CN113526275A - Non-contact elevator boarding control system - Google Patents

Abstract

The invention provides a non-contact elevator boarding control system, which consists of a control circuit board, a beacon gateway and a mobile electronic device matched with an original elevator framework, and is mainly characterized in that when a user boarding an elevator enters an elevator car and scans an identification packet broadcasted by the beacon gateway in the elevator car by utilizing a customized elevator application program, the mobile electronic device of the user boarding the elevator generates a picture of a virtual key control group for the user to select for controlling the actuation of the elevator car, so that the physical keys of the elevator do not need to be touched and sounds are not needed to be sent out in the control operation, and the contact and droplet infection can be avoided.

Description

Non-contact elevator boarding control system

Technical Field

The invention relates to a non-contact elevator boarding control system, in particular to a control system for boarding an elevator by using a mobile electronic device.

Background

Due to the high development of industry and commerce, the living field of human beings is gradually expanded, and meanwhile, the activity space of human beings is also reduced, so that tall buildings are available, and an elevator is an era product under the condition, because the elevator can provide convenience for people to go up and down the tall buildings. However, when the button or the key of the direct contact push switch in the prior art is used by touching and pressing, when a user infected with epidemic diseases (including oral foam contact infectious diseases) presses the key switch of the elevator in a public space (such as department store or hospital) with his finger, germs are left on the surface of the key switch, and after the next user touches and presses the key switch, the germs can be quickly transmitted to a third person through the medium of the key switch, thereby causing a public health crisis of enlarged infection.

Referring to fig. 1, a drawing showing a taiwan patent (M509215) related to a non-contact gesture control structure for an elevator includes a circuit board 11, a set of at least two transmitters 12, 13 mounted on the circuit board 11, a set of receivers 14 mounted on the circuit board 11 and receiving signals generated by the at least two transmitters 12, 13, and a set of display units 15 mounted on the circuit board 11 and located at one side of the receivers 14, wherein the at least two transmitters 12, 13 are disposed within a circumference formed by a maximum distance between one transmitter 12, 13 of the at least two transmitters 12, 13 and the receivers 14; therefore, the control signal is generated in a non-contact mode and is output to the elevator, and the purpose of avoiding germs from remaining on the key switch is achieved.

However, the non-contact gesture control method has some disadvantages, for example, the correct gesture recognition is not easy, and the gesture operation performed by multiple people at the same time is easy to misjudge, so that the situation of misbehavior occurs, and the design is not suitable for floor selection operation in the elevator car, and as the floors of a building are higher and higher, the gesture control of the high floors is difficult to define uniformly (for example, how to definitely issue instructions by gesture control for going to the 24 th floor), and the problem of misjudgment is easy to occur when multiple people operate in the elevator car at the same time; in addition, the above design requires time to activate and limited communication distance for sensing and accurate identification during transmission, and people riding the elevator must approach the receiver, which causes continuous triggering and slight delay.

Secondly, the non-contact elevator boarding control in the market is achieved by using a voice control mode, however, for users with unique accents or local voices, the voice-controlled elevator is difficult to correctly identify and read, when the elevator is fully loaded, if a plurality of people send voice commands in a closed elevator car at the same time, besides the voice commands are difficult to correctly identify, a large amount of dense droplets are generated in the elevator car, and the passengers in the elevator car are possibly infected by the droplets.

Since the global elevator industry is dominated by several major factories, the main control systems of each household are incompatible with each other, if the difficulty of increasing the touch-free function by modifying the main control systems of the elevator manufacturers of various household appliances is high, the non-contact function can be added on the existing elevator entity button panel. Therefore, the existing elevator master control system does not need to be modified, and the original contact type elevator button can be continuously existed. Therefore, the new design should emphasize the simultaneous and independent parallel functions of physical key touch operation and non-touch operation, and even if one of the functions is out of function, the other function can still continue normal operation.

Disclosure of Invention

The invention mainly aims to provide a non-contact elevator boarding control system which can mainly avoid the danger that the traditional elevator is infected by pathogenic bacteria due to the fact that hands directly press elevator buttons.

The invention provides a non-contact elevator boarding control system, which mainly can avoid public health crisis of sound control elevators due to droplet infection in a carriage.

Another object of the present invention is to provide a non-contact elevator boarding control system, which can utilize a mobile electronic device to perform non-contact elevator control without the need of internet, and can overcome the problem that the inside of an elevator car cannot stably obtain internet signal strength due to a shielding effect.

The present invention further provides a non-contact elevator boarding control system, which is mainly applicable to new and old elevator architectures of various existing home elevator manufacturers, and can perform non-contact elevator control without changing the master control system of the original elevator.

Therefore, in order to achieve the above-mentioned objectives, according to the present invention, there is provided a non-contact elevator boarding control system suitable for use with an elevator (20), the elevator (20) having an elevator car (21), a main control module (22) for controlling the operation of the elevator car (21), and a physical key control group (23) for generating a physical control signal to the main control module (22) upon being pressed, the non-contact elevator boarding control system comprising:

a control circuit board (30) electrically connected to the physical key control group (23) for converting a virtual control signal into the physical control signal;

a beacon Gateway (40) communicatively coupled to the control circuit board (30) and continuously broadcasting (advertising) an identification packet and continuously scanning (Scanner) a driver packet; and

a mobile electronic device (50) communicatively connected to the beacon gateway (40) and installed with an application (51), and having a bluetooth module (52) connected to the application (51), the bluetooth module (52) being configured to continuously scan (Scanner) the identification packet sent by the beacon gateway (40) and broadcast (advertisement) the driver packet if necessary;

thus, when the application (51) of the mobile electronic device (50) is started and the bluetooth module (52) scans the identification packet broadcasted by the beacon Gateway (40), the application (51) of the mobile electronic device (50) analyzes the information in the identification packet and displays a control screen, the control screen has a virtual key control group corresponding to the physical key control group, when one of the virtual keys of the virtual key control group is pressed, the drive packet including the virtual control signal is generated, the drive packet is broadcasted by the bluetooth module (52), when the beacon Gateway (Beaon Gateway) (40) scans (Scanner) the drive packet, the virtual control signal included in the drive packet is transmitted to the control circuit board (30), the control circuit board (30) converts the virtual control signal into the physical control signal corresponding to the physical key (23), and transmits the data to the main control module (22) to control the operation of the elevator car (21).

Therefore, the invention provides a non-contact elevator boarding control system, which consists of a control circuit board, a beacon gateway and a mobile electronic device matched with the original structure of an elevator, and is mainly characterized in that when a user riding the elevator enters an elevator car and scans an identification packet broadcasted by the beacon gateway in the elevator car by using a customized elevator application program, the mobile electronic device of the user riding the elevator generates a picture of a virtual key control group for the user to click and select so as to control the action of the elevator car, therefore, the invention does not need to touch the physical keys of the elevator and make sound in the control operation, thereby avoiding direct contact and spray infection. On the other hand, the invention uses the short-distance wireless transmission between the beacon gateway and the Bluetooth module of the mobile electronic device, thereby being capable of carrying out non-contact control without the Internet. In addition, when the elevator is installed, the elevator can be electrically connected to the original entity key control group of the elevator in parallel only through the control circuit board, and non-contact control can be performed without changing the core master control system of the original elevator, so that the elevator can be suitable for new and old elevator architectures of various existing household appliance elevator manufacturers.

In order to make the aforementioned and other features and advantages of the invention more comprehensible, embodiments accompanied with figures are described below. And will be described in detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a drawing of Taiwan patent publication M509215;

FIG. 2 is a block diagram of a first embodiment of the present invention;

FIG. 3 is a schematic view of a first embodiment of the present invention in use;

FIG. 4 is a diagram illustrating a display control plane of a mobile electronic device according to a first embodiment of the present invention;

FIG. 5 is a flow chart illustrating the operation of the first embodiment of the present invention;

FIG. 6 is a schematic view of a first embodiment of a user status showing three users individually using the mobile electronic device to perform non-contact operation simultaneously;

FIG. 7 is a block diagram of a second embodiment of the present invention;

FIG. 8 is a flowchart illustrating the operation of the second embodiment of the present invention;

FIG. 9 is a flowchart of authentication according to a second embodiment of the present invention, which shows a process of user ID authentication;

FIG. 10 is a diagram illustrating a usage status of the second embodiment of the present invention, showing a status of the background device authenticating a user;

fig. 11 is a schematic view of a state of use of the second embodiment of the present invention, showing a state where a user obtains an elevator authorization token code;

FIG. 12 is a block diagram of a third embodiment of the present invention;

FIG. 13 is a flowchart illustrating the operation of the third embodiment of the present invention; and

FIG. 14 is a schematic view of a third embodiment of the present invention showing a mobile electronic device displaying only a control screen authorized to touch a control button.

Description of reference numerals:

11 circuit board

12. 13 emitter

14 receiver

15 display unit

20 Elevator

21 elevator car 21

22 Master control Module 22

23 entity key control group

231 entity key

30 control circuit board

40 Beacon gateway

50 action electronic device

51 application program

52 Bluetooth module

53 control Screen

531 virtual key control group

5311 virtual floor selecting button

5312 virtual elevator door opening button

5313 virtual closing of elevator door button

60 background device

61 input unit

62 output unit

63 data access unit

64 manages the setting unit.

Detailed Description

Before providing a detailed description, it is noted that in the following description, similar component and part names are denoted by the same reference numerals.

Referring to fig. 2 to 5, a non-contact elevator boarding control system according to a first embodiment of the present invention is suitable for use in an elevator 20, where the elevator 20 has an elevator car 21, a main control module 22 for controlling the operation of the elevator car 21, and a physical key control group 23 for generating a physical control signal to the main control module 22 upon being pressed, and in this embodiment, the physical key control group 23 includes at least two physical keys 231, as shown in fig. 6, including eleven floor keys (1F to 9F, B1, B2, B3), a door opening key, a door closing key, an emergency key, and a call key. The non-contact elevator boarding control system is mainly composed of a control circuit board 30, a beacon Gateway (beacon Gateway)40 and a mobile electronic device 50, wherein:

the control circuit board 30 is electrically connected to the physical key control group 23 in the elevator car 21 for converting a virtual control signal into the physical control signal. In this embodiment, the control circuit board 30 can further convert the virtual control signal into a physical control signal and then light up the corresponding physical key 231.

The beacon Gateway (beacon Gateway)40 is communicatively coupled to the control circuit board 30 and continuously broadcasts (Advertiser) an identification packet and continuously scans (Scanner) a driver packet. In this embodiment, the identification packet and the driving packet are both in a BLE packet format, the identification packet includes a first Universal Unique Identifier (UUID), and the driving packet includes a second Universal Unique Identifier (UUID). The first Universally Unique Identifier (UUID) contains the elevator number information and the floor information that can be taken, and the floor information that can be taken by the elevator differs according to the actual floor that can be reached by each elevator, and these information are stored in advance in the first Universally Unique Identifier (UUID) of the identification packet. Wherein the second Universally Unique Identifier (UUID) contains information that the user intends to travel to the floor.

The mobile electronic device 50 is communicatively connected to the beacon gateway 40 and installed with an application 51, and has a bluetooth module 52 connected to the application 51, wherein the bluetooth module 52 is configured to continuously scan (Scanner) the identification packet and broadcast (advertisement) the driver packet; in this embodiment, the mobile electronic device 50 is a smart phone, but not limited thereto, and the smart watch, tablet, notebook computer and wearable device can be used, and the mobile electronic device 50 can control the elevator without performing internet connection.

Therefore, when the elevator boarding operation is to be performed in advance, the user can hold the mobile electronic device 50 with the application program started up and enter the elevator car 21, because the beacon Gateway (Beaon Gateway)40 in the elevator car 21 continuously broadcasts (advertise) an identification packet, when the bluetooth module 52 of the mobile electronic device 50 scans the identification packet broadcast by the beacon Gateway 40 and the application program 51 determines that the first Universally Unique Identifier (UUID) contained in the identification packet is correct, the application program 51 of the mobile electronic device 50 displays a control screen 53, and the control screen 53 displays a virtual key control group 531 according to the content of the first Universally Unique Identifier (UUID) contained in the identification packet, and the virtual key control group 531 corresponds to the physical key control group 23, that is, as shown in fig. 4, the virtual key control group 531 includes ten virtual floor selection keys 5311(1F to 9F), and the virtual floor selection keys 5311(1F to 9F) included in the virtual key control group 531 are included in fig. 4, B1, B2, B3). Of course, according to the requirement, a virtual open elevator door button 5312 and a virtual close elevator door button 5313 are added.

At this time, when the user presses one of the virtual floor selection keys 5311 of the virtual key control group 531, for example, 6F, the application 51 dynamically generates the driving packet including the virtual control signal, i.e., the information about the floor to which the user intends to go, which is 6F, contained in the second Universal Unique Identifier (UUID) contained in the driving packet.

Then, the application 51 broadcasts the driving packet by the bluetooth module 52 of the mobile electronic device 50, when the beacon Gateway (beacon Gateway)40 scans (Scanner) the driving packet and determines that the second Universal Unique Identifier (UUID) included in the driving packet has the correct virtual key control information through the beacon Gateway (beacon Gateway)40, the beacon Gateway (beacon Gateway)40 transmits the virtual control signal included in the driving packet to the control circuit board 30, the control circuit board 30 converts the virtual control signal into the physical control signal corresponding to the physical key control group 23 and controls the corresponding physical key 231 to light up, the physical control signal is transmitted to the main control module 22, and the main control module 22 controls the elevator car 21 to operate according to the physical control signal.

Therefore, the above information transmission, judgment, check and operation processes are all performed by continuously broadcasting (advertisement) and scanning (Scanner) between the beacon Gateway (beacon Gateway)40 and the mobile electronic device bluetooth module 52 in the elevator car 21 in short distance, so as to complete non-contact elevator boarding control, and completely without the environment of network connection or cloud database.

Referring to fig. 6, it shows a state that a plurality of users perform non-contact elevator boarding control according to the present invention, because the driving packet is broadcasted (advertisement) by the bluetooth module 52 of the mobile electronic device, instead of using a bluetooth one-to-one pairing manner, the beacon Gateway (Beaon Gateway)40 can scan (Scanner) the driving packets of a plurality of users at the same time and convert them into corresponding entity control signals, and fig. 6 shows that three users respectively touch their respective mobile electronic devices 50 to control the lighting and actuation of floors 3, 5 and 8.

Therefore, the invention can at least achieve the following effects:

firstly, because the invention is composed of the control circuit board 30, the beacon gateway 40 and the mobile electronic device 50 in combination with the original framework of the elevator 20, the main characteristic is that when the user taking the elevator enters the elevator car 21, the customized elevator application program 51 is used for scanning the identification packet broadcasted by the beacon gateway 40 in the elevator car 21, the mobile electronic device 50 of the user taking the elevator generates the picture of the virtual key control group 531 for the user to select the going floor for controlling the action of the elevator car 21, therefore, the invention does not need to touch the physical key 231 of the elevator 20 and make sound in the control operation, thereby effectively avoiding contact and droplet infection.

Secondly, because the invention uses short-distance wireless transmission between the beacon gateway 40 and the bluetooth module 52 of the mobile electronic device 50, the non-contact elevator control can be performed without internet, that is, the invention can perform non-contact control to complete the boarding of the elevator 20 under the off-line condition, and the wireless network signal intensity cannot be stably obtained due to the shielding effect in the elevator car 21, which brings great convenience to users.

Thirdly, when the elevator is installed, the invention only needs to be electrically connected to the original entity key control group 23 of the elevator 20 through the control circuit board 30, is suitable for the existing elevator architecture of each factory and business, can carry out non-contact control without changing the master control system of the original elevator, and has the obvious effect of high applicability.

Fourthly, because the invention is electrically connected in parallel to the original entity key control group 23 of the elevator 20 through the control circuit board 30, the invention has two independent parallel functions of the original entity key contact operation and the non-contact operation.

Referring to fig. 7 to 11, a second embodiment of the present invention provides a non-contact elevator boarding control system, which is different from the first embodiment in that:

the application 51 of the mobile electronic device 50 further includes an identity authorization authentication, that is, the application 51 can display the control screen 53 only after the mobile electronic device 50 has the elevator authorization token code therein. The first Universally Unique Identifier (UUID) includes an authentication control Identifier (different from the UUID code of the public elevator in the first embodiment), when the bluetooth module 52 of the mobile electronic device 50 scans the identification packet broadcast by the beacon gateway 40, the application 51 in the mobile electronic device 50 determines that the first Universally Unique Identifier (UUID) included in the identification packet has the authentication control Identifier, at this time, the application 51 will first read the elevator authorization token code obtained in advance in the mobile electronic device 50, and after comparing and confirming that the elevator authorization token code has the authority to control the elevator 20, the application 51 will display the control screen 53; on the contrary, if the mobile electronic device 50 does not obtain the elevator authorization token, the application 51 ignores the identification packet broadcast by the beacon gateway 40, and does not display the control screen 53.

The actions of the authentication and the elevator authorization token acquisition are described as follows: the non-contact elevator boarding control system of the invention also comprises a background device 60, wherein the background device 60 is provided with an input unit 61, an output unit 62 and a data access unit 63; the input unit 61 is used for reading the identity data of the user and generating an elevator authorization token code through the output unit 62 to provide the user with access, and the data access unit 63 is used for storing the identity data. In the present embodiment, the background device 60 uses an Application Programming Interface (API) as the storage means of the data access unit 63. In addition, the input unit 61 may use a two-dimensional barcode (QR Code) scanning method for the user to input the identity data, and the output unit 62 may generate a two-dimensional barcode (QR Code) for the user to scan the elevator authorization token.

More specifically, before taking the elevator with authentication control, the user must hold the mobile electronic device 50 to the management desk and input the user's identity data through the input unit 61 of the background device 60, as shown in fig. 10, a unique personal identity two-dimensional barcode (QR Code) is displayed by the application 51 in the user's mobile electronic device 50, such as: an international mobile equipment identity (IEMI), a cell phone number, or an FB/LINE community account number, etc., and then an input unit 61 of the background device 60 scans the identity data in a two-dimensional barcode (QR Code) format displayed by the user, and then as shown in fig. 11, a manager generates a two-dimensional barcode with an elevator authorization token Code through an output unit 62 for the user to read, and simultaneously, the data access unit 63 of the background device 60 stores the identity data of the user with an Application Programming Interface (API). At this time, after the user scans the elevator authorization token Code in the two-dimensional bar Code (QR Code) format by using the application 51 of the mobile electronic device 50, the application 51 of the mobile electronic device 50 has the elevator authorization token Code, when the user enters the elevator car 21 requiring identity control, and the bluetooth module 52 of the mobile electronic device 50 scans the identification packet with the identity verification control identifier broadcast by the beacon gateway 40, after comparing and confirming that the elevator authorization token Code has the authority to control the elevator, the application 51 displays the control screen 53 so that the user can perform touch control.

Referring to fig. 12 to 14, a third embodiment of the present invention provides a non-contact elevator boarding control system, which is different from the second embodiment in that:

the background device 60 further has a control setting unit 64, when the input unit 61 of the background device 60 scans the identity data in the two-dimensional bar Code (QR Code) format displayed by the user, the manager sets the elevator floor and the valid period (for example, only 1F and 7F, and valid period 3 hours) that the user can reach through the control setting unit 64, and generates the two-dimensional bar Code with the elevator authorization token Code through the output unit 62 for the user to read, so that the elevator authorization token Code has three characteristics of the right to control the elevator 20, the elevator floor and the valid period that can reach, so that when the bluetooth module 52 of the mobile electronic device 50 scans the identification packet with the id verification control identifier broadcast by the beacon gateway 40, the bluetooth module 52 of the mobile electronic device 50 compares and confirms that the elevator authorization token Code has the id verification control identifier to control the elevator, After reaching the floor and the valid period, the application 51 displays the control screen 53 (the screen only displays that the 1F and 7F floor virtual keys can be operated, and the others cannot be operated in the white background, or even displays the countdown status of the valid period, which is not shown in the figure), and the user can perform touch control.

Accordingly, the first Universally Unique Identifier (UUID) of the third embodiment includes an authentication control identifier, and as to the elevator-related floor data (e.g., elevator number and hitchable floor information: from B3 to 9F) stored in the data access unit 63 of the background device 60, unlike the first Universally Unique Identifier (UUID) of the first embodiment which includes the elevator number information and hitchable floor information, its main purpose is to facilitate management, setup and backtracking, as described below: since the manager can refer to the elevator information of the data access unit 63, and then set the accessible elevator floor and the valid period of the user through the control setting unit 64, and the output unit 62 generates the elevator authorization token code to provide to the user mobile electronic device 50, the elevator authorization token code has the authority to control the elevator, the accessible floor and the valid period, when the user enters the elevator car 21, the bluetooth module 52 of the mobile electronic device 50 scans the identification packet with the identification and control identifier broadcast by the beacon gateway 40, and since the application 51 has the elevator authorization token code, the application 51 will display the control screen 53. Because the data access unit 63 of the background device 60 also stores the user identification data and the data such as the floors and the effective period of the accessible elevator, if any public safety event or epidemic situation spreads in the future, the historical footprints of the user taking the elevator in a specific time need to be retrieved, and the background device 60 can be designed to make the safest management and control, record and retrieve the footprints.

In summary, the above-mentioned embodiments and the drawings are only preferred embodiments of the present invention, and the scope of the present invention should not be limited thereby, and all equivalent changes and modifications made in the claims of the present invention should be covered by the scope of the present invention.

Claims (12)

1. A non-contact elevator boarding control system for an elevator (20), the elevator (20) having an elevator car (21), a main control module (22) for controlling the operation of the elevator car (21), and a physical key control group (23) for generating a physical control signal to the main control module (22) upon being pressed, the non-contact elevator boarding control system comprising:

a control circuit board (30) electrically connected to the physical key control group (23) for converting a virtual control signal into the physical control signal;

a beacon gateway (40) which is in communication connection with the control circuit board (30) and continuously broadcasts an identification packet and continuously scans a driving packet; and

a mobile electronic device (50) which is in communication connection with the beacon gateway (40) and is installed with an application program (51), and is provided with a Bluetooth module (52) connected with the application program (51), wherein the Bluetooth module (52) is used for continuously scanning the identification packet sent by the beacon gateway (40) and broadcasting the driving packet if necessary;

therefore, when the application program (51) of the mobile electronic device (50) is started, and the bluetooth module (52) scans the identification packet broadcasted by the beacon gateway (40), the application program (51) of the mobile electronic device (50) analyzes the information in the identification packet to display a control picture, the control picture is provided with a virtual key control group (531) corresponding to the entity key control group (23), when one virtual key of the virtual key control group (531) is pressed, the drive packet including the virtual control signal is generated, the drive packet is broadcasted by the bluetooth module (52), when the beacon gateway (40) scans the drive packet, the virtual control signal contained in the drive packet is transmitted to the control circuit board (30), the control circuit board (30) converts the virtual control signal into the entity control signal corresponding to the entity key control group (23), and transmits the data to the main control module (22) to control the operation of the elevator car (21).

2. The contactless elevator ride control system of claim 1, wherein the identification packet and the drive packet are both in the format of a BLE packet, the identification packet including a first universally unique identifier, the drive packet including a second universally unique identifier.

3. The non-contact elevator boarding control system of claim 2, characterized in that the first universally unique identifier contains information on the floors on which the elevator can board, and exits a control screen via an application (51), wherein the virtual key control group (531) comprises at least two virtual floor selection keys.

4. The contactless elevator ride control system of claim 2, wherein the second universal unique identifier contains information about the floor to which the user intends to travel, and is converted and transmitted to the control circuit board (30).

5. The contactless elevator ride control system of claim 2, wherein the first universally unique identifier includes an authentication required regulatory identifier.

6. The contactless elevator boarding control system of claim 5, wherein the application (51) further comprises an authentication authorization, and the application (51) can display a control screen only when the mobile electronic device (50) has the elevator authorization token code therein.

7. The contactless elevator boarding control system of claim 6, further comprising a background device (60), the background device (60) having an input unit (61) and an output unit (62), the input unit (61) being configured to read user identification data, the output unit (62) being configured to generate an elevator authorization token in accordance with the user right.

8. The contactless elevator ride control system of claim 7, wherein the background device (60) further comprises a data access unit (63), the data access unit (63) storing the user identification data.

9. The contactless elevator boarding control system according to claim 7, wherein the background device (60) further comprises a control setting unit (64), the control setting unit (64) being provided for a manager to set the user right, the output unit (62) producing an elevator authorization token according to the user right.

10. The contactless elevator ride control system of claim 9, wherein the background device (60) further comprises a data access unit (63), the data access unit (63) being configured to store user identification data, user rights, and elevator related floor data.

11. The contactless elevator boarding control system of claim 7, wherein the input unit (61) provides the user with the identification data in a two-dimensional bar code scanning manner, and the output unit (62) provides the elevator authorization token in a two-dimensional bar code scanning manner.

12. The contactless elevator ride control system of claim 9, wherein the user right includes the user's reachable floors and validity period.

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