CN114339162A - Intelligent article searching system and application method thereof - Google Patents

Abstract

The invention relates to the technical field of article searching systems, in particular to an intelligent article searching system and an application method thereof, which comprise a camera shooting scanning unit, the camera shooting scanning unit comprises a scanning camera which is used for scanning the indoor environment, and also comprises a block processing module which is used for processing the indoor environment collected by the scanning camera, the output end of the scanning camera is connected with the input end of the block processing module, the intelligent object searching system also comprises a wireless connection unit, the wireless connection unit comprises a signal transceiver and a plurality of wireless patches, the wireless patches are provided with communication modules matched with the transceiver, the signal transceiver is used for transmitting the object searching signal and receiving the position information fed back by the wireless patch, and the wireless patch antenna has the characteristics of convenience, high response speed, high accuracy, strong reliability and low cost.

Description

Intelligent article searching system and application method thereof

Technical Field

The invention relates to the technical field of article searching systems, in particular to an intelligent article searching system and an application method thereof.

Background

At present, in daily life, keys, a remote controller, a mobile phone and other common articles are often placed at will, much time is needed to search when the keys, the remote controller and the like are used, and much inconvenience is brought to daily life of people because the keys, the remote controller and the like cannot be searched when the keys and the remote controller are in urgent need. Especially for families with old people, the old people have hypomnesis and poor eyesight, and the efficiency of finding living goods is low and inconvenient.

In the prior art, an auxiliary object searching system exists, for example, the invention patent of application number "201711243291.7" discloses an intelligent movable device capable of searching objects and an intelligent object searching method, in the application, an object needs to be searched by a robot, the visual angle of the robot is limited, the contraction range in unit time is small, the searching speed is slow, a database cannot be updated in time by timing shooting, meanwhile, a comparison file is seriously dependent on a label, inconvenience is caused, and the fault-tolerant rate of the scheme is low.

In the intelligence of application number "201611170564.5" device of looking for something, through the characteristic of searching article, search article with the help of the sense organ, it is inconvenient to poor eyesight or hearing disorder crowd, and with the help of the bracelet range finding, the accuracy is low, and is big to the hardware consumption of treater, and reaction rate is slow.

Disclosure of Invention

The invention provides an intelligent object searching system and an application method thereof, and the intelligent object searching system has the characteristics of convenience, high reaction speed, high accuracy, strong reliability and low cost.

The technical scheme of the invention is as follows:

an intelligent object searching system comprises a camera shooting and scanning unit, wherein the camera shooting and scanning unit comprises a scanning camera, the scanning camera is used for scanning an indoor environment, the camera shooting and scanning unit further comprises a block processing module, the block processing module is used for processing the indoor environment collected by the scanning camera, the output end of the scanning camera is connected with the input end of the block processing module, the intelligent object searching system further comprises a wireless connection unit, the wireless connection unit comprises a signal transceiver and a plurality of wireless patches, the wireless patches are provided with communication modules matched with the signal transceiver, the signal transceiver is used for transmitting object searching signals and receiving position information fed back by the wireless patches, the object searching system further comprises a master control unit used for overall regulation, and the block processing module and the signal transceiver are in signal connection with the master control unit, the master control unit is connected with the terminal equipment by means of a wireless connection module.

As a further optimization of the present solution, the camera scanning unit further includes a motion detection module, and the motion detection module is configured to detect a motion situation in a room.

As a further optimization of the scheme, the camera scanning unit comprises a plurality of scanning cameras, the camera scanning unit further comprises a positioning reference device, the plurality of scanning cameras are respectively provided with a distance detector, and the positioning reference device is provided with an inductor matched with the plurality of distance detectors.

As a further optimization of the scheme, the wireless patch comprises a prompting unit and a control chip, the prompting unit comprises a buzzer and a light emitting tube, the control chip is in control connection with the buzzer and the light emitting tube, and the control chip is in signal connection with the communication module.

An intelligent object searching method is based on an intelligent object searching system and comprises a preparation stage and an application stage, wherein the preparation stage is used for scanning an indoor area and storing indoor article and space information into a memory in a master control unit,

the preparation stage comprises the steps of establishing an initial coordinate system, establishing a reasonable space coordinate system according to the indoor condition of the object searching system, and ensuring that more than 90% of indoor continuous areas can be represented by a matrix;

establishing a basic library, partitioning an indoor area, naming, identifying articles in the area, and recording the articles in the library;

data docking, namely connecting the signal transceiver with the data of the wireless patch, and correcting the correctness of self-checking data;

and constructing a spatial information model, and fusing the article information with the spatial coordinates to enable each article to have a corresponding spatial position.

As a further optimization of the scheme, the step of establishing the initial coordinate system includes that the master control unit commands the cameras to start, dynamically scans the indoor space, each scanning camera calls the distance detector, a positioning reference device is used as a reference point, a detailed spatial coordinate system is established indoors, the condition that the same indoor point corresponds to the same coordinate value in each scanning camera is ensured, and the coordinate system is stored in the memory;

the basic library establishment comprises the steps that a master control unit partitions an indoor space, areas and corresponding identification information are stored in a memory, a scanning camera scans an indoor environment, the master control unit is connected with a network, scanned article information is compared with an article database in the internet to obtain indoor article information and corresponding names, the database is replaced, scanned data are compared with a new database again, articles with different names and articles which cannot be identified are extracted, the steps are repeated until the set comparison times are reached, the articles with the same identification results for more than 70% of the total times are extracted and stored in the memory, scanning information of the rest of the articles which cannot be identified is input to a terminal, manual input is carried out, and accurate naming of each article is achieved.

As a further optimization of the solution, the application phase comprises a triggering step and an object searching step,

the triggering step comprises the steps that when the motion detection module detects that an object moves, a scanning camera is called, the indoor state after moving is scanned, and the indoor state is compared with the indoor state before moving to obtain the update information of the position of the object; if the movement information is not detected for more than 1h, starting a scanning camera to collect indoor states, and comparing the indoor states with the state before 1 h;

the object searching step comprises the steps of inputting the needed object to the terminal, and feeding back the position information of the object by the terminal according to the last scanning result recorded in the memory.

As a further optimization of the scheme, in the triggering step, in the motion occurrence process, the master control unit records the region block information adjusted by motion occurrence, after the motion is finished, compares the information of each region block in which motion occurs, and after the comparison is finished, if there is no abnormality, covers the current region block information with the region block information before the motion occurrence is detected.

As a further optimization of the scheme, in the step of establishing the base library, the wireless patches are pasted for more than 20% of article information which is identified incorrectly, cannot be identified and is easy to lose by users, and the article information corresponding to each wireless patch is arranged in the memory through the terminal.

As a further optimization of the scheme, in the triggering step, if an article cannot be scanned after scanning, the master control unit commands the signal transceiver to send a lighting or buzzing command to the article which cannot be scanned, so as to strengthen the recognition capability of the scanning camera, if the article is not scanned yet, a corresponding area at a doorway is called, if the area corresponding to the doorway has movement information, it is judged that the article is taken out of the system action area, and the information is uploaded to the terminal; if no moving information occurs in the area corresponding to the doorway, the terminal notifies that the article is abnormal.

The working principle and the beneficial effects of the invention are as follows:

the camera scanning unit is used for scanning the indoor environment, the master control unit analyzes the environment according to the scanning result and aiming at the action object of the object searching system, and a space coordinate system is established indoors to ensure that each point can be represented, indoor article data can be automatically updated through comparison of a network database, for the objects which cannot be identified or are unstable, the wireless patch can mark and emphasize the objects, the central control module can contact the wireless patch by means of the signal transceiver, the wireless patch can make corresponding response and emphasize the camera shooting scanning unit, the space coordinate system established in the scheme is divided into a plurality of characteristic areas, the set of all the characteristic areas is equal to the whole set of the whole coordinate system, each point can be guaranteed to be located in a characteristic area, and the object can be guaranteed to be represented at any position in the room. The general control unit is connected with a terminal, the terminal is used for performing man-machine interaction with a user, the user can control the system through the terminal, and the user can observe the position information of each indoor article through the terminal.

The cooperation of using of space scanning and wireless paster in this system can directly reflect the position of looking for article to the user through the video, and wireless paster has played the effect of emphasizing and reminding simultaneously, can strengthen the accuracy of video, increases the fault-tolerant rate. The space is managed in a partitioning mode, the calculation amount of the master controller can be effectively reduced, the hardware pressure is reduced, and meanwhile the calculation efficiency in an effective calculation range is improved, so that the object searching capability of the system is enhanced.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

An intelligent object searching system comprises a camera shooting and scanning unit, wherein the camera shooting and scanning unit comprises a scanning camera, the scanning camera is used for scanning an indoor environment, the camera shooting and scanning unit further comprises a block processing module, the block processing module is used for processing the indoor environment collected by the scanning camera, the output end of the scanning camera is connected with the input end of the block processing module, the intelligent object searching system further comprises a wireless connection unit, the wireless connection unit comprises a signal transceiver and a plurality of wireless patches, the wireless patches are provided with communication modules matched with the signal transceiver, the signal transceiver is used for transmitting object searching signals and receiving position information fed back by the wireless patches, the object searching system further comprises a master control unit used for overall regulation, and the block processing module and the signal transceiver are in signal connection with the master control unit, the master control unit is connected with the terminal equipment by means of a wireless connection module. The camera shooting scanning unit further comprises a motion detection module, and the motion detection module is used for detecting the motion condition in a room. The camera shooting and scanning unit comprises a plurality of scanning cameras, the camera shooting and scanning unit further comprises a positioning reference device, the scanning cameras are respectively provided with a distance detector, and the positioning reference device is provided with an inductor matched with the plurality of distance detectors. The wireless patch comprises a prompting unit and a control chip, the prompting unit comprises a buzzer and a light emitting tube, the control chip is connected with the buzzer and the light emitting tube in a control mode, and the control chip is connected with the communication module in a signal mode.

The space coordinate system is cooperatively constructed by a plurality of scanning cameras, so that the indoor coordinate point can be more accurate, the system precision is improved, the distance detector is matched with the positioning reference device, the system can accurately share a plurality of cameras, so that the images at different angles can accurately and omnidirectionally share a unified stereo coordinate system to effectively prevent the problem of disordered system calculation caused by the deviation of the coordinate system due to different angles, thereby increasing the accuracy of the system, the scheme is characterized in that the image pickup scanning unit, the wireless patch, the signal transceiver and the terminal are uniformly managed and distributed by the master control unit, the master control unit plays the roles of control, coordination, data processing and calculation analysis, and the system also comprises a sound sensor, whether the article corresponding to the wireless patch is in the retrieval range or not can be judged through the sound signal fed back by the wireless patch, and the wireless patch and the signal transceiver can be in communication connection by virtue of a cellular network; distance can be analyzed by means of electromagnetic field connection and magnetic field intensity; can be connected through Bluetooth; may be connected by radio frequency signals, etc. The master control unit and the camera shooting scanning module can realize information interaction by means of wired direct signal communication, a cellular network, a satellite network, a wireless route and the like, and can also be in communication connection by means of the signal receiving and sending module. The terminal in the application can be a mobile phone, a tablet, a computer or a special display control device and the like. The wireless patch can generate photoelectric signals to directly inform an indoor user of prompting, and can inform the master control unit of the fact that the searched articles are determined in the system action area through sound signals, so that when the camera cannot scan or analyze the articles, misjudgment of the system is prevented, and the fault tolerance rate of the system is increased; when the camera shooting scanning unit cannot search the target object, the signal transceiving module commands the light emitting tube at the wireless patch to emit light, so that the scanning camera can be emphasized, and the scanning camera can perform high pixel analysis of an individual area according to the light emitting source to obtain object information.

An intelligent object searching method is based on an intelligent object searching system and comprises a preparation stage and an application stage, wherein the preparation stage is used for scanning indoor areas and storing indoor articles and space information into a memory in a master control unit, the preparation stage comprises the steps of establishing an initial coordinate system, establishing a reasonable space coordinate system according to the indoor condition of the object searching system, and ensuring that more than 90% of continuous indoor areas can be represented by a matrix; establishing a basic library, partitioning an indoor area, naming, identifying articles in the area, and recording the articles in the library; data docking, namely connecting the signal transceiver with the data of the wireless patch, and correcting the correctness of self-checking data; and constructing a spatial information model, and fusing the article information with the spatial coordinates to enable each article to have a corresponding spatial position. By establishing a coordinate system, the position of an object is more conveniently defined, the calculation pressure of a system during object searching is reduced, the object searching efficiency can be higher, when a basic library is established, indoor objects and data in the Internet are compared by using a learning algorithm, analysis is carried out through image processing, and each indoor object is defined.

The step of establishing an initial coordinate system comprises the steps that a master control unit orders cameras to start, indoor space is dynamically scanned, each scanning camera calls the distance detector, a detailed space coordinate system is established indoors by taking a positioning reference device as a reference point, the condition that the same indoor point corresponds to the same coordinate value in each scanning camera is guaranteed, and the coordinate system is stored in a memory;

the positioning reference device can be used as a reference point or an original point to define the space, so that the scanning results of a plurality of scanning cameras can be unified conveniently, the accuracy of the object searching system is improved, and the object searching blind area is effectively reduced.

The basic library establishment comprises the steps that a master control unit partitions an indoor space, areas and corresponding identification information are stored in a memory, a scanning camera scans an indoor environment, the master control unit is connected with a network, scanned article information is compared with an article database in the internet to obtain indoor article information and corresponding names, the database is replaced, scanned data are compared with a new database again, articles with different names and articles which cannot be identified are extracted, the steps are repeated until the set comparison times are reached, the articles with the same identification results for more than 70% of the total times are extracted and stored in the memory, scanning information of the rest of the articles which cannot be identified is input to a terminal, manual input is carried out, and accurate naming of each article is achieved. For the camera shooting scanning unit to identify the articles which are difficult to call, the wireless patches are used for marking, each wireless patch is provided with unique identification information, the wireless patches are bound with specific articles, when the camera cannot identify the articles through information such as shapes, the wireless patches can help the system to identify the articles, and the fault tolerance rate of the method is enhanced.

The application phase comprises a triggering step and an object searching step,

the triggering step comprises the steps that when the motion detection module detects that an object moves, a scanning camera is called, the indoor state after moving is scanned, and the indoor state is compared with the indoor state before moving to obtain the update information of the position of the object; if the movement information is not detected for more than 1h, starting a scanning camera to collect indoor states, and comparing the indoor states with the state before 1 h;

when no motion exists indoors, the articles can not move, therefore, only the motion detection module needs to work under the condition, the calculation pressure of the master control unit and the block processing module can be effectively reduced, the service life of the system and the high-efficiency operation speed can be ensured, the frequency of the dead halt and the blockage is reduced, and the function of useless work is avoided.

The object searching step comprises the steps of inputting required objects to the terminal, feeding back the position information of the objects by the terminal according to the last scanning result recorded in the memory, and comparing the pictures of the first frame only when indoor stability needs to be searched when the object searching is executed, so that a large amount of video images are not needed to be stored in the memory, the pictures of a plurality of specific frames are stored, the storage space can be saved, the pixel requirements of the stored images are guaranteed, the objects are easier to identify, the identification map of the system is wider, the objects which are smaller can be identified, and the identification precision is improved.

In the triggering step, in the motion generation process, the master control unit records the region block information adjusted by motion, compares the information of each region block in motion after the motion is finished, and covers the current region block information to detect the region block information before the motion if no abnormity exists after the comparison is finished. The block division of the space can facilitate the master control unit to analyze the picture in a targeted manner, and the generated motion or the suspected block is mainly amplified to be analyzed, thereby being beneficial to improving the analysis efficiency, avoiding redundant calculation and increasing the operation rate of the system. The regional block coordinates adopt a differential principle, each block is in an addition relation, the operation burden of a calculator cannot be increased, the data analysis rule of a computer is met, the moved block indicates that the movement of an object is possible, and for the condition that a single block cannot be identified, a plurality of adjacent blocks can be combined for calculation and analysis. The division of the block can be according to the shape of indoor space, the size of indoor article is marked, can be according to rectangular coordinate selection standard rectangle, and the size can be adjusted according to actual conditions. Due to the uniqueness of the placement of the articles in the same space-time, the frame behind the time can completely replace the frame ahead the time, and the memory pressure can be reduced through timely picture updating.

In the step of establishing the basic library, the wireless patches are pasted for more than 20% of article information which is identified wrongly, cannot be identified and is easy to lose by users, and the article information corresponding to each wireless patch is arranged in the memory through the terminal. The wireless patch has the characteristic of singleness, and for the difficult-to-identify object, the position of the corresponding object can be determined through the feedback of the wireless patch by identifying and emphasizing the object.

In the triggering step, if an article cannot be scanned after scanning, the master control unit commands the signal transceiver to send a light-emitting or buzzing command to the article which cannot be scanned, so that the identification capability of the scanning camera is strengthened, if the article cannot be scanned, a corresponding area at a doorway is called, if the area corresponding to the doorway has mobile information, it is judged that the article is taken out of the system action area, and the information is uploaded to a terminal; if no moving information occurs in the area corresponding to the doorway, the terminal notifies that the article is abnormal. The sound and light feedback of the wireless patch can draw the recognition capability of the camera, and the camera can focus on a block corresponding to a light spot and a surrounding specific block through light prompt, so that the specific block and even specific pixels are amplified and analyzed, the analysis result can be processed and stored in a basic library through a learning algorithm, and the recognition capability of the system is improved. If the abnormal movement condition of the doorway is detected, the abnormal movement condition indicates that the object is brought out of the action range of the system, and a prompt needs to be given to a user.

When an operator uses the system, the operator inputs needed articles in a terminal voice or key-in mode, the master control unit compares and extracts the articles with the stored indoor pictures, the modes of highlighting and the like are reflected to the terminal pictures, the indoor images or videos displayed by the terminal can clearly see the corresponding positions of the articles in the room, and the naming of the blocks can be named in a mode familiar to the user, for example, the upper left corner position of the searched article on the television cabinet can be known by 3 blocks on the desktop-left side-upper side of the television cabinet, the position of the searched article near the middle part of the right side of the indoor A window can be known by 1 block on the A window-right side-middle part, and the searched article can be directly found to a specific position by accurately reducing the area.

Each functional unit in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit. The integrated modules/units, if implemented in the form of software functional units and sold or used as separate products, may be stored in a computer readable storage medium. Based on such understanding, all or part of the flow in the method according to the embodiments of the present invention may also be implemented by a computer program to instruct related hardware, where the computer program may be stored in a computer readable storage medium, and when the computer program is executed by a processor, the computer program may implement the steps of the embodiments of the method. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer readable medium may include: any entity or device capable of carrying computer program code, recording medium, usb disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-Only Memory (ROM), Random Access Memory (RAM), electrical carrier wave signals, telecommunications signals, software distribution medium, and the like. It should be noted that the computer readable medium may contain other components which may be suitably increased or decreased as required by legislation and patent practice in jurisdictions, for example, in some jurisdictions, in accordance with legislation and patent practice, the computer readable medium does not include electrical carrier signals and telecommunications signals.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. An intelligent object searching system is characterized by comprising a camera shooting and scanning unit, wherein the camera shooting and scanning unit comprises a scanning camera, the scanning camera is used for scanning an indoor environment, the camera shooting and scanning unit further comprises a block processing module, the block processing module is used for processing the indoor environment collected by the scanning camera, the output end of the scanning camera is connected with the input end of the block processing module, the intelligent object searching system further comprises a wireless connection unit, the wireless connection unit comprises a signal transceiver and a plurality of wireless patches, the wireless patches are provided with communication modules matched with the signal transceiver, the signal transceiver is used for transmitting object searching signals and receiving position information fed back by the wireless patches, the object searching system further comprises a master control unit used for overall regulation, and the block processing module and the signal transceiver are in signal connection with the master control unit, the master control unit is connected with the terminal equipment by means of a wireless connection module.

2. The intelligent object finding system according to claim 1, wherein the camera scanning unit further comprises a motion detection module, and the motion detection module is used for detecting indoor motion.

3. The intelligent article searching system according to claim 2, wherein the camera scanning unit comprises a plurality of scanning cameras, the camera scanning unit further comprises a positioning reference device, the plurality of scanning cameras are respectively provided with a distance detector, and the positioning reference device is provided with an inductor matched with the plurality of distance detectors.

4. The intelligent article searching system according to claim 3, wherein the wireless patch comprises a prompting unit and a control chip, the prompting unit comprises a buzzer and a light emitting tube, the control chip is in control connection with the buzzer and the light emitting tube, and the control chip is further in signal connection with the communication module.

5. An intelligent object searching method based on the intelligent object searching system of claim 4 is characterized by comprising a preparation phase and an application phase, wherein the preparation phase scans indoor areas and stores indoor article and space information into a memory in the general control unit,

the preparation stage comprises the steps of establishing an initial coordinate system, establishing a reasonable space coordinate system according to the indoor condition of the object searching system, and ensuring that more than 90% of indoor continuous areas can be represented by a matrix;

establishing a basic library, partitioning an indoor area, naming, identifying articles in the area, and recording the articles in the library;

data docking, namely connecting the signal transceiver with the data of the wireless patch, and correcting the correctness of self-checking data;

and constructing a spatial information model, and fusing the article information with the spatial coordinates to enable each article to have a corresponding spatial position.

6. The intelligent object searching method according to claim 5, wherein the step of establishing an initial coordinate system comprises the steps that a master control unit commands cameras to start, an indoor space is dynamically scanned, each scanning camera calls the distance detector, a positioning reference device is used as a reference point, a detailed space coordinate system is established indoors, the condition that the same indoor point corresponds to the same coordinate value in each scanning camera is guaranteed, and the coordinate system is stored in the memory;

the basic library establishment comprises the steps that a master control unit partitions an indoor space, areas and corresponding identification information are stored in a memory, a scanning camera scans an indoor environment, the master control unit is connected with a network, scanned article information is compared with an article database in the internet to obtain indoor article information and corresponding names, the database is replaced, scanned data are compared with a new database again, articles with different names and articles which cannot be identified are extracted, the steps are repeated until the set comparison times are reached, the articles with the same identification results for more than 70% of the total times are extracted and stored in the memory, scanning information of the rest of the articles which cannot be identified is input to a terminal, manual input is carried out, and accurate naming of each article is achieved.

7. The intelligent article-searching method according to claim 6, wherein the application phase comprises a triggering step and an article-searching step,

the triggering step comprises the steps that when the motion detection module detects that an object moves, a scanning camera is called, the indoor state after moving is scanned, and the indoor state is compared with the indoor state before moving to obtain the update information of the position of the object; if the movement information is not detected for more than 1h, starting a scanning camera to collect indoor states, and comparing the indoor states with the state before 1 h;

the object searching step comprises the steps of inputting the needed object to the terminal, and feeding back the position information of the object by the terminal according to the last scanning result recorded in the memory.

8. The intelligent object searching method according to claim 7, wherein in the triggering step, in the motion generation process, the master control unit records the area block information adjusted by the motion generation, after the motion is finished, compares the information of each area block generating the motion, and after the comparison is finished, if there is no abnormality, covers the information of the area block before the motion generation is detected with the current information of the area block.

9. The intelligent article searching method according to claim 8, wherein in the step of establishing the basic library, the wireless patches are pasted for article information which is identified incorrectly more than 20% times, cannot be identified and is easy to lose by users, and the article information corresponding to each wireless patch is set in the memory through the terminal.

10. The intelligent object searching method according to claim 9, wherein in the triggering step, if there is an object that cannot be scanned after scanning, the master control unit instructs the signal transceiver to emit a light emitting or buzzing command to the object that cannot be scanned, so as to enhance the recognition capability of the scanning camera, if there is no object that can be scanned yet, the area corresponding to the doorway is called, and if there is movement information in the area corresponding to the doorway, it is determined that the object is taken out of the system action area, and the information is uploaded to the terminal; if no moving information occurs in the area corresponding to the doorway, the terminal notifies that the article is abnormal.