CN110009766B - Multifunctional house access mechanism - Google Patents

Abstract

The invention relates to a multifunctional house access mechanism, comprising: the doorbell equipment is arranged on the entrance door and used for sending out doorbell sound to the entrance door when receiving input of personnel; the fingerprint lock body is arranged above a handle of the entrance door and comprises a fingerprint input panel, an emergency mechanical unlocking structure and a key array; a closeable panel for closing the fingerprint input panel in a dropped state; the single-reflection glass equipment is embedded in the door and is used for providing a one-way peeping view; the glass holder is fixed with a single-reflection glass device and is used for enabling the front surface of the single-reflection glass device to face the inside of a house when an endoscopic control signal is received and enabling the front surface of the single-reflection glass device to face the outside of the house when an peeping control signal is received; and the authentication control equipment is used for carrying out facial analysis on the image based on the facial features of the authorized person. The invention realizes the multifunctional control of house access.

Description

Multifunctional house access mechanism

Technical Field

The invention relates to the field of single-reflection glass equipment, in particular to a multifunctional house access mechanism.

Background

The entrance door mainly comprises a pure steel entrance door, a stainless steel door and an armored door.

The armored door is an entrance door with superior quality, and is mainly characterized in that a layer of wood veneer is added on the surface of the steel entrance door instead of the traditional surface treatment method, so that the safety factor of the entrance door is ensured, the grade of the door is greatly improved, and simultaneously, the armored door can be better coordinated with indoor decoration.

The size of the entrance door is that the size of a single door is 2000 x 700, 1800 x 700, 2000 x 750, 1800 x 750, 2000 x 800 and the like; the vertical hinged door is 2000 x 800, 2000 x 750, 2000 x 700 and the like in size; and folding doors 2000 x 700, 2000 x 750, 2000 x 800, etc.

Disclosure of Invention

The invention provides a multifunctional house access mechanism, aiming at solving the technical problem that an endoscopic mode cannot be provided for a legal user based on a face access mechanism in the prior art.

The invention needs to have the following three key points:

(1) a fingerprint access mechanism, an emergency mechanical access mechanism and a face access mechanism are provided for the entrance door, so that the intelligent level of the entrance door is improved;

(2) an endoscopic mode is provided for a legal user through a face access mechanism, so that convenience is provided for related authentication personnel while house privacy is maintained;

(3) the method comprises the steps of mapping a preset sliding window with a corresponding size based on the resolution of an image, and determining a data processing mode of each channel of RGB of a processed pixel point based on the R channel value distribution condition of the pixel point in each direction in the preset sliding window, so that the most effective reference value for image filtering can be obtained.

According to an aspect of the present invention, there is provided a multi-purpose premises access mechanism, the mechanism comprising:

the doorbell equipment is arranged on the entrance door and used for sending out doorbell sound to the entrance door when receiving input of personnel; the fingerprint lock body is arranged above a handle of the entrance door and comprises a fingerprint input panel, an emergency mechanical unlocking structure and a key array; the closable panel is arranged above the fingerprint lock body and is used for closing the fingerprint input panel in a dropping state; the single-reflection glass equipment is embedded in the door and is used for providing a one-way peeping view; the glass holder is fixed with a single-reflection glass device, and is used for enabling the front surface of the single-reflection glass device to face the inside of a house when an endoscopic control signal is received, and also used for enabling the front surface of the single-reflection glass device to face the outside of the house when an peeping control signal is received; the face acquisition equipment is arranged on the entrance door and used for acquiring face images of people in an outdoor scene of the entrance door to obtain corresponding current face images when receiving an endoscopic request signal input by the people through the key array; the targeted execution device is connected with the face acquisition device and is used for performing targeted processing on the received current face image to obtain a corresponding targeted execution image; and the authentication control device is connected with the targeted execution device and used for carrying out face analysis on the targeted execution image based on the facial features of the authorized person so as to determine whether the targeted execution image contains the face pattern of the authorized person or not, and sending out an endoscopic control signal when the targeted execution image contains the face pattern of the authorized person, or sending out an endoscopic control signal when the targeted execution image does not contain the face pattern of the authorized person.

More specifically, in the multi-function premises access mechanism: the glass holder is connected with the authentication control equipment and is used for receiving the endoscopic control signal or the endoscopic control signal.

More specifically, in the multi-function premises access mechanism: the closeable panel is further configured to open the fingerprint input panel in a raised state; wherein, in the fingerprint lock body, the emergency mechanical unlocking structure is used for providing an input port of a mechanical key when the fingerprint input panel is in failure.

More specifically, in the multi-function premises access mechanism: the targeted execution equipment comprises pixel point analysis equipment which is connected with the face acquisition equipment and used for receiving the current face image, judging noise points of all pixel points in the current face image and determining that each pixel point is a noise point or a non-noise point, wherein the pixel point analysis equipment detects various noises in the current face image to obtain all noise areas in the current face image, confirms the pixel points in a certain noise area as the noise points and confirms the pixel points out of all the noise areas as the non-noise points; the targeted execution device comprises a resolution measuring device, a display device and a display device, wherein the resolution measuring device is used for receiving the current face image, extracting the resolution of the current face image and mapping a preset sliding window with a corresponding size based on the resolution of the current face image, and the larger the resolution of the current face image is, the larger the radial length of the mapped preset sliding window is; the targeted execution device comprises a dynamic processing device, connected to the resolution measurement device, and configured to acquire the preset sliding window and perform dynamic filtering processing on each pixel point in the current facial image, where the dynamic filtering processing performed on each pixel point in the current facial image by the dynamic processing device includes: taking each pixel point in the current facial image as an object pixel point, determining each pixel point in a preset sliding window taking the object pixel point as a centroid in the current facial image as each pixel point to be evaluated, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the horizontal direction taking the object pixel point as a center in the preset sliding window, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the vertical direction taking the object pixel point as a center in the preset sliding window, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the main diagonal direction taking the object pixel point as a center in the preset sliding window, and calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the auxiliary diagonal direction taking the object pixel point as a center in the preset sliding window Obtaining the mean square error of R channel values of the pixels to be evaluated, obtaining the minimum value of the four mean square errors, taking the mean value of the R channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed R channel value of the target pixels, taking the mean value of the G channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed G channel value of the target pixels, and taking the mean value of the B channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed B channel value of the target pixels; the targeted execution device comprises a signal integration device which is respectively connected with the authentication control device and the dynamic processing device and is used for acquiring a targeted execution image corresponding to the current face image based on the processed R channel value, the processed G channel value and the processed B channel value of each pixel point in the current face image and sending the targeted execution image to the authentication control device.

More specifically, in the multi-function premises access mechanism: the dynamic processing equipment comprises a data receiving sub-equipment, a horizontal direction evaluation sub-equipment, a vertical direction evaluation sub-equipment, a main diagonal direction evaluation sub-equipment, a sub diagonal direction evaluation sub-equipment and a data output sub-equipment.

More specifically, in the multi-function premises access mechanism: the main diagonal direction is a direction from the lower left corner of the preset sliding window to the upper right corner of the preset sliding window.

More specifically, in the multi-function premises access mechanism: the secondary diagonal direction is a direction from a lower right corner of the preset sliding window to an upper left corner of the preset sliding window.

Drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which:

fig. 1 is a schematic external view of a face capturing apparatus of a multi-purpose premises access mechanism according to an embodiment of the present invention.

Detailed Description

Embodiments of the multi-purpose premises access mechanism of the present invention will be described in detail below with reference to the accompanying drawings.

The entrance door is the first door to enter the house, also called entrance door. The entrance door is the first gateway for entering the house, and the anti-theft performance is higher. Therefore, the entrance door is also called as a security door, and the entrance door is installed when most residences are completed.

The security control of the entrance door is not limited to mechanical aspects, but the development of electronic aspects is more and more prominent, for example, the use of fingerprint lock, the use of infrared monitor and the use of camera outside the door, however, the intelligent level of the current electronic entrance guard control mode of the entrance door is still relatively lagged behind, and cannot meet the increasing demand of people.

In order to overcome the defects, the invention builds a multifunctional house access mechanism, and can effectively solve the corresponding technical problem.

Fig. 1 is a schematic external view of a face capturing apparatus of a multi-purpose premises access mechanism according to an embodiment of the present invention. The face capturing apparatus includes a housing 1 and a lens 2.

A multi-purpose premises access mechanism according to an embodiment of the present invention is shown comprising:

the doorbell equipment is arranged on the entrance door and used for sending out doorbell sound to the entrance door when receiving input of personnel;

the fingerprint lock body is arranged above a handle of the entrance door and comprises a fingerprint input panel, an emergency mechanical unlocking structure and a key array;

the closable panel is arranged above the fingerprint lock body and is used for closing the fingerprint input panel in a dropping state;

the single-reflection glass equipment is embedded in the door and is used for providing a one-way peeping view;

the glass holder is fixed with a single-reflection glass device, and is used for enabling the front surface of the single-reflection glass device to face the inside of a house when an endoscopic control signal is received, and also used for enabling the front surface of the single-reflection glass device to face the outside of the house when an peeping control signal is received;

the face acquisition equipment is arranged on the entrance door and used for acquiring face images of people in an outdoor scene of the entrance door to obtain corresponding current face images when receiving an endoscopic request signal input by the people through the key array;

the targeted execution device is connected with the face acquisition device and is used for performing targeted processing on the received current face image to obtain a corresponding targeted execution image;

and the authentication control device is connected with the targeted execution device and used for carrying out face analysis on the targeted execution image based on the facial features of the authorized person so as to determine whether the targeted execution image contains the face pattern of the authorized person or not, and sending out an endoscopic control signal when the targeted execution image contains the face pattern of the authorized person, or sending out an endoscopic control signal when the targeted execution image does not contain the face pattern of the authorized person.

Next, the specific configuration of the multifunction house access mechanism of the present invention will be further described.

In the multi-purpose premises access mechanism: the glass holder is connected with the authentication control equipment and is used for receiving the endoscopic control signal or the endoscopic control signal.

In the multi-purpose premises access mechanism: the closeable panel is further configured to open the fingerprint input panel in a raised state;

wherein, in the fingerprint lock body, the emergency mechanical unlocking structure is used for providing an input port of a mechanical key when the fingerprint input panel is in failure.

In the multi-purpose premises access mechanism: the targeted execution equipment comprises pixel point analysis equipment which is connected with the face acquisition equipment and used for receiving the current face image, judging noise points of all pixel points in the current face image and determining that each pixel point is a noise point or a non-noise point, wherein the pixel point analysis equipment detects various noises in the current face image to obtain all noise areas in the current face image, confirms the pixel points in a certain noise area as the noise points and confirms the pixel points out of all the noise areas as the non-noise points;

the targeted execution device comprises a resolution measuring device, a display device and a display device, wherein the resolution measuring device is used for receiving the current face image, extracting the resolution of the current face image and mapping a preset sliding window with a corresponding size based on the resolution of the current face image, and the larger the resolution of the current face image is, the larger the radial length of the mapped preset sliding window is;

the targeted execution device comprises a dynamic processing device, connected to the resolution measurement device, and configured to acquire the preset sliding window and perform dynamic filtering processing on each pixel point in the current facial image, where the dynamic filtering processing performed on each pixel point in the current facial image by the dynamic processing device includes: taking each pixel point in the current facial image as an object pixel point, determining each pixel point in a preset sliding window taking the object pixel point as a centroid in the current facial image as each pixel point to be evaluated, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the horizontal direction taking the object pixel point as a center in the preset sliding window, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the vertical direction taking the object pixel point as a center in the preset sliding window, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the main diagonal direction taking the object pixel point as a center in the preset sliding window, and calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the auxiliary diagonal direction taking the object pixel point as a center in the preset sliding window Obtaining the mean square error of R channel values of the pixels to be evaluated, obtaining the minimum value of the four mean square errors, taking the mean value of the R channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed R channel value of the target pixels, taking the mean value of the G channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed G channel value of the target pixels, and taking the mean value of the B channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed B channel value of the target pixels;

the targeted execution device comprises a signal integration device which is respectively connected with the authentication control device and the dynamic processing device and is used for acquiring a targeted execution image corresponding to the current face image based on the processed R channel value, the processed G channel value and the processed B channel value of each pixel point in the current face image and sending the targeted execution image to the authentication control device.

In the multi-purpose premises access mechanism: the dynamic processing equipment comprises a data receiving sub-equipment, a horizontal direction evaluation sub-equipment, a vertical direction evaluation sub-equipment, a main diagonal direction evaluation sub-equipment, a sub diagonal direction evaluation sub-equipment and a data output sub-equipment.

In the multi-purpose premises access mechanism: the main diagonal direction is a direction from the lower left corner of the preset sliding window to the upper right corner of the preset sliding window.

In the multi-purpose premises access mechanism: the secondary diagonal direction is a direction from a lower right corner of the preset sliding window to an upper left corner of the preset sliding window.

In addition, the authentication control device is implemented by using a PLD chip. Programmable Logic device pld (programmable Logic device) is an important branch of ASIC, and is a semi-custom circuit produced by manufacturers as a general-purpose device, and users can program the device to implement required functions. Meanwhile, the programmable Logic array PLA (programmable Logic array) is composed of a programmable AND array and a programmable OR array. Programmable Array Logic (PAL) devices were first introduced by MMI corporation of America, and they were commonly used due to their flexible design and many kinds of output structures.

By adopting the multifunctional house access mechanism, aiming at the technical problem that an endoscopic mode cannot be provided for a legal user based on a face access mechanism in the prior art, the intelligent level of an entrance door is improved by providing a fingerprint access mechanism, an emergency mechanical access mechanism and a face access mechanism for the entrance door; an endoscopic mode is provided for a legal user through a face access mechanism, so that convenience is provided for related authentication personnel while house privacy is maintained; the method comprises the steps of mapping a preset sliding window with a corresponding size based on the resolution of an image, and determining a data processing mode of each channel of RGB of a processed pixel point based on the R channel value distribution condition of the pixel point in each direction in the preset sliding window, so that the most effective reference value for image filtering can be obtained.

It is to be understood that while the present invention has been described in conjunction with the preferred embodiments thereof, it is not intended to limit the invention to those embodiments. It will be apparent to those skilled in the art from this disclosure that many changes and modifications can be made, or equivalents modified, in the embodiments of the invention without departing from the scope of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.

Claims (7)

1. A multi-purpose premises access mechanism, said mechanism comprising:

the doorbell equipment is arranged on the entrance door and used for sending out doorbell sound to the entrance door when receiving input of personnel;

the fingerprint lock body is arranged above a handle of the entrance door and comprises a fingerprint input panel, an emergency mechanical unlocking structure and a key array;

the closable panel is arranged above the fingerprint lock body and is used for closing the fingerprint input panel in a dropping state;

the single-reflection glass equipment is embedded in the door and is used for providing a one-way peeping view;

the glass holder is fixed with a single-reflection glass device, and is used for enabling the front surface of the single-reflection glass device to face the inside of a house when an endoscopic control signal is received, and also used for enabling the front surface of the single-reflection glass device to face the outside of the house when an peeping control signal is received;

the face acquisition equipment is arranged on the entrance door and used for acquiring face images of people in an outdoor scene of the entrance door to obtain corresponding current face images when receiving an endoscopic request signal input by the people through the key array;

the targeted execution device is connected with the face acquisition device and is used for performing targeted processing on the received current face image to obtain a corresponding targeted execution image;

and the authentication control device is connected with the targeted execution device and used for carrying out face analysis on the targeted execution image based on the facial features of the authorized person so as to determine whether the targeted execution image contains the face pattern of the authorized person or not, and sending out an endoscopic control signal when the targeted execution image contains the face pattern of the authorized person, or sending out an endoscopic control signal when the targeted execution image does not contain the face pattern of the authorized person.

2. The multi-purpose premises access mechanism of claim 1, wherein:

the glass holder is connected with the authentication control equipment and is used for receiving the endoscopic control signal or the peeping control signal.

3. The multi-purpose premises access mechanism of claim 2, wherein:

the closeable panel is further configured to open the fingerprint input panel in a raised state;

wherein, in the fingerprint lock body, the emergency mechanical unlocking structure is used for providing an input port of a mechanical key when the fingerprint input panel is in failure.

4. The multi-purpose premises access mechanism of claim 3, wherein:

the targeted execution equipment comprises pixel point analysis equipment which is connected with the face acquisition equipment and used for receiving the current face image, judging noise points of all pixel points in the current face image and determining that each pixel point is a noise point or a non-noise point, wherein the pixel point analysis equipment detects various noises in the current face image to obtain all noise areas in the current face image, confirms the pixel points in a certain noise area as the noise points and confirms the pixel points out of all the noise areas as the non-noise points;

the targeted execution device comprises a resolution measuring device, a display device and a display device, wherein the resolution measuring device is used for receiving the current face image, extracting the resolution of the current face image and mapping a preset sliding window with a corresponding size based on the resolution of the current face image, and the larger the resolution of the current face image is, the larger the radial length of the mapped preset sliding window is;

the targeted execution device comprises a dynamic processing device, connected to the resolution measurement device, and configured to acquire the preset sliding window and perform dynamic filtering processing on each pixel point in the current facial image, where the dynamic filtering processing performed on each pixel point in the current facial image by the dynamic processing device includes: taking each pixel point in the current facial image as an object pixel point, determining each pixel point in a preset sliding window taking the object pixel point as a centroid in the current facial image as each pixel point to be evaluated, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the horizontal direction taking the object pixel point as a center in the preset sliding window, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the vertical direction taking the object pixel point as a center in the preset sliding window, calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the main diagonal direction taking the object pixel point as a center in the preset sliding window, and calculating the mean square error of R channel values of each pixel point to be evaluated after the object pixel point is eliminated in the auxiliary diagonal direction taking the object pixel point as a center in the preset sliding window Obtaining the mean square error of R channel values of the pixels to be evaluated, obtaining the minimum value of the four mean square errors, taking the mean value of the R channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed R channel value of the target pixels, taking the mean value of the G channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed G channel value of the target pixels, and taking the mean value of the B channel values of the pixels to be evaluated after the target pixels are eliminated in the direction corresponding to the minimum value as the processed B channel value of the target pixels;

the targeted execution device comprises a signal integration device which is respectively connected with the authentication control device and the dynamic processing device and is used for acquiring a targeted execution image corresponding to the current face image based on the processed R channel value, the processed G channel value and the processed B channel value of each pixel point in the current face image and sending the targeted execution image to the authentication control device.

5. The multi-purpose premises access mechanism of claim 4, wherein:

the dynamic processing equipment comprises a data receiving sub-equipment, a horizontal direction evaluation sub-equipment, a vertical direction evaluation sub-equipment, a main diagonal direction evaluation sub-equipment, a sub diagonal direction evaluation sub-equipment and a data output sub-equipment.

6. The multi-purpose premises access mechanism of claim 5, wherein:

the main diagonal direction is a direction from the upper left corner of the preset sliding window to the lower right corner of the preset sliding window.

7. The multi-purpose premises access mechanism of claim 6, wherein:

the secondary diagonal direction is a direction from a lower left corner of the preset sliding window to an upper right corner of the preset sliding window.

Images