Disclosure of Invention
Therefore, the invention provides a gate passing control method and system based on temperature detection and gate inhibition authorization, and can solve the technical problem of low passing efficiency in the prior art.
In order to achieve the above object, one aspect of the present invention provides a method and a system for controlling gate passage based on temperature detection and gate access authorization, including:
step S100: setting a construction time interval after receiving the information of the access card;
step S200: constructing first information in the construction time period, wherein the first information comprises gate switch instruction information;
step S300: if the gate switch instruction information is a gate opening signal, opening the gate;
step S400: otherwise forbidding to pass through the gate;
step S500: and resetting the state of the gate, receiving the information of the next access card, and repeating the steps.
In the step S100, the first information is from an access control system and a sign information acquisition system, where the access control system includes an access control system server, an access control system terminal, and a card reader; the physical sign data acquisition system comprises a data acquisition unit, a physical sign data server and a physical sign data terminal, the access control system is used for receiving a card number of an access control card, establishing a personnel information base corresponding to the card number of the access control card according to the card number, synchronizing the personnel information base to the physical sign information acquisition system, and the physical sign information acquisition system is used for acquiring physical sign information of personnel, storing the corresponding physical sign information and acquiring supplementary information corresponding to the personnel in a big database;
in step S200, when the received access control card number matches the card number in the personnel database, authorizing the access control, and if the characteristic information acquired by the data acquisition device at this time matches a sign information standard value preset in the sign data server, indicating that the sign data terminal is also authorized, wherein the first information is access control authorization information and sign data terminal authorization information;
in step S300, if the access control is authorized, the physical sign data terminal is not authorized, the gate is closed, and the access control signal input is reset again to wait for the next access control signal input;
if the entrance guard is not authorized and the physical sign data terminal is authorized, the gate is not started.
Further, still include:
detecting the actual acquisition time of the access authorization information and the physical sign data terminal authorization information, and correcting the construction time period corresponding to the access card information after receiving the next access card information according to the relationship between the actual acquisition time and the construction time period;
setting the detected actual acquisition time as T, setting the current construction time interval as T0, and if T is more than or equal to 0.9 multiplied by T0, still adopting T0 as the construction time interval after receiving the next entrance guard card information;
if the value T is more than or equal to 0.9 multiplied by T0 and is more than or equal to 0.5 multiplied by T0, after the next access control card information is received, a first coefficient k1 is adopted to correct the construction time interval T0;
and if T is less than 0.5 multiplied by T0, after receiving the next access control card information, correcting the construction time period T0 by adopting a second coefficient k2, wherein the first coefficient 1> < k1> < k2> <0.
Further, a first coefficient k1 is adopted to correct the construction period T0, and the construction period after correction is T10= T0 x (1-k 1);
the build period T0 is corrected with a second coefficient k2, the corrected build period being T20= T0 × (1-k 2).
And further recording a gate log after the construction period is finished, wherein the gate log comprises a gate card number, time, an event and a result, the gate log is arranged in a channel controller, and the channel controller is used for controlling the gate.
Furthermore, the door opening signal is authorized by the door access, the physical sign data terminal is not authorized, the data collector does not collect physical sign data, the remote control is determined at the moment, and the door access is opened.
In another aspect, the present invention further provides a gate passage control system based on temperature detection and gate authorization, configured to execute the control method, including:
the receiving module is used for setting a construction time interval after receiving the information of the access control card;
the building module is used for building first information in the building time period, the first information comprises gate switch instruction information, the first information is from an access control system and a sign information acquisition system, and the access control system comprises an access control system server, an access control system terminal and a card reader; the physical sign data acquisition system comprises a data acquisition unit, a physical sign data server and a physical sign data terminal, the access control system is used for receiving a card number of an access control card, establishing a personnel information base corresponding to the card number of the access control card according to the card number, synchronizing the personnel information base to the physical sign information acquisition system, the physical sign information acquisition system is used for acquiring physical sign information of personnel, storing the corresponding physical sign information, acquiring supplementary information corresponding to the personnel in a big database, when the received card number of the access control card is matched with the card number in the personnel database, authorizing the access control, indicating that the physical sign data terminal is also authorized if the characteristic information acquired by the data acquisition unit is in accordance with a physical sign information standard value preset in the physical sign data server, and the first information is access authorization information and physical sign data terminal authorization information;
the comparison module is used for opening the gate if the gate switch instruction information is a gate opening signal, otherwise, forbidding the gate to pass through, if the gate is authorized, the physical sign data terminal is not authorized, closing the gate, resetting the input of the gate signal again, and waiting for the input of the next gate signal;
if the entrance guard is not authorized and the physical sign data terminal is authorized, the gate is not started;
and the reset module is used for resetting the state of the gate.
The system further comprises a monitoring module, a data acquisition module and a data acquisition module, wherein the monitoring module is used for detecting the actual acquisition time of the access authorization information and the physical sign data terminal authorization information, and correcting the construction time period corresponding to the access card information after receiving the next access card information according to the relationship between the actual acquisition time and the construction time period;
setting the detected actual acquisition time as T, setting the current construction time interval as T0, and if T is more than or equal to 0.9 multiplied by T0, still adopting T0 as the construction time interval after receiving the next entrance guard card information;
if the value T is more than or equal to 0.9 multiplied by T0 and is more than or equal to 0.5 multiplied by T0, after the next access control card information is received, a first coefficient k1 is adopted to correct the construction time interval T0;
and if T is less than 0.5 multiplied by T0, after receiving the next access control card information, correcting the construction time period T0 by adopting a second coefficient k2, wherein the first coefficient 1> < k1> < k2> <0.
Further, the monitoring module is further configured to modify a construction period T0 by using a first coefficient k1, where the modified construction period is T10= T0 × (1-k 1);
and correcting the construction period T0 by adopting a second coefficient k2, wherein the construction period after correction is T20= T0 x (1-k 2).
The system further comprises a recording module used for recording gate logs after the construction period is finished, wherein the gate logs comprise gate card numbers, time, events and results, the gate logs are arranged in a channel controller, and the channel controller is used for controlling the gates.
Further, the system comprises a remote judgment module, wherein the door opening signal is authorized by the door access, the physical sign data terminal is not authorized, and the data collector does not collect physical sign data, and the door opening signal is judged to be remotely controlled and the door access is opened.
Compared with the prior art, the intelligent control method has the advantages that whether the gate is opened or not is restricted by two conditions, whether the acquired data of the access control card signal and the physical sign information received by the card reader is normal or not is determined, the two data are fused into the first information, the opening signal of the gate is formed, if the fusion result is the opening signal, the gate is opened, otherwise, the gate is not started, manual participation is not needed in the process, the data acquisition, processing and data output processing results are completed by the terminal and the server matched with the terminal, intelligent control over the gate is achieved, congestion caused by untimely information processing at the gate due to manual participation is effectively avoided, and the passing efficiency of the gate is greatly improved.
Particularly, the construction process of the first information is related to the network state through the correction of the construction time interval, if the network state is good, the processing speed during information exchange information processing is higher, and the first information can be obtained faster.
Particularly, the construction time interval is adjusted by using different coefficients, so that the adjustment of the construction time is more in line with the actual information processing efficiency, the construction time is shortened when the information processing efficiency is high, the construction time is shortened by using a smaller coefficient when the information processing efficiency is slightly low, the dynamic adjustment of the construction time is realized, the passing efficiency of the gate is further improved, the waiting time is reduced, and the user experience is improved.
Particularly, through establishing a gate log, the passing record of the gate is inquired, and the passing rule of the gate is analyzed according to the passing record serving as big data, so that the passing algorithm of the gate is further optimized, and the passing efficiency of the gate is further completed.
Especially, through remote control, realize the special control to the floodgate machine for the use application scene of floodgate machine is richer, more can deal with more complicated condition, improves the use flexibility of floodgate machine greatly, improves the availability factor.
Detailed Description
In order that the objects and advantages of the invention will be more clearly understood, the invention is further described below with reference to examples; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.
It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
Referring to fig. 1, a method for controlling gate passage based on temperature detection and gate authorization according to an embodiment of the present invention includes:
step S100: setting a construction time interval after receiving the information of the access card;
step S200: constructing first information in the construction time period, wherein the first information comprises gate switch instruction information;
step S300: if the gate switch instruction information is a gate opening signal, opening the gate;
step S400: otherwise forbidding to pass through the gate;
step S500: and resetting the state of the gate, receiving the information of the next access card, and repeating the steps.
In the step S100, the first information is from an access control system and a sign information acquisition system, where the access control system includes an access control system server, an access control system terminal, and a card reader; the physical sign data acquisition system comprises a data acquisition unit, a physical sign data server and a physical sign data terminal, the access control system is used for receiving a card number of an access control card, establishing a personnel information base corresponding to the card number of the access control card according to the card number, synchronizing the personnel information base to the physical sign information acquisition system, and the physical sign information acquisition system is used for acquiring physical sign information of personnel, storing the corresponding physical sign information and acquiring supplementary information corresponding to the personnel in a big database;
in step S200, when the received access control card number matches the card number in the personnel database, authorizing the access control, and if the characteristic information acquired by the data acquisition device at this time matches a sign information standard value preset in the sign data server, indicating that the sign data terminal is also authorized, wherein the first information is access control authorization information and sign data terminal authorization information;
in step S300, if the access control is authorized and the physical sign data terminal is not authorized, the gate is closed, and the input of the access control signal is reset to wait for the next input of the access control signal;
if the entrance guard is not authorized and the physical sign data terminal is authorized, the gate is not started.
Specifically, according to the embodiment of the invention, whether the gate is opened or not is determined by two constraint conditions, whether the acquired data of the access card signal and the physical sign information received by the card reader are normal or not, and the two data are fused into the first information to form the opening signal of the gate, if the fusion result is the opening signal, the gate is opened, otherwise, the gate is not started, manual participation is not needed in the process, the data acquisition, processing and data output processing results are completed by the terminal and the server matched with the terminal, so that the intelligent control of the gate is realized, the congestion caused by the fact that the information processing at the gate is not timely due to the manual participation is effectively avoided, and the passing efficiency of the gate is greatly improved.
Specifically, the system further comprises a monitoring module, a setting module and a setting module, wherein the monitoring module is used for detecting the actual acquisition time of the access authorization information and the physical sign data terminal authorization information, and correcting the construction time period corresponding to the access card information after receiving the next access card information according to the relationship between the actual acquisition time and the construction time period;
setting the detected actual acquisition time as T, setting the current construction time interval as T0, and if T is more than or equal to 0.9 multiplied by T0, still adopting T0 as the construction time interval after receiving the next entrance guard card information;
if the value T is more than or equal to 0.9 multiplied by T0 and is more than or equal to 0.5 multiplied by T0, after the next access control card information is received, a first coefficient k1 is adopted to correct the construction time interval T0;
and if T is less than 0.5 multiplied by T0, after receiving the next entrance guard card information, correcting the construction time interval T0 by adopting a second coefficient k2, wherein the first coefficient 1> < k2> <0.
Specifically, the embodiment of the invention corrects the construction time interval to enable the construction process of the first information to be related to the network state, if the network state is good, the processing speed during information exchange information processing is higher, and the first information can be obtained faster.
Specifically, a first coefficient k1 is adopted to correct a construction period T0, and the construction period after correction is T10= T0 x (1-k 1);
the build period T0 is corrected with a second coefficient k2, the corrected build period being T20= T0 × (1-k 2).
Specifically, the embodiment of the invention adjusts the construction time period by using different coefficients, so that the adjustment of the construction time period is more in line with the actual information processing efficiency, the construction time is shortened when the information processing efficiency is high, and the construction time is shortened by a smaller coefficient when the information processing efficiency is slightly low, thereby realizing the dynamic adjustment of the construction time, further improving the passing efficiency of the gate, reducing the waiting time and improving the user experience.
Specifically, the method further comprises the step of recording a gate log after the construction period is finished, wherein the gate log comprises an entrance guard card number, time, an event and a result, the gate log is arranged in a channel controller, and the channel controller is used for controlling the gate.
Specifically, the embodiment of the invention realizes the query of the traffic record of the gate by establishing the gate log, and analyzes the traffic rule of the gate according to the traffic record as big data so as to further optimize the traffic algorithm of the gate and further finish the traffic efficiency of the gate.
Specifically, the door opening signal is authorized by the entrance guard, the physical sign data terminal is not authorized, the data collector does not collect physical sign data, the remote control is determined at the moment, and the gate is opened.
Specifically, the embodiment of the invention realizes special control of the gate through remote control, so that the application scenes of the gate are richer, the gate can better cope with more complex conditions, the use flexibility of the gate is greatly improved, and the use efficiency is improved.
The embodiment of the present invention further provides a gate passage control system based on temperature detection and access control authorization, which is used for executing the control method in the embodiment of the present invention, and as shown in fig. 2, the system includes:
the receiving module is used for setting a construction time interval after receiving the information of the access control card;
the building module is used for building first information in the building time period, the first information comprises gate switch instruction information, the first information is from an access control system and a sign information acquisition system, and the access control system comprises an access control system server, an access control system terminal and a card reader; the physical sign data acquisition system comprises a data acquisition unit, a physical sign data server and a physical sign data terminal, the access control system is used for receiving a card number of an access control card, establishing a personnel information base corresponding to the card number of the access control card according to the card number, synchronizing the personnel information base to the physical sign information acquisition system, the physical sign information acquisition system is used for acquiring physical sign information of personnel, storing the corresponding physical sign information, acquiring supplementary information corresponding to the personnel in a big database, when the received card number of the access control card is matched with the card number in the personnel database, authorizing the access control, indicating that the physical sign data terminal is also authorized if the characteristic information acquired by the data acquisition unit is in accordance with a physical sign information standard value preset in the physical sign data server, and the first information is access authorization information and physical sign data terminal authorization information;
the comparison module is used for opening the gate if the gate opening and closing instruction information is a gate opening signal, otherwise, forbidding the gate to pass through, closing the gate if the access control is authorized and the physical sign data terminal is not authorized, resetting the input of the access control signal again and waiting for the input of the next access control signal;
if the entrance guard is not authorized and the physical sign data terminal is authorized, the entrance guard is not started;
and the reset module is used for resetting the state of the gate.
Specifically, the system further comprises a monitoring module, which is used for detecting the actual acquisition time of the access authorization information and the physical sign data terminal authorization information, and correcting the construction time period corresponding to the access card information after receiving the next access card information according to the relationship between the actual acquisition time and the construction time period;
setting the detected actual acquisition time as T, setting the current construction time period as T0, and if T is more than or equal to 0.9 multiplied by T0, still adopting T0 as the construction time period after receiving the next access control card information;
if the value of 0.9 multiplied by T0 is more than or equal to 0.5 multiplied by T0, after receiving the information of the next access control card, correcting the construction time interval T0 by adopting a first coefficient k 1;
and if T is less than 0.5 multiplied by T0, after receiving the next access control card information, correcting the construction time period T0 by adopting a second coefficient k2, wherein the first coefficient 1> < k1> < k2> <0.
Specifically, the monitoring module is further configured to modify a construction period T0 by using a first coefficient k1, where the modified construction period is T10= T0 × (1-k 1);
and correcting the construction period T0 by adopting a second coefficient k2, wherein the construction period after correction is T20= T0 x (1-k 2).
Specifically, the system further comprises a recording module, wherein the recording module is used for recording gate logs after the construction time interval is finished, the gate logs comprise access control card numbers, time, events and results, the gate logs are arranged in a channel controller, and the channel controller is used for controlling the gates.
Particularly, still include long-range decision module, be used for the signal of opening the door for entrance guard's authorization just when sign data terminal does not have the authorization and data collection station does not gather sign data, judge this moment and determine remote control, will the floodgate machine is opened.
Specifically, the gate passage control system based on temperature detection and gate inhibition authorization provided in the embodiment of the present invention is used to execute the gate passage control method based on temperature detection and gate inhibition authorization, and has the same or corresponding technical features, and can achieve the same technical effects, which is not described herein again.
The physical sign data in the embodiment of the invention is body temperature information, and the standard temperature of the body temperature information is the normal body temperature value of a human body. The gate passing control method and the gate passing control system based on temperature detection and access control authorization in the embodiment of the invention are applied to help a park or a community to carry out epidemic prevention and control during the epidemic prevention and control period, effectively prevent and detect the mobile personnel and improve the epidemic prevention efficiency.
So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention; various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.