CN111554076A - Decentralized internet of things alarm information processing method and system - Google Patents

Abstract

The invention discloses a decentralized internet of things alarm information processing method and system, wherein the method comprises the following steps: identifying the collected video to obtain a video identification result; comparing the obtained video identification result with an alarm triggering condition preset in a database; if the obtained video identification result is in accordance with the preset alarm triggering condition in the database, the alarm is triggered, and relevant measures for alarming are automatically implemented. According to the decentralized Internet of things alarm information processing method and system, the alarm is automatically triggered through the acquired video identification result, the alarm time is saved, and the workload of the alarm receiver is reduced; the case handling efficiency is improved, and the case detection rate is improved.

Description

Decentralized internet of things alarm information processing method and system

Technical Field

The invention relates to the technical field of information, and particularly discloses a decentralized internet of things alarm information processing method and system.

Background

At present, after discovering a security event or a security risk, citizens mainly alarm to the outside in a telephone alarm, short message or WeChat notification mode. For example, the telephone alert scheme is: the user places an alarm call, for example, dials 110 the alarm call, and verbally describes where he is and what danger he is at.

However, the existing alarm method has the following problems: the existing alarm mode is a centralized alarm platform, namely a centralized information processing mode, so that information needs to be processed in a centralized manner, the efficiency is low, and emergency alarm information can not be processed in time.

Therefore, the above-mentioned defects existing in the existing alarm mode are a technical problem to be solved urgently.

Disclosure of Invention

The invention provides a decentralized internet of things alarm information processing method and system, and aims to solve the technical problem of the defects in the existing alarm mode.

The invention relates to a decentralized internet of things alarm information processing method, which comprises the following steps:

identifying the collected video to obtain a video identification result;

comparing the obtained video identification result with an alarm triggering condition preset in a database;

if the obtained video identification result is in accordance with the preset alarm triggering condition in the database, the alarm is triggered, and relevant measures for alarming are automatically implemented.

Further, the step of automatically implementing alarm related measures includes:

collecting alarm information:

automatically generating a processing scheme according to the collected alarm information;

an automatically generated processing scheme is executed.

Further, the step of executing the automatically generated processing recipe includes:

judging whether the generated processing scheme is feasible or not;

and if the processing scheme is feasible, executing the processing scheme according to a preset plan.

Further, the step of executing the treatment plan according to the predetermined plan includes:

carrying out process monitoring and effect evaluation on the execution process of the processing scheme;

and if the effect evaluation is identified not to meet the standard, manual processing is carried out.

Further, the step of determining whether the generated processing scheme is feasible further includes:

and if the processing scheme is not feasible, switching to manual processing.

Another aspect of the invention relates to a decentralized internet of things alarm information processing system, comprising;

the video identification module is used for identifying the acquired video and acquiring a video identification result;

the comparison module is used for comparing the acquired video identification result with an alarm triggering condition preset in a database;

and the alarm implementation module is used for triggering alarm and automatically implementing relevant measures for alarm if the acquired video identification result conforms to the preset alarm triggering condition in the database.

Further, the alarm implementation module comprises:

the collection unit is used for collecting alarm information:

the generating unit is used for automatically generating a processing scheme according to the collected alarm information;

and the execution unit is used for executing the automatically generated processing scheme.

Further, the execution unit includes:

a judging subunit, configured to judge whether the generated processing scheme is feasible;

and the first processing subunit is used for executing the processing scheme according to a preset plan if the processing scheme is feasible.

Further, the first processing subunit includes:

and the evaluation subunit is used for carrying out process monitoring and effect evaluation on the execution process of the processing scheme:

and the alarm processing subunit is used for switching to manual processing if the effect evaluation is identified not to meet the standard.

Further, the execution unit includes:

and the second processing subunit is used for switching to manual processing if the processing scheme is determined to be not feasible.

The beneficial effects obtained by the invention are as follows:

according to the decentralized internet of things alarm information processing method and system, the video identification result is obtained by identifying the acquired video; comparing the obtained video identification result with an alarm triggering condition preset in a database; if the obtained video identification result is in accordance with the preset alarm triggering condition in the database, the alarm is triggered, and relevant measures for alarming are automatically implemented. According to the decentralized Internet of things alarm information processing method and system, the alarm is automatically triggered through the acquired video identification result, the alarm time is saved, and the workload of the alarm receiver is reduced; the case handling efficiency is improved, and the case detection rate is improved.

Drawings

Fig. 1 is a flowchart of a first embodiment of a decentralized internet of things alarm information processing method according to the present invention;

FIG. 2 is a schematic flow chart illustrating a detailed embodiment of the step of automatically implementing alarm-related measures shown in FIG. 1;

FIG. 3 is a detailed flow diagram of a first embodiment of the steps of the process of performing automatic generation of the process scheme shown in FIG. 2;

FIG. 4 is a schematic flow diagram illustrating a refinement of one embodiment of the steps of performing a treatment protocol according to a predetermined schedule shown in FIG. 3;

FIG. 5 is a detailed flow diagram of a second embodiment of the steps of the process of performing automatic generation shown in FIG. 2;

fig. 6 is a functional block diagram of a decentralized internet of things alarm information processing system according to a first embodiment of the present invention;

FIG. 7 is a functional block diagram of one embodiment of the alarm implementation module shown in FIG. 6;

FIG. 8 is a functional block diagram of a first embodiment of the execution unit shown in FIG. 7;

FIG. 9 is a functional block diagram of one embodiment of the first processing subunit shown in FIG. 8;

fig. 10 is a functional block diagram of a second embodiment of the execution unit shown in fig. 7.

The reference numbers illustrate:

10. a video identification module; 20. a comparison module; 30. an alarm implementation module; 31. a collection unit; 32. a generating unit; 33. an execution unit; 331. a judgment subunit; 332. a first processing subunit; 3321. an evaluation subunit; 3322. a processing subunit; 333. and an execution unit.

Detailed Description

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

As shown in fig. 1, a first embodiment of the present invention provides a decentralized internet of things alarm information processing method, including the following steps:

and S100, identifying the collected video and acquiring a video identification result.

The automatic alarm equipment collects videos, identifies the collected videos and obtains video identification results. In this embodiment, the automatic alarm device is a video monitoring device.

And S200, comparing the acquired video identification result with an alarm triggering condition preset in a database.

And the automatic alarm equipment compares the acquired video identification result with an alarm triggering condition preset in a database, and judges whether the result is consistent or not. For example, comparing the obtained video identification result with an alarm triggering condition preset in a database, wherein video identification result information corresponding to the alarm triggering condition is stored in the preset database; and when the video identification result acquired by the automatic alarm equipment meets the preset alarm triggering condition, triggering automatic alarm. For example, the automatic alarm device triggers an automatic alarm if it recognizes that there is a significant area change in the geological formation surrounding the railroad and that some of the rails are not visible.

And step S300, if the obtained video identification result is consistent with the preset alarm triggering condition in the database, triggering an alarm, and automatically implementing relevant measures of the alarm.

If the automatic alarm equipment recognizes that the acquired video recognition result is in accordance with the preset alarm triggering condition in the database, the automatic alarm equipment triggers an alarm and automatically implements related measures of the alarm, such as automatically collecting alarm information, automatically processing the alarm information, automatically generating a scheme after processing, automatically executing the scheme, and performing process monitoring and effect evaluation.

Compared with the prior art, the decentralization internet of things alarm information processing method provided by the embodiment is characterized in that a video identification result is obtained by identifying the acquired video; comparing the obtained video identification result with an alarm triggering condition preset in a database; if the obtained video identification result is in accordance with the preset alarm triggering condition in the database, the alarm is triggered, and relevant measures for alarming are automatically implemented. According to the method for processing the alarm information of the internet of things without centralization, the alarm is automatically triggered through the acquired video identification result, the alarm time and the alarm receiving time are saved, and the workload of an alarm receiving party is reduced; the case handling efficiency is improved, and the case detection rate is improved.

Further, please refer to fig. 2, fig. 2 is a detailed flowchart of an embodiment of the step of automatically implementing the measure related to the alarm shown in fig. 1, in this embodiment, the step S300 includes:

and S310, collecting alarm information.

The automatic alarm equipment collects alarm information, and the alarm information comprises identity number information, position information, and sound and image information acquired on site.

And step S320, automatically generating a processing scheme according to the collected alarm information.

The automatic alarm equipment automatically generates a processing scheme according to the collected alarm information, and the generated processing scheme is as follows:

a. based on the communication mode of the Internet of things, alarm information is broadcasted to the Internet of things equipment with an information receiving function nearby, the alarm information comprises identity number information, position information, and sound and image information acquired on site of the automatic alarm equipment, and the alarm information is required to be sequentially transmitted after the Internet of things equipment in a certain range receives the alarm information.

b. Based on the current geographic position, broadcasting distress information including identity number information and position information of automatic alarm equipment, and sound and image information acquired on site to nearby persons (maintenance personnel, rescue personnel, railway management personnel and the like) with authority;

c. and sending alarm information including identity number information, position information, and sound and image information of field acquisition to a remote control center.

And step S330, executing the automatically generated processing scheme.

The automatic alarm equipment executes the automatically generated processing scheme, automatically monitors the execution result and effect of each step in the process of executing the scheme, and evaluates the final automatic processing effect.

Compared with the prior art, the decentralization internet of things alarm information processing method provided by the embodiment is characterized in that alarm information is collected; automatically generating a processing scheme according to the collected alarm information; an automatically generated processing scheme is executed. According to the method for processing the alarm information of the internet of things without centralization, the alarm is automatically triggered through the acquired video identification result, the alarm time and the alarm receiving time are saved, and the workload of an alarm receiving party is reduced; the case handling efficiency is improved, and the case detection rate is improved.

Preferably, referring to fig. 3, fig. 3 is a schematic detailed flow diagram of the first embodiment of step S330 in fig. 2, in this embodiment, step S330 includes:

and step S331, judging whether the generated processing scheme is feasible.

For the generated processing scheme, the automatic alarm device judges whether the processing scheme can be executed or not, namely judges whether each step in the scheme has the execution condition or not and whether the expected effect can be achieved or not.

Step S332, if the processing scheme is confirmed to be feasible, the processing scheme is executed according to a preset plan.

If the automatic alarm equipment confirms that the judgment result is executable, automatically executing the scheme; otherwise, ending the automatic processing and switching to manual processing.

According to the decentralized internet of things alarm information processing method provided by the embodiment, whether the generated processing scheme is feasible or not is judged; and if the processing scheme is feasible, executing the processing scheme according to a preset plan. According to the method for processing the alarm information of the internet of things without centralization, the alarm is automatically triggered through the acquired video identification result, the alarm time and the alarm receiving time are saved, and the workload of an alarm receiving party is reduced; the case handling efficiency is improved, and the case detection rate is improved.

Further, please refer to fig. 4, fig. 4 is a schematic view illustrating a detailed flow of an embodiment of step S332 shown in fig. 3, in this embodiment, step S332 includes:

and step S3321, carrying out process monitoring and effect evaluation on the execution process of the processing scheme.

The automatic alarm device monitors the execution process in the process of executing the processing scheme, and acquires and evaluates the execution result: continuously positioning the position of the suspicious mobile terminal number, wherein the data is normal; continuously positioning the position of the number of the automatic alarm equipment, wherein the data is normal; contacting two traffic polices near the position of the automatic alarm device, sending the alarm information and the assistance request, and waiting for the time when the information is not replied; planning to share position information of a suspect to two traffic police, collecting and sending a mobile terminal number, a license plate number, identity card information, photo information and the like of the suspect, and waiting for execution; and continuously positioning the position information of the two traffic polices, wherein the data is normal.

And step S3322, if the effect evaluation is identified not to reach the standard, switching to manual processing.

If the automatic alarm device recognizes that the effect evaluation does not reach the standard, the automatic alarm device switches to manual processing, for example, for a preset maximum waiting time, for example, 10 minutes, and if the processing scheme is not executed completely or the execution does not obtain an expected result within the maximum waiting time, the automatic alarm device abandons to continue waiting and switches to manual processing. And the alarm platform records the process after receiving the alarm information for query. The record information includes the occurrence time of each step, the operator, the operation content, the operation result, and the like.

According to the alarm information processing method provided by the embodiment, process monitoring and effect evaluation are performed on the execution process of the processing scheme; and if the effect evaluation is identified to be not up to the standard, manual processing is carried out. According to the alarm information processing method provided by the embodiment, the alarm is automatically triggered through the acquired video identification result, so that the alarm time and the alarm receiving time are saved, and the workload of an alarm receiving party is reduced; the case handling efficiency is improved, and the case detection rate is improved.

Further, please refer to fig. 5, fig. 5 is a detailed flowchart of a second embodiment of step S330 in fig. 2, and on the basis of the first embodiment, the step S331 further includes:

and step S333, if the processing scheme is determined to be not feasible, switching to manual processing.

The automatic alarm device judges whether the generated processing scheme is executable, namely judges whether each step in the processing scheme has execution conditions and can obtain expected effects. If the judgment result is executable, automatically executing the scheme; otherwise, ending the automatic processing and switching to manual processing. And the alarm platform automatically monitors the execution result and effect of each step in the process of executing the processing scheme and evaluates the final automatic processing effect. And if the effect evaluation is not expected, manual treatment is carried out.

According to the method for processing the decentralized internet of things alarm information, the alarm information sent by the alarm terminal is received; carrying out information processing on the received alarm information to generate a processing scheme for solving the alarm problem related in the alarm information; judging whether the generated processing scheme is feasible or not; and if the processing scheme is not feasible, switching to manual processing. According to the method for processing the alarm information of the internet of things without centralization, the alarm is automatically triggered through the acquired video identification result, the alarm time and the alarm receiving time are saved, and the workload of an alarm receiving party is reduced; the case handling efficiency is improved, and the case detection rate is improved.

The following is a specific embodiment of the decentralized internet of things alarm information processing method provided by the invention:

in this embodiment, the automatic alarm device is a video monitoring device, and particularly, a video monitoring device for monitoring a railway road condition, and the automatic alarm device includes a video recognition module, a comparison module, and an alarm implementation module, wherein the video collection module is configured to collect a video, identify the collected video, and obtain a video identification result; the comparison module is used for comparing the video identification result obtained by the video acquisition module with the automatic alarm triggering condition stored in the database in the comparison module; and the alarm implementation module is used for starting automatic alarm and automatically implementing relevant measures for alarm if the identification video identification result is in accordance with the preset automatic alarm triggering condition.

In this embodiment, the alarm triggering condition is preset as follows: the image variation range around the railway exceeds a preset value and the rail image is discontinuous. Namely, the geological form around the railway has a remarkable area change, and partial rails are invisible, an automatic alarm is triggered, and relevant measures for implementing the automatic alarm are started.

Collecting alarm information: in this embodiment, the alarm information includes the identity number information, the position information, and the sound and image information collected on site of the automatic alarm device.

After the information is collected, a scheme is automatically generated according to the information. In this example, the resulting implementation is as follows:

a. based on the communication mode of the Internet of things, the alarm information is broadcasted to the Internet of things equipment with an information receiving function nearby, the alarm information comprises identity number information, position information and sound and image information acquired on site of the automatic alarm equipment, and the alarm information is required to be continuously transmitted after the Internet of things equipment in a certain range receives the alarm information.

b. Based on the current geographic position, the distress information is broadcasted to nearby persons (maintenance personnel, rescue personnel, railway management personnel and the like) with authority, wherein the distress information comprises identity number information, position information, and on-site collected sound and image information of the automatic alarm equipment.

c. And sending alarm information including identity number information, position information, and sound and image information of field acquisition to a remote control center.

During the execution of the program, the execution result and effect of each step are automatically monitored, and the final automatic processing effect is evaluated. And if the effect evaluation is not expected, manual treatment is carried out.

As shown in fig. 6, another aspect of the present invention relates to a decentralized internet of things alarm information processing system, which includes a video identification module 10, a comparison module 20 and an alarm implementation module 30, wherein the video identification module 10 is configured to identify a captured video and obtain a video identification result; the comparison module 20 is used for comparing the acquired video identification result with an alarm triggering condition preset in a database; and the alarm implementation module 30 is used for triggering an alarm and automatically implementing relevant measures for alarming if the acquired video identification result conforms to the preset alarm triggering condition in the database.

The video identification module 10 collects a video, identifies the collected video, and obtains a video identification result. In this embodiment, the automatic alarm device is a video monitoring device.

The comparison module 20 compares the obtained video recognition result with the preset alarm triggering condition in the database, and judges whether the result is consistent. For example, comparing the obtained video identification result with an alarm triggering condition preset in a database, wherein video identification result information corresponding to the alarm triggering condition is stored in the preset database; and when the video identification result acquired by the automatic alarm equipment meets the preset alarm triggering condition, triggering automatic alarm. For example, the automatic alarm device triggers an automatic alarm if it recognizes that there is a significant area change in the geological formation surrounding the railroad and that some of the rails are not visible.

If the alarm implementation module 30 recognizes that the obtained video recognition result matches the preset alarm triggering condition in the database, it triggers an alarm and automatically implements the relevant measures of the alarm, such as automatically collecting the alarm information, automatically processing the information of the alarm information, automatically generating a scheme after processing, automatically executing the scheme, and performing process monitoring and effect evaluation.

Compared with the prior art, the decentralization internet of things alarm information processing system provided by the embodiment acquires a video identification result by identifying the acquired video; comparing the obtained video identification result with an alarm triggering condition preset in a database; if the obtained video identification result is in accordance with the preset alarm triggering condition in the database, the alarm is triggered, and relevant measures for alarming are automatically implemented. The internet of things alarm information processing system without centralization provided by the embodiment automatically triggers an alarm through the acquired video identification result, saves alarm and alarm receiving time, and reduces workload of an alarm receiving party; the case handling efficiency is improved, and the case detection rate is improved.

Further, please refer to fig. 7, fig. 7 is a functional module schematic diagram of an embodiment of the alarm implementing module shown in fig. 6, in this embodiment, the alarm implementing module 30 includes a collecting unit 31, a generating unit 32, and an executing unit 33, where the collecting unit 31 is configured to collect alarm information: a generating unit 32, configured to automatically generate a processing scheme according to the collected alarm information; an execution unit 33 for executing the automatically generated processing scheme.

The collecting unit 31 collects alarm information including identity number information, position information, sound and image information collected on site.

The generation unit 32 automatically generates a processing scheme according to the collected alarm information, and the generated processing scheme is as follows:

a. based on the communication mode of the Internet of things, alarm information is broadcasted to the Internet of things equipment with an information receiving function nearby, the alarm information comprises identity number information, position information, and sound and image information acquired on site of the automatic alarm equipment, and the alarm information is required to be sequentially transmitted after the Internet of things equipment in a certain range receives the alarm information.

b. Based on the current geographic position, broadcasting distress information including identity number information and position information of automatic alarm equipment, and sound and image information acquired on site to nearby persons (maintenance personnel, rescue personnel, railway management personnel and the like) with authority;

c. and sending alarm information including identity number information, position information, and sound and image information of field acquisition to a remote control center.

The execution unit 33 executes the automatically generated processing recipe, automatically monitors the execution result and effect of each step during the execution of the recipe, and evaluates the final automatic processing effect.

Compared with the prior art, the decentralization internet of things alarm information processing system provided by the embodiment has the advantages that alarm information is collected; automatically generating a processing scheme according to the collected alarm information; an automatically generated processing scheme is executed. The internet of things alarm information processing system without centralization provided by the embodiment automatically triggers an alarm through the acquired video identification result, saves alarm and alarm receiving time, and reduces workload of an alarm receiving party; the case handling efficiency is improved, and the case detection rate is improved.

Preferably, referring to fig. 8, fig. 8 is a functional block diagram of a first embodiment of the execution unit shown in fig. 7, in this embodiment, the execution unit 33 includes a judgment subunit 331 and a first processing subunit 332, where the judgment subunit 331 is configured to judge whether the generated processing scheme is feasible; a first processing subunit 332, configured to execute the processing scheme according to a predetermined schedule if the processing scheme is determined to be feasible.

For the generated processing recipe, the judgment sub-unit 331 judges whether or not execution is possible, that is, whether or not each step in the recipe has a condition for execution and whether or not a desired effect can be obtained.

If the first processing subunit 332 confirms that the judgment result is executable, the scheme is automatically executed; otherwise, ending the automatic processing and switching to manual processing.

According to the decentralized internet of things alarm information processing system provided by the embodiment, whether the generated processing scheme is feasible or not is judged; and if the processing scheme is feasible, executing the processing scheme according to a preset plan. The internet of things alarm information processing system without centralization provided by the embodiment automatically triggers an alarm through the acquired video identification result, saves alarm and alarm receiving time, and reduces workload of an alarm receiving party; the case handling efficiency is improved, and the case detection rate is improved.

Further, referring to fig. 9, fig. 9 is a functional module schematic diagram of an embodiment of the first processing subunit shown in fig. 8, in this embodiment, the first processing subunit 332 includes an evaluation subunit 3321 and an alarm processing subunit 3322, where the evaluation subunit 3321 is configured to perform process monitoring and effect evaluation on an execution process of the processing scheme; and the alarm processing subunit 3322 is configured to, if it is identified that the effect evaluation does not meet the standard, perform manual processing.

The evaluation subunit 3321, during executing the processing scheme, monitors the execution process, and collects and evaluates the execution results: continuously positioning the position of the suspicious mobile terminal number, wherein the data is normal; continuously positioning the position of the number of the automatic alarm equipment, wherein the data is normal; contacting two traffic polices near the position of the automatic alarm device, sending the alarm information and the assistance request, and waiting for the time when the information is not replied; planning to share position information of a suspect to two traffic police, collecting and sending a mobile terminal number, a license plate number, identity card information, photo information and the like of the suspect, and waiting for execution; and continuously positioning the position information of the two traffic polices, wherein the data is normal.

If the alarm processing subunit 3322 recognizes that the effect evaluation does not reach the standard, it switches to manual processing, for example, for a preset maximum waiting time, for example, 10 minutes, and if the processing scheme is not executed completely or the execution does not obtain the expected result within the maximum waiting time, it abandons to continue waiting and switches to manual processing. And the alarm platform records the process after receiving the alarm information for query. The record information includes the occurrence time of each step, the operator, the operation content, the operation result, and the like.

The decentralized internet of things alarm information processing system provided by the embodiment performs process monitoring and effect evaluation on the execution process of the processing scheme; and if the effect evaluation is identified to be not up to the standard, manual processing is carried out. The internet of things alarm information processing system without centralization provided by the embodiment automatically triggers an alarm through the acquired video identification result, saves alarm and alarm receiving time, and reduces workload of an alarm receiving party; the case handling efficiency is improved, and the case detection rate is improved.

Preferably, referring to fig. 10, fig. 10 is a functional module schematic diagram of a second embodiment of the execution unit shown in fig. 7, on the basis of the first embodiment, in the automatic alarm device provided in this embodiment, the execution unit 33 includes a second processing subunit 333, and the second processing subunit 333 is configured to perform manual processing if it is determined that the processing scheme is not feasible.

The second processing subunit 333 determines, for the generated processing recipe, whether or not execution is possible, that is, whether or not each step in the processing recipe has a condition for execution and whether or not a desired effect can be obtained. If the judgment result is executable, automatically executing the scheme; otherwise, ending the automatic processing and switching to manual processing. And the alarm platform automatically monitors the execution result and effect of each step in the process of executing the processing scheme and evaluates the final automatic processing effect. And if the effect evaluation is not expected, manual treatment is carried out.

The internet of things alarm information processing system with the decentralized function provided by the embodiment receives alarm information sent by an alarm terminal; carrying out information processing on the received alarm information to generate a processing scheme for solving the alarm problem related in the alarm information; judging whether the generated processing scheme is feasible or not; and if the processing scheme is not feasible, switching to manual processing. The internet of things alarm information processing system without centralization provided by the embodiment automatically triggers an alarm through the acquired video identification result, saves alarm and alarm receiving time, and reduces workload of an alarm receiving party; the case handling efficiency is improved, and the case detection rate is improved.

The following is a specific embodiment of the automatic alarm device provided by the present invention:

in this embodiment, the automatic alarm device is a video monitoring device, and particularly, a video monitoring device for monitoring a railway road condition, and the automatic alarm device includes a video recognition module, a comparison module, and an alarm implementation module, wherein the video collection module is configured to collect a video, identify the collected video, and obtain a video identification result; the comparison module is used for comparing the video identification result obtained by the video acquisition module with the automatic alarm triggering condition stored in the database in the comparison module; and the alarm implementation module is used for starting automatic alarm and automatically implementing relevant measures for alarm if the identification video identification result is in accordance with the preset automatic alarm triggering condition.

In this embodiment, the alarm triggering condition is preset as follows: the image variation range around the railway exceeds a preset value and the rail image is discontinuous. Namely, the geological form around the railway has a remarkable area change, and partial rails are invisible, an automatic alarm is triggered, and relevant measures for implementing the automatic alarm are started.

Collecting alarm information: in this embodiment, the alarm information includes the identity number information, the position information, and the sound and image information collected on site of the automatic alarm device.

After the information is collected, a scheme is automatically generated according to the information. In this example, the resulting implementation is as follows:

a. based on the communication mode of the Internet of things, the alarm information is broadcasted to the Internet of things equipment with an information receiving function nearby, the alarm information comprises identity number information, position information and sound and image information acquired on site of the automatic alarm equipment, and the alarm information is required to be continuously transmitted after the Internet of things equipment in a certain range receives the alarm information.

b. Based on the current geographic position, the distress information is broadcasted to nearby persons (maintenance personnel, rescue personnel, railway management personnel and the like) with authority, wherein the distress information comprises identity number information, position information, and on-site collected sound and image information of the automatic alarm equipment.

c. And sending alarm information including identity number information, position information, and sound and image information of field acquisition to a remote control center.

During the execution of the program, the execution result and effect of each step are automatically monitored, and the final automatic processing effect is evaluated. And if the effect evaluation is not expected, manual treatment is carried out.

The invention further discloses automatic alarm equipment which comprises the decentralized internet of things alarm information processing system, and details are not repeated herein.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention. It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A decentralized internet of things alarm information processing method is characterized by comprising the following steps:

identifying the collected video to obtain a video identification result;

comparing the obtained video identification result with an alarm triggering condition preset in a database;

and if the obtained video identification result is in accordance with the preset alarm triggering condition in the database, triggering an alarm and automatically implementing relevant measures for alarming.

2. The decentralized internet of things alarm information processing method according to claim 1,

the step of automatically implementing alarm related measures comprises:

collecting alarm information:

automatically generating a processing scheme according to the collected alarm information;

executing the automatically generated processing scheme.

3. The decentralized internet of things alarm information processing method according to claim 2,

the step of executing the automatically generated processing recipe includes:

judging whether the generated processing scheme is feasible or not;

and if the processing scheme is feasible, executing the processing scheme according to a preset plan.

4. The decentralized internet of things alarm information processing method according to claim 3,

the step of executing the treatment plan according to a predetermined plan comprises:

carrying out process monitoring and effect evaluation on the execution process of the processing scheme;

and if the effect evaluation is identified not to meet the standard, manual processing is carried out.

5. The decentralized internet of things alarm information processing method according to claim 3,

the step of judging whether the generated processing scheme is feasible further comprises the following steps:

and if the processing scheme is determined to be not feasible, switching to manual processing.

6. A decentralized internet of things alarm information processing system is characterized by comprising a central processing unit;

the video identification module (10) is used for identifying the acquired video and acquiring a video identification result;

the comparison module (20) is used for comparing the obtained video identification result with an alarm triggering condition preset in a database;

and the alarm implementation module (30) is used for triggering an alarm and automatically implementing relevant measures for alarming if the obtained video identification result conforms to the preset alarm triggering condition in the database.

7. The decentralized internet of things alarm information processing system of claim 6,

the alarm implementation module (30) comprises:

a collection unit (31) for collecting alarm information:

a generating unit (32) for automatically generating a processing scheme according to the collected alarm information;

an execution unit (33) for executing the automatically generated processing scenario.

8. The decentralized internet of things alarm information processing system of claim 7,

the execution unit (33) comprises:

a judging subunit (331) configured to judge whether the generated processing scheme is feasible;

a first processing subunit (332) for executing the processing scheme according to a predetermined plan if it is confirmed that the processing scheme is feasible.

9. The decentralized internet of things alarm information processing system of claim 8,

the first processing subunit (332) comprises:

an evaluation subunit (3321) configured to perform process monitoring and effect evaluation on the execution of the processing scheme;

an alarm processing subunit (3322) for performing manual processing if it is identified that the effect evaluation does not meet the standard.

10. The decentralized internet of things alarm information processing system of claim 7,

the execution unit (33) comprises:

and the second processing subunit (333) is used for switching to manual processing if the processing scheme is determined to be not feasible.

Images