CN117197975A - Cable anti-theft system and method for monitoring based on vibration data and image data - Google Patents

Abstract

The embodiment of the application discloses a cable anti-theft system and a method for monitoring based on vibration data and image data, wherein the method comprises the following steps: acquiring vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time; when the condition that the identification condition is met in the vibration data or the image data is detected, the first time stamp and the second time stamp are aligned, the vibration data to be compared and the image data to be compared after the alignment of the time stamps are obtained and matched, and whether the anti-theft alarm is generated or not is determined according to the matching result. When the vibration data with the first time stamp or the image data with the second time stamp are monitored to meet the identification condition, the vibration data to be compared after the time stamps are aligned are matched with the number of the images to be compared, whether an alarm is given out or not is determined according to the matching result, the problem of false alarm caused by adopting a single variable to identify the theft condition is avoided, and the anti-theft monitoring efficiency and the alarm accuracy are improved.

Description

Cable anti-theft system and method for monitoring based on vibration data and image data

Technical Field

The embodiment of the application relates to the technical field of cable monitoring, in particular to a cable anti-theft system and method for monitoring based on vibration data and image data.

Background

The industrial scale of the electric wires and cables steadily increases along with the development of global industrialization and urban processes, the cost of the electric cables is higher, the price is higher, and a plurality of lawbreakers can exchange money by stealing the electric cables, so that the antitheft monitoring of the electric cables is very important.

In the existing cable anti-theft technology, most of the sensors are implanted in the cable to monitor the vibration condition of the cable so as to judge whether the cable theft phenomenon occurs, and a large number of misjudgment conditions exist in the mode, so that the monitoring result is inaccurate and lacks of rationality.

Disclosure of Invention

The embodiment of the application provides a cable anti-theft system and a cable anti-theft method based on vibration data and image data, which solve the problems of inaccurate monitoring results and lack of rationality in the prior art that a large number of misjudgment conditions exist, avoid misinformation caused by the fact that a single variable is adopted to identify theft conditions, and improve the anti-theft monitoring efficiency and the alarm accuracy.

In a first aspect, an embodiment of the present application provides a cable theft prevention method for monitoring based on vibration data and image data, including:

acquiring vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time; when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned; and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result.

Optionally, before the acquiring the vibration data with the first time stamp and the image data with the second time stamp, the method further includes:

when vibration data and image data are acquired through a sensor, corresponding first time stamp and second time stamp are generated and stored in a correlated mode based on the vibration data and the acquisition time of the image data.

Optionally, before the condition that the identification condition is met is detected in the vibration data or the image data, the method further includes:

vibration identification conditions are set for the vibration data, and image identification conditions are set for the image data.

Optionally, the setting the vibration identification condition on the vibration data includes:

setting vibration value characteristics meeting vibration identification conditions, and correspondingly, the vibration data meeting the identification conditions comprises: the characteristics of the vibration data meet the set vibration value characteristics;

the setting of the image recognition condition on the image data includes:

setting an image target main body, and correspondingly, the image data meeting the identification conditions comprises: the image recognition result of the image data contains the set image target subject.

Optionally, the performing the alignment of the first timestamp and the second timestamp includes:

the time stamps of the same numerical intervals of the first time stamp and the second time stamp are determined as a set of aligned time stamps.

Optionally, the matching of the vibration data to be compared and the image data to be compared includes:

acquiring a preset target vibration curve and a comparison table of a target image main body;

and determining matching results of the vibration data to be compared and the image data to be compared according to the comparison table, wherein the matching results comprise matching establishment and matching failure.

Optionally, the determining whether to generate the burglar alarm according to the matching result includes:

generating an anti-theft alarm under the condition that the matching result is that the matching is established;

if the matching result is that the matching is not established, no burglar alarm is generated.

In a second aspect, an embodiment of the present application further provides a cable anti-theft system for monitoring based on vibration data and image data, including:

the acquisition module is configured to acquire vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time;

the alignment module is configured to align the first timestamp with the second timestamp when the condition that the identification condition is met exists in the vibration data or the image data, and acquire vibration data to be compared and image data to be compared after the timestamps are aligned;

and the matching alarm module is configured to match the vibration data to be compared with the image data to be compared, and determine whether to generate an anti-theft alarm according to a matching result.

In a third aspect, an embodiment of the present application further provides a cable theft protection device for monitoring based on vibration data and image data, the device comprising:

one or more processors;

storage means for storing one or more programs,

when the one or more programs are executed by the one or more processors, the one or more processors implement the cable theft protection method for monitoring based on vibration data and image data according to the embodiments of the present application.

In a fourth aspect, embodiments of the present application also provide a storage medium storing computer-executable instructions that, when executed by a computer processor, are configured to perform the cable theft protection method for monitoring based on vibration data and image data according to embodiments of the present application.

In the embodiment of the application, vibration data with a first time stamp and image data with a second time stamp which are uploaded in real time are obtained; when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned; and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result. When the vibration data with the first time stamp or the image data with the second time stamp are monitored to meet the identification condition, the two time stamps are aligned, the vibration data to be compared after the time stamps are aligned and the image number to be compared are matched, whether the anti-theft alarm is generated or not is determined according to the matching result, the problems that a large number of misjudgment conditions exist, the monitoring result is inaccurate and the rationality is poor in the prior art are solved, the misinformation problem caused by the fact that the single variable is adopted to identify the theft condition is avoided, and the anti-theft monitoring efficiency and the alarm accuracy are improved.

Drawings

FIG. 1 is a flow chart of a cable anti-theft method for monitoring based on vibration data and image data provided by an embodiment of the application;

FIG. 2 is a flowchart of a method for setting identification conditions based on vibration data and image data according to an embodiment of the present application;

FIG. 3 is a flowchart of a method for aligning a first timestamp and a second timestamp according to an embodiment of the present application;

FIG. 4 is a flowchart of a method for matching vibration data to be compared and image data to be compared, which is provided by an embodiment of the present application;

fig. 5 is a block diagram of a cable anti-theft method for monitoring based on vibration data and image data according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a cable theft protection device for monitoring based on vibration data and image data according to an embodiment of the present application.

Detailed Description

Embodiments of the present application will be described in further detail below with reference to the drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not limiting of embodiments of the application. It should be further noted that, for convenience of description, only some, but not all of the structures related to the embodiments of the present application are shown in the drawings.

Fig. 1 is a flowchart of a cable anti-theft method for monitoring based on vibration data and image data according to an embodiment of the present application, as shown in fig. 1, specifically including:

step S101, vibration data with a first time stamp and image data with a second time stamp which are uploaded in real time are obtained.

Wherein, the time stamp can be a time recording mode, and is a series of numbers which indicate the time length from a certain fixed time point to the present time point; the vibration data may be data reflecting the vibration condition of the cable; the image data may be a photograph of the surroundings of the cable taken by the image pickup apparatus. The vibration sensor and the image sensor acquire vibration data and image data respectively and upload the vibration data and the image data in real time, and the server initiates a data acquisition request to acquire the vibration data with the first timestamp and the image data with the second timestamp which are uploaded by the sensor in real time. In one example, before the vibration data with the first time stamp and the image data with the second time stamp, which are uploaded in real time, are acquired by the sensor, when the vibration data and the image data are acquired by the sensor, the corresponding first time stamp and the second time stamp are generated and stored in association based on the acquisition time of the vibration data and the image data, and the system acquires the vibration data with the first time stamp and the image data with the second time stamp, which are uploaded by the sensor in real time, and can sort, inquire and compare the vibration data and the image data more conveniently by the time stamp, so that the data can be managed and analyzed better.

And step S102, when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamps are aligned.

The identification conditions may be different identification conditions preset for the vibration data and the image data. Optionally, before the condition that the identification condition is met is detected in the vibration data or the image data, setting the vibration identification condition for the vibration data in the system, and setting the vibration value feature meeting the vibration identification condition, where the vibration data meets the identification condition includes: the characteristics of the vibration data meet the set vibration value characteristics; setting image recognition conditions for the image data, setting an image target main body, and correspondingly, the image data meeting the recognition conditions comprises: the image recognition result of the image data contains the set image target subject. After vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time, are acquired, the system monitors the vibration data and the image data, aligns the first time stamp with the vibration data and the second time stamp with the image data when the condition that the identification condition is met exists in the vibration data or the image data is monitored, acquires the vibration data and the image data with the aligned time stamps, and determines the vibration data and the image data with the aligned time stamps as vibration data to be compared and image data to be compared. In one example, the set image target main body is a person, the person is included in the image recognition result of the image data, the first time stamp carried by the vibration data is aligned with the second time stamp of the image data containing the person, and the vibration data to be compared and the image data to be compared after the time stamps are aligned are obtained; and the data with the aligned time stamps are used as the data to be compared, and the vibration data and the image data with the aligned time stamps are generated simultaneously, so that the accuracy of the result is improved.

And step 103, matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result.

After the vibration data to be compared and the image data to be compared with the time stamps aligned are obtained, the vibration data to be compared and the image data to be compared are matched according to preset matching conditions in the system to obtain a matching result, and whether the anti-theft alarm is generated or not is judged according to the obtained matching result. In one example, a comparison table of a target vibration curve and a target image main body is preset in the system, the comparison table of the target vibration curve and the target image main body is obtained, vibration data to be compared and image data to be compared are matched with the comparison table to obtain a matching result, and the matching result comprises that matching is established and matching is not established. Generating an anti-theft alarm under the condition that the matching result is that the matching is established; if the matching result is that the matching is not established, no burglar alarm is generated. And a comparison table of the target vibration curve and the target image main body is preset, and vibration data to be compared and image data to be compared are directly compared with the comparison table, so that the method is convenient and quick, and energy consumption is saved.

From the above, vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time, are obtained; when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned; and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result. When the vibration data with the first time stamp or the image data with the second time stamp are monitored to meet the identification condition, the two time stamps are aligned, the vibration data to be compared after the time stamps are aligned and the image number to be compared are matched, whether the anti-theft alarm is generated or not is determined according to the matching result, the problems that a large number of misjudgment conditions exist, the monitoring result is inaccurate and the rationality is poor in the prior art are solved, the misinformation problem caused by the fact that the single variable is adopted to identify the theft condition is avoided, and the anti-theft monitoring efficiency and the alarm accuracy are improved.

Fig. 2 is a flowchart of a method for setting identification conditions based on vibration data and image data according to an embodiment of the present application, as shown in fig. 2, specifically including:

step S201, vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time, are acquired.

Step S202, setting vibration identification conditions for vibration data and image identification conditions for image data, and when the condition that the vibration data or the image data meet the identification conditions is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamps are aligned.

Wherein before monitoring whether there is a condition satisfying the recognition condition in the vibration data or the image data, setting the vibration recognition condition for the vibration data, and setting the image recognition condition for the image data, optionally, setting a vibration value characteristic satisfying the vibration recognition condition, and correspondingly, the vibration data satisfying the recognition condition includes: the characteristics of the vibration data meet the set vibration value characteristics; setting an image target main body, and correspondingly, the image data meeting the identification conditions comprises: the image recognition result of the image data contains the set image target subject. And judging whether the vibration data and the image data meet the identification conditions or not based on the set vibration identification conditions and the set image identification conditions respectively, and when the condition that the vibration data or the image data meet the identification conditions is monitored, aligning the first timestamp and the second timestamp, and acquiring the vibration data to be compared and the image data to be compared after the timestamps are aligned. In one example, setting a standard vibration value to be 0.5 m, wherein the vibration value is characterized in that at least three vibration values are continuously greater than or equal to the set standard vibration value, the vibration identification condition is that the vibration data comprises at least three vibration values which are continuously greater than or equal to the set standard vibration value, the vibration data comprises continuous vibration values of 0.5 m, 0.55 m and 0.6 m, the vibration data comprises data meeting the vibration identification condition, an image target subject set for the image data is a person, and the image identification condition correspondingly set is that the subject identified in the image data is a person; in another example, an abnormal vibration frequency is set, a vibration identification condition is satisfied when the vibration frequency of the vibration data is greater than or equal to the set abnormal vibration frequency, the set image target subject is a person, and the corresponding set image identification condition is that the subject identified in the image data is a person.

And step 203, matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result.

From the above, vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time, are obtained; when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned; and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result. When the vibration data with the first time stamp or the image data with the second time stamp are monitored to meet the identification condition, the two time stamps are aligned, the vibration data to be compared after the time stamps are aligned and the image number to be compared are matched, whether the anti-theft alarm is generated or not is determined according to the matching result, the problems that a large number of misjudgment conditions exist, the monitoring result is inaccurate and the rationality is poor in the prior art are solved, the misinformation problem caused by the fact that the single variable is adopted to identify the theft condition is avoided, and the anti-theft monitoring efficiency and the alarm accuracy are improved.

Fig. 3 is a flowchart of a method for aligning a first timestamp and a second timestamp according to an embodiment of the present application, where, as shown in fig. 3, the method specifically includes:

step S301, vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time, are acquired.

And step S302, when the condition that the identification condition is met in the vibration data or the image data is detected, determining the time stamp of the same numerical value interval of the first time stamp and the second time stamp as a group of alignment time stamps, and acquiring vibration data to be compared and image data to be compared after the time stamps are aligned.

When vibration data or image data are monitored to have data meeting the identification conditions according to the vibration identification conditions and the image identification conditions, determining a time stamp corresponding to another group of data, wherein the time stamp corresponds to the other group of data, the numerical interval of the time stamp corresponds to the data meeting the identification conditions, determining the time stamp corresponding to the data meeting the identification conditions as a group of alignment time stamps, and acquiring vibration data to be compared and image data to be compared after the time stamps are aligned. In one example, when it is detected that vibration data satisfying the vibration identification condition exists in the vibration data, the value interval of the timestamp corresponding to the vibration data satisfying the vibration identification condition is [1689756035, 1689756185], it is determined that the value interval of the timestamp corresponding to the image data is the timestamp of [1689756035, 1689756185], the vibration data satisfying the vibration identification condition is used as the vibration data to be compared, and the image data having the value interval of the timestamp of [1689756035, 1689756185] is used as the image data to be compared.

Step S303, matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result.

From the above, vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time, are obtained; when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned; and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result. When the vibration data with the first time stamp or the image data with the second time stamp are monitored to meet the identification condition, the two time stamps are aligned, the vibration data to be compared after the time stamps are aligned and the image number to be compared are matched, whether the anti-theft alarm is generated or not is determined according to the matching result, the problems that a large number of misjudgment conditions exist, the monitoring result is inaccurate and the rationality is poor in the prior art are solved, the misinformation problem caused by the fact that the single variable is adopted to identify the theft condition is avoided, and the anti-theft monitoring efficiency and the alarm accuracy are improved.

Fig. 4 is a flowchart of a method for matching vibration data to be compared and image data to be compared, which is provided in an embodiment of the present application, as shown in fig. 4, and specifically includes:

step S401, acquiring vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time.

And step S402, when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamps are aligned.

Step S403, a comparison table of a preset target vibration curve and a target image main body is obtained, a matching result of the vibration data to be compared and the image data to be compared is determined according to the comparison table, the matching result comprises whether the matching is established or not, and whether the anti-theft alarm is generated is determined according to the matching result.

The method comprises the steps that a comparison table of a target vibration curve and a target image main body is preset in a system, combinations of the vibration curve and the image main body under all abnormal conditions are recorded in the comparison table, after to-be-compared vibration data and to-be-compared image data with aligned time stamps are obtained, the comparison table of the target vibration curve and the target image main body is obtained, the vibration curve of the to-be-compared vibration data and the combination of the image main body of the to-be-compared image data and the combination of the vibration curve and the image main body recorded in the comparison table are compared one by one, and if the comparison table contains the same combination as the vibration curve of the to-be-compared vibration data and the image main body of the to-be-compared image data, a matching result is established; if the comparison table does not contain the same combination of the vibration curve of the vibration data to be compared and the image main body of the image data to be compared, the matching result is that the matching is not established. Optionally, if the matching result is that the matching is established, the system generates a burglar alarm; if the matching result is that the matching is not established, the system does not generate the burglar alarm. In one example, the vibration curve of the vibration data to be compared is matched with the vibration curve in the comparison table, and the image main body of the image data to be compared is not matched with the image main body in the comparison table, so that the matching result is that the matching is not established; the comparison table contains the same combination as the vibration curve of the vibration data to be compared and the image main body of the image data to be compared, and the matching result is that the matching is established; in another example, the vibration data to be compared and the image data to be compared are matched with the combination of the vibration abnormal data and the image abnormal data recorded in the historical alarm record information, and under the condition that the matching is established, the system generates an anti-theft alarm; if the match is not established, the system does not generate a burglar alarm.

From the above, vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time, are obtained; when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned; and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result. When the vibration data with the first time stamp or the image data with the second time stamp are monitored to meet the identification condition, the two time stamps are aligned, the vibration data to be compared after the time stamps are aligned and the image number to be compared are matched, whether the anti-theft alarm is generated or not is determined according to the matching result, the problems that a large number of misjudgment conditions exist, the monitoring result is inaccurate and the rationality is poor in the prior art are solved, the misinformation problem caused by the fact that the single variable is adopted to identify the theft condition is avoided, and the anti-theft monitoring efficiency and the alarm accuracy are improved.

Fig. 5 is a block diagram of a cable anti-theft method for monitoring based on vibration data and image data according to an embodiment of the present application, where the smart cable is used to execute the cable anti-theft method for monitoring based on vibration data and image data according to the above embodiment, and the cable anti-theft method has a functional module and beneficial effects corresponding to the execution method. As shown in fig. 5, the apparatus specifically includes:

an acquisition module 101 configured to acquire vibration data with a first time stamp and image data with a second time stamp uploaded in real time;

the alignment module 102 is configured to perform alignment of the first timestamp and the second timestamp when the condition that the identification condition is met exists in the vibration data or the image data, and acquire vibration data to be compared and image data to be compared after the alignment of the timestamps;

and the matching alarm module 103 is configured to match the vibration data to be compared with the image data to be compared, and determine whether to generate a burglar alarm according to a matching result.

According to the scheme, vibration data with a first time stamp and image data with a second time stamp which are uploaded in real time are obtained; when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned; and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result. When the vibration data with the first time stamp or the image data with the second time stamp are monitored to meet the identification condition, the two time stamps are aligned, the vibration data to be compared after the time stamps are aligned and the image number to be compared are matched, whether the anti-theft alarm is generated or not is determined according to the matching result, the problems that a large number of misjudgment conditions exist, the monitoring result is inaccurate and the rationality is poor in the prior art are solved, the misinformation problem caused by the fact that the single variable is adopted to identify the theft condition is avoided, and the anti-theft monitoring efficiency and the alarm accuracy are improved.

In a possible embodiment, the device further comprises a timestamp generation module, specifically configured to:

when vibration data and image data are acquired through a sensor, corresponding first time stamp and second time stamp are generated and stored in a correlated mode based on the vibration data and the acquisition time of the image data.

In a possible embodiment, the system further comprises a condition setting module, specifically configured to:

vibration identification conditions are set for the vibration data, and image identification conditions are set for the image data.

In a possible embodiment, the condition setting module is further configured to:

setting vibration value characteristics meeting vibration identification conditions, and correspondingly, the vibration data meeting the identification conditions comprises: the characteristics of the vibration data meet the set vibration value characteristics;

setting an image target main body, and correspondingly, the image data meeting the identification conditions comprises: the image recognition result of the image data contains the set image target subject.

In one possible embodiment, the alignment module 102 is specifically configured to:

the time stamps of the same numerical intervals of the first time stamp and the second time stamp are determined as a set of aligned time stamps.

In one possible embodiment, the matching alarm module 103 is specifically configured to:

acquiring a preset target vibration curve and a comparison table of a target image main body;

and determining matching results of the vibration data to be compared and the image data to be compared according to the comparison table, wherein the matching results comprise matching establishment and matching failure.

In a possible embodiment, the matching alarm module 103 is further configured to:

generating an anti-theft alarm under the condition that the matching result is that the matching is established;

if the matching result is that the matching is not established, no burglar alarm is generated.

Fig. 6 is a schematic structural diagram of a cable theft protection device for monitoring based on vibration data and image data according to an embodiment of the present application, and as shown in fig. 6, the device includes a processor 201, a memory 202, an input device 203 and an output device 204; the number of processors 201 in the device may be one or more, one processor 201 being taken as an example in fig. 6; the processor 201, memory 202, input devices 203, and output devices 204 in the apparatus may be connected by a bus or other means, for example in fig. 6. The memory 202 is used as a computer readable storage medium for storing software programs, computer executable programs and modules, such as program instructions/modules corresponding to the cable theft protection method for monitoring based on vibration data and image data in the embodiment of the present application. The processor 201 executes various functional applications of the device and data processing by running software programs, instructions and modules stored in the memory 202, i.e., implements the cable theft prevention method for monitoring based on vibration data and image data described above. The input means 203 may be used to receive entered numeric or character information and to generate key signal inputs related to user settings and function control of the device. The output device 204 may include a display device such as a display screen.

Embodiments of the present application also provide a storage medium containing computer executable instructions, which when executed by a computer processor, are for performing a cable theft protection method for monitoring based on vibration data and image data, the method comprising:

acquiring vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time; when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned; and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result.

It should be noted that, in the above embodiment of the cable theft prevention method device for monitoring based on vibration data and image data, each unit and module included are only divided according to functional logic, but not limited to the above division, so long as the corresponding functions can be implemented; in addition, the specific names of the functional units are also only for distinguishing from each other, and are not used to limit the protection scope of the embodiments of the present application.

Note that the above is only a preferred embodiment of the present application and the technical principle applied. It will be understood by those skilled in the art that the embodiments of the present application are not limited to the particular embodiments described herein, but are capable of numerous obvious changes, rearrangements and substitutions without departing from the scope of the embodiments of the present application. Therefore, while the embodiments of the present application have been described in connection with the above embodiments, the embodiments of the present application are not limited to the above embodiments, but may include many other equivalent embodiments without departing from the spirit of the embodiments of the present application, and the scope of the embodiments of the present application is determined by the scope of the appended claims.

Claims (10)

1. The cable anti-theft method for monitoring based on vibration data and image data is applied to a monitoring platform and is characterized by comprising the following steps:

acquiring vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time;

when the condition that the identification condition is met in the vibration data or the image data is detected, aligning the first time stamp with the second time stamp, and acquiring vibration data to be compared and image data to be compared after the time stamp is aligned;

and matching the vibration data to be compared with the image data to be compared, and determining whether to generate a burglar alarm according to a matching result.

2. The method of claim 1, further comprising, prior to said capturing the vibration data with the first time stamp and the image data with the second time stamp uploaded in real time:

when vibration data and image data are acquired through a sensor, corresponding first time stamp and second time stamp are generated and stored in a correlated mode based on the vibration data and the acquisition time of the image data.

3. The cable theft prevention method based on vibration data and image data monitoring according to claim 1, further comprising, before the condition that the identification condition is satisfied is detected in the vibration data or the image data:

vibration identification conditions are set for the vibration data, and image identification conditions are set for the image data.

4. The cable theft prevention method for monitoring based on vibration data and image data according to claim 3, the setting of vibration identification conditions to vibration data comprising:

setting vibration value characteristics meeting vibration identification conditions, and correspondingly, the vibration data meeting the identification conditions comprises: the characteristics of the vibration data meet the set vibration value characteristics;

the setting of the image recognition condition on the image data includes:

setting an image target main body, and correspondingly, the image data meeting the identification conditions comprises: the image recognition result of the image data contains the set image target subject.

5. The method of cable theft protection based on vibration data and image data monitoring according to any one of claims 1 to 4, wherein said performing the alignment of the first and second time stamps comprises:

the time stamps of the same numerical intervals of the first time stamp and the second time stamp are determined as a set of aligned time stamps.

6. The cable theft prevention method based on vibration data and image data monitoring according to any one of claims 1 to 4, wherein said performing matching of the vibration data to be compared and the image data to be compared comprises:

acquiring a preset target vibration curve and a comparison table of a target image main body;

and determining matching results of the vibration data to be compared and the image data to be compared according to the comparison table, wherein the matching results comprise matching establishment and matching failure.

7. The cable theft prevention method based on vibration data and image data for monitoring according to claim 6, wherein the determining whether to generate a theft prevention alarm according to the matching result comprises:

generating an anti-theft alarm under the condition that the matching result is that the matching is established;

if the matching result is that the matching is not established, no burglar alarm is generated.

8. The utility model provides a cable anti-theft system based on vibration data and image data monitor which characterized in that includes:

the acquisition module is configured to acquire vibration data with a first time stamp and image data with a second time stamp, which are uploaded in real time;

the alignment module is configured to align the first timestamp with the second timestamp when the condition that the identification condition is met exists in the vibration data or the image data, and acquire vibration data to be compared and image data to be compared after the timestamps are aligned;

and the matching alarm module is configured to match the vibration data to be compared with the image data to be compared, and determine whether to generate an anti-theft alarm according to a matching result.

9. A cable theft protection device for monitoring based on vibration data and image data, the device comprising: one or more processors; storage means for storing one or more programs which when executed by the one or more processors cause the one or more processors to implement the cable theft protection method of monitoring based on vibration data and image data as claimed in any one of claims 1 to 7.

10. A storage medium storing computer executable instructions which when executed by a computer processor are for performing the cable theft protection method of any one of claims 1-7 based on vibration data and image data.