KR20230125952A - System for visitor management of cultivation facility using the display device - Google Patents

Abstract

The present invention relates to a visitor management system for a cultivation facility using a display device, which detects body temperature information and at least one body information of the visitor and blocks access by the visitor using a transparent door and a door fastening module, and an access door device. A display device that displays an image of a visitor who has entered or is blocked from entering through the system, body temperature and body information of the visitor, identification or unidentified information, and sequentially checking the body temperature information of the visitor, at least one piece of body information, and identification information It includes a monitoring management device that transmits an access blocking signal for unidentified visitors to the door fastening module, which controls the access of cultivation facilities to prevent unspecified viruses from propagating to cultivated crops and damage that hinders crop growth. there is.

Description

Accessor management system for cultivation facilities using a display device {SYSTEM FOR VISITOR MANAGEMENT OF CULTIVATION FACILITY USING THE DISPLAY DEVICE}

The present invention relates to a visitor management system for cultivation facilities using a display device.

In general, an access control and management system is a security device installed to identify the identity of an entrant and allow or block entry to a corresponding area or space. .

Recently, an access control and management system has been used to prevent the spread of infectious diseases such as viruses. For example, a technology to control the access of users who are at risk of infection in advance by providing a device that can measure the user's body temperature at the entrance. this is being applied. In addition, in order to limit the movement of other users who have visited the area visited by confirmed persons and to induce infection tests, information on the personal identities of users entering and exiting is required to be recorded.

A conventional access control and management system uses a thermal imaging camera or the like to control the access of a user who is likely to transmit a virus in advance by measuring body temperature. However, the access control system simply using a thermal imaging camera has a problem in that it is impossible to physically control and identify the visitor. Accordingly, in the prior art, even if an access management system that simply monitors the body temperature of visitors is applied, there is a problem in that more management personnel are required to separately manage access control.

Various embodiments of the present invention are to solve the above problems, to provide an access control system for cultivation facilities using a display device capable of blocking damage that hinders crop growth by propagation of unspecified viruses to cultivated crops.

In addition, to provide a visitor management system for cultivation facilities using a display device capable of controlling visitors so that viruses or infectious diseases are not spread among workers in a closed workspace.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below. You will be able to.

A visitor management system for a cultivation facility using a display device according to various embodiments of the present invention includes an access door device that detects body temperature information and at least one body information of the visitor and blocks access of the visitor using a transparent door and a door fastening module; a display device displaying images of a person entering or being blocked through the door device, body temperature and body information of the person, and identification or unidentified information; and a monitoring management device that sequentially checks body temperature information, at least one piece of body information, and identification information of the entrant and transmits an access blocking signal for an unidentified entrant to a door fastening module.

The entrance door device includes a thermal image sensing module that is disposed in the front direction of the entrance door device to photograph front-facing visitors with a thermal imaging camera and generates and transmits thermal images of the visitors; a transparency sensing module that induces a push operation of front-facing visitors and detects fingerprint images of the visitors; and an infrared sensing module that detects body part pattern images of the front direction entrants under the control of the monitoring management device.

With the visitor management system for a cultivation facility using a display device according to various embodiments of the present invention, it is possible to prevent unspecified viruses from propagating to cultivated crops and damage that hinders crop growth by controlling visitors.

In addition, with the access management system for cultivation facilities using a display device, it is possible to control access to prevent transmission of viruses or infectious diseases among workers in a closed workspace using the display device.

The effects obtainable in the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description below. will be.

1 is a configuration diagram showing a visitor management system for a cultivation facility using a display device according to an embodiment of the present invention.
FIG. 2 is a detailed block diagram of the visitor management system for the cultivation facility shown in FIG. 1 .
FIG. 3 is a diagram for explaining a block activation method of the transparent sensing panel shown in FIGS. 1 and 2 .
FIG. 4 is a diagram illustrating a detailed structure of the transparent sensing panel shown in FIGS. 1 and 2 and a method of detecting fingerprint information.
5 is a diagram for explaining a method of setting sensing direction coordinates of the infrared sensing module shown in FIGS. 1 and 2 .
FIG. 6 is a diagram for explaining a method of detecting visitor identification information of the sensing information analysis unit shown in FIG. 2 .

The above objects, features and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention belongs will be able to easily implement the technical spirit of the present invention. In describing the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

It will be understood that each of the building blocks and combinations of blocks in the drawings can be performed by computer program instructions. These computer program instructions may be embodied in a processor of a general purpose computer, special purpose computer, or other programmable data processing equipment, so that the instructions executed by the processor of the computer or other programmable data processing equipment are described in the flowchart block(s). It creates means to perform functions.

Hereinafter, a visitor management system for a cultivation facility using a display device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram showing a visitor management system for a cultivation facility using a display device according to an embodiment of the present invention. And FIG. 2 is a configuration block diagram showing in detail the visitor management system for the cultivation facility shown in FIG.

Referring to FIGS. 1 and 2 , the access control system for cultivation facilities includes an access door device 100 , a display device 201 , and a monitoring management device 300 .

The access door device 100 installed at the entrance of a cultivation facility that grows cultivated crops detects the body temperature of the visitor and body information on a part of the visitor's body, and uses the transparent door and door fastening module 140 to enter and exit the visitor. can be blocked or controlled.

The display device 201 selectively displays an image of a person entering or exiting through the door device 100, and the body temperature and detected body information of the person. In addition, the display device 201 selectively displays identification result information or non-confirmation information on the person entering or exiting the room.

At least one video camera 110 such as a CCD camera may be mounted on the display device 201, or at least one video camera 110 may be built into the display device 201. Unlike this, at least one video camera 110 may be disposed in a form mounted on at least one side or top of the entrance door device 100, or may be mounted on a separate cradle or the like.

The display device 201 displays an image captured in the front direction of the entrance door device 100 captured by at least one video camera 110 as a background image. At this time, the display device 201 displays image data input from the monitoring management device 300 as an image under the control of the monitoring management device 300 . Therefore, the display device 201 can selectively display information on the body temperature of the visitor, fingerprint or body pattern information of the visitor, and identification information along with an image of the visitor who has entered or is blocked from entering.

The display device 201 may include a portable electronic device such as a Tablet Personal Computer (Tablet PC), a Portable Multimedia Player (PMP), and an Ultra Mobile PC (UMPC). Also, the display device 201 may be configured as a flat panel display device such as a television, a laptop computer, or a monitor.

The monitoring management device 300 receives at least one piece of body information such as a thermal image detection image, fingerprint information, and body pattern information of a person detected through various sensor modules and camera modules formed in the entrance door device 100 . In addition, the monitoring management device 300 sequentially checks at least one piece of body information such as body temperature information, fingerprint information, and body pattern information of the visitor, and identification information, and identifies the visitor whose identity is confirmed and the identity of the unidentified visitor. select the person The monitoring management device 300 selectively displays on the display device 201 body temperature information, at least one piece of body information, and identification or unconfirmed result information for an identified entrant and an unidentified person. Data is generated and supplied to the display device 201 .

The monitoring management device 300 immediately transmits an access blocking signal to the door fastening module 140 when an unidentified person is selected, so that the transparent door and the entrance door device 100 are fixed by the door fastening module 140. and lock. In this way, the door fastening module 140 responds immediately to the access blocking signal and fixes the transparent door and the entry/exit door device 100 to a fixing frame on the floor, etc., so that an unknown person can be prevented from passing through the entry/exit door device 100. there is.

Hereinafter, detailed components of the entrance door device 100, the display device 201, and the monitoring management device 300 and driving characteristics of each component will be described in more detail.

Referring to FIG. 2 together with FIG. 1 , the entrance door device 100 includes a thermal image sensing module 101 , a transparency sensing module 210 , and an infrared sensing module 102 .

The thermal image sensing module 101 includes at least one thermal image camera. The thermal image sensing module 101 may be disposed in a form mounted on at least one side or top of the entrance door device 100, or may be mounted on a separate cradle.

The thermal image sensing module 101 is disposed in the front direction of the entrance door device 100 to take pictures of people entering the front direction with a thermal imaging camera and to generate thermal images of the people entering and exiting the room. Thermal images of people approaching the entrance door device 100 are sequentially transmitted to the monitoring management device 300 .

The transparency sensing module 210 is patterned on a transparent glass panel, silicon panel, or transparent film to form a transparent see-through type. The transparency sensing module 210 may be integrally formed with the transparent door of the entrance door device 100 or attached to the front surface of the transparent door in a transparent manner.

The transparency sensing module 210 is configured to be transparent together with the transparent door, and detects a fingerprint image of the visitor contacting the transparency sensing module 210 when the visitor pushes the transparent door to open the transparent door. The transparency sensing module 210 detects a user's fingerprint detection signal through a plurality of optical photodiodes and light emitting diodes patterned in a matrix structure on a transparent glass panel, silicon panel, or transparent film, and digitally converts the fingerprint detection signal into a fingerprint image. generate data The transparency sensing module 210 transmits the fingerprint image of the visitor detected in real time to the monitoring management device 300 .

The infrared sensing module 102 is disposed in the front direction of the entrance door device 100 and, under the control of the monitoring management device 300, photographs the front direction visitors with at least one infrared camera, and captures the faces and other bodies of the visitors. Detect pattern images for some parts. Pattern images of body parts such as eyebrows or pupils of people facing the entrance door device 100 are sequentially transmitted to the monitoring management device 300 .

The monitoring management device 300 includes a height analysis module 301, a block activation driver 311, a sensing direction coordinate setting unit 313, an infrared image analysis module 314, a sensing information analysis unit 320, and a database 331. ), a door control module 131, and a central processing unit 340.

The height analysis module 301 analyzes the thermal image of the visitor and detects body temperature information on a part where the body temperature is the highest, for example, a part of the person's face. The height analysis module 301 analyzes color temperature, saturation, brightness information, etc. of the thermal image to detect body temperature information for a region where the body temperature is the highest. The detected body temperature information is supplied to the sensing information analysis unit 320 and the central processing unit 340 in real time.

The height analysis module 301 analyzes the thermal image of the visitor received from the thermal image sensing module 101 to detect height information on the part of the visitor's face where the body temperature is the highest.

Specifically, the height analysis module 301 analyzes the thermal image of the person entering or exiting the room in units of at least one frame by using distance information between a preset thermal image camera and a central point of the thermal image. At this time, the height analysis module 301 detects the height of the central point of one frame of the thermal image compared to the height of the thermal imaging camera by using distance information between the thermal imaging camera and the central point of the thermal image. Then, the height of the central point of the thermal image relative to the ground, the height of the central point of the thermal image relative to the thermal imaged visitor's face, and the information on the height of the visitor's face compared to the ground are sequentially detected. The finally analyzed and detected height information of the person's face compared to the ground is transmitted to the block activating driver 311 and the sensing direction coordinate setting unit 313, respectively.

The block activation driver 311 divides the plane area of the transparency sensing module 210 into a plurality of preset sensing block areas, and activates at least one sensing block area to detect a fingerprint image in the at least one sensing block area. make it drive

FIG. 3 is a diagram for explaining a block activation method of the transparent sensing panel shown in FIGS. 1 and 2 . 4 is a diagram showing a detailed structure of the transparent sensing panel shown in FIGS. 1 and 2 and a fingerprint information detection method.

Referring to FIGS. 3 and 4 , when height information of a person's face compared to the ground is received through the height analysis module 301, the block activating driver 311 sets the height information (or height value) of the face previously set to the height information (or height value) of the face. The length value (Ph1 or Ph2) of the face part is calculated by adding or subtracting the average face radius length value. Then, the height value and length value (Hw1 or Hw2) of the user's push prediction area are calculated by subtracting a length value at least 1 times the length value (Ph1 or Ph2) of the face part from the height information (or height value) of the face part. do.

The push height of the visitor may be made at a height corresponding to the chest or stomach of the visitor. Accordingly, the block activation driving unit 311 lowers and subtracts at least one length value of the face length value (Ph1 or Ph2) from the height value of the person's face, thereby determining the height value of the person's push prediction area (chest or stomach) and A length value (Hw1 or Hw2) can be calculated.

The block activation driver 311 divides and divides the plane area of the transparency sensing module 210 into a plurality of preset sensing block areas BL1 to BLn. Here, n is a natural number greater than or equal to 2.

The block activation driver 311 is configured to detect a push in at least one detection block region corresponding to the height value and length value (Hw1 or Hw2) of a user's push prediction region (chest or stomach region) among a plurality of detection block regions BL1 to BLn. At least one sensing block area is activated and driven so that a fingerprint image can be detected. At this time, the block activating driver 311 supplies touch driving signals to at least one sensing block area BL22 corresponding to the height value and length value (Hw1 or Hw2) of the predictive push area of the person entering or leaving the user. Accordingly, the transparency sensing module 210 receives touch sensing signals from at least one sensing block area BL22 to which the touch driving signals are supplied, and converts the touch sensing signals into digital signals to generate a fingerprint image and fingerprint image data. can

Referring to FIG. 4 , the transparency sensing module 210 may be divided into a plurality of sensing block areas BL1 to BLn.

Each of the sensing block regions BL1 to BLn includes a plurality of contact driving wires DVn arranged in parallel in a horizontal direction, and a plurality of touch sensing wires arranged in parallel in a vertical direction to intersect the plurality of contact driving wires DVn. (SVn), a plurality of contact driving wires (DVn) and a plurality of contact sensing wires (SVn) formed in intersection areas, respectively, and electrically connected to one of the contact driving wires (DVn) and the touch sensing wires (SVn). An optical photodiode (PDn) is included.

When a contact driving signal is input from one contact driving line DVn connected to each of the plurality of optical photodiodes PDn, a voltage value or current amount corresponds to the capacitance that varies according to the shape of the front fingerprint contacted on the front surface and the contact pressure. This varied touch sensing signal is transmitted to each touch sensing wire (SVn). The transparency sensing module 210 converts the touch sensing signals detected by each touch sensing line (SVn) into digital signals according to the amount of current or voltage, patterns them in a preset frame size, and generates fingerprint images and fingerprint image data. do.

At least one light emitting electrically connected to each of the touch driving wires DVn and the touch sensing wires SVn is provided in at least one intersection area among the intersection areas of the plurality of touch driving wires DVn and the plurality of touch sensing wires SVn. A diode LE is further included.

When a touch driving signal is input from the contact driving line DVn, the at least one light emitting diode LE emits light according to a voltage difference between the contact driving signal and the voltage of the touch sensing line SVn. In this way, when at least one light emitting diode LE emits light, the visitor checks at least one sensing block area BL22 where at least one light emitting diode LE emits light as a sensing block area BL22 for fingerprint sensing. and push.

The direction coordinate setting unit 313 sets the detection direction of the body part pattern image of the infrared sensing module 102 and the coordinate information on the detection direction and transmits it to the infrared sensing module 102 .

5 is a diagram for explaining a method of setting sensing direction coordinates of the infrared sensing module shown in FIGS. 1 and 2 .

Referring to FIG. 5 , the sensing direction coordinate setting unit 313 divides the entire thermal image sensing area according to the total sensing height and width of the thermal image sensing module 101 into a plurality of preset detection areas IM1 to IMn, distinguish

The sensing direction coordinate setting unit 313 receives height information of the user's face compared to the ground through the height analysis module 301 . The sensing direction coordinate setting unit 313 detects at least one detection area IMb corresponding to the height information of the user's face from among a plurality of previously divided detection areas IM1 to IMn.

The sensing direction coordinate setting unit 313 includes block arrangement information and sensing direction coordinates for at least one detection area IMb corresponding to the height information of the person's face among a plurality of previously divided detection areas IM1 to IMn. Information (B(x,y)) is generated and transmitted to the infrared sensing module 102.

FIG. 6 is a diagram for explaining a method of detecting visitor identification information of the sensing information analysis unit shown in FIG. 2 .

Referring to FIG. 6, the infrared sensing module 102 receives block arrangement information or sensing direction coordinate information (B(x,y)) for at least one detection area IMb corresponding to the height information of the person's face. It is received from the sensing direction coordinate setting unit 313.

The infrared sensing direction of the infrared sensing module 102 may be converted and changed by an integrally formed or assembled direction changing device. The infrared sensing direction of the infrared sensing module 102 is converted to a direction corresponding to at least one detection area IMb corresponding to the height information of the person's face or sensing direction coordinate information (B(x,y)). .

The infrared sensing module 102 uses an infrared optical method to detect at least one detection area (IMb) or a pattern for a body part of a visitor located in a direction corresponding to the sensing direction coordinate information (B(x,y)). detect

Specifically, the infrared sensing module 102 includes a plurality of light emitting units for emitting infrared light using a plurality of infrared light sources, and at least one detection area IMb, or sensing direction coordinate information (B(x,y)) and a plurality of light-receiving units for detecting infrared light reflected from the face, eyebrows, and pupils of the visitor located in a direction corresponding to .

The plurality of infrared light sources included in the light emitting unit are composed of an infrared LED array having a matrix structure. And, the light receiving unit includes a plurality of lenses that focus infrared light reflected from the face, eyebrows, and pupils of the visitor, and a plurality of optical image sensors that convert optical images received through the plurality of lenses into electrical image signals and output them. do. Here, the plurality of optical image sensors may be configured in a matrix structure array (eg, an array of SS1 to SSn blocks shown in FIG. 6 ) similar to the infrared LED array of the light emitting unit.

A plurality of optical image sensor arrays (arrays of SS1 to SSn blocks) may provide shape data of eyebrow and pupil patterns to the infrared image analysis module 314 according to infrared rays reflected from a person's face, eyebrows, and pupils. In other words, the light receiving unit of the infrared sensing module 102 continuously detects the eyebrow and pupil patterns according to the control of the sensing direction coordinate setting unit 313 and the movement of the direction changing device, and continuously generates shape data of the eyebrow and pupil patterns. It can be generated and provided to the infrared image analysis module 314 .

The infrared image analysis module 314 detects a body part pattern image for the shape data of the eyebrow and pupil patterns, that is, the eyebrow and pupil pattern image of the visitor. Then, at least one of eyebrow thickness information, eyebrow length information, eyebrow distance information, pupil width information, and inter-pupillary distance information is detected from the eyebrow and pupil pattern image and transmitted to the sensing information analyzer 320. .

The sensing information analysis unit 320 checks the identity information of the visitor using the fingerprint image and body part feature information.

Specifically, the sensing information analysis unit 320 compares the fingerprint image or fingerprint image data detected through the transparency sensing module 210 with the fingerprint images or fingerprint image data of the authorized persons stored in the database 331, respectively, and , Detects the identity information of the person compared similarly within a preset error range. If the identification information is not detected, an unconfirmed result signal is transmitted to the central processing unit 340 and the door control module 131.

The sensing information analyzer 320 converts at least one of eyebrow thickness information, eyebrow length information, distance information between eyebrows, pupil width information, and distance information between pupils detected through the infrared image analysis module 314 to data. It is sequentially compared with at least one of eyebrow thickness information, eyebrow length information, distance information between eyebrows, pupil width information, and distance information between pupils stored in the base 331 . Then, the identity information of the user similarly compared within a preset error range is detected. If the identification information is not detected, an unconfirmed result signal is transmitted to the central processing unit 340 and the door control module 131.

The sensing information analysis unit 320 compares identity information detected by comparing fingerprint images or fingerprint image data, and identity information detected by comparing pupil and eyebrow image patterns. Then, if the identity information detected by comparing the fingerprint image or fingerprint image data and the identity information detected by comparing the pupil and eyebrow image patterns are the same, the identity verification visitor information is transmitted to the central processing unit 340. . On the other hand, if the identity information detected by comparing the fingerprint image or fingerprint image data and the identity information detected by comparing the pupil and eyebrow image patterns are different, an unconfirmed result signal is transmitted to the central processing unit 340 .

The central processing unit 340 generates image data so that the body temperature detection information of the visitor, at least one body information such as a fingerprint or body part pattern, and identification or non-confirmation result information are selectively displayed on the display device 201 to display the device ( 201) is supplied.

In addition, the central processing unit 340 generates text data as text data, indicating that the identity information detected by comparing the fingerprint image or fingerprint image data and the identity information detected by comparing the pupil and eyebrow image patterns are determined differently. do. In addition, the result of unconfirmed identification information indicating that the identification information detected by comparing the fingerprint image or fingerprint image data and the identification information detected by comparing the pupil and eyebrow image patterns are different from each other is displayed as a text image on the display device 201. Text data is transmitted to the display device 201 as possible.

As described above, the access control system for cultivation facilities using the display device 201 according to an embodiment can control access to prevent unspecified viruses from propagating to cultivated crops and damage that hinders crop growth. In addition, with the access control system for cultivation facilities using the display device 201, the display device 201 can be used to control visitors so that viruses or infectious diseases are not spread among workers in a closed workspace.

As described above, the terms '~unit' and '~ module' refer to hardware components such as software or a field-programmable gate array (FPGA) or application specific integrated circuit (ASIC), and the terms '~unit' and '~ Modules' perform programmed roles. '~ unit' and '~ module' are not limited to software or hardware. As an example, '~ unit' and '~ module' include components such as software components, object-oriented software components, class components, and task components, processes, functions, properties, procedures, subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, databases, data structures, tables, arrays, and variables. Functions provided within the components and '~units' and '~modules' are combined into smaller numbers of components and '~units' and '~modules' units, or are combined with additional components and '~units'. ' and '~ modules'. In addition, components may be implemented to reproduce one or more CPUs in a device or secure multimedia card.

Embodiments of the present invention disclosed in the present specification and drawings are merely presented as specific examples to easily explain the technical content of the present invention and help understanding of the present invention, and are not intended to limit the scope of the present invention. In addition, the embodiments according to the present invention described above are merely illustrative, and those skilled in the art will understand that various modifications and embodiments of equivalent range are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined by the following claims.

100: entrance door device 101: thermal image sensing module
102: infrared sensing module 110: video camera
130: door control module 140: door fastening module
201: display device 210: transparency sensing module
300: monitoring management device 301: height analysis module
311: block activation driving unit 313: direction coordinate setting unit
320: sensing information analysis unit 340: central processing unit

Claims (6)

an access door device that detects body temperature information and at least one piece of body information of the visitor, and blocks access of the visitor using a transparent door and a door fastening module;
a display device displaying an image of a person entering or being blocked through the door device, body temperature and body information of the person, and identification or unidentified information; and
A visitor management system for a cultivation facility including a monitoring management device that sequentially checks the body temperature information of the visitor, the at least one body information, and the identification information and transmits an access blocking signal for an unidentified visitor to a door fastening module.
According to claim 1,
The entrance door device is
a thermal image sensing module that is disposed in the front direction of the entrance door device to photograph front-facing users with a thermal imaging camera, and generates and transmits a thermal image of the users;
a transparency sensing module for detecting fingerprint images of the persons entering the front direction by inducing a push operation; and
A visitor management system for a cultivation facility comprising an infrared sensing module for detecting body part pattern images of the front direction visitors under the control of the monitoring management device.
According to claim 2,
The monitoring management device
a height analysis module that analyzes the thermal image of the visitor received from the thermal image sensing module and detects height information on the part of the visitor's face where the body temperature is the highest;
a block activating driver configured to divide a plane area of the transparency sensing module into a plurality of preset sensing block areas and activate the detection of the fingerprint image;
a sensing direction coordinate setting unit configured to set a body part pattern image detection direction of the infrared sensing module;
an infrared image analysis module that detects body part feature information of the visitor from the body part pattern image; and
A visitor management system for a cultivation facility including a sensing information analysis unit that checks the identity information of the visitor using the fingerprint image and body part feature information.
According to claim 3,
The monitoring management device
a database for storing identification information corresponding to the fingerprint image and body part feature information;
a door control module that transmits an access blocking signal to the door fastening module according to the identification result of the sensing information analysis unit; and
A cultivation facility further comprising a central processing unit generating and supplying image data to the display device so that the body temperature detection information of the visitor, the fingerprint image, the body part pattern, and identification or non-confirmation result information are selectively displayed on the display device. Visitor management system.
According to claim 3,
The transparency sensing module
It is integrally formed with the transparent door of the entrance door device or attached to the front surface of the transparent door so as to be see-through,
A visitor management system for a cultivation facility that detects a fingerprint image of a visitor contacting the transparency sensing module when the visitor pushes the transparent door to open the transparent door.
According to claim 3,
The infrared sensing module
Under the control of the monitoring management device, the front direction entrants are photographed with at least one infrared camera,
A visitor management system for a cultivation facility that sequentially transmits pattern images of some parts of the body of the visitors to the monitoring and management device.