending module, then the increment identifiers associated with the sent data packets are stored in real time through a storage module to form a sending log, on the whole, the indirect observation and recording of the data packet paths are realized through associating the increment identifiers and directly collecting the associated increment identifiers, the method is simple and sensitive, the data processing and operation cost is reduced on the premise of improving the data processing efficiency, and further, the real-time observation of the data transmission process is realized by utilizing the sending log, so that the data transmission has retrospectibility; secondly, sequentially ordering a plurality of increment identifiers stored in the storage module according to a preset arrangement standard through a first ordering module to form a sending sequence, judging whether adjacent increment identifiers in the sending sequence are continuous through a first judging module, and on the whole, as each increment identifier is unique and the plurality of increment identifiers are generated through a preset marking standard, namely when the data transmission process is error-free, the generated sending sequence is the same as the sequence of the preset arrangement standard, and further, as the sequence of the preset marking standard is continuous, the generated sending sequence is also continuous in theory, whether the data packet is fully transmitted and whether the communication is repeated or not can be simply and rapidly determined through judging the continuity of the sending sequence, more importantly, the processing of the increment identifiers is only directly carried out in the process, so that the processing efficiency is further improved and the operation cost is reduced; finally, when the sending sequence is discontinuous, the first reminding information is sent out through the reminding module, meanwhile, the recording module records a plurality of discontinuous increment identifiers to generate error logs, when the first reminding information is received, a user, equipment or a system module can deal with the data packets according to discontinuous adjacent increment identifiers, and meanwhile, real-time observation of the data transmission process can be more fully realized by utilizing the error logs, so that the traceability of the data transmission is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a schematic illustration of a first connection of the present invention;

FIG. 2 is a schematic diagram illustrating the first determination module according to the present invention;

FIG. 3 is a schematic illustration of a second connection according to the present invention;

FIG. 4 is a third connection schematic of the present invention;

FIG. 5 is a fourth connection schematic of the present invention;

FIG. 6 is a schematic diagram of the data processing module of the present invention.

Reference numerals:

1-data processing module, 101-acquisition unit, 102-integration unit, 2-marking module, 3-sending module, 301-order unit, 3011-pre-sending order, 302-sending unit, 4-storage module, 401-sending log, 5-first sorting module, 501-sending order, 6-first judging module, 601-first judging unit, 602-second judging unit, 7-reminding module, 8-recording module, 801-error log, 802-lost log, 803-deleted log, 9-feedback module, 10-eliminating module, 11-second sorting module, 1101-receiving order, 12-second judging module, 13-third judging module.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In describing embodiments of the present invention, it should be noted that the directions or positional relationships indicated by the terms "inner", "outer", "upper", etc. are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in place when the inventive product is used, are merely for convenience of description and simplification of description, and are not indicative or implying that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

As shown in fig. 1 to 6, the device comprises a data processing module 1, a marking module 2, a sending module 3, a storage module 4, a first ordering module 5, a first judging module 6, a reminding module 7 and a recording module 8 which are electrically connected with each other; the data processing module 1 is used for acquiring a plurality of data packets; the marking module 2 is used for associating the data packets with the increment identifiers, and the increment identifiers associated with different data packets are different; the sending module 3 is used for sending the data packet to the cloud server; the storage module 4 is configured to store the increment identifier associated with the transmitted data packet in real time to form a transmission log 401; the first ordering module 5 is configured to sequentially order the plurality of incremental identifiers stored in the storage module 4 according to a preset ordering standard, so as to form a sending sequence 501; the first determining module 6 is configured to determine whether adjacent incremental identifiers in the transmission sequence 501 are continuous, and if not, control the reminding module 7 to send out the first reminding information, and control the recording module 8 to record the discontinuous multiple incremental identifiers to generate the error log 801.

In this embodiment, it should be noted that, the data packet is formed by integrating a plurality of real-time data, and the integrating process may be performed according to standards such as a data type, an acquisition time period, or a data size; the increment identifier associated with each data packet is unique, the type of the increment identifier can be numerals, letters or other easily identifiable characters, the marking module 2 marks according to a preset marking standard when marking, and the preset marking standard is preset according to the type of the increment identifier, for example, the preset marking standard can be 1.2.3.4.5 … …, 1.10.11.100.101 … …, a, b, c, d, e … … or the like; the preset arrangement standard is the same as the preset marking standard; the first reminding information can be one or a combination of a plurality of image reminding, text reminding or sound reminding. The whole cloud box operation process is as follows: firstly, a plurality of data packets are acquired through a data processing module 1, then the data packets are associated with increment identifiers through a marking module 2, a plurality of different increment identifiers are associated with each other, then the data packets are sent to a cloud server through a sending module 3, then the increment identifiers associated with the sent data packets are stored in real time through a storage module 4 to form a sending log 401, in conclusion, the data packet paths are indirectly observed and recorded through associating the increment identifiers and directly collecting the associated increment identifiers, the data processing cost is reduced on the premise that the data processing efficiency is simple and sensitive, and further, all the data packets sent from the sending module 3 can be rapidly recorded, and the real-time observation of the data transmission process is realized by utilizing the sending log 401, so that the data transmission has traceability; secondly, sequentially ordering the multiple increment identifiers stored in the storage module 4 according to a preset arrangement standard through the first ordering module 5 to form a sending sequence 501, judging whether adjacent increment identifiers in the sending sequence 501 are continuous through the first judging module 6, and on the whole, as each increment identifier is unique and the multiple increment identifiers are generated through the preset mark standard, namely when the data transmission process is error-free, the generated sending sequence 501 is identical to the sequence of the preset arrangement standard, and the generated sending sequence 501 is theoretically continuous due to the fact that the sequence of the preset mark standard is continuous, whether the data packet is fully transmitted and repeatedly communicated can be simply and rapidly determined through judging the continuity of the sending sequence 501, and more importantly, the process only directly processes the increment identifiers, so that the processing efficiency is further improved and the operation cost is reduced; finally, when the sending sequence 501 is discontinuous, the first reminding information is sent out through the reminding module 7, meanwhile, the recording module 8 records a plurality of discontinuous increment identifiers to generate an error log 801, when receiving the first reminding information, a user, equipment or a system module processes the data packet according to the discontinuous adjacent increment identifiers, and meanwhile, real-time observation of the data transmission process can be more fully realized by utilizing the error log 801, so that the traceability of the data transmission is further improved.

As shown in fig. 1 to 6, specifically, the first judgment module 6 includes a first judgment unit 601 and a second judgment unit 602; the first determining unit 601 is configured to determine whether adjacent increment identifiers exist in the transmission sequence 501, and if so, determine that the adjacent increment identifiers in the transmission sequence 501 are discontinuous; the first determining unit 601 is configured to determine whether there is a missing increment identifier in the transmission sequence 501, and if there is a missing increment identifier, determine that adjacent increment identifiers in the transmission sequence 501 are discontinuous.

In this embodiment, there are two cases where there are discontinuous adjacent increment identifiers in the transmission sequence 501: one case is that there is a missing delta identifier between adjacent delta identifiers, i.e. representing a packet transmission failure or a packet missing; another situation is that the same incremental identifier exists, i.e. the data packet is sent repeatedly on behalf of; the data transmission result can be obtained promptly and sensitively by the respective judgment of the first judgment unit 601 and the second judgment unit 602.

As shown in fig. 1 to 6, in particular, a feedback module 9 and a cancellation module 10 are also included; the feedback module 9 is configured to acquire an incremental identifier associated with a data packet received by the cloud server in real time, and transmit the incremental identifier to the cancellation module 10; the cancellation module 10 is configured to receive a plurality of incremental identifiers and send deletion information to the storage module 4; the storage module 4 is further configured to delete a plurality of delta identifiers according to the deletion information, the deleted delta identifiers being identical to the delta identifiers received by the deletion module 10.

In this embodiment, it should be noted that the deletion information is to integrate a plurality of incremental identifiers associated with a plurality of data packets received by the cloud server. The incremental identifiers associated with the data packets received by the cloud server are acquired in real time through the feedback module 9, namely, the paths of the data packets which are successfully transmitted are obtained, the reliability of acquisition of transmission results is guaranteed, more importantly, the incremental identifiers of the data packets which are successfully transmitted are stored in the storage module 4 without effect, and the redundant incremental identifiers in the storage module 4 are deleted through the elimination module 10, so that space is saved, and invalid storage is avoided.

As shown in fig. 1 to 6, specifically, the cancellation module 10 is connected to the recording module 8, and the cancellation module 10 is further configured to control the recording module 8 to record the deletion information after sending the deletion information, so as to form a deletion log 803.

In this embodiment, by recording the deletion information, the history deletion information can be checked at any time, so that the data transmission process can be fully observed, and the traceability of the data transmission can be improved.

As shown in fig. 1 to 6, specifically, the device further includes a second sorting module 11 and a second judging module 12; the second sorting module 11 is configured to sequentially sort the plurality of incremental identifiers acquired by the feedback module 9 according to a preset arrangement standard, so as to form a receiving sequence 1101; the second judging module 12 is configured to judge whether the sending sequence 501 and the receiving sequence 1101 are the same, and if they are different, control the reminding module 7 to send out the second reminding information.

In this embodiment, it should be noted that, similarly, the second reminding information may be one or a combination of more than one of an image reminding, a text reminding or an audio reminding. The second sorting module 11 sorts the multiple increment identifiers acquired by the feedback module 9 according to a preset arrangement standard in turn, that is, acquires multiple data packets received by the cloud server, and also, acquires paths of the data packets successfully transmitted, ensures reliability of transmission result acquisition, compares the sending sequence 501 with the receiving sequence 1101 through the second judging module 12, if the sending sequence 501 is the same as the receiving sequence 1101, represents that a real-time transmission process is correct, if the sending sequence 501 is different from the receiving sequence 1101, represents that a real-time transmission process is wrong, and when receiving the second reminding information sent by the reminding module 7, a user, equipment or a system module locates an abnormal data packet according to the excessive or reduced receiving sequence 1101 and develops corresponding measures for the data transmission and the abnormal data packet.

As shown in fig. 1 to 6, specifically, the second judging module 12 is connected to the recording module 8, and the second judging module 12 is further configured to generate loss information when the transmission sequence 501 is different from the reception sequence 1101, and control the recording module 8 to record the loss information to form a loss log 802.

In this embodiment, similarly, by recording the lost information, the history lost information can be checked at any time, so that the data transmission process can be fully observed, and the traceability of the data transmission can be improved.

As shown in fig. 1 to 6, specifically, the transmission module 3 includes a cis unit 301 and a transmission unit 302; the cis-position unit 301 is configured to obtain a plurality of increment identifiers associated with a plurality of data packets to be sent, sequentially sort the plurality of increment identifiers according to a preset arrangement standard to form a pre-sending sequence 3011, and arrange the plurality of data packets according to the pre-sending sequence 3011 to form a pre-sending sequence; the sending unit 302 is configured to send the data packets to the cloud server according to a pre-sending sequence.

In this embodiment, the plurality of increment identifiers are sequentially ordered to obtain the pre-transmission sequence 3011, the plurality of data packets are ordered according to the number of times of the pre-transmission sequence 3011 to form a pre-transmission sequence, and finally the plurality of data packets are sequentially transmitted according to the pre-transmission sequence, so that orderly and controllable transmission is realized, and confusion of transmission and reception is effectively prevented.

As shown in fig. 1 to 6, the system specifically further includes a third determining module 13, where the third determining module 13 is configured to determine whether the pre-sending order 3011 and the sending order 501 are the same, and if they are different, control the reminding module 7 to send third reminding information.

In the present embodiment, by comparing the pre-transmission sequence 3011 and the transmission sequence 501, it is possible to obtain whether or not the transmission process before transmitting a plurality of data packets is reliable, and further, to prevent the occurrence of packet loss.

As shown in fig. 1 to 6, specifically, the data processing module 1 includes an acquisition unit 101 and an integration unit 102: the acquisition unit 101 is used for acquiring real-time data; the integrating unit 102 is configured to integrate real-time data according to a predetermined integration standard to form a plurality of data packets.

In this embodiment, it should be noted that the preset integration criteria may be criteria such as a data type, an acquisition time period, or a data size, and the real-time data may be integrated into a plurality of data packets by selecting different criteria.

Also provided is an intelligent system comprising the intelligent cloud box described in any of the above embodiments.

In this embodiment, the above embodiments have been described, and redundant description is not made here.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention, and are intended to be included within the scope of the appended claims and description.

Claims (10)

1. The intelligent cloud box is characterized by comprising a data processing module, a marking module, a sending module, a storage module, a first ordering module, a first judging module, a reminding module and a recording module which are electrically connected with each other; wherein,,

the data processing module is used for acquiring a plurality of data packets;

the marking module is used for associating the data packets with the increment identifiers, and the increment identifiers associated with different data packets are different;

the sending module is used for sending the data packet to the cloud server;

the storage module is used for storing the increment identifiers associated with the transmitted data packets in real time to form a transmission log, and the increment identifier associated with each data packet is unique;

the first ordering module is used for sequentially ordering the plurality of increment identifiers stored in the storage module according to a preset arrangement standard to form a sending sequence;

the first judging module is used for judging whether adjacent increment identifiers in the sending sequence are continuous or not, if not, controlling the reminding module to send out first reminding information, and controlling the recording module to record a plurality of discontinuous increment identifiers to generate an error log.

2. The intelligent cloud cartridge of claim 1, wherein the first judgment module comprises a first judgment unit and a second judgment unit; wherein,,

the first judging unit is used for judging whether adjacent increment identifiers exist in the sending sequence or not, if so, the adjacent increment identifiers in the sending sequence are discontinuous;

the first judging unit is used for judging whether the increment identifier is missing in the sending sequence, and if so, judging that the adjacent increment identifiers in the sending sequence are discontinuous.

3. The intelligent cloud cartridge of claim 1, further comprising a feedback module and an elimination module; wherein,,

the feedback module is used for acquiring an increment identifier associated with the data packet received by the cloud server in real time and transmitting the increment identifier to the elimination module;

the elimination module is used for receiving the plurality of increment identifiers and sending deletion information to the storage module;

the storage module is further configured to delete a plurality of delta identifiers according to deletion information, where the deleted delta identifiers are identical to delta identifiers received by the cancellation module.

4. The intelligent cloud box of claim 3, wherein the elimination module is connected to the recording module, and the elimination module is further configured to control the recording module to record the deletion information after sending the deletion information, so as to form a deletion log.

5. The intelligent cloud cartridge of claim 3, further comprising a second ordering module and a second judgment module; wherein,,

the second ordering module is used for sequentially ordering the plurality of increment identifiers acquired by the feedback module according to a preset arrangement standard to form a receiving sequence;

the second judging module is used for judging whether the sending sequence is the same as the receiving sequence, and if so, the reminding module is controlled to send second reminding information.

6. The intelligent cloud box according to claim 5, wherein the second judging module is connected to the recording module, and the second judging module is further configured to generate loss information when the transmission order is different from the reception order, and control the recording module to record the loss information to form a loss log.

7. The intelligent cloud cartridge of claim 1, wherein the transmitting module comprises a homeopathic unit and a transmitting unit; wherein,,

the cis-position unit is used for acquiring a plurality of increment identifiers associated with a plurality of data packets to be transmitted, sequentially ordering the increment identifiers according to a preset arrangement standard to form a pre-transmission sequence, and arranging the data packets according to the pre-transmission sequence to form a pre-transmission sequence;

the sending unit is used for sending the data packets to the cloud server according to the pre-sending sequence.

8. The intelligent cloud box according to claim 7, further comprising a third judging module, wherein the third judging module is configured to judge whether the pre-sending sequence is the same as the sending sequence, and if so, control the reminding module to send third reminding information.

9. The smart cloud cartridge of any of claims 1 to 8, wherein the data processing module comprises an acquisition unit and an integration unit:

the acquisition unit is used for acquiring real-time data;

the integration unit is used for integrating the real-time data according to a preset integration standard to form a plurality of data packets.

10. A smart system comprising a smart cloud cartridge as claimed in any one of claims 1 to 8.