CN114926093A - Interactive intelligent video analysis and emergency command scheduling method - Google Patents
Interactive intelligent video analysis and emergency command scheduling method Download PDFInfo
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- CN114926093A CN114926093A CN202210691501.3A CN202210691501A CN114926093A CN 114926093 A CN114926093 A CN 114926093A CN 202210691501 A CN202210691501 A CN 202210691501A CN 114926093 A CN114926093 A CN 114926093A
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Abstract
The invention relates to the technical field of emergency scheduling, in particular to an interactive intelligent video analysis and emergency command scheduling method. According to the invention, the central processing unit is used for preprocessing the picture information acquired by the information acquisition unit through the picture preprocessing unit, the preprocessed picture is analyzed by the analysis unit, when the analysis result is in a dangerous condition, personnel are allocated through the regulation and control unit and the wireless module, so that accidents are rapidly solved, and the picture preprocessing unit is used for preprocessing the information, so that the information processing speed is increased.
Description
Technical Field
The invention relates to the technical field of emergency dispatching, in particular to an interactive intelligent video analysis and emergency command dispatching method.
Background
The traditional video monitoring system is used as an important application field in the security industry, generally only records scenes in a monitoring area, recorded video information can be only used for searching afterwards, an emergency system carries out emergency treatment on traffic accidents when the video monitoring system detects the occurrence of the traffic accidents, and the existing emergency system carries out emergency treatment on the traffic accidents, and because more collected information is provided, the emergency system can not carry out rapid treatment on the collected information, the response after the occurrence of the traffic accidents is slower.
Disclosure of Invention
The invention aims to solve the defect that the acquired information cannot be rapidly processed in the prior art, and provides an interactive intelligent video analysis and emergency command scheduling method.
In order to achieve the purpose, the invention adopts the following technical scheme:
an interactive intelligent video analysis and emergency command scheduling method is designed, comprising a central processing unit, an information acquisition unit, a picture preprocessing unit, an analysis unit, a regulation and control unit, a wireless module, an alarm unit and a memory, wherein:
the central processing unit is in signal connection with the information acquisition unit for acquiring information, the central processing unit is in signal connection with the picture preprocessing unit, the central processing unit is in signal connection with the analysis unit for analyzing pictures, the central processing unit is in signal connection with the regulation and control unit, the regulation and control unit is in signal connection with the wireless module, the central processing unit is in signal connection with the alarm unit, the central processing unit is in signal connection with the memory, the central processing unit preprocesses the picture information acquired by the information acquisition unit through the picture preprocessing unit, the preprocessed pictures are analyzed by the analysis unit, and when the analysis result is in a dangerous condition, personnel are allocated through the regulation and control unit and the wireless module, so that accidents are rapidly solved.
Preferably, the information acquisition unit is in signal connection with a GPS module.
Preferably, the information acquisition unit comprises a first processor, a picture interception module, a first database, a time marking module and an information transmission module, wherein the first processor is in signal connection with the picture interception module, the first processor is in signal connection with the first database, the first processor is in signal connection with the time marking module, the first processor is in signal connection with the information transmission module, and the information transmission module is in signal connection with the central processing unit.
Preferably, the alarm unit includes a second processor, a signal recognition module, a second database, a prompt module and a buzzer, the second processor is connected with the central processing unit through signals, the second processor is connected with the signal recognition module through signals, the second processor is connected with the second database through signals, the second processor is connected with the prompt module through signals, and the second processor is connected with the buzzer through signals.
Preferably, the picture preprocessing unit comprises a third processor, an extraction module, a third database, a sorting module and a deletion module, wherein the third processor is in signal connection with the central processing unit, the third processor is in signal connection with the extraction module, the third processor is in signal connection with the third database, the third processor is in signal connection with the sorting module, and the third processor is in signal connection with the deletion module.
Preferably, the analysis unit comprises a fourth processor, an information identification module, a comparison module, a determination module and a grading unit, the fourth processor is in signal connection with the central processing unit, the fourth processor is in signal connection with the information identification module, the fourth processor is in signal connection with the comparison module, the fourth processor is in signal connection with the determination module, and the fourth processor is in signal connection with the grading unit.
Preferably, the grading unit includes a fifth processor, a fourth database, a color module and a grading module, the fifth processor is in signal connection with the fourth processor, the fifth processor is in signal connection with the fourth database, the fifth processor is in signal connection with the color module, and the fifth processor is in signal connection with the grading module.
The interactive intelligent video analysis and emergency command scheduling method provided by the invention has the beneficial effects that:
the image information acquired by the information acquisition unit is preprocessed through the image preprocessing unit by the central processing unit, the preprocessed image is analyzed by the analysis unit, and when the analyzed result is in a dangerous condition, personnel are allocated through the regulation and control unit and the wireless module, so that the accident can be quickly solved, the information is preprocessed through the image preprocessing unit, and the processing speed of the information is accelerated.
Drawings
FIG. 1 is a system diagram of an interactive intelligent video analysis and emergency command scheduling method according to the present invention;
FIG. 2 is a system diagram of an information collection unit in an interactive intelligent video analysis and emergency command scheduling method according to the present invention;
FIG. 3 is a system diagram of an alarm unit in an interactive intelligent video analysis and emergency command scheduling method according to the present invention;
FIG. 4 is a system diagram of a picture preprocessing unit in an interactive intelligent video analysis and emergency command scheduling method according to the present invention;
fig. 5 is a system block diagram of an analysis unit in the interactive intelligent video analysis and emergency command scheduling method according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Example 1
Referring to fig. 1-5, an interactive intelligent video analysis and emergency command scheduling method includes a central processing unit, an information acquisition unit, a picture preprocessing unit, an analysis unit, a regulation and control unit, a wireless module, an alarm unit and a memory, wherein:
the central processing unit is in signal connection with an information acquisition unit for acquiring information, the information acquisition unit is used for acquiring video data, the information acquisition unit is in signal connection with a GPS module, the GPS module is used for positioning the information acquisition unit and facilitating the knowledge of the information source, the central processing unit is in signal connection with a picture preprocessing unit, the picture preprocessing unit preprocesses the acquired picture information, eliminates useless pictures and pictures of irrelevant key information, reduces the information content and facilitates the rapid processing of the information, the central processing unit is in signal connection with an analysis unit for analyzing the pictures, the central processing unit is in signal connection with a regulation and control unit, the regulation and control unit is used for regulating and controlling emergency equipment and personnel, the regulation and control unit is in signal connection with a wireless module, the wireless module is used for contacting emergency personnel, the central processing unit is in signal connection with an alarm unit, when the analysis result is in a dangerous condition, the alarm unit sends an alarm for prompting, the central processing unit is in signal connection with the storage, the storage is used for storing acquired data, the central processing unit preprocesses the picture information acquired by the information acquisition unit through the picture preprocessing unit, the preprocessed picture is analyzed by the analysis unit, and when the analysis result is in a dangerous condition, personnel are allocated through the regulation and control unit and the wireless module, so that accidents are rapidly solved;
the image preprocessing unit comprises a third processor, an extraction module, a third database, a sorting module and a deletion module, wherein the third processor is in signal connection with the central processing unit and the extraction module, the extraction module is used for extracting confidence in the image, the third processor is in signal connection with the third database, the third processor is in signal connection with the sorting module, the sorting module is used for sorting the extracted information and facilitating data sorting, and the third processor is in signal connection with the deletion module which is used for deleting useless information.
The working process comprises the following steps: the central processing unit is used for preprocessing the picture information acquired by the information acquisition unit through the picture preprocessing unit, extracting the confidence in the picture through the extraction module when the picture preprocessing unit works, extracting useful information in the picture, sequencing the extracted information through the sequencing module, sorting the data, deleting useless information through the deletion module, analyzing the sequenced information by the analysis unit, and allocating personnel through the regulation and control unit and the wireless module when the analyzed result is in a dangerous condition, so that accidents are solved quickly.
Example 2
Referring to fig. 1-5, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the information collecting unit includes a first processor, a picture capturing module, a first database, a time stamp module and an information transmission module, the first processor is in signal connection with the picture capturing module, the picture capturing module is used for capturing a video to obtain an information source, the first processor is in signal connection with the first database, the first database is used for storing picture data, the first processor is in signal connection with the time stamp module, the time stamp module is used for stamping the time of the captured content to know the time of an event in the picture content, the first processor is in signal connection with the information transmission module, the information transmission module is in signal connection with the central processing unit, the first processor captures a video through the picture capturing module to obtain an information source, the first database stores the picture data, and then the time of the screenshot content is marked by the time marking module, the time of the event in the picture content is known, and the processed picture is transmitted to the central processing unit by the information transmission module.
Example 3
Referring to fig. 1-5, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the alarm unit includes a second processor, a signal recognition module, a second database, a prompt module and a buzzer, the second processor is in signal connection with the central processing unit, the second processor is in signal connection with the signal recognition module, the second processor is in signal connection with the second database, the second processor is in signal connection with the prompt module, the prompt module is used for sending a pop window prompt, the second processor is in signal connection with the buzzer, the buzzer is used for sending an alarm to prompt an accident, the second processor controls the signal recognition module to recognize the confidence of penetration, and when a danger signal is recognized, the second processor controls the prompt module to send a pop window prompt and simultaneously sends an alarm prompt through the buzzer.
Example 4
Referring to fig. 1-5, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the analyzing unit includes a fourth processor, an information identifying module, a comparing module, a determining module and a grading unit, the fourth processor is connected with the central processing unit via signals, the fourth processor is connected with the information identifying module via signals, the information identifying module identifies the incoming picture information, the fourth processor is connected with the comparing module via signals, the comparing module is used for comparing the picture information with the stored data information, the fourth processor is connected with the determining module via signals, the determining module is used for determining the hazard of the accident, the fourth processor is connected with the grading unit via signals, the information identifying module identifies the incoming picture information, the stored data information is compared via the comparing module after identification, the degree of the accident is determined via the determining module, and after grading is performed via the grading unit, sending the data to a central processing unit;
the grading unit comprises a fifth processor, a fourth database, a color module and a grading module, the fifth processor is in signal connection with the fourth processor, the fifth processor is in signal connection with the fourth database, the fifth processor is in signal connection with the color module, the color module is used for setting different warning colors and distinguishing the different colors according to the grade of the accident, the fifth processor is in signal connection with the grading module, and the grading module is used for grading the accident.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.
Claims (7)
1. An interactive intelligent video analysis and emergency command scheduling method is characterized by comprising a central processing unit, an information acquisition unit, a picture preprocessing unit, an analysis unit, a regulation and control unit, a wireless module, an alarm unit and a memory, wherein:
the central processing unit is in signal connection with the information acquisition unit for acquiring information, the central processing unit is in signal connection with the picture preprocessing unit, the central processing unit is in signal connection with the analysis unit for analyzing pictures, the central processing unit is in signal connection with the regulation and control unit, the regulation and control unit is in signal connection with the wireless module, the central processing unit is in signal connection with the alarm unit, the central processing unit is in signal connection with the memory, the central processing unit preprocesses the picture information acquired by the information acquisition unit through the picture preprocessing unit, the preprocessed pictures are analyzed by the analysis unit, and when the analysis result is in a dangerous condition, personnel are allocated through the regulation and control unit and the wireless module, so that accidents are rapidly solved.
2. The interactive intelligent video analysis and emergency command scheduling method of claim 1, wherein the information acquisition unit is signal connected to a GPS module.
3. The interactive intelligent video analysis and emergency command scheduling method of claim 1, wherein the information acquisition unit comprises a first processor, a picture capture module, a first database, a time stamp module, and an information transmission module, the first processor is in signal connection with the picture capture module, the first processor is in signal connection with the first database, the first processor is in signal connection with the time stamp module, the first processor is in signal connection with the information transmission module, and the information transmission module is in signal connection with the central processor.
4. The interactive intelligent video analysis and emergency command scheduling method of claim 1, wherein the alarm unit comprises a second processor, a signal recognition module, a second database, a prompt module, and a buzzer, the second processor is in signal connection with the central processor, the second processor is in signal connection with the signal recognition module, the second processor is in signal connection with the second database, the second processor is in signal connection with the prompt module, and the second processor is in signal connection with the buzzer.
5. The interactive intelligent video analysis and emergency command scheduling method of claim 1, wherein the picture preprocessing unit comprises a third processor, an extraction module, a third database, a sorting module and a deletion module, the third processor is in signal connection with the central processor, the third processor is in signal connection with the extraction module, the third processor is in signal connection with the third database, the third processor is in signal connection with the sorting module, and the third processor is in signal connection with the deletion module.
6. The interactive intelligent video analysis and emergency command scheduling method of claim 1, wherein the analysis unit comprises a fourth processor, an information recognition module, a comparison module, a determination module and a grading unit, the fourth processor is in signal connection with the central processing unit, the fourth processor is in signal connection with the information recognition module, the fourth processor is in signal connection with the comparison module, the fourth processor is in signal connection with the determination module, and the fourth processor is in signal connection with the grading unit.
7. The interactive intelligent video analytics and emergency command scheduling method of claim 6, wherein the staging unit comprises a fifth processor, a fourth database, a color module, and a staging module, the fifth processor being in signal communication with the fourth processor, the fifth processor being in signal communication with the fourth database, the fifth processor being in signal communication with the color module, the fifth processor being in signal communication with the staging module.
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CN115887998A (en) * | 2022-12-05 | 2023-04-04 | 宁夏泰富能源有限公司 | Fire control system and method for clean production of gasoline |
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CN115887998A (en) * | 2022-12-05 | 2023-04-04 | 宁夏泰富能源有限公司 | Fire control system and method for clean production of gasoline |
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