JP3907078B2 - Entrance / exit management system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an entry / exit management system, and more particularly to an entry / exit management system using a contactless card.
[0002]
[Prior art]
Conventionally, as this type of entrance / exit management system, there are those disclosed in, for example, Japanese Patent Application Laid-Open No. 3-235081 and Japanese Patent Application Laid-Open No. 3-228988.
In the former, when a person who has a non-contact type card approaches an ID reader installed in the vicinity of the door, a resonance circuit in the card resonates with a transmission radio wave from the ID reader and transmits a resonance echo. The door lock is unlocked by recognizing the resonance echo by the ID reader.
In the latter case, as in the former case, when the ID reader receives a radio wave transmitted from a contactless card and the identification information (personal information or ID information) contained in the radio wave matches the information recorded in advance. The door lock is unlocked.
[0003]
[Problems to be solved by the invention]
However, the conventional entrance / exit management system described above has the following problems.
(A) Transmission of the ID reader in order to allow the transmission radio wave from the ID reader to be absorbed by the metal building material of the building and to unlock the door lock even from a certain distance from the ID reader. There is a tendency to widen the range of radio waves, but by widening the range, it will become a history that even those who do not plan to enter and just pass through will be in the history, so determine whether it is passing or entering It was difficult.
(B) Even if it passes, if a person who is allowed to enter the room enters the range where the radio waves transmitted by the ID reader can reach, the door lock will be unlocked and the state will continue for a predetermined time, so security is sufficient Was not secured.
[0004]
(C) Since the entrance information is sent to the monitoring device together with the unlocking of the door lock, the monitoring device determines that the person who has passed the detection range is in the room and calls the person. , Sometimes the person made a call even though he was not in the room.
(D) In important facilities such as banks, it was difficult to prevent internal crimes and the like because it was not possible to discern any prejudice by just recording the entry information and displaying and searching the recorded information.
[0005]
Accordingly, an object of the present invention is to provide an entrance / exit management system that can accurately determine whether or not the user has entered a room and can prevent internal crimes by taking a passage history.
[0006]
[Means for Solving the Problems]
Hereinafter, the concept of the present invention will be described.
The present invention unlocks the door lock when the ID reader receives a transmission radio wave from the non-contact card, and further determines whether the door is actually opened within a certain time from that point, When it is determined that the door cannot be opened within a predetermined time, the door lock is locked and the passing information is sent to the monitoring device. When it is determined that the door is opened within the predetermined time, the entry information is sent to the monitoring device.
[0007]
Therefore, if the door is actually opened within a certain time from when the person holding the card is detected, the entrance information is output, and if the door is not opened within the certain time, the door lock is locked and the passing information is output. Therefore, it is possible to accurately determine whether it has passed or entered.
In addition, since the passage history can be obtained, it is possible to confirm the location of the person who wants to call, and since it is possible to find a trap such as a preview, it is possible to prevent internal crimes.
[0008]
Furthermore, the present invention detects a person who possesses a card with an ID reader, and further uses a human body detection means (having a detection area smaller than the range where the transmitted / received radio waves of the ID reader reach) in the vicinity of the door. When a person is detected, the door lock is unlocked for the first time. Furthermore, it is determined whether or not the door can be opened within a certain time from when the person is detected by the ID reader. If it is determined that the door cannot be opened, the door lock is locked and the passing information is output within a certain time. When it was judged that the door was opened, the entry information was output.
Accordingly, the accuracy of identification between the person who actually enters the room and the person who passes through is improved, and the period during which the door lock is unlocked can be shortened, so that the security is improved.
As the human body detection means, it is preferable to use a foot switch, a far-infrared detection element, an ID reader having a smaller transmission output than the ID reader, or the like.
[0009]
The entrance / exit management system according to the first aspect of the present invention is provided in the identification information transmitting means for transmitting the identification information of the user and / or inside or outside the room, and is transmitted from the identification information transmitting means. Identification information receiving means for receiving the identification information, door lock locking / unlocking means for locking / unlocking the door lock of the room door, door open / closed state detecting means for detecting the open / closed state of the door of the room, A timing unit for measuring a predetermined time, and when the identification information is received by the identification information receiving unit. The determination means for determining whether or not the identification information is registered in advance, and when determining that the identification information is registered by the determination means, the time counting means starts counting a fixed time, The door lock is unlocked by controlling the door lock unlocking means, and it is detected that the door is opened by the door open / close state detecting means within a certain time from the time when the identification information is received. In this case, room entry information is output, and if it is not detected that the door has been opened within the predetermined time, the door lock locking / unlocking means is controlled to lock the door lock and output passing information. Do If it is determined that the identification information received by the determination means is not registered, control is performed so that only passage information is output. And a control means.
[0010]
Claim 2 The entrance / exit management system according to the present invention further includes monitoring means that takes in the entry information and passage information output from the control means, obtains a history of entry and passage, and enables reference and search of the history.
[0011]
Claim 3 The entrance / exit management system according to the described invention further includes a human body detecting means provided near the door of the room and detecting a human body,
The control means includes It is determined by the determination means that it is registered, When the human body is detected by the human body detecting means, the door lock is unlocked by controlling the door lock locking / unlocking means, and the door open / closed state is detected within a predetermined time from the time when the identification information is received. When the detection means detects that the door is opened, the entrance information is output, and when it is not detected that the door is opened within the predetermined time, the door lock is released. It controls the locking means to lock the door lock and outputs passage information.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(I) Embodiment 1
A. Overall configuration of entry / exit management system
FIG. 1 is a block diagram showing the overall configuration of a first embodiment of an entry / exit management system according to the present invention.
[0013]
In this figure, the entrance / exit management system 10 includes a control panel 12 provided for a door 11 subject to door lock control in each room, a non-contact card 13, and identification information stored in the card 13. (Personal information or ID information) ID reading device 14 for reading and connected to each control panel 12 via transmission path 15 and captures various information such as entrance information and passage information output from each control panel 12 And a monitoring device 16 that can take a history of entering and passing through and can refer to and search the history.
[0014]
Each door 11 is provided with an electric lock 20 for unlocking / locking the door lock. Here, FIG. 3 is a diagram showing a schematic configuration of the electric lock 20. In this figure, the electric lock 20 is provided with a reed switch 21 for detecting the open / closed state of the door 11. The reed switch 21 includes a contact 21a provided on the indoor side of the electric lock 20 and a permanent magnet 21b provided on the door 11 side. When the door 11 is closed, the contact 21a is closed. When the door 11 is opened, the contact 21a is opened.
[0015]
Further, as shown in the circuit diagram of FIG. 4, the electric lock 20 is provided with a solenoid 22 for locking / unlocking control and a microswitch 23 for detecting the locking / unlocking state. When the solenoid 22 is energized, the dead bolt 24 (see FIG. 3) is set from the protruded state to the retracted state or vice versa. Further, every time the solenoid 22 is energized, the setting state of the microswitch 23 is switched alternately. For example, when the door lock is unlocked, the setting state shown in FIG. 4 is set, and when the door lock is locked, the opposite setting state is set.
[0016]
Returning to FIG. 1, the control panel 12 takes in the identification information of the card 13 read by the ID reader 14, determines whether or not the identification information is registered in advance, and is registered. If it is determined that there is, the built-in timer is started and timed for a certain period of time, and the solenoid 22 of the electric lock 20 of the door 11 corresponding to the ID reading device 14 that has read the identification information is energized to unlock the door lock. Put it in a state.
[0017]
Immediately after the solenoid 22 is energized, the setting state of the micro switch 23 is read to check the locked or unlocked state of the door lock. After confirming this, the state of the contact 21a of the reed switch 21 of the electric lock 20 is read to determine whether or not the contact 21a is opened within a certain time. If the contact 21a is not opened within a certain time, If it judges, it will energize with respect to the solenoid 22 of the electric lock 20, and will make a door lock into a locked state.
[0018]
On the other hand, if it is determined that the contact 21a of the reed switch 21 is opened within a certain time, the room entry information is sent to the monitoring device 16 together with its own ID code, and the timer is reset. After resetting the timer, the state of the contact 21a of the reed switch 21 is read again. If it is determined that the contact is closed, the solenoid 22 of the electric lock 20 is energized and the door is locked. When it is determined that the contact 21a of the reed switch 21 is not in the closed state, an alarm is output and information notifying the monitoring device 16 is output.
[0019]
The non-contact type card 13 generates an operating power source by an electromotive force induced by an induction electromagnetic field generated by a transmission radio wave from the ID reader 14, operates by the power source, and transmits identification information stored in a memory in advance. The ID reader 14 transmits radio waves for operating the card 13, receives identification information transmitted from the card 13, and outputs it to the control panel 12.
[0020]
B. Configuration of control panel 12, card 13 and ID reader 14
FIG. 2 is a block diagram showing the configuration of the control panel 12, the card 13, and the ID reader 14.
(A) Configuration of card 13
The card 13 includes a transmission / reception antenna 30, a card power supply unit 31, a modulation / demodulation unit 32, a control unit 33, E ² A PROM 34 and an I / O conversion unit 35 are provided. The transmitting / receiving antenna 30 is used for transmitting / receiving radio waves. The card power supply unit 31 rectifies an FSK (frequency shift keying) signal received by the transmission / reception antenna 30 to generate a power supply voltage for operating each unit.
[0021]
The modem unit 32 demodulates serial data from the FSK signal received by the transmission / reception antenna 30 and E ² Data (identification information) read from the PROM 34 is modulated into an FSK signal. The I / O conversion unit 35 converts the serial data from the modulation / demodulation unit 32 into parallel data and outputs the parallel data to the control unit 33, and converts the parallel data from the control unit 33 into serial data and outputs the serial data to the modulation / demodulation unit 32. . The control unit 33 decodes the command from the data-converted received signal, and E ² Data is written to or read from the PROM 34. In this case, since at least user identification information is written in the card 13, the command in normal use is a read command. Based on this read command, E ² Identification information is read from the PROM 34.
[0022]
(B) Configuration of ID reader 14
The ID reader 14 includes a transmission / reception antenna 37, an amplification / detection unit 38, I / O conversion units 39 and 40, a modulation unit 41, an oscillation unit 42, and a power amplification unit 43. The transmission / reception antenna 37 is used for transmission / reception of radio waves. The amplification / detection unit 38 amplifies the FSK signal received by the transmission / reception antenna 30 and demodulates serial data. The I / O conversion unit 39 converts the serial data from the amplification / detection unit 38 into parallel data and outputs the parallel data to the control panel 12. The I / O conversion unit 40 converts parallel data from the control panel 12 into serial data and outputs the serial data to the modulation unit 41.
[0023]
The modulation unit 41 performs FSK modulation on the serial data from the I / O conversion unit 40 based on the two signals of the frequencies f 1 and f 2 from the oscillation unit 42 and outputs the result to the power amplification unit 43. In this case, the modulation unit 41 determines a signal of the frequency f1 for the data bit “0” and a signal of the frequency f2 for the data bit “1”, and converts the signal to the signals of the frequencies f1 and f2 for each data bit. FSK modulation to be converted is performed. The power amplifier 43 amplifies the power of the FSK signal from the modulator 41 and outputs the amplified signal to the transmission / reception antenna 37. The power supply voltage used in the power amplifying unit 43 is supplied from the control panel 12.
[0024]
(C) Configuration of control panel 12
The control panel 12 includes a power supply unit 46, an output control unit 47, a control unit 48, an electric lock control unit 49, a data buffer 50, a memory 51, a transmission IF unit 52, and an alarm sound generation unit 53. The power supply unit 46 outputs a power supply voltage used in the power amplification unit 43 of the ID reader 14. The output control unit 47 controls the output of the power amplification unit 43 by controlling the level of the power supply voltage from the power supply unit 46. The data buffer 50 stores identification information assigned to all users who use the card 13. The memory 51 stores an ID code for identifying each of the plurality of control panels 12. The transmission IF unit 52 connects the control unit 48 and the monitoring device 16.
[0025]
When the control unit 48 takes in data from the I / O conversion unit 39 and determines that the data is identification information, the control unit 48 refers to the data buffer 50 and determines whether the same information as the identification information is registered. judge. In this case, if it is determined that the same information is registered, a built-in timer (not shown) is started to count for a predetermined time, and a command for controlling the electric lock 20 of the door 11 is sent to the electric lock control unit 49. give.
[0026]
The electric lock control unit 49 energizes the solenoid 22 of the electric lock 20 in accordance with a control command from the control unit 48 to bring the door lock into an unlocked state. Immediately after the door lock is brought into the unlocked state, the setting state of the micro switch 23 of the electric lock 20 is read to confirm the locked state or the unlocked state of the door lock. After this confirmation, the state of the contact 21a of the reed switch 21 of the electric lock 20 is read, it is determined whether or not the contact 21a is opened within a certain time, and if it is determined that the contact 21a is not opened within a certain time, the electrical The solenoid 22 of the lock 20 is energized to bring the door lock into the locked state.
[0027]
On the other hand, when it is determined that the contact 21a of the reed switch 21 has been opened within a certain time, the control unit 48 notifies the control unit 48 of that fact, and the control unit 48 has opened the contact 21a of the reed switch 21 within a certain time. Upon receipt of the notice to that effect, the room entry information and the ID code are sent to the monitoring device 16. Thereafter, the timer is reset. After resetting the timer, the electric lock control unit 49 is again instructed to read the state of the contact 21a of the reed switch 21.
[0028]
When receiving this command, the electric lock control unit 49 reads the state of the contact 21a of the reed switch 21, and when it determines that the contact 21a is closed, it energizes the solenoid 22 of the electric lock 20 to lock the door lock. Put it in a state. On the other hand, if it is determined that the contact 21a of the reed switch 21 is not closed, the control unit 48 is informed accordingly. When the control unit 48 receives notification that the contact 21a of the reed switch 21 is not closed, the control unit 48 controls the alarm sound generating unit 53 to generate an alarm sound and inform the monitoring device 16 of the information to that effect. send.
[0029]
C. Operation of control panel 12
FIG. 5 is a flowchart showing the operation of the control panel 12.
First, it is determined in step S10 whether or not identification information has been received. In this determination, if it is determined that the identification information has not been received, this step is repeated, and if it is determined that the identification information has been received, the process proceeds to step S12 to determine whether or not the identification information has been registered. In this determination, if it is determined that it is not already registered, the process proceeds to step S32 described later. If it is determined that the trowel is already registered, the timer is started in step S14. After the timer is started, the electric lock 20 is unlocked in step S16.
[0030]
After unlocking the electric lock 20, it is determined in step S18 whether the door 11 has been opened. In this determination, if it is determined that the door 11 is not opened, it is determined whether or not a certain time has elapsed since the timer was started in step S20. If it is determined that the certain time has not elapsed, the process proceeds to step S18. Returning, if it is determined that a certain time has elapsed, the process proceeds to step S30. In this case, if it is determined that the door 11 has been opened within a certain time, the room entry information is sent to the monitoring device 16 in step S22, and then the timer is reset in step S24.
[0031]
After resetting the timer, it is determined in step S26 whether or not the door 11 is closed. If it is determined that the door 11 is closed, the process returns to step S10. If it is determined that the door 11 is not closed, an alarm is output in step S28. This is notified to the monitoring device 16. On the other hand, if it is determined that the door 11 has not been opened within a certain time, the electric lock 20 is brought into a locked state in step S30. Next, after passing information is sent to the monitoring device 16 in step S32, the timer is reset in step S34, and the process returns to step S10.
[0032]
As described above, in the first embodiment, the door lock is unlocked when the ID reader 14 receives the transmission radio wave from the non-contact card 13, and the door 11 is opened within a predetermined time from that point. If it is determined that the door cannot be opened within a certain time, the door lock is locked and the passing information is sent to the monitoring device 16. If it is determined that the door is opened within the certain time, the entry information is sent to the monitoring device 16. .
Accordingly, if the door 11 is opened within a certain time from the time when the person holding the card 13 is detected, the entry information is output, and if the door 11 is not opened within the certain time, the door lock is locked and the passing information is output. Therefore, it is possible to accurately determine whether the vehicle has passed or entered the room. Furthermore, since the passage history can be taken, the location of the person who wants to call can be confirmed, and since a trap such as a preview can be found, an internal crime can be prevented in advance.
[0033]
(II) Embodiment 2
In the entrance / exit management system 10 of the first embodiment described above, the door lock is unlocked when a person who possesses the card 13 is detected. In this second embodiment, as shown in FIG. In addition to the detection area A1 by the device 14, the foot switch 61 has a detection area smaller than the detection area A1, and the door lock is unlocked only when it is detected by the foot switch 61. It is. The foot switch 61 is a contact that is turned on by applying a certain pressure or more.
[0034]
FIG. 6 is a block diagram showing the overall configuration of the entry / exit management system 60 of the second embodiment. The foot switch 61 is installed in the vicinity of the door 11. When the foot switch 61 is depressed, the contact is turned on, and the state is read into the control panel 12. The control panel 12 detects the person holding the card 13 by alternately switching the ID reader 14 and the foot switch 61 in a time-sharing manner.
[0035]
FIG. 7 is a flowchart showing the operation of the control panel 12 of the second embodiment.
First, it is determined in step S50 whether identification information has been received in the detection area A1. In this determination, if it is determined that the identification information is not received in the detection area A1, this step is repeated. If it is determined that the identification information is received in the detection area A1, the process proceeds to step S52, and the identification information is registered. It is determined whether or not. In this determination, if it is determined that it has not been registered, the process proceeds to step S76, which will be described later.
[0036]
After determining that it has been registered and starting the timer, it is determined in step S56 whether or not the foot switch 61 is on. In this determination, if it is determined that the foot switch 61 is not turned on, the process proceeds to step S58, and it is determined whether or not the time T2 has elapsed since the timer was started. In this determination, if it is determined that the time T2 has not elapsed, the process returns to step S56, and if it is determined that the time T2 has elapsed, the process proceeds to step S76 described later.
[0037]
If it is determined that the foot switch 61 has been turned on within T2 time, the electric lock 20 is unlocked in step S60. Next, it is determined in step S62 whether or not the door 11 has been opened. In this determination, if it is determined that the door 11 is not opened, it is determined whether or not T1 time (> T2 time) has elapsed since the timer was started in step S64, and T1 time has not elapsed. If it judges, it will return to step S62, and if it judges that T1 time passed, it will progress to step S74.
[0038]
If it is determined that the door 11 has been opened within T1 time, the room entry information is sent to the monitoring device 16 in step S66, and the timer is reset in step S68. After resetting the timer, it is determined whether or not the door 11 is closed in step S70. If it is determined that the door 11 is closed, the process returns to step S50. If it is determined that the door 11 is not closed, an alarm is output in step S72 and the alarm is output. This is notified to the monitoring device 16.
On the other hand, if it is determined in step S62 that the door 11 has not been opened within T1 time, the electric lock 20 is locked in step S74, then the passing information is sent to the monitoring device 16 in step S76, and in step S78. The timer is reset and the process returns to step S50.
[0039]
As described above, in the second embodiment, when the foot switch 61 is turned on within T2 time after detecting the person holding the card 13 in the detection area A1, the door lock is unlocked at that time. Further, if the door 11 is opened within T1 time longer than T2 time, the entry information is sent to the monitoring device 17, and if the door 11 is not opened within T1 time, the door lock is locked and the passing information is sent to the monitoring device 17. . Further, if the foot switch 61 is not turned on within T2 time after the person holding the card 13 is detected in the detection area A1, passing information is sent to the monitoring device 17 as simply passing.
[0040]
Therefore, even if a person holding the card 13 is detected in the detection area A1, the door lock is not unlocked at that time, and the door lock is unlocked only after the foot switch 61 installed in the vicinity of the door 11 is turned on. Since it is locked, the identification accuracy of the person who actually enters the room and the person who passes through is improved, and the security period is improved because the period during which the door lock is unlocked can be shortened.
Further, since the door lock is unlocked only when the foot switch 61 installed in the vicinity of the door 11 is turned on, even if the ID reader 14 is installed inside the room as shown in FIG. The door lock is not unlocked unless it passes through the vicinity.
[0041]
In the second embodiment, the foot switch 61 is used for detection in the vicinity of the door 11. However, a far-infrared detector that detects far-infrared rays emitted from the human body may be used. As shown in FIG. 10, an ID reader 63 that transmits a radio wave having a lower electric field strength than the ID reader 14 may be used. A2 (<A1) shown in this figure is the detection area of the ID reader 63. The detection area A2 (<A1) is similarly applied to the far-infrared detector.
[0042]
【The invention's effect】
According to the entry / exit management system of the first aspect of the invention, the door lock is unlocked when the identification information transmitted from the identification information transmitting means (card) is received, and the door is opened within a certain time from that point. If the door cannot be opened, the door lock is locked and the passage information is output, so that it is possible to accurately determine whether it has passed or entered the room.
[0043]
Also, If the received identification information is not registered in advance, only the passing information is output, so that it is possible to check the habit of a person who is restricted from entering or a person who has no use, thereby preventing internal crimes and the like.
[0044]
Claim 2 According to the entrance / exit management system of the invention, since the passage history can be taken and the history can be referred to and searched, the location of the person who wants to call can be confirmed and the trap of the preview can be confirmed. It can be prevented in advance.
[0045]
Claim 3 According to the entrance / exit management system of the invention, the door lock is unlocked when the identification information is received by the identification information receiving means (ID reader) and the human body is detected by the human body detecting means provided near the door. In addition, if the door cannot be opened within a certain period of time after receiving the identification information, the door lock is locked and the passing information is output, and if the door is opened within a certain period of time, the entry information is output. The accuracy of identifying the person who performs and the person who passes is improved, and the security is enhanced because the period during which the door lock is unlocked is short.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an overall configuration of a first embodiment of an entry / exit management system according to the present invention.
FIG. 2 is a block diagram showing a detailed configuration of the entry / exit management system according to the first embodiment;
FIG. 3 is a diagram showing a schematic configuration of an electric lock of the entry / exit management system according to the first embodiment;
FIG. 4 is a circuit diagram showing an electrical configuration of the electric lock of the entry / exit management system according to the first embodiment;
FIG. 5 is a flowchart showing the operation of the control panel of the entry / exit management system according to the first embodiment;
FIG. 6 is a block diagram showing an overall configuration of a second embodiment of an entry / exit management system according to the present invention.
FIG. 7 is a flowchart showing the operation of the control panel of the entry / exit management system according to the second embodiment;
FIG. 8 is a diagram for explaining an entry / exit management system according to the second embodiment;
FIG. 9 is a diagram for explaining advantages of the entry / exit management system according to the second embodiment;
FIG. 10 is a diagram for explaining an entry / exit management system according to the second embodiment;
[Explanation of symbols]
10 Entrance / exit management system
11 Door
12 Control panel
13 cards
14 ID reader
15 Transmission line
16 Monitoring device
20 Electric lock
21 Reed switch
23 Micro switch
60 Entrance / exit management system
61 Foot switch

Claims (3)

Identification information transmitting means for transmitting user identification information;
An identification information receiving means which is provided in both or either of the inside and outside of the room and receives the identification information transmitted from the identification information transmitting means;
Door lock locking / unlocking means for locking / unlocking the door lock of the door of the room;
Door opening / closing state detecting means for detecting the opening / closing state of the door of the room;
A time measuring means for measuring a certain time;
Determination means for determining whether or not the identification information is registered in advance when the identification information is received by the identification information receiving means ;
If it is determined that the information is registered by the determination means, the time counting means starts counting a predetermined time, controls the door lock locking / unlocking means to unlock the door lock, and receives the identification information. When the door opening / closing state detecting means detects that the door has been opened within a certain time from the point in time, the entry information is output, and the door has been opened within the certain time. If not detected, the door lock locking / unlocking means is controlled to lock the door lock and control to output passage information, and the identification information received by the determination means is not registered. Control means for controlling to output only passage information when it is determined ,
An entrance / exit management system characterized by comprising: 2. The entrance / exit according to claim 1 , further comprising monitoring means for taking in the entry information and passage information output from the control means to obtain a history of entry and passage, and enabling reference and search of the history. Management system. Provided in the vicinity of the door of the room, further comprising a human body detecting means for detecting a human body,
The control means controls the door lock unlocking means to unlock the door lock when it is determined that the control means is registered by the determination means and the human body detection means detects the human body. When the door opening / closing state detecting means detects that the door is opened within a predetermined time from the time when the identification information is received, the entrance information is output and the door is opened within the predetermined time. to any one of claims 1 to 2, characterized in that the output passage information together to lock the door lock by controlling the door lock unlocking means when but it became open state is not detected The entry / exit management system described.

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