CN114332764B - Identification detection method and system for preventing shielding storage battery from entering enclosed space - Google Patents

Abstract

The invention relates to a method and a system for identifying and detecting the shielding of a storage battery entering a closed space, wherein the method comprises the following steps: carrying out tag identification on the storage battery entering the first detection area, and judging whether all tag information of the storage battery is detected; if not, the corresponding information of the storage battery is not registered, the storage battery is registered and all the labels are installed on the storage battery; or the lack of the label is indicated, and the label is complemented and then the personnel is allowed to pass through; if so, allow personnel to pass. Shooting the storage battery to obtain a first image when a person enters a second detection area, and identifying the number of the labels of the storage battery to obtain a second number of the labels; inputting the first image and the second label number into a label shielding number classification network, and determining whether a person carries a storage battery according to an output result; if yes, prohibiting personnel from passing through the second detection area and alarming; if not, allowing the person to pass through the second detection area. The behavior that the person who shelters from the storage battery carries the storage battery and gets into enclosure space can be discerned, the rate of accuracy to the storage battery detection is improved.

Description

Identification detection method and system for preventing shielding storage battery from entering enclosed space

Technical Field

The invention relates to the technical field of video identification and RFID detection, in particular to an identification and detection method and system for preventing a shielded storage battery from entering a closed space.

Background

The battery management of the battery car in the existing solution garden has the following problems:

1) The monitoring granularity subdivision is insufficient: in the prior art, safety management on closed spaces such as a storage battery car entering a garden and a building elevator mainly aims at the storage battery car, if a camera is additionally arranged, the storage battery car is identified by utilizing an image algorithm such as target detection, and the safety risk is mainly caused by the fact that the storage battery (a plurality of lithium batteries) on the storage battery car is rather than the car body, and the situation that the storage battery is taken down manually and then independently carried into the closed space cannot be effectively detected.

2) Most of the existing monitoring systems are in a mode of recognizing the battery car by the aid of cameras, and detection accuracy cannot be practically applied due to the fact that two problems exist in the battery car which is carried by a camera detector alone: the detection effect of the camera is seriously affected by shielding, for example, visual target recognition is carried out, and the camera cannot effectively detect when a battery car or a battery is shielded by manually using a plurality of modes such as a knapsack, a coat, an umbrella or a body; the problem that the damage scene cannot be detected or identified after the tag is manually removed or moved or the reader-writer is damaged exists by relying on the RFID alone.

Disclosure of Invention

The invention aims to provide a method and a system for identifying and detecting the shielding-preventing storage battery entering into a closed space, which can prevent people from carrying the storage battery into the closed space of a building and the like and improve the accuracy of detection of the storage battery.

In order to achieve the above object, the present invention provides the following solutions:

the invention provides a method for identifying and detecting whether a shielding storage battery enters a closed space, which comprises the following steps:

performing label identification detection on the storage battery entering the first detection area to obtain a first label number; judging whether all label information of the storage battery is detected according to the first label quantity; all label information of the storage battery is a plurality of labels which are previously installed on the storage battery, and a relation index is established based on the plurality of labels and the storage battery;

if not, the information corresponding to the storage battery is not registered, the information corresponding to the storage battery is registered, all the labels are installed on the storage battery, and the personnel are allowed to pass through the first detection area; or if the label is lack, carrying out label complement and allowing the personnel to pass through the first detection area;

if yes, allowing the person to pass through the first detection area;

when the person enters a second detection area, shooting the storage battery to obtain a first image, and identifying the number of the labels of the storage battery to obtain a second number of the labels;

inputting the first image and the second label number into a label shielding number classification network, and determining whether the person carries a storage battery or not according to an output result of the label shielding number classification network;

if yes, prohibiting the personnel from passing through the second detection area and giving an alarm;

if not, allowing the person to pass through the second detection area.

Optionally, before the "input the first image and the tag number to the tag occlusion number classification network", the method further includes:

inputting the first image into a target detection network, and determining whether the first image contains a storage battery or not; if yes, prohibiting the personnel from passing through the second detection area and giving an alarm; if not, executing the step of inputting the first image and the second label number into a label shielding number classification network and determining whether the person carries a storage battery according to the output result of the label shielding number classification network.

Optionally, after the "simultaneously identifying the number of the tags of the battery cell and obtaining the second number of the tags", the method further includes:

judging whether the number of the second labels is larger than zero or not;

if yes, determining that the person carries the storage battery, prohibiting the person from passing through the second detection area, and giving an alarm; if not, executing the step of inputting the first image and the second label number into a label shielding number classification network and determining whether the person carries a storage battery according to the output result of the label shielding number classification network.

Optionally, the method for constructing the tag shielding quantity classification network specifically includes:

acquiring a first image obtained by shooting the storage battery when a person enters a second detection area and the number of labels obtained by carrying out label identification on the storage battery;

and taking the number of the labels as training labels of the neural network, taking the first image as a training image, taking the actual number of the blocked labels as output, and inputting the training labels, the training image and the actual number of the blocked labels into the neural network for training to obtain a classification network of the number of the blocked labels.

Optionally, after the "if yes, allowing the person to pass through the first detection area", further includes:

comparing the first image with the second image, and judging whether the label is shielded or not; the second image is an image taken before the person passes through the first detection area.

In order to achieve the above purpose, the present invention also provides the following solutions:

an identification detection system for preventing a shielded battery from entering a closed space, the system comprising: the system comprises a first label detection device, a battery management and identification subsystem, a second label detection device, a first visual detection device and an alarm device;

the first label detection device is arranged at the inlet of the first detection area and is used for identifying the number of the labels of the storage batteries entering the first detection area to obtain the first number of the labels;

the storage battery management and identification subsystem is connected with the first label detection device and is used for establishing a relation index between a plurality of labels installed on the storage battery and the storage battery, verifying the storage battery according to the number of the first labels and the relation index, displaying a verification result, and judging whether the personnel is allowed to pass through a first detection area according to the verification result; the verification result is that all label information of the battery is detected or information corresponding to the battery is not registered or labels are absent;

the second tag detection device is arranged at the entrance of the second detection area, connected with the storage battery management and identification subsystem, and used for identifying the number of tags of the storage battery entering the second detection area to obtain a second number of tags and sending the second number of tags to the storage battery management and identification subsystem;

the first visual detection device is arranged at the inlet of the second detection area, connected with the storage battery management and identification subsystem, and used for shooting the storage battery entering the second detection area to obtain a first image and transmitting the first image to the storage battery management and identification subsystem;

the storage battery management and identification subsystem is also connected with the alarm device and is used for acquiring the second label number and the first image, inputting the first image and the second label number into a label shielding number classification network and determining whether the person carries the storage battery according to the output result of the label shielding number classification network; if yes, prohibiting the personnel from passing through a second detection area, and controlling the alarm device to send an alarm signal; if not, allowing the person to pass through the second detection area.

Optionally, the system further comprises:

the second visual detection device is arranged at the entrance of the first detection area and is used for comparing the first image with the second image and judging whether the label is shielded or not; the second image is an image taken before the person passes through the first detection area.

Optionally, the tag is a flexible anti-metal RFID tag;

the first tag detection device and the second tag detection device are both RFID readers;

the first visual detection device and the second visual detection device are cameras.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

the invention provides a method and a system for identifying and detecting whether a shielding storage battery enters a closed space, wherein the method comprises the following steps: performing label identification detection on the storage battery entering the first detection area to obtain a first label number; judging whether all label information of the storage battery is detected according to the first label quantity; if not, the information corresponding to the storage battery is not registered, the information corresponding to the storage battery is registered, all the labels are installed on the storage battery, and the personnel are allowed to pass through the first detection area; or if the label is lack, carrying out label complement and allowing the personnel to pass through the first detection area; if yes, allowing the person to pass through the first detection area; when the person enters a second detection area, shooting the storage battery to obtain a first image, and identifying the number of the labels of the storage battery to obtain a second number of the labels; inputting the first image and the second label number into a label shielding number classification network, and determining whether the person carries a storage battery or not according to an output result of the label shielding number classification network; if yes, prohibiting the personnel from passing through the second detection area and giving an alarm; if not, allowing the person to pass through the second detection area. The method combining visual detection and label detection can identify the behavior that people shielding the battery carry the battery into the closed space, and improves the accuracy of battery detection.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of an identification detection method for preventing a shielded battery from entering a closed space;

FIG. 2 is a schematic diagram of a module structure of an identification and detection system for preventing a shielded battery from entering a closed space;

FIG. 3 is a schematic diagram of a battery cell according to the present invention;

FIG. 4 is a schematic diagram of the division of the subareas of each face of the battery cell of the present invention;

fig. 5 is a schematic diagram of a label structure according to an embodiment of the present invention.

Symbol description:

the system comprises a first label detection device-1, a battery management and identification subsystem-2, a second label detection device-3, a first visual detection device-4, an alarm device-5, a first side-6, a second side-7, a third side-8, a fourth side-9, a fifth side-10, a sixth side-11, a handle-12, a covering layer-13, a label-14 and an adhesive tape-15.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention aims to provide a method and a system for identifying and detecting the shielding-preventing storage battery entering into a closed space, which can prevent people from carrying the storage battery into the closed space of a building and the like and improve the accuracy of detection of the storage battery.

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

As shown in FIG. 1, the invention provides a method for identifying and detecting the entering of a shielding storage battery into a closed space, which comprises the following steps:

s1: performing label identification detection on the storage battery entering the first detection area to obtain a first label number; judging whether all label information of the storage battery is detected according to the first label quantity; all the tag information of the battery is a plurality of tags which are previously installed on the battery, and a relation index is established based on the plurality of tags and the battery.

S2: if all the tag information of the storage battery is not detected, indicating that the information corresponding to the storage battery is not registered, registering the information corresponding to the storage battery, installing all the tags on the storage battery, and allowing the personnel to pass through a first detection area; or indicate the lack of a tag, make-up of the tag and allow the person to pass through the first detection zone.

S3: and if all the label information of the storage battery is detected, allowing the personnel to pass through a first detection area.

S4: when the person enters the second detection area, shooting the storage battery to obtain a first image, and meanwhile, identifying the number of the labels of the storage battery to obtain a second number of the labels.

S5: inputting the first image and the second label number to a label shielding number classification network, and determining whether the person carries a storage battery according to an output result of the label shielding number classification network.

S6: and if the person carries the storage battery, prohibiting the person from passing through the second detection area and giving an alarm.

S7: and if the person does not carry the battery, allowing the person to pass through the second detection area.

Further, the output result of the label shielding quantity classification network is:

1) Personnel carry the battery and do not shade the label;

2) Personnel carry the battery and cover a label;

3) Personnel carry the battery and shade 2 labels;

4) Personnel carry the storage battery and shade … … labels;

5) Personnel carry the storage battery and shield n labels, wherein n is the number of all labels;

6) Personnel do not carry the battery.

And determining whether the current personnel carry the storage battery or not according to the output result of the label shielding quantity classification network.

Preferably, before the "input the first image and the tag number to the tag occlusion number classification network", the method further includes:

inputting the first image into a target detection network, and determining whether the first image contains a storage battery or not; if yes, prohibiting the personnel from passing through the second detection area and giving an alarm; if not, executing the step of inputting the first image and the second label number into a label shielding number classification network and determining whether the person carries a storage battery according to the output result of the label shielding number classification network.

Preferably, after the "simultaneously identifying the number of the labels of the battery cell and obtaining the second number of the labels", the method further includes:

and judging whether the number of the second labels is larger than zero.

If yes, determining that the person carries the storage battery, prohibiting the person from passing through the second detection area, and giving an alarm; if not, executing the step of inputting the first image and the second label number into a label shielding number classification network and determining whether the person carries a storage battery according to the output result of the label shielding number classification network.

Further, the method for constructing the label shielding quantity classification network specifically comprises the following steps:

and acquiring a first image obtained by shooting the storage battery when a person enters a second detection area and the number of labels obtained by carrying out label identification on the storage battery.

And taking the number of the labels as training labels of the neural network, taking the first image as a training image, taking the actual number of the blocked labels as output, and inputting the training labels, the training image and the actual number of the blocked labels into the neural network for training to obtain a classification network of the number of the blocked labels. Specifically, through carrying out discernment to the label quantity on the storage battery and detecting, shoot the first image of this moment of detection simultaneously, through the label quantity of will discerning and first image input to the label and shelter from quantity classification network, the label shelters from quantity classification network and detects whether personnel carry the unusual action of storage battery visually. Personnel carry and shelter from the storage battery and belong to an abnormal behavior, the behavior that personnel shelter from the label has been implied, for example consider the condition that the label is sheltered from by human body position, only one or a few labels are blocked basically normally phenomenon, and shelter from all labels, need human bigger area, say hold the storage battery in the pocket against the camera or carry the storage battery in the package, this just belongs to abnormal behavior. The abnormal behavior of the battery is detected by training the classification network of the abnormal behavior by using the quantity of the blocked labels.

Preferably, after the "if yes, allowing the person to pass through the first detection area", further includes:

comparing the first image with the second image, and judging whether the label is shielded or not; the second image is an image taken before the person passes through the first detection area. Specifically, when the difference value of the number of the labels in the first image and the second image exceeds a set threshold value, the personnel is considered to shade the labels when entering the second detection area, and whether the personnel has label shading behaviors or not is monitored visually.

According to the invention, two detection areas are identified and divided aiming at the storage battery entering a closed space scene, so that the purposes of preventing the tag from being damaged and detecting whether tag information is complete are achieved. In an embodiment of the present invention, the first detection area is an open space such as a gate of a campus, and the second detection area is a closed space such as: building, elevator, etc. The number of battery labels in the first detection area is detected to ensure that the passed battery has complete label information.

In order to achieve the above purpose, the present invention also provides the following solutions:

as shown in FIG. 2, the identification and detection system for preventing a shielded storage battery from entering a closed space comprises: a first tag detection apparatus 1, a battery management and identification subsystem 2, a second tag detection apparatus 3, a first visual detection apparatus 4 and an alarm apparatus 5.

The first tag detection apparatus 1 is installed at an entrance of a first detection area, and is configured to perform tag number identification on a battery entering the first detection area, so as to obtain a first tag number.

The battery management and identification subsystem 2 is connected with the first tag detection device 1 and is used for establishing a relation index between a plurality of tags installed on a battery and the battery, verifying the battery according to the number of the first tags and the relation index, displaying a verification result, and judging whether the person is allowed to pass through a first detection area according to the verification result; and the verification result is that all label information of the battery is detected or information corresponding to the battery is not registered or labels are absent. Specifically, if the verification result is that all the label information of the storage battery is detected, allowing the personnel to pass through a first detection area; if the verification result is that the information corresponding to the storage battery is not registered, the information corresponding to the storage battery is manually registered, all the labels are installed on the storage battery, and the personnel are allowed to pass through the first detection area; if the verification result is that the label is absent, the label is manually supplemented to the storage battery, and the personnel is allowed to pass through the first detection area. Wherein, the storage battery management and identification subsystem 2 registers the information such as the license plate number of the storage battery, the storage battery information, the RFID label information, the car owner information and the like.

The second tag detection device 3 is installed at the entrance of the second detection area, connected with the battery management and identification subsystem 2, and is used for identifying the number of tags of the battery entering the second detection area, obtaining a second number of tags, and sending the second number of tags to the battery management and identification subsystem 2.

The first visual detection device 4 is installed at the entrance of the second detection area, is connected with the battery management and identification subsystem 2, and is used for shooting the battery entering the second detection area to obtain a first image, and sending the first image to the battery management and identification subsystem 2.

The battery management and identification subsystem 2 is further connected with the alarm device 5, and is used for acquiring the second label number and the first image, inputting the first image and the second label number into a label shielding number classification network, and determining whether the person carries a battery according to an output result of the label shielding number classification network; if yes, prohibiting the personnel from passing through a second detection area, and controlling the alarm device to send an alarm signal; if not, allowing the person to pass through the second detection area.

Preferably, the system further comprises: and a second visual inspection device.

The second visual detection device is arranged at the entrance of the first detection area and is used for comparing the first image with the second image and judging whether the label is shielded or not; the second image is an image taken before the person passes through the first detection area. Preferably, in the embodiment of the present invention, the first label detecting apparatus 1, the second label detecting apparatus 3, the first visual detecting apparatus 4, the alarm apparatus 5 and the second visual detecting apparatus may be provided in plurality according to actual situations.

Further, in a specific embodiment of the present invention, the tag is a flexible anti-metal RFID tag.

The first tag detection device and the second tag detection device are both RFID readers.

The first visual detection device and the second visual detection device are cameras.

In addition, the above-mentioned schemes and effects that can be achieved by means of bluetooth, wireless, GPS, etc. are also within the scope of the present invention, and are not limited herein.

Further, in a specific embodiment of the present invention, a method for installing a tag of a battery includes:

dividing each outer surface of the storage battery and the handle into a plurality of sub-areas, arbitrarily selecting the plurality of sub-areas to form an area combination, and installing corresponding labels on the outer surfaces of the corresponding area combinations. Fig. 3 is a schematic diagram of a battery structure, and fig. 4 is a schematic diagram of division of each surface sub-area of the battery according to the present invention, for example, the A1 area of the first side 6 and the D2 area of the fifth side 10 are matched, and the D2 areas of the handle 12 and the fourth side 9 are matched, so that a method for installing multiple diagonal areas of multiple surfaces can be implemented, and the flexible combination of the above installation methods can effectively avoid blocking RFID tags by multiple carrying modes of different battery cars, batteries with different shapes and people. A plurality of labels are arranged on the storage battery according to the scheme, and the storage battery which is manually carried into the closed space is comprehensively detected through the label detection device and the visual detection device.

Considering storage battery size, different appearance, and need avoid punching etc. mounting means on user's storage battery to cause the destruction to user's storage battery, so use to paste and the fixed mode of ribbon, the facilitate mounting is on the shell of the storage battery of different appearance and size.

Further, as shown in fig. 5, in the embodiment of the present invention, the label 15 is wrapped by the covering layer 14, and is fixed on the corresponding sub-area of the battery by using the adhesive tape 16. The adhesive tape 16 is an adhesive tape conforming to the IP protection grade and the industrial grade, and can play a role in water, dust and corrosion prevention. Meanwhile, the outer layer adhesive tape is printed with striking picture symbols such as LOGO in the park and the like, so that management staff and other staff can conveniently visually transact the picture symbols.

Further, the adapter is a device for fixing the tag on the surface of the storage battery, and can be in various forms such as a screw-fixed base, a binding belt or an adhesive base.

When the battery label is completely and deliberately shielded or damaged by a person, the visual detection device is used for identifying through the target detection network, and the related objects of the battery, such as an electric vehicle, a battery and the like, when the vision is shielded can be detected. When the storage battery is also shielded in vision, the storage battery is detected through the label shielding quantity classification network, and the storage battery can be effectively identified when the storage battery cannot be detected by virtue of visual detection and label identification alone, so that the detection accuracy is improved.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The principles and embodiments of the present invention have been described herein with reference to specific examples, the description of which is intended only to assist in understanding the methods of the present invention and the core ideas thereof; also, it is within the scope of the present invention to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the invention.

Claims (8)

1. An identification detection method for preventing a shielded storage battery from entering a closed space is characterized by comprising the following steps:

performing label identification detection on the storage battery entering the first detection area to obtain a first label number; judging whether all label information of the storage battery is detected according to the first label quantity; all label information of the storage battery is a plurality of labels which are previously installed on the storage battery, and a relation index is established based on the plurality of labels and the storage battery;

if not, the information corresponding to the storage battery is not registered, the information corresponding to the storage battery is registered, all the labels are installed on the storage battery, and personnel are allowed to pass through the first detection area; or if the label is lack, carrying out label complement and allowing the personnel to pass through the first detection area;

if yes, allowing the person to pass through the first detection area;

when the person enters a second detection area, shooting the storage battery to obtain a first image, and identifying the number of the labels of the storage battery to obtain a second number of the labels;

inputting the first image and the second label number into a label shielding number classification network, and determining whether the person carries a storage battery or not according to an output result of the label shielding number classification network;

if yes, prohibiting the personnel from passing through the second detection area and giving an alarm;

if not, allowing the person to pass through the second detection area.

2. The method for detecting and identifying the entry of the shielding battery into the closed space according to claim 1, further comprising, before the step of inputting the first image and the second label number into the label shielding number classification network:

inputting the first image into a target detection network, and determining whether the first image contains a storage battery or not; if yes, prohibiting the personnel from passing through the second detection area and giving an alarm; if not, executing the step of inputting the first image and the second label number into a label shielding number classification network and determining whether the person carries a storage battery according to the output result of the label shielding number classification network.

3. The method for identifying and detecting the shielding-prevention storage battery entering the closed space according to claim 1, wherein after the step of identifying the number of the labels of the storage battery to obtain the second number of the labels, the method further comprises the steps of:

judging whether the number of the second labels is larger than zero or not;

if yes, determining that the person carries the storage battery, prohibiting the person from passing through the second detection area, and giving an alarm; if not, executing the step of inputting the first image and the second label number into a label shielding number classification network and determining whether the person carries a storage battery according to the output result of the label shielding number classification network.

4. The method for identifying and detecting the entry of the storage battery into the closed space, which is prevented from being blocked, according to claim 1, is characterized in that the method for constructing the label blocking quantity classification network specifically comprises the following steps:

acquiring a first image obtained by shooting the storage battery when a person enters a second detection area and the number of labels obtained by carrying out label identification on the storage battery;

and taking the number of the labels as training labels of the neural network, taking the first image as a training image, taking the actual number of the blocked labels as output, and inputting the training labels, the training image and the actual number of the blocked labels into the neural network for training to obtain a classification network of the number of the blocked labels.

5. The method for detecting and identifying the entry of a battery into an enclosed space as defined in claim 1, further comprising, after said "if so, allowing said person to pass through a first detection zone:

comparing the first image with the second image, and judging whether the label is shielded or not; the second image is an image taken before the person passes through the first detection area.

6. An identification and detection system for preventing a shielded battery from entering a closed space, the system comprising: the storage battery management and identification subsystem, the first label detection device, the second label detection device, the first visual detection device and the alarm device;

the first label detection device is arranged at the inlet of the first detection area and is used for identifying the number of the labels of the storage batteries entering the first detection area to obtain the first number of the labels;

the storage battery management and identification subsystem is connected with the first label detection device and is used for establishing a relation index between a plurality of labels installed on the storage battery and the storage battery, verifying the storage battery according to the number of the first labels and the relation index, displaying a verification result, and judging whether personnel are allowed to pass through a first detection area according to the verification result; the verification result is that all label information of the battery is detected or information corresponding to the battery is not registered or labels are absent;

the second tag detection device is arranged at the entrance of the second detection area, connected with the storage battery management and identification subsystem, and used for identifying the number of tags of the storage battery entering the second detection area to obtain a second number of tags and sending the second number of tags to the storage battery management and identification subsystem;

the first visual detection device is arranged at the inlet of the second detection area, connected with the storage battery management and identification subsystem, and used for shooting the storage battery entering the second detection area to obtain a first image and transmitting the first image to the storage battery management and identification subsystem;

the storage battery management and identification subsystem is also connected with the alarm device and is used for acquiring the second label number and the first image, inputting the first image and the second label number into a label shielding number classification network and determining whether the person carries the storage battery according to the output result of the label shielding number classification network; if yes, prohibiting the personnel from passing through a second detection area, and controlling the alarm device to send an alarm signal; if not, allowing the person to pass through the second detection area.

7. The system for identifying and detecting the entry of a blocked battery into an enclosed space of claim 6, further comprising:

the second visual detection device is arranged at the entrance of the first detection area and is used for comparing the first image with the second image and judging whether the label is shielded or not; the second image is an image taken before the person passes through the first detection area.

8. The system for identifying and detecting the entry of a blocked battery into a closed space according to claim 6, wherein the tag is a flexible anti-metal RFID tag;

the first tag detection device and the second tag detection device are both RFID readers;

the first visual detection device and the second visual detection device are cameras.