阅读说明：本技术 一种云可视智能化生活门禁的实现方法 (Method for realizing cloud visual intelligent life entrance guard ) 是由 肖新煌 张磊 于 2019-08-27 设计创作，主要内容包括：本发明公开了一种云可视智能化生活门禁系统,包括云端服务器、识别模块、无线网络通讯模块、网络信号交换模块、门禁开关模块,识别模块的输出端与云端服务器的输入端相连接,云端服务器与无线网络通讯模块采用无线方式实现数据连接；可以根据不同人群设置不同的开门门禁方式,比如老人和小孩可以设置人脸识别和指纹开锁,有智能手机的可以安装APP实现多元化开门,云可视智能生活门禁也可以实现不同区域不同环境不同需求云端门禁；本发明的目的是云可视智能化生活门禁的实现方法来实现我们现实生活中方便便捷的门禁方式,云可视门禁可以实现触摸,密码,手机,APP,刷卡,人脸识别等更多的开门方式。(The invention discloses a cloud visual intelligent biological valve access control system which comprises a cloud server, an identification module, a wireless network communication module, a network signal exchange module and an access control switch module, wherein the output end of the identification module is connected with the input end of the cloud server, and the cloud server and the wireless network communication module are in data connection in a wireless mode; different door opening access control modes can be set according to different people, for example, the old and children can set face recognition and fingerprint unlocking, APP can be installed on the intelligent mobile phone to realize diversified door opening, and cloud-visible intelligent life access control can also realize cloud access control in different areas and different environments and different requirements; the invention aims to realize a convenient and convenient access control mode in real life by using a cloud visual intelligent life access control realization method, and the cloud visual access control can realize more door opening modes such as touch, password, mobile phone, APP, card swiping, face recognition and the like.)

1. A cloud visual intelligent biological valve access control system comprises a cloud server (1), an identification module (4), a wireless network communication module (2), a network signal exchange module (3) and an access control switch module (6), and is characterized in that the output end of the identification module (4) is connected with the input end of the cloud server (1), the cloud server (1) and the wireless network communication module (2) realize data connection in a wireless mode, the output end of the wireless network communication module (2) is connected with the input end of the network signal exchange module (3), and the output end of the network signal exchange module (3) is connected with the output end of the access control switch module (6);

the identification module (4) is used for identifying the identity of an entering individual, the identity of the entering individual is identified, the identification module (4) comprises an intelligent terminal module (41), a face identification module (42) and a fingerprint identification module (43), the output ends of the face identification module (42) and the fingerprint identification module (43) are connected with the input end of the cloud server (1), the output end of the intelligent terminal module (41) is provided with a software processing module (411), and the output end of the software processing module (411) is connected with the input end of the cloud server (1);

network signal switching module (3) are used for discerning network signal and give out the instruction, network signal switching module (3) are including signal processing module (31), signal transceiver module (32), signal storage module (33) and instruction generation module (34), the output of wireless network communication module (2) is connected with the input of signal processing module (31), and the output of signal processing module (31) is connected with the input of signal transceiver module (32) and signal storage module (33) respectively, the output of signal transceiver module (32) is connected with the input of instruction generation module (34), the output of instruction generation module (34) is connected with the input of entrance guard switch module (6).

2. The cloud-visual intelligent biological valve prohibition system according to claim 1, characterized in that a video monitoring module (5) is further provided at an output end of the wireless network communication module (2), an alarm module (51) is provided at an output end of the video monitoring module (5), and an output end of the instruction generation module (34) is connected with an input end of the alarm module (51).

3. The cloud-visual intelligent biological valve inhibition system according to claim 2, wherein an output end of the alarm module (51) is connected with an input end of the door control switch module (6) for preventing the door control switch module (6) from being damaged.

4. The cloud-visual intelligent biological valve prohibition system is characterized in that the signal transceiver module (32) is an optical fiber signal transceiver, and the wireless network communication module (2) adopts a Wifi, Bluetooth or ZigBee unit.

5. The cloud-visual intelligent biological valve access control system according to claim 1, wherein the intelligent terminal module (41) comprises a smart phone, a touch screen computer and the like, and a system application installed on the intelligent terminal module (41) is an APP developed for the access control system.

6. The method for realizing the cloud visual intelligent living entrance guard according to any one of claims 1 to 5, characterized by comprising the following steps:

the first step is as follows: the cloud server (1) receives the signal of the identification module (4) and forwards the signal to the wireless network communication module (2);

the second step is that: the wireless network communication module (2) transmits the signals to the network signal exchange module (3), a signal identification processing module in the network signal exchange module (3) processes the signals and matches the signals with information in the signal storage module (33), and when the identified signals are not the individual information stored in the cloud server (1), the signal storage module (33) transmits the signals to the alarm module (51), so that the alarm module (51) sounds, and personnel in non-local areas are prevented from entering the alarm module;

the third step: when the signal received by the signal processing module (31) is the information in the signal storage module (33), the signal is transmitted to the signal transceiving module (32);

the fourth step: the signal receiving and transmitting module (32) transmits the signal to the instruction generating module (34), and the instruction generating module (34) converts the signal into an instruction for opening the access switch and transmits the instruction to the access switch module (6);

the fifth step: the entrance guard switch module (6) receives the instruction and finally transmits the instruction to the electromagnetic lock to realize opening and closing of the door according to the received signal (such as a fingerprint signal, a face recognition signal and the like).

Technical Field

The invention relates to the technical field of intelligent access control systems, in particular to a method for realizing cloud visual intelligent living access control.

Background

With the rapid development of social economy, people pursue comfortable and safe living environments, intelligent buildings are rapidly developed, an access control system is more and more regarded as an important unit in the intelligent buildings, the access control system is also called as an access control entrance automatic management system, the access control system relates to a plurality of new technical fields such as electronics, machinery, optics, computer technology, communication technology, biotechnology and the like, and has multiple functions such as entrance and exit control, security and theft prevention, alarm and the like.

Disclosure of Invention

The purpose of the invention can be realized by the following technical scheme: a cloud-visual intelligent movable door control system comprises a cloud server, an identification module, a wireless network communication module, a network signal exchange module and a door control switch module, wherein the output end of the identification module is connected with the input end of the cloud server;

the identification module is used for identifying the identity of an entering-exiting individual and comprises an intelligent terminal module, a face identification module and a fingerprint identification module, the output ends of the face identification module and the fingerprint identification module are connected with the input end of the cloud server, the output end of the intelligent terminal module is provided with a software processing module, and the output end of the software processing module is connected with the input end of the cloud server;

the network signal exchange module is used for identifying network signals and sending instructions, and comprises a signal processing module, a signal transceiving module, a signal storage module and an instruction generation module, wherein the output end of the wireless network communication module is connected with the input end of the signal processing module, the output end of the signal processing module is respectively connected with the input ends of the signal transceiving module and the signal storage module, the output end of the signal transceiving module is connected with the input end of the instruction generation module, and the output end of the instruction generation module is connected with the input end of the gate inhibition switch module.

Preferably, the output end of the wireless network communication module is further provided with a video monitoring module, the output end of the video monitoring module is provided with an alarm module, and the output end of the instruction generation module is connected with the input end of the alarm module.

Preferably, the output end of the alarm module is connected with the input end of the entrance guard switch module, and the entrance guard switch module is prevented from being damaged.

Preferably, the signal transceiver module is an optical fiber signal transceiver, and the wireless network communication module adopts a Wifi, bluetooth or ZigBee unit.

Preferably, the intelligent terminal module comprises a smart phone, a touch screen computer and the like, and the system application program installed on the intelligent terminal module is an APP developed for the access control system.

The method for realizing the cloud visual intelligent living entrance guard according to any one of claims 1 to 5, characterized by comprising the following steps:

the first step is as follows: the cloud server receives the signal of the identification module and forwards the signal to the wireless network communication module;

the second step is that: the wireless network communication module transmits the signals to the network signal exchange module, the signal identification processing module in the network signal exchange module processes the signals and matches the signals with information in the signal storage module, and when the identified signals are not the individual information stored in the cloud server, the signal storage module transmits the signals to the alarm module, so that the alarm module sounds, and people in non-local areas are prevented from entering the alarm module;

the third step: when the signal received by the signal processing module is the information in the signal storage module, the signal is transmitted to the signal transceiving module;

the fourth step: the signal receiving and transmitting module transmits the signal to the instruction generating module, and the instruction generating module converts the signal into an instruction for opening the access control switch and transmits the instruction to the access control switch module;

the fifth step: the entrance guard switch module receives the instruction and finally transmits the instruction to the electromagnetic lock to realize the opening and closing of the door according to the received signal (such as a fingerprint signal, a face recognition signal and the like).

The invention has the beneficial effects that:

1. the method can effectively solve the problem of multiple people door opening modes, different door opening access control modes can be set according to different people, for example, the old and children can set face recognition and fingerprint unlocking, APP can be installed on the intelligent mobile phone to realize diversified door opening, and cloud visual intelligent life access control can also realize cloud access control in different areas and different environments and different requirements;

2. the invention aims to realize a convenient and convenient access control mode in real life by using a cloud visual intelligent life access control realization method, and the cloud visual access control can realize more door opening modes such as touch, password, mobile phone, APP, card swiping, face recognition and the like, so that a person using a product can not forget to bring a key or the access control card cannot open the door;

3. establish solitary internet high in the clouds to old man, child and special crowd, realize that the memory function of storage conveniently opens the door, promote whole life convenient mode simultaneously to it is unnecessary other extravagant costs of unblanking to reduce.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the structure of the present invention.

In the figure: the system comprises a cloud server 1, a wireless network communication module 2, a network signal exchange module 3, a signal processing module 31, a signal transceiving module 32, a signal storage module 33, an instruction generation module 34, an identification module 4, an intelligent terminal module 41, a software processing module 411, a face identification module 42, a fingerprint identification module 43, a video monitoring module 5, an alarm module 51 and an access control switch module 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a cloud visual intelligent biological valve access control system comprises a cloud server 1, an identification module 4, a wireless network communication module 2, a network signal exchange module 3 and an access control switch module 6, wherein the output end of the identification module 4 is connected with the input end of the cloud server 1, the cloud server 1 and the wireless network communication module 2 realize data connection in a wireless mode, the output end of the wireless network communication module 2 is connected with the input end of the network signal exchange module 3, and the output end of the network signal exchange module 3 is connected with the output end of the access control switch module 6;

the identification module 4 is used for identifying the identity of an entering-exiting individual, the identification module 4 comprises an intelligent terminal module 41, a face identification module 42 and a fingerprint identification module 43, the output ends of the face identification module 42 and the fingerprint identification module 43 are connected with the input end of the cloud server 1, the output end of the intelligent terminal module 41 is provided with a software processing module 411, and the output end of the software processing module 411 is connected with the input end of the cloud server 1; the intelligent terminal 41 logs in a specific app through a mobile phone and the like, logs in personal information after entering, processes the personal information through the software processing module 411 and transmits the processed personal information to the cloud server 1, and identification is facilitated; the face recognition module 42 and the fingerprint recognition module 43 can acquire information of visitors and transmit the information to the cloud server 1 for processing, and compared with the prior art, a plurality of recognition modes are added, so that the card reader is more intelligent compared with the traditional card swiping process, the situation that a magnetic card is demagnetized or forgotten to carry is avoided, and convenience is provided for the old and children;

the network signal exchange module 3 is used for identifying network signals and sending out instructions, the network signal exchange module 3 comprises a signal processing module 31, a signal transceiver module 32, a signal storage module 33 and an instruction generation module 34, the output end of the wireless network communication module 2 is connected with the input end of the signal processing module 31, the output end of the signal processing module 31 is respectively connected with the input ends of the signal transceiver module 32 and the signal storage module 33, the output end of the signal transceiver module 32 is connected with the input end of the instruction generation module 34, the output end of the instruction generation module 34 is connected with the input end of the access control switch module 6, when the identification is successful, the signal processing module 31 transmits signals to the signal transceiver module 32 and finally opens an automatic door on the access control switch module 6, and the travel is facilitated.

The output end of the wireless network communication module 2 is also provided with a video monitoring module 5, the output end of the video monitoring module 5 is provided with an alarm module 51, and the output end of the instruction generation module 34 is connected with the input end of the alarm module 51; video monitor module 5 can monitor around access switch module 6, and when someone carried out the vandalism to access switch module 6, video monitor module 5 given signal transfer to alarm module 51 to the sound production arouses security personnel's attention and further expandes the action.

The output of alarm module 51 is connected with the input of entrance guard's switch module 6 for prevent entrance guard's switch module 6 from being destroyed, when entrance guard's switch module 6 received the damage, alarm module 51 sounded.

The signal transceiver module 32 is an optical fiber signal transceiver, and the wireless network communication module 2 adopts a Wifi, bluetooth or ZigBee unit.

The intelligent terminal module 41 comprises a smart phone, a touch screen computer and the like, and a system application program installed in the intelligent terminal module 41 is an APP developed for an access control system.

A realization method of the cloud visual intelligent living entrance guard according to any one of claims 1 to 5, characterized by comprising the following steps:

the first step is as follows: the cloud server 1 receives the signal of the identification module 4 and forwards the signal to the wireless network communication module 2;

the second step is that: the wireless network communication module 2 transmits the signal to the network signal exchange module 3, a signal identification processing module in the network signal exchange module 3 processes the signal and matches the signal with the information in the signal storage module 33, and when the identified signal is not the individual information stored in the cloud server 1, the signal storage module 33 transmits the signal to the alarm module 51, so that the alarm module 51 sounds, and people in non-local areas are prevented from entering the alarm module 51;

the third step: when the signal received by the signal processing module 31 is the information in the signal storage module 33, the signal is transmitted to the signal transceiver module 32;

the fourth step: the signal transceiver module 32 transmits the signal to the instruction generating module 34, and the instruction generating module 34 converts the signal into an instruction for opening the access control switch and transmits the instruction to the access control switch module 6;

the fifth step: the entrance guard switch module 6 receives the instruction and finally transmits the instruction to the electromagnetic lock to realize opening and closing of the door according to the received signal such as a fingerprint signal, a face recognition signal and the like.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.