CN112839138A - Automatic alarm security system for bank robbery - Google Patents

Abstract

The application relates to an automatic alarm security system for bank robbery, comprising: the identification module is used for acquiring the identity information of the current depositor; the comparison module is used for comparing the identity information of the current depositor with the identity information of the depositor in the system; the heart rate module is used for acquiring the heart rate information of the current depositor; the judging module is used for judging whether the heart rate information of the current depositor exceeds the heart rate threshold range or not; the detection module is used for detecting whether other depositors exist in the safety range of the current depositor; and the inquiring module is used for inquiring whether the current depositor needs the assistance of bank staff. The bank security system has the advantages that the bank security system can assist depositors in alarming when a malignant event occurs, and therefore the security of the bank security system is improved.

Description

Automatic alarm security system for bank robbery

Technical Field

The application relates to the field of bank security, in particular to an automatic alarm security system for bank robbery.

Background

At present, banks are located at the periphery of downtown blocks, commercial buildings, residential gardens and the like of cities, belong to key safety and precaution units, and have the characteristics of dispersion, diversity, expensive facilities, complex personnel for entering and exiting, wide management related areas and the like. Banks are an industry of distributed operation and centralized management, along with the improvement of living standard and the rapid development of economy, people cannot meet the traditional mode of money taking at the counter of a business hall, service points of the banks are increased day by day, so new things, convenience facilities such as self-service banks, self-service treasuries and the like are gradually popularized and opened, and robbing and stealing cases also frequently occur.

In a traditional bank security system, video monitoring equipment is most commonly used, and the periphery and the interior of a bank are monitored and recorded 24 hours all day, so that important evidence for case investigation and treatment after the fact of a public security department is provided. At present, criminals have various crime-doing methods, so that bank depositors cannot defend the criminals.

Aiming at the related technologies, the inventor thinks that when a malignant event occurs, lawless persons coerce the depositor to go to the bank to collect money, the video monitoring equipment cannot actively alarm and timely process the money, the depositor is in a coercion state and dares not to ask bank staff for help, the depositor can only be robbed by the lawless persons, so that the losses of the bank and the depositor are caused, and the difficulty of pursuing after the event is more and more increased, so that the safety of the bank security system is reduced.

Disclosure of Invention

In order to help the depositor to alarm when a malignant event occurs, and further improve the safety of the bank security system, the automatic alarm security system for the bank robbery situation is provided.

The automatic alarm security system for the bank robbery condition adopts the following technical scheme that:

an automatic alarm security system for bank robbery occurrence, comprising:

the identification module is used for acquiring the identity information of the current depositor;

the comparison module is used for comparing the identity information of the current depositor with the identity information of the depositor in the system;

the heart rate module is used for acquiring the heart rate information of the current depositor;

the judging module is used for judging whether the heart rate information of the current depositor exceeds the heart rate threshold range or not;

the detection module is used for detecting whether other depositors exist in the safety range of the current depositor;

and the inquiring module is used for inquiring whether the current depositor needs the assistance of bank staff.

By adopting the technical scheme, whether the current depositor is in the state of being seized for robbery or not is judged according to the heart rate of the current depositor, if the heart rate of the current depositor exceeds the threshold range due to self physical reasons, whether other depositors exist in the safety range of the current depositor or not is judged, if so, the other depositors in the safety range of the current depositor are prompted to keep the distance, and whether the current depositor needs the assistance of bank workers or not is inquired, so that the depositor can timely ask the workers for help when a malignant event occurs, the current depositor is prevented from being forced by illegal analysis, and the safety of a bank security system is improved.

Optionally, the identification module includes:

the fingerprint acquisition sub-module is used for acquiring the fingerprint information of the current depositor;

the portrait acquisition submodule is used for acquiring the portrait information of the current depositor;

the identity information comprises fingerprint information and portrait information.

By adopting the technical scheme, the identity information of the current depositor is collected so as to be compared by the comparison module.

Optionally, the heart rate module comprises:

the heart rate acquisition submodule is used for acquiring the heart rate information of the current depositor;

and the heart rate storage submodule is used for storing the heart rate threshold value, and storing the heart rate information of the current depositor after being corrected according to the heart rate threshold value.

By adopting the technical scheme, the heart rate acquisition submodule acquires and stores the heart rate information of the current depositor each time the current depositor comes to a bank for business processing; the heart rate information of the current depositor is compared with the heart rate information stored by the current depositor through the judgment module.

Optionally, the detection module includes:

the infrared scanning sub-module is used for scanning whether other depositors exist in the safety range of the current depositor;

the photographing sub-module is used for acquiring an image in the safety range of the current depositor if other depositors exist in the safety range of the current depositor;

and the image storage sub-module is used for storing the images within the current safe range of the depositor.

By adopting the technical scheme, if the heart rate information of the current depositor exceeds the heart rate threshold range, other depositors in the safety range of the current depositor are subjected to image storage, so that the current depositor can be conveniently investigated and evidence-obtained by an police when a malicious event occurs.

Optionally, the detection module further includes:

the prompting sub-module is used for prompting other depositors in the safety range of the current depositor to keep a safety distance with the current depositor and sending a safety distance early warning signal;

the timing submodule is used for timing and receiving the safety distance early warning signal, starting timing according to the safety distance early warning signal, and sending a timing completion signal when the timing is completed;

and the help-seeking sub-module receives the timing completion signal and sends a help-seeking signal according to the timing completion signal.

By adopting the technical scheme, if other depositors still exist in the safety range of the current depositor within the preset time, the help seeking signal is sent, and if the current depositor encounters a malignant event, the help seeking of the current depositor is facilitated.

Optionally, the query module includes:

the receiving submodule is used for receiving the help-seeking signal;

the display sub-module is used for receiving the help-seeking signal and displaying the help-seeking information according to the help-seeking signal for the current depositor to select;

and the sending submodule sends a corresponding feedback signal according to the selection of the current depositor.

By adopting the technical scheme, whether the current depositor is in the state of being seized or not is further confirmed to the current depositor, so that the safety of the security system is further improved.

Optionally, the help information includes:

the fingerprint re-input key is used for sending a fingerprint identification signal;

and the forgotten password key is used for sending an alarm signal.

By adopting the technical scheme, if the current depositor is not in a malignant event, the identity information of the current user is acquired for multiple times, so that the heart rate information of the current depositor can be forced to gradually approach to the heart rate threshold range, and the safety of the current depositor is further ensured; if the current depositor is in a vicious event, the current depositor asks for help from the security system by forgetting the password key so that the security system can warn bank staff to assist the current depositor before, thereby ensuring the life safety and property safety of the current depositor.

Optionally, the display sub-module further includes:

a counting unit for calculating the transmission times of the fingerprint identification signal according to the fingerprint identification signal;

and the judging unit is used for comparing whether the sending times of the fingerprint identification signals exceed a threshold value.

By adopting the technical scheme, if the fingerprint identification frequency of the current user exceeds the threshold value, bank staff is informed of the assistance of the region where the current depositor is located in the future.

Optionally, the security system further includes:

the system comprises a manager module, a security system and a security module, wherein the manager module is used for enabling bank staff to adjust the operation modes of the security system, and the operation modes comprise a depositor operation mode and a manager operation mode;

the depositor operation mode is used when no bank worker assists the current depositor to process the service;

and the administrator running mode is used when bank workers assist the current depositor to process the business.

By adopting the technical scheme, when the bank worker comes from the area of the current depositor to assist the current depositor, the operation mode of the security system in the area where the current depositor is located is adjusted to be the operation mode of the administrator, so that the speed of performing service processing on the current depositor is increased.

Optionally, the administrator module includes:

and the identity recognition submodule is used for recognizing the identity information of bank workers beside the current depositor.

By adopting the technical scheme, the method and the device are used for identifying the identity information of the bank staff who assists the current depositor before identification.

In summary, the present application includes at least one of the following beneficial technical effects:

1. judging whether the current depositor is in the state of being seized or not according to the heart rate of the current depositor, if the heart rate of the current depositor exceeds the threshold range due to the self body reason, prompting other depositors in the safety range of the current depositor to keep the distance according to the fact whether other depositors exist in the safety range of the current depositor, and inquiring whether the current depositor needs the assistance of bank workers or not, so that the depositor can ask the workers for help in time when a malignant event occurs, the current depositor is prevented from being forced by illegal analysis, and the safety of a bank security system is improved;

2. the heart rate acquisition submodule acquires and stores heart rate information of the current depositor each time the current depositor comes to a bank for business processing; the heart rate information of the current depositor is compared with the heart rate information stored by the current depositor by the judgment module;

3. when the bank staff come from the area of the current depositor to assist the current depositor, the operation mode of the security system of the area where the current depositor is located is adjusted to be the administrator operation mode, and the speed of the current depositor in performing service processing is improved.

Drawings

FIG. 1 is a block diagram of the overall architecture of a security system of the present application;

FIG. 2 is a schematic diagram of the overall structure of the security system of the present application;

FIG. 3 is an overall logic diagram of the security system of the present application;

FIG. 4 is a flow chart of the identification module obtaining the current depositor identity information in the present application;

FIG. 5 is a flow chart of the heart rate module acquiring the heart rate information of the current depositor in the present application;

FIG. 6 is a flowchart illustrating a detection module detecting whether there are other depositors within the security range of the current depositor according to the present application;

FIG. 7 is a flow chart of the present application in which the query module determines whether the current depositor requires assistance from bank personnel;

FIG. 8 is a flow chart of the present application in which the administrator module and central control module confirm the identity information of the bank workers assisting the current depositor;

fig. 9 is a flow chart of heart rate module modification of heart rate information in the present application.

Description of reference numerals: 1. an identification module; 11. a fingerprint acquisition submodule; 12. a portrait acquisition submodule; 2. a comparison module; 3. a heart rate module; 31. a heart rate acquisition submodule; 32. a heart rate storage sub-module; 4. a judgment module; 5. a detection module; 51. an infrared scanning sub-module; 52. a photographing submodule; 53. an image storage sub-module; 54. a prompt submodule; 55. a timing submodule; 56. a help sub-module; 6. an interrogation module; 61. a receiving submodule; 62. a display sub-module; 631. inputting the key again by the fingerprint; 632. forgetting the password key; 623. counting units; 624. a judgment unit; 63. a sending submodule; 7. an administrator module; 71. an identity recognition submodule; 72. resetting the submodule; 8. and a central control module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-9 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses an automatic alarm security system for bank robbery.

Referring to fig. 1, the automatic alarm security system for the bank robbery occurrence situation comprises an identification module 1, a comparison module 2, a heart rate module 3, a judgment module 4, a detection module 5, an inquiry module 6, a manager module 7 and a central control module 8; the central control module 8 stores depositor identity information, depositor account information and identity information of bank workers;

referring to fig. 1 and 2, the identification module 1 includes a fingerprint acquisition sub-module 11 and a portrait acquisition sub-module 12; the identity information acquisition module is used for acquiring identity information of a current depositor, wherein the identity information comprises fingerprint information and portrait information;

fingerprint acquisition submodule 11:

the signal output end is in communication connection with the first signal input end of the comparison module 2;

the fingerprint acquisition module is used for acquiring fingerprint information of a current depositor;

the portrait acquisition sub-module 12:

the signal output end is in communication connection with a second signal input end of the comparison module 2;

the method is used for acquiring the portrait information of the current depositor.

And a comparison module 2:

and the identity information acquisition module is used for comparing the identity information of the current depositor with the identity information of the depositor in the central control module 8, if the identity information is consistent with the identity information of the current depositor, sending an identity information coincidence signal, and if the identity information is not consistent with the identity information of the current depositor, sending an identity information abnormal signal.

The heart rate module 3 comprises a heart rate acquisition sub-module 31 and a heart rate storage sub-module 32;

heart rate acquisition submodule 31:

the signal input end is in communication connection with the signal output end of the comparison module 2;

the first signal output end is in communication connection with the signal input end of the heart rate storage submodule 32;

the second signal output end is in communication connection with the first signal input end of the judgment module 4;

the heart rate information acquisition module is used for receiving the identity information coincidence signal and acquiring the heart rate information of the current depositor according to the identity information coincidence signal; the heart rate acquisition submodule 31 and the fingerprint acquisition submodule 11 are installed into a whole, so that heart rate information of a current depositor can be acquired after fingerprints are acquired;

heart rate storage submodule 32:

the signal output end is in communication connection with a second signal input end of the judgment module 4;

the heart rate correction module is used for storing the heart rate threshold value, correcting the heart rate information of the current depositor according to the heart rate threshold value, and storing the heart rate information corrected by the current depositor.

And a judging module 4:

the signal end is in bidirectional communication connection with the signal end of the heart rate storage submodule;

the second signal output end is in communication connection with the first signal input end of the central control module 8;

if the current depositor goes to the bank for the first time for business processing, the heart rate information of the current depositor is compared with the conventional heart rate threshold value in the heart rate storage submodule 32; if the heart rate information of the current depositor exceeds the conventional heart rate threshold range in the heart rate storage submodule 32, sending a heart rate abnormal signal, otherwise, sending a heart rate normal signal;

if the current depositor does not go to the bank for the first time to perform business processing, the business processing is used for comparing the heart rate information of the current depositor with the heart rate information corrected by the current depositor in the heart rate storage submodule 32; if the heart rate information of the current depositor exceeds the heart rate information range corrected by the current depositor in the storage sub-module, sending a heart rate abnormal signal; otherwise, sending a heart rate normal signal.

The detection module 5 comprises an infrared scanning sub-module 51, a photographing sub-module 52, an image storage sub-module 53, a prompting sub-module 54, a timing sub-module 55 and a help sub-module 56;

infrared scanning sub-module 51:

the signal input end is in communication connection with the signal output end of the judgment module 4;

the first signal output end is in communication connection with the signal input end of the photographing submodule 52;

the second signal output end is in communication connection with the signal input end of the prompt submodule 54;

the third signal output end is in communication connection with the first signal input end of the help sub-module 56;

the system comprises a heart rate detection module, a heart rate detection module and a display module, wherein the heart rate detection module is used for receiving heart rate abnormal signals and scanning whether other depositors exist in the safety range of the current depositor or not according to the heart rate abnormal signals;

if other depositors exist in the safety range of the current depositor, sending a prompt signal; and if no other depositor exists in the safety range of the current depositor, sending an inquiry signal.

Photographing submodule 52:

the signal output end is in communication connection with the signal input end of the image storage submodule 53;

and the image acquisition module is used for receiving the prompt signal, acquiring the image in the safety range of the current depositor according to the prompt signal and transmitting the image.

The image storage sub-module 53:

the system is used for receiving and storing the images within the safety range of the current depositor;

prompt submodule 54:

the signal output end is in communication connection with the signal input end of the timing submodule 55;

the system comprises a prompt signal receiving unit, a safety distance warning unit and a safety distance warning unit, wherein the prompt signal receiving unit is used for receiving a prompt signal, prompting other depositors in the safety range of the current depositor to keep a safety distance with the current depositor according to the prompt signal, and sending a safety distance warning signal; (ii) a

Timing submodule 55:

the signal output end is in communication connection with a second signal input end of the help-seeking sub-module 56;

the system comprises a signal processing module, a signal processing module and a signal processing module, wherein the signal processing module is used for receiving a safety distance early warning signal, starting timing according to the safety distance early warning signal and sending a timing completion signal when timing is completed;

the help sub-module 56:

the timing device is used for receiving a timing completion signal and a prompt signal and sending a first help seeking signal according to the timing completion signal and the prompt signal; and sending a second help signal according to the timing completion signal and the inquiry signal.

The query module 6 comprises a receiving submodule 61, a display submodule 62 and a sending submodule 63;

receiving submodule 61:

the signal output end is in communication connection with a first signal input end of the sending submodule 63;

a display submodule 62 for receiving the first help signal and popping up the display submodule according to the first help signal;

and the second help seeking signal is used for receiving the second help seeking signal and sending a third help seeking signal according to the second help seeking signal.

The display sub module 62 includes a fingerprint re-input key 631, a forgotten password key 632, a counting unit and a judging unit 624;

fingerprint re-input key 631:

the first signal output end is in communication connection with a second signal input end of the sending submodule 63;

the second signal output end is in communication connection with the signal input end of the counting unit;

used for sending fingerprint identification signals when triggered;

forget password button 632:

the signal output end is in communication connection with a third signal input end of the sending submodule 63;

used for sending an alarm signal when triggered;

a counting unit:

the signal output end is in communication connection with the signal input end of the judging unit 624;

the fingerprint identification device is used for receiving the fingerprint identification signal and calculating the sending times of the fingerprint identification signal according to the fingerprint identification signal;

the judging unit 624:

the signal output end is in communication connection with a fourth signal input end of the sending submodule 63;

and the sending times used for receiving the fingerprint identification signals are compared with a threshold value according to the sending times of the fingerprint identification, if the sending times exceed the threshold value, the abnormal signals are sent, and if the sending times do not exceed the threshold value, the abnormal signals are not sent.

The transmission submodule 63:

the first signal output end is in communication connection with the second signal input end of the central control module 8;

the second signal output end is in communication connection with the signal input end of the fingerprint acquisition submodule 11;

the alarm is used for receiving the third help signal and sending an abnormal alarm according to the third help signal;

the fingerprint acquisition device is used for receiving the fingerprint identification signal and sending a fingerprint acquisition signal according to the fingerprint identification signal;

the central control module is used for receiving the alarm signal and sending an alarm to the central control module 8 according to the alarm signal;

the system is used for receiving the abnormal signals, carrying the information of the area where the current depositor is located, and sending an abnormal alarm according to the abnormal signals.

The administrator module 7 comprises an identity recognition submodule 71 and a reset submodule 72;

identity recognition submodule 71:

the first signal output end is in communication connection with a third signal input end of the central control module 8;

the second signal output end is in communication connection with the signal input end of the reset sub-module 72;

the identity information of the bank staff beside the current depositor is received, the identity information of the bank staff beside the current depositor is compared with the identity information of the bank staff in the central control module 8, and if the identity information accords with the condition of sending an operation signal of the bank staff, the operation signal is not sent; wherein the identity information comprises an ID card;

reset sub-module 72:

the signal output end is in communication connection with a fourth signal input end of the central control module 8;

the system comprises a reset circuit, a reset circuit and a control circuit, wherein the reset circuit is used for receiving an operation signal of a bank worker and sending a reset signal according to the operation signal of the bank worker;

the depositor operation mode is used when no bank worker assists the current depositor to process the business;

and the administrator running mode is used when bank workers assist the current depositor to process the business.

The central control module 8:

the heart rate normal signal is received, and the identity information of the current depositor is confirmed to be correct according to the heart rate normal signal so that the current depositor can conveniently perform normal business processing;

the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for receiving an abnormal alarm and prompting bank staff to go to the area where the current depositor is located to assist the current depositor according to the abnormal alarm and the area where the current depositor is located;

the system is used for receiving an alarm and prompting bank staff to go to the area where the current depositor is located to assist the current depositor according to the alarm;

the security system is used for receiving the reset signal and adjusting the operation mode of the security system to the administrator operation mode according to the reset signal, wherein the operation mode comprises a depositor operation mode and an administrator operation mode.

Referring to fig. 3, the alarming method of the automatic alarming security system for the bank robbery condition comprises the following steps:

initial state: the operation mode of the security system is a depositor operation mode;

referring to fig. 4, acquiring and verifying identity information of a current depositor includes the following steps:

s100: acquiring identity information of a current depositor;

s110, the fingerprint acquisition sub-module 11 acquires the fingerprint information of the current depositor;

s120, the portrait acquisition submodule 12 acquires the portrait information of the current depositor;

s130, the comparison module 2 compares the acquired fingerprint information and portrait information with the fingerprint information and portrait information of the depositor stored in the central control module 8;

s131, if the identity information is not matched, an identity information abnormal signal is sent; the fingerprint acquisition submodule 11 receives the identity information abnormal signal to acquire the fingerprint information of the current depositor again;

and S132, if the identity information coincidence signal is coincided with the sending identity information coincidence signal, the heart rate acquisition submodule 31 receives the identity information coincidence signal, acquires the heart rate information of the current depositor according to the identity information coincidence signal and sends the heart rate information.

Referring to fig. 5, determining the heart rate information of the current depositor includes the following steps:

s200, receiving the heart rate information of the current depositor by the judgment module 4;

s300, the judging module inquires whether the heart rate information record of the current depositor exists in the storage sub-module or not and judges whether the current depositor comes from the bank for the first time or not;

s310, if the current depositor comes to the bank for the first time, comparing the heart rate information of the current depositor with the heart rate threshold value in the heart rate storage submodule 32; if the heart rate information of the current depositor exceeds the range of the heart rate threshold value in the heart rate storage submodule 32, sending a heart rate abnormal signal; otherwise, sending a heart rate normal signal;

s320, if the current depositor does not go to the bank for the first time to perform business processing, comparing the heart rate information of the current depositor with the heart rate information corrected by the current depositor in the heart rate storage submodule 32; if the heart rate information of the current depositor exceeds the heart rate information range corrected by the current depositor in the storage sub-module, sending a heart rate abnormal signal; otherwise, sending a heart rate normal signal;

and S330, the central control module 8 receives the heart rate normal signal, and the current depositor enters a normal service processing page.

Referring to fig. 6, detecting whether there are other depositors within the safety range of the current depositor includes the following steps:

s400, the infrared scanning sub-module 51 receives the abnormal heart rate signal and scans whether other depositors exist in the safety range of the current depositor or not according to the abnormal heart rate signal; if other depositors exist in the safety range of the current depositor, sending a prompt signal; and if no other depositor exists in the safety range of the current depositor, sending an inquiry signal.

S410, the photographing submodule 52 receives the prompt signal, acquires the image in the safety range of the current depositor according to the prompt signal and sends the image;

s411, the image storage sub-module 53 receives and stores the image in the current safe range of the depositor;

s420, the prompting submodule 54 receives the prompting signal, prompts other depositors in the safety range of the current depositor to keep a safety distance with the current depositor according to the prompting signal, and sends a safety distance early warning signal;

s421, the timing submodule 55 receives the safety distance warning signal, starts timing according to the safety distance warning signal,

s422, the timing submodule 55 sends a timing completion signal after timing is completed;

s430, the help sub-module 56 receives the timing completion signal and the prompt signal and sends a first help signal according to the timing completion signal and the prompt signal; and sending a second help signal according to the timing completion signal and the inquiry signal.

Referring to fig. 7, confirming whether the current depositor requires assistance of bank staff includes the steps of:

s500, the receiving submodule 61 receives the first help signal and pops up the display submodule 62 according to the first help signal;

s510, the current depositor selects to trigger the fingerprint re-input key 631 or forget the password key 632; triggering the fingerprint re-input key 631, the fingerprint re-input key 631 sending a fingerprint identification signal; triggering a forgetting password key 632, wherein the forgetting password key 632 sends an alarm signal;

s520, the counting unit receives the fingerprint identification signal and calculates the sending times of the fingerprint identification signal according to the fingerprint identification signal;

s530, the judging unit 624 receives the sending times of the fingerprint identification signal, compares the sending times of the fingerprint identification with a threshold value, sends an abnormal signal if the sending times of the fingerprint identification exceed the threshold value, and does not send the abnormal signal if the sending times of the fingerprint identification exceed the threshold value.

Referring to fig. 8, the confirming of the identity information of the bank worker assisting the current depositor by the administrator module and the central control module includes the following steps:

s600, the sending submodule receives the fingerprint identification signal, the abnormal signal, the alarm signal and the second help signal;

s610, the sending submodule 63 receives the fingerprint identification signal and sends a fingerprint acquisition signal according to the fingerprint identification signal;

s611, the fingerprint acquisition sub-module 11 receives the fingerprint acquisition signal and acquires the fingerprint information of the current depositor again;

s620, the sending submodule 63 receives the abnormal signal or the first help signal and sends an abnormal alarm according to the abnormal signal or the second help signal;

s621, the central control module 8 receives the abnormal alarm, and prompts bank staff to go to the area where the current depositor is located to assist the current depositor according to the abnormal alarm and the area where the current depositor is located;

s630, the sending submodule 63 receives the alarm signal and sends an alarm to the central control module 8 according to the alarm signal;

s631, the central control module 8 receives the alarm and prompts bank staff to go to the area where the current depositor is located to assist the current depositor according to the alarm;

s700: the identity recognition submodule 71 receives identity information of bank workers beside the current depositor, compares the identity information of the bank workers beside the current depositor with identity information of bank workers in the central control module 8, and does not send the identity information if the identity information of the bank workers beside the current depositor accords with the identity information of the bank workers in the central control module 8;

and S710, the reset submodule 72 receives the bank worker operation signal, sends a reset signal according to the bank worker operation signal and adjusts the operation mode of the security system to the administrator operation mode.

Referring to fig. 9, the method for correcting heart rate information includes the following steps:

s800: the heart rate acquisition submodule 31 acquires heart rate information A of the current depositor for the first time;

s810: the heart rate acquisition sub-module 31 compares a to a conventional heart rate threshold range (60, 100);

if 60< A < 100; corrected to (60, A);

if A < 60; corrected to (A, 100);

if 100< A; sending a heart rate abnormal signal, and correcting to be (60, 100);

s820: secondarily acquiring heart rate information of the current depositor as A1;

s830: comparing a1 to the corrected heart rate range;

if 60< a1< a < 100; corrected to (A1, A);

if A <100< A1, sending an abnormal heart rate signal, and correcting to be (A, 100);

if a1<60< a; corrected to (A1, A);

if 60< a1< 100; sending a heart rate abnormal signal;

s840: judging whether the current depositor is in a malignant event or not;

s841: if the current depositor is in a malignant event, the corrected result is (60, A);

s842: otherwise, the result is corrected to (A, A1).

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (10)

1. An automatic alarm security system for bank robbery occurrence is characterized by comprising:

the identification module (1) is used for acquiring the identity information of the current depositor;

the comparison module (2) is used for comparing the identity information of the current depositor with the identity information of the depositor in the system;

the heart rate module (3) is used for acquiring the heart rate information of the current depositor;

the judging module (4) is used for judging whether the heart rate information of the current depositor exceeds the heart rate threshold range;

the detection module (5) is used for detecting whether other depositors exist in the safety range of the current depositor;

and the inquiring module (6) is used for inquiring whether the current depositor needs the assistance of bank staff.

2. The automatic alarm security system for the occurrence of bank robbery situations according to claim 1, characterized in that said identification module (1) comprises:

the fingerprint acquisition sub-module (11) is used for acquiring the fingerprint information of the current depositor;

the portrait acquisition sub-module (12) is used for acquiring the portrait information of the current depositor;

the identity information comprises fingerprint information and portrait information.

3. The automatic alarm security system for bank robbery occurrence according to claim 1, wherein said heart rate module (3) comprises:

the heart rate acquisition submodule (31) is used for acquiring the heart rate information of the current depositor;

and the heart rate storage sub-module (32) is used for storing the heart rate threshold value, and storing the heart rate information of the current depositor after being corrected according to the heart rate threshold value.

4. The automatic alarm security system for the occurrence of bank robbery situations according to claim 1, characterized in that said detection module (5) comprises:

the infrared scanning sub-module (51) is used for scanning whether other depositors exist in the safety range of the current depositor;

the photographing sub-module (52) is used for acquiring an image in the safety range of the current depositor if other depositors exist in the safety range of the current depositor;

and the image storage sub-module (53) is used for storing the images within the safety range of the current depositor.

5. The automatic alarm security system for the occurrence of bank robbery situations according to claim 4, wherein said detection module (5) further comprises:

the prompt submodule (54) is used for prompting other depositors in the safety range of the current depositor to keep a safety distance with the current depositor and sending a safety distance early warning signal;

the timing submodule (55) is used for timing and receiving the safety distance early warning signal, starting timing according to the safety distance early warning signal, and sending a timing completion signal when the timing is completed;

and the help-seeking sub-module (56) receives the timing completion signal and sends a help-seeking signal according to the timing completion signal.

6. The automatic alarm security system for the occurrence of bank robbery situations according to claim 5, characterized in that said inquiry module (6) comprises:

a receiving submodule (61) for receiving a help signal;

the display sub-module (62) is used for receiving the help seeking signal and displaying the help seeking information according to the help seeking signal for the current depositor to select;

and the sending submodule (63) sends a corresponding feedback signal according to the selection of the current depositor.

7. The automatic alarm security system for bank robbery occurrence according to claim 6, characterized in that: the help information comprises:

a fingerprint re-input key (631) for transmitting a fingerprint recognition signal;

and a forgetting password key (632) for sending an alarm signal.

8. The automatic alarm security system for bank robbery occurrence according to claim 7, wherein said display sub-module (62) further comprises:

a counting unit for calculating the transmission times of the fingerprint identification signal according to the fingerprint identification signal;

and a judging unit (624) for comparing whether the transmission times of the fingerprint identification signal exceeds a threshold value.

9. The system according to claim 1, wherein the security system further comprises:

the system comprises a manager module (7) for bank staff to adjust the operation mode of the security system, wherein the operation mode comprises a depositor operation mode and a manager operation mode;

the depositor operation mode is used when no bank worker assists the current depositor to process the service;

and the administrator running mode is used when bank workers assist the current depositor to process the business.

10. The automatic alarm security system for the occurrence of bank robbery situations according to claim 9, characterized in that said supervisor module (7) comprises:

and the identity recognition submodule (71) is used for recognizing the identity information of bank workers beside the current depositor.

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