CN114842626A - Intelligent AI alarm system and method - Google Patents

Abstract

The invention relates to the technical field of intelligent identification alarm, and discloses an intelligent AI alarm system and a method, wherein the system comprises: the acquisition unit is used for acquiring a first electric quantity value of the vehicle-mounted storage battery and acquiring a second electric quantity value of the vehicle-mounted storage battery within preset time; the processing unit is used for receiving the first electric quantity value and the second electric quantity value and acquiring a first difference value of the first electric quantity value and the second electric quantity value; the control unit is used for calling the historical data corresponding to the first difference value in the storage unit, calculating a second difference value between the first difference value and the historical data, and judging whether alarm information is generated or not according to the second difference value and a threshold value; and the alarm unit is used for receiving the alarm information generated by the control unit and taking an alarm action. In this application, can detect effectively whether on-vehicle battery is in abnormal condition, and then in time overhaul the change to the battery. Further, when a user uses the vehicle, the storage battery is in a safe state, and potential safety hazards are reduced.

Description

Intelligent AI alarm system and method

Technical Field

The invention relates to the technical field of intelligent identification alarm, in particular to an intelligent AI alarm system and method.

Background

At present, with the continuous improvement of living standard of people, the number of automobiles owned by users is gradually increased, and devices on the vehicles are also diversified, wherein a storage battery is an important accessory in the vehicles. However, when the automobile is not used for a long time, the storage battery can continuously discharge by itself, when the storage battery is in a power-shortage state for a long time, certain damage can be caused to the storage battery, and when a user uses the storage battery again, certain potential safety hazard can be caused.

In the prior art, by detecting the voltage of the storage battery and comparing the detected voltage with a preset voltage threshold, when the detected voltage of the storage battery is smaller than the voltage threshold, a user is informed to charge the storage battery. In the prior art, attention is focused on charging the electric quantity of a storage battery in time, and a technical scheme for detecting whether the storage battery has problems is not provided.

Therefore, how to provide an intelligent AI alarm system capable of effectively detecting whether the storage battery is damaged is a technical problem to be solved at present.

Disclosure of Invention

The embodiment of the invention provides an intelligent AI alarm system and method, which are used for solving the technical problem that potential safety hazards exist in the process of using an automobile by a user due to the fact that a vehicle-mounted storage battery is damaged and cannot be replaced and maintained in time in the prior art.

In some embodiments of the present application, the processing unit performs encapsulation processing on the first difference value, and generates an electronic tag for the encapsulated first difference value; and sending the first difference value to the storage unit for storage. In the application, the first difference value is obtained through calculation, the exclusive electronic tag is generated for the first difference value in the processing unit and is stored in the storage unit, the first difference value can be stored and distinguished conveniently, and calling and processing of the first difference value are facilitated greatly.

In some embodiments of the present application, the processing unit assigns a unique identification code to the first difference value, and sends the first difference value carrying the unique identification code to the control unit. The control unit receives the first difference value carrying the unique identification code, analyzes the storage unit according to the first difference value carrying the unique identification code, and acquires the electronic tag corresponding to the unique identification code; the control unit calls the historical data corresponding to the electronic tag. In the application, the control unit can call the electronic tag corresponding to the identification code in the storage unit through the unique identification code, the historical data corresponding to the first difference value can be accurately acquired through the electronic tag, errors of data can be avoided when comparison and judgment are conducted through the electronic tag and the identification code, and intelligent processing is achieved.

In some embodiments of the application, when judging whether to generate the alarm information according to the second difference and the threshold, if the second difference is smaller than or equal to the threshold, the vehicle-mounted storage battery is in a normal state, and the alarm information is not generated; and if the second difference is larger than the threshold value, the vehicle-mounted storage battery is in an abnormal state, alarm information is generated, and the alarm information is sent to the alarm unit. In the application, whether the vehicle-mounted storage battery is abnormal or not can be accurately identified through the relation between the acquired second difference value and the threshold value, and the abnormal storage battery is given a timely alarm, so that the abnormal storage battery is greatly convenient to overhaul and replace, and the problem that potential safety hazards exist in the process of using a vehicle by a user is avoided.

In order to achieve the above object, the present invention provides an intelligent AI alarm system, the system including:

the acquisition unit is used for acquiring a first electric quantity value of the vehicle-mounted storage battery and acquiring a second electric quantity value of the vehicle-mounted storage battery within preset time;

the processing unit is used for receiving the first electric quantity value and the second electric quantity value and acquiring a first difference value of the first electric quantity value and the second electric quantity value;

the control unit is used for calling the historical data corresponding to the first difference value in the storage unit, calculating a second difference value between the first difference value and the historical data, and judging whether to generate alarm information or not according to the second difference value and a threshold value;

and the alarm unit is used for receiving the alarm information generated by the control unit and taking an alarm action.

In some embodiments of the present application, in the processing unit, after obtaining the first difference value between the first electric quantity value and the second electric quantity value, the method further includes:

the processing unit packages the first difference value and generates an electronic tag for the packaged first difference value;

and sending the first difference value to the storage unit for storage.

In some embodiments of the present application, further comprising:

and the processing unit endows the first difference with a unique identification code and sends the first difference carrying the unique identification code to the control unit.

In some embodiments of the present application, when the control unit calls the history data corresponding to the first difference in the storage unit, specifically:

the control unit receives the first difference value carrying the unique identification code, analyzes the storage unit according to the first difference value carrying the unique identification code, and acquires the electronic tag corresponding to the unique identification code;

the control unit calls the historical data corresponding to the electronic tag.

In some embodiments of the present application, in the control unit, when determining whether to generate the alarm information according to the second difference and the threshold, specifically, the determining is that:

if the second difference is smaller than or equal to the threshold, the vehicle-mounted storage battery is in a normal state, and no alarm information is generated;

and if the second difference is larger than the threshold value, the vehicle-mounted storage battery is in an abnormal state, alarm information is generated, and the alarm information is sent to the alarm unit.

The invention provides an intelligent AI alarm method, which comprises the following steps:

collecting a first electric quantity value of a vehicle-mounted storage battery, and collecting a second electric quantity value of the vehicle-mounted storage battery within preset time;

receiving the first electric quantity value and the second electric quantity value, and acquiring a first difference value of the first electric quantity value and the second electric quantity value;

calling historical data corresponding to the first difference value in a storage unit, calculating a second difference value between the first difference value and the historical data, and judging whether alarm information is generated or not according to the second difference value and a threshold value;

and receiving the alarm information generated by the control unit and taking an alarm action.

In some embodiments of the present application, after obtaining the first difference value between the first electric quantity value and the second electric quantity value, the method further includes:

packaging the first difference value, and generating an electronic tag for the packaged first difference value;

and sending the first difference value to the storage unit for storage.

In some embodiments of the present application, when the historical data corresponding to the first difference in the storage unit is called, specifically:

receiving the first difference value carrying the unique identification code, analyzing the storage unit according to the first difference value carrying the unique identification code, and acquiring the electronic tag corresponding to the unique identification code;

and calling historical data corresponding to the electronic tag.

In some embodiments of the present application, when determining whether to generate the alarm information according to the second difference and the threshold, specifically:

if the second difference is smaller than or equal to the threshold, the vehicle-mounted storage battery is in a normal state, and no alarm information is generated;

and if the second difference is larger than the threshold value, the vehicle-mounted storage battery is in an abnormal state, alarm information is generated, and the alarm information is sent to an alarm unit.

Compared with the prior art, the invention provides an intelligent AI alarm system and method, which have the following beneficial effects:

an intelligent AI alarm system and method, the system comprising: the acquisition unit is used for acquiring a first electric quantity value of the vehicle-mounted storage battery and acquiring a second electric quantity value of the vehicle-mounted storage battery within preset time; the processing unit is used for receiving the first electric quantity value and the second electric quantity value and acquiring a first difference value of the first electric quantity value and the second electric quantity value; the control unit is used for calling the historical data corresponding to the first difference value in the storage unit, calculating a second difference value between the first difference value and the historical data, and judging whether alarm information is generated or not according to the second difference value and a threshold value; and the alarm unit is used for receiving the alarm information generated by the control unit and taking an alarm action. In the application, the control unit can call the electronic tag corresponding to the identification code in the storage unit through the unique identification code, the historical data corresponding to the first difference value can be accurately acquired through the electronic tag, errors of data can be avoided when comparison and judgment are conducted through the electronic tag and the identification code, and intelligent processing is achieved. Through the relation between the obtained second difference value and the threshold value, whether the vehicle-mounted storage battery is abnormal or not can be accurately identified, the abnormal storage battery is given an alarm in time, the abnormal storage battery is greatly convenient to overhaul and replace, and the problem that potential safety hazards exist in the process of using a vehicle by a user is avoided.

Drawings

Fig. 1 is a schematic structural diagram illustrating an intelligent AI alarm system according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating an intelligent AI alarm method according to an embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

Throughout the description of the present application, it is to be noted that, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The following is a description of preferred embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, an embodiment of the present invention discloses an intelligent AI alarm system, which includes:

the acquisition unit is used for acquiring a first electric quantity value of the vehicle-mounted storage battery and acquiring a second electric quantity value of the vehicle-mounted storage battery within preset time;

the processing unit is used for receiving the first electric quantity value and the second electric quantity value and acquiring a first difference value of the first electric quantity value and the second electric quantity value;

in some embodiments of the present application, in the processing unit, after obtaining the first difference value between the first electric quantity value and the second electric quantity value, the method further includes:

the processing unit packages the first difference value and generates an electronic tag for the packaged first difference value;

and sending the first difference value to the storage unit for storage.

It should be noted that, in the present application, a first electric quantity value of the vehicle-mounted storage battery is collected at a first time, and a second electric quantity value of the vehicle-mounted storage battery is collected within a preset time, where the preset time may be determined according to actual conditions, and different preset times are set for brands, electric capacities, and the like of different storage batteries, and is not specifically limited herein.

After the first electric quantity value and the second electric quantity value of the vehicle-mounted storage battery are acquired, a first difference value between the first electric quantity value and the second electric quantity value is calculated, in actual calculation, the first electric quantity value may be adopted to subtract the second electric quantity value, or an absolute value may be obtained after the second electric quantity value is subtracted from the first electric quantity value, which is not specifically limited herein. After the first difference is obtained through calculation, the first difference is packaged, and data is packaged, so that the problem that the data is disordered in a storage unit can be avoided, and the data is effectively protected. And generating a special electronic tag for the encapsulated first difference, and generating the electronic tag for the first difference to ensure accurate calling of the data, wherein subsequent calling of historical data is processed according to the electronic tag.

In some embodiments of the present application, the processing unit assigns a unique identification code to the first difference value, and sends the first difference value carrying the unique identification code to the control unit.

It should be noted that, while the first difference is encapsulated, a unique identification code is generated for the first difference, and the first difference carrying the unique identification code is sent to the control unit. When the first difference values are coded, it should be noted that the coded values can be randomly generated, the codes of the unique identifiers carried by each first difference value are different, different data can be well distinguished by using different unique identifier codes, the condition of data confusion is avoided when historical data is called according to the unique representation codes, the stability of system operation is ensured, and the working efficiency is improved. In the application, the first difference value is coded, so that the control unit can call the electronic tag matched with the code according to the code, and further acquire corresponding historical data accurately.

In some embodiments of the present application, the control unit is configured to call history data corresponding to the first difference in the storage unit, and calculate a second difference between the first difference and the history data;

in some embodiments of the present application, when the control unit calls the history data corresponding to the first difference in the storage unit, specifically:

the control unit receives the first difference value carrying the unique identification code, analyzes the storage unit according to the first difference value carrying the unique identification code, and acquires the electronic tag corresponding to the unique identification code;

the control unit calls the historical data corresponding to the electronic tag.

It should be noted that, when the control unit receives the first difference carrying the code, the control unit parses the storage unit according to the code with the unique identifier, parses the electronic tag corresponding to the code, and then calls the historical data corresponding to the electronic tag through the control unit.

In the present application, each code corresponds to the electronic tag in the storage unit, wherein the first difference value obtained this time is consistent with the obtaining condition of the history data, for example, the first difference value is obtained under the condition that the preset time is 30 minutes and the battery usage is equivalent, so that when the control unit calls the corresponding history data in the storage unit, the history data that should be called should also be obtained under the same condition. For example, the first electric quantity value is 80, the second electric quantity value is 70 within the preset time of 30 minutes, then the first difference value is 10, the code a is generated for the first difference value, the control unit parses the storage unit according to the code a, acquires the electronic tag corresponding to the code a, and acquires the historical data corresponding to the electronic tag, at this time, the historical data is also the difference value corresponding to the two acquired electric quantity values within the preset time of 30 minutes, if the historical data (difference value) is 15, then the second difference value is the historical data 15 minus the first difference value 10, and the second difference value is 5, it should be understood that this is only an example, and is not limited specifically.

It should be further noted that, by acquiring corresponding historical data according to the codes by the control unit in the application, the data can be intelligentized well, and the data can be identified and alarmed conveniently.

In some embodiments of the present application, whether to generate alarm information is determined according to the second difference and a threshold;

and the alarm unit is used for receiving the alarm information generated by the control unit and taking an alarm action.

In some embodiments of the present application, in the control unit, when determining whether to generate the alarm information according to the second difference and the threshold, specifically, the determining is that:

if the second difference is smaller than or equal to the threshold, the vehicle-mounted storage battery is in a normal state, and no alarm information is generated;

and if the second difference is larger than the threshold value, the vehicle-mounted storage battery is in an abnormal state, alarm information is generated, and the alarm information is sent to the alarm unit.

It should be noted that, after the second difference is obtained, the second difference is compared with a threshold, and the threshold may be set according to an actual production condition or according to a standard value, which is not specifically limited herein. If the second difference is larger than or equal to the threshold value, it is indicated that the vehicle-mounted storage battery is in an abnormal state at the moment, alarm information needs to be generated in time, and the user is informed of overhauling or replacing the storage battery of the vehicle in real time through the alarm unit, so that potential safety hazards caused by the abnormal storage battery when the user drives the vehicle are prevented, the user is greatly facilitated, the required cost is low, and the user experience is effectively improved.

It should be further noted that when the second difference is smaller than the threshold, it is indicated that the vehicle-mounted storage battery is in a normal power-down state at this time, and at this time, it is not necessary to generate alarm information. In this application, through the state of real-time detection vehicle-mounted battery to the battery to abnormal condition generates alarm information, in time sends for the customer, can reduce the potential safety hazard effectively, promotes user experience.

In some embodiments of the present application, the user is able to provide all of the electrical system in the vehicle from the battery when the vehicle is in daily use, when the engine is started or running at a low speed, due to the fact that the vehicle generator is not generating electricity or the voltage is low. When the engine normally runs, the generator supplies power to the electric equipment and charges the storage battery. The storage battery is also a large-capacity capacitor, and can absorb the instantaneous high voltage generated in the circuit in the vehicle, so that the electric equipment in the vehicle is protected. But in prior art, do not detect the battery and whether have taken place the problem, when the battery takes place unusually, even can charge to the battery through the engine, nevertheless caused serious waste to the resource like this, and the battery unusual can lead to vehicle electronic equipment service time section, seriously influenced user experience, can detect the battery in real time according to the alarm system in this application whether unusual, guarantee that the battery can provide stable electric energy for the vehicle to store the electric energy high-efficiently.

In some embodiments of the present application, an electric quantity threshold is further set in the present application, wherein the electric quantity threshold is set according to a use condition of the vehicle-mounted storage battery, when the acquisition unit acquires the first electric quantity value or the second electric quantity value of the vehicle-mounted storage battery at the first time, the first electric quantity value or the second electric quantity value is judged and compared with the electric quantity threshold, if the acquired first electric quantity value or the acquired second electric quantity value is greater than the electric quantity threshold, it indicates that the vehicle-mounted storage battery is not in a power shortage state, and the alarm unit is not triggered.

If the first electric quantity value or the second electric quantity value is smaller than the electric quantity threshold value, the vehicle-mounted storage battery is in a power shortage state, the vehicle-mounted storage battery needs to be charged at the moment, and the user can be prompted to charge the vehicle-mounted storage battery in time through the alarm unit, so that the problem that the user cannot start the automobile due to the fact that the storage battery is in the power shortage state for a long time when the user uses the automobile is solved. In the application, the electric quantity state of the vehicle-mounted storage battery can be determined in real time by detecting the relation between the electric quantity value and the electric quantity threshold value, so that the use of a user is facilitated, the vehicle-mounted storage battery is well protected, and the vehicle-mounted storage battery is prevented from being abnormal in fault.

As shown in fig. 2, an embodiment of the present invention discloses an intelligent AI alarm method, including:

step S101, collecting a first electric quantity value of a vehicle-mounted storage battery, and collecting a second electric quantity value of the vehicle-mounted storage battery within preset time;

step S102, receiving the first electric quantity value and the second electric quantity value, and obtaining a first difference value of the first electric quantity value and the second electric quantity value;

in some embodiments of the present application, after obtaining the first difference value between the first electric quantity value and the second electric quantity value in step S102, the method further includes:

packaging the first difference value, and generating an electronic tag for the packaged first difference value;

and sending the first difference value to the storage unit for storage.

It should be noted that, in the present application, a first electric quantity value of the vehicle-mounted storage battery is collected at a first time, and a second electric quantity value of the vehicle-mounted storage battery is collected within a preset time, where the preset time may be determined according to actual conditions, and different preset times are set for different storage battery brands, electric capacities, and the like, and is not limited herein.

After the first electric quantity value and the second electric quantity value of the vehicle-mounted storage battery are acquired, a first difference value between the first electric quantity value and the second electric quantity value is calculated, in the actual calculation, the second electric quantity value can be subtracted from the first electric quantity value, or an absolute value can be obtained after the first electric quantity value is subtracted from the second electric quantity value, which is not specifically limited herein. After the first difference is obtained through calculation, the first difference is packaged, and data is packaged, so that the problem that the data is disordered in a storage unit can be avoided, and the data is effectively protected. And generating an exclusive electronic tag for the encapsulated first difference value, and generating the electronic tag for the first difference value, so that accurate calling of the data can be ensured.

In some embodiments of the present application, a unique identification code is assigned to the first difference value, and the first difference value carrying the unique identification code is sent to the control unit.

It should be noted that, while the first difference is encapsulated, a unique identification code is generated for the first difference, and the first difference carrying the unique identification code is sent to the control unit. It should be noted that the code values can be randomly generated, the codes of the unique identifiers carried by each first difference value are different, different data can be well distinguished by using different unique identifier codes, the situation of data confusion is avoided when historical data is called according to the unique representation codes, the stability of system operation is guaranteed, and the working efficiency is improved. In the application, the first difference value is coded, so that the control unit can call the electronic tag matched with the code according to the code, and further acquire corresponding historical data accurately.

Step S103, calling historical data corresponding to the first difference value in a storage unit, and calculating a second difference value between the first difference value and the historical data;

in some embodiments of the present application, in step S103, when the history data corresponding to the first difference value in the storage unit is called, specifically:

the control unit receives the first difference value carrying the unique identification code, analyzes the storage unit according to the first difference value carrying the unique identification code, and acquires the electronic tag corresponding to the unique identification code;

and calling historical data corresponding to the electronic tag.

It should be noted that, when the control unit receives the first difference carrying the code, the storage unit is parsed according to the code having the unique identifier, the electronic tag corresponding to the code is parsed, and then the control unit calls the historical data corresponding to the electronic tag. In the present application, each code corresponds to the electronic tag in the storage unit, wherein the first difference value obtained this time is consistent with the obtaining condition of the history data, for example, the first difference value is obtained under the condition that the preset time is 30 minutes and the usage condition of the storage battery is equivalent, so when the control unit calls the corresponding history data in the storage unit, the history data which should be called should also be obtained under the same condition. For example, the first electric quantity value is 80, the second electric quantity value is 70 within the preset time of 30 minutes, then the first difference value is 10, the code a is generated for the first difference value, the control unit parses the storage unit according to the code a, acquires the electronic tag corresponding to the code a, and acquires the historical data corresponding to the electronic tag, at this time, the historical data is also the difference value corresponding to the two acquired electric quantity values within the preset time of 30 minutes, if the historical data (difference value) is 15, then the second difference value is the historical data 15 minus the first difference value 10, and the second difference value is 5, it should be understood that this is only an example, and is not limited specifically.

It should be further noted that, by acquiring corresponding historical data according to the codes by the control unit in the application, the data can be intelligentized well, and the data can be identified and alarmed conveniently.

In some embodiments of the present application, whether to generate alarm information is determined according to the second difference and a threshold;

and step S104, receiving the alarm information generated by the control unit and taking an alarm action.

In some embodiments of the present application, in step S103, when determining whether to generate the alarm information according to the second difference and the threshold in the control unit, specifically:

if the second difference is smaller than or equal to the threshold, the vehicle-mounted storage battery is in a normal state, and no alarm information is generated;

and if the second difference is larger than the threshold value, the vehicle-mounted storage battery is in an abnormal state, alarm information is generated, and the alarm information is sent to the alarm unit.

It should be noted that, after the second difference is obtained, the second difference is compared with a threshold, and the threshold may be set according to an actual production condition or according to a standard value, which is not specifically limited herein. If the second difference is larger than or equal to the threshold value, the vehicle-mounted storage battery is in an abnormal state at the moment, alarm information needs to be generated in time, and a user is informed of overhauling or replacing the storage battery of the vehicle in real time through the alarm unit, so that potential safety hazards caused by the fact that the storage battery is abnormal when the user drives the vehicle are prevented.

It should be further noted that when the second difference is smaller than the threshold, it is indicated that the vehicle-mounted storage battery is in a normal power-down state at this time, and at this time, it is not necessary to generate alarm information. In this application, through the state of real-time detection vehicle-mounted battery to the battery to abnormal condition generates alarm information, in time sends for the customer, can reduce the potential safety hazard effectively, promotes user experience.

In some embodiments of the present application, the user is able to provide all of the electrical system in the vehicle from the battery when the vehicle is in daily use, when the engine is started or running at a low speed, due to the fact that the vehicle generator is not generating electricity or the voltage is low. When the engine normally runs, the generator supplies power to the electric equipment and charges the storage battery. The storage battery is also a large-capacity capacitor, and can absorb the instantaneous high voltage generated in the circuit in the vehicle, so that the electric equipment in the vehicle is protected. But in prior art, do not detect the battery and whether have taken place the problem, when the battery takes place unusually, even can charge to the battery through the engine, nevertheless caused serious waste to the resource like this, and the battery unusual can lead to vehicle electronic equipment service time section, seriously influenced user experience, can detect the battery in real time according to the alarm system in this application whether unusual, guarantee that the battery can provide stable electric energy for the vehicle to store the electric energy high-efficiently.

In some embodiments of the present application, an electric quantity threshold is further set in the present application, wherein the electric quantity threshold is set according to a use condition of the vehicle-mounted storage battery, when the collecting unit collects a first electric quantity value or a second electric quantity value of the vehicle-mounted storage battery at a first time, the first electric quantity value or the second electric quantity value is judged and compared with the electric quantity threshold at this time, and if the collected first electric quantity value or the collected second electric quantity value is greater than the electric quantity threshold at this time, it is indicated that the vehicle-mounted storage battery is not in a power shortage state, and the alarm unit is not triggered.

If the first electric quantity value or the second electric quantity value is smaller than the electric quantity threshold value, the vehicle-mounted storage battery is in a power shortage state, the vehicle-mounted storage battery needs to be charged at the moment, and the user can be prompted to charge the vehicle-mounted storage battery in time through the alarm unit, so that the problem that the user cannot start the automobile due to the fact that the storage battery is in the power shortage state for a long time when the user uses the automobile is solved. In the application, the electric quantity state of the vehicle-mounted storage battery can be determined in real time by detecting the relation between the electric quantity value and the electric quantity threshold value, so that the use of a user is facilitated, the vehicle-mounted storage battery is well protected, and the vehicle-mounted storage battery is prevented from being abnormal in fault.

To sum up, the embodiment of the present invention provides an intelligent AI alarm system and method, where the system includes: the acquisition unit is used for acquiring a first electric quantity value of the vehicle-mounted storage battery and acquiring a second electric quantity value of the vehicle-mounted storage battery within preset time; the processing unit is used for receiving the first electric quantity value and the second electric quantity value and acquiring a first difference value of the first electric quantity value and the second electric quantity value; the control unit is used for calling the historical data corresponding to the first difference value in the storage unit, calculating a second difference value between the first difference value and the historical data, and judging whether alarm information is generated or not according to the second difference value and a threshold value; and the alarm unit is used for receiving the alarm information generated by the control unit and taking an alarm action. In the application, the control unit can call the electronic tag corresponding to the identification code in the storage unit through the unique identification code, the historical data corresponding to the first difference value can be accurately acquired through the electronic tag, errors of data can be avoided when comparison and judgment are conducted through the electronic tag and the identification code, and intelligent processing is achieved. Through the relation between the obtained second difference value and the threshold value, whether the vehicle-mounted storage battery is abnormal or not can be accurately identified, the abnormal storage battery is given an alarm in time, the abnormal storage battery is greatly convenient to overhaul and replace, and the problem that potential safety hazards exist in the process of using a vehicle by a user is avoided.

According to the first concept of the present application, in some embodiments of the present application, the processing unit performs a packaging process on the first difference value, and generates an electronic tag for the packaged first difference value; and sending the first difference value to the storage unit for storage. In the application, the first difference value is obtained through calculation, the exclusive electronic tag is generated for the first difference value in the processing unit and is stored in the storage unit, the first difference value can be well stored and distinguished, and the first difference value is greatly convenient to call and process.

According to a second concept of the present application, the processing unit assigns a unique identification code to the first difference value, and sends the first difference value carrying the unique identification code to the control unit. The control unit receives the first difference value carrying the unique identification code, analyzes the storage unit according to the first difference value carrying the unique identification code, and acquires the electronic tag corresponding to the unique identification code; the control unit calls the historical data corresponding to the electronic tag. In the application, the control unit can call the electronic tag corresponding to the identification code in the storage unit through the unique identification code, the historical data corresponding to the first difference value can be accurately acquired through the electronic tag, errors of data can be avoided when comparison and judgment are conducted through the electronic tag and the identification code, and intelligent processing is achieved.

According to a third concept of the application, when whether alarm information is generated or not is judged according to the second difference and the threshold, if the second difference is smaller than or equal to the threshold, the vehicle-mounted storage battery is in a normal state, and the alarm information is not generated; and if the second difference is larger than the threshold value, the vehicle-mounted storage battery is in an abnormal state, alarm information is generated, and the alarm information is sent to the alarm unit. In the application, whether the vehicle-mounted storage battery is abnormal or not can be accurately identified through the relation between the acquired second difference value and the threshold value, and the abnormal storage battery is given a timely alarm, so that the abnormal storage battery is greatly convenient to overhaul and replace, and the problem that potential safety hazards exist in the process of using a vehicle by a user is avoided.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the disclosed embodiments of the invention can be used in any combination with one another as long as there is no structural conflict, and nothing in this specification should be taken as a complete description of such combinations for the sake of brevity and resource savings. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Those of ordinary skill in the art will understand that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An intelligent AI alarm system, the system comprising:

the acquisition unit is used for acquiring a first electric quantity value of the vehicle-mounted storage battery and acquiring a second electric quantity value of the vehicle-mounted storage battery within preset time;

the processing unit is used for receiving the first electric quantity value and the second electric quantity value and acquiring a first difference value of the first electric quantity value and the second electric quantity value;

the control unit is used for calling the historical data corresponding to the first difference value in the storage unit, calculating a second difference value between the first difference value and the historical data, and judging whether alarm information is generated or not according to the second difference value and a threshold value;

and the alarm unit is used for receiving the alarm information generated by the control unit and taking an alarm action.

2. The intelligent AI alarm system of claim 1, further comprising, after obtaining, in the processing unit, a first difference between the first and second electrical quantity values:

the processing unit packages the first difference value and generates an electronic tag for the packaged first difference value;

and sending the first difference value to the storage unit for storage.

3. The intelligent AI alarm system of claim 2, further comprising:

and the processing unit endows the first difference with a unique identification code and sends the first difference carrying the unique identification code to the control unit.

4. The intelligent AI alarm system of claim 3, wherein, when invoking, in the control unit, the historical data in the storage unit corresponding to the first difference, specifically:

the control unit receives the first difference value carrying the unique identification code, analyzes the storage unit according to the first difference value carrying the unique identification code, and acquires the electronic tag corresponding to the unique identification code;

the control unit calls the historical data corresponding to the electronic tag.

5. The intelligent AI alarm system of claim 1, wherein, in the control unit, when determining whether to generate alarm information according to the second difference and a threshold, specifically:

if the second difference is smaller than or equal to the threshold, the vehicle-mounted storage battery is in a normal state, and no alarm information is generated;

and if the second difference is larger than the threshold value, the vehicle-mounted storage battery is in an abnormal state, alarm information is generated, and the alarm information is sent to the alarm unit.

6. An intelligent AI alarm method, characterized in that the method comprises:

collecting a first electric quantity value of a vehicle-mounted storage battery, and collecting a second electric quantity value of the vehicle-mounted storage battery within preset time;

receiving the first electric quantity value and the second electric quantity value, and acquiring a first difference value of the first electric quantity value and the second electric quantity value;

calling historical data corresponding to the first difference value in a storage unit, calculating a second difference value between the first difference value and the historical data, and judging whether alarm information is generated or not according to the second difference value and a threshold value;

and receiving the alarm information generated by the control unit and taking an alarm action.

7. The intelligent AI alarm system of claim 6, further comprising, after obtaining a first difference between the first and second electrical quantity values:

packaging the first difference value, and generating an electronic tag for the packaged first difference value;

and sending the first difference value to the storage unit for storage.

8. The intelligent AI alarm system of claim 7, further comprising:

and giving a unique identification code to the first difference value, and sending the first difference value carrying the unique identification code to a control unit.

9. The intelligent AI alarm system of claim 8, wherein invoking the historical data in the storage unit corresponding to the first difference specifically is:

receiving the first difference value carrying the unique identification code, analyzing the storage unit according to the first difference value carrying the unique identification code, and acquiring the electronic tag corresponding to the unique identification code;

and calling historical data corresponding to the electronic tag.

10. The intelligent AI alarm system of claim 6, wherein when determining whether to generate alarm information according to the second difference and a threshold, specifically:

if the second difference is smaller than or equal to the threshold, the vehicle-mounted storage battery is in a normal state, and no alarm information is generated;

and if the second difference is larger than the threshold value, the vehicle-mounted storage battery is in an abnormal state, alarm information is generated, and the alarm information is sent to an alarm unit.

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