RU2573762C1 - System of remote control and management of "intelligent house" electronic devices - Google Patents

System of remote control and management of "intelligent house" electronic devices Download PDF

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RU2573762C1
RU2573762C1 RU2014134705/08A RU2014134705A RU2573762C1 RU 2573762 C1 RU2573762 C1 RU 2573762C1 RU 2014134705/08 A RU2014134705/08 A RU 2014134705/08A RU 2014134705 A RU2014134705 A RU 2014134705A RU 2573762 C1 RU2573762 C1 RU 2573762C1
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user
commands
control
module
outputs
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RU2014134705/08A
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Russian (ru)
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Дмитрий Юрьевич Калинин
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Общество с ограниченной ответственностью "РОЛЛ ГРАНД"
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Abstract

FIELD: construction.
SUBSTANCE: system of remote control and management of "Intelligent House" electronic devices is proposed, which comprises sensors and executive devices, at least one control unit with access to local Ethernet network and via a device for system management by a user connected to the Internet, where a "cloud server" is located. The "cloud server" comprises a WEB-server, a module of user scenario development, a global storage of user scenarios, a global storage of user control commands, a global storage of scanned commands of devices of all users. The control unit comprises a unit of scanning of control commands, a local storage of scanned control commands, a module of user scenario performance, a unit of user scenario storage, a module of security and coding, a transceiving wireless communication device.
EFFECT: possibility of automatic recognition of profiles and switching protocols of connected external devices, such as sensors and various executive devices.
5 cl, 2 dwg

Description

The invention relates to systems for the recognition and control of electronic engineering equipment for structures for various purposes, such as individual houses, cottages, office buildings, apartments, industrial and economic facilities, etc.
The closest in technical essence and technical result achieved to the claimed system of remote monitoring and control of electronic devices "Smart Home" is the system "Smart Home" with intelligent adaptive input / output (see RF patent for utility model No. 130098, IPC (2006.01) G05B 15/00, published July 10, 2013), including N groups of sensors, M groups of actuators, a global repository of user control commands, a communication node, a control unit including a local repository of user control commands, and communication channels .
The known system contains N groups of sensors and M groups of actuators, where N = M, as well as an equipment profile generator, a local storage of equipment profiles, an equipment adapter that unifies equipment parameters of different standards and different manufacturers without making changes to the Smart Home system itself , digital-to-analog converter, analog-to-digital converter, global storage of equipment profiles, N input-output modules consisting of a block of power switches, amplifier-level converter I am a signal and switch, the global storage of hardware profiles is made in the form of storage on a remote server.
Such a system does not provide the possibility of automatic recognition of profiles and switching protocols of connected external devices, such as sensors and various actuators, which causes its insufficient functionality.
This is due to the fact that when using the well-known system for monitoring and controlling electronic devices "Smart Home" profiles and switching protocols must be set by the end user in manual mode. So, for example, when using a well-known system, the end user must independently set the type and shape of the signal, the range of values of logical levels, scaling factors, signal inversion, as well as other parameters necessary for the correct operation of the actuator. In addition, the end user must then verify that the parameters for the connected device are correct and, if necessary, calibrate it. These actions suggest that the end user has a specific training of a sufficiently high level. This is due to the design features of the system. In particular, the known system is not able to provide the end consumer with information about the frequency at which this or that electronic device of the Smart House is operating, and about the data transfer protocol by which each of the electronic devices can switch and integrate with other electronic devices. Therefore, electronic devices can only communicate with each other if they are manufactured by the same manufacturer. In this regard, if the end user needs to make up a complex of several electronic devices of the same or different purpose, he has to make up such a complex of electronic devices of the same manufacturer. However, one manufacturer cannot cover the entire range of electronic devices that make up the Smart Home. This creates a definite problem for the end consumer, depriving him of the right to freely choose the manufacturer of electronic devices and narrowing down the technical capabilities of the electronic complex being compiled. Or you need to install multiple systems.
The basis of the invention is the task to improve the system of remote monitoring and control of electronic devices "Smart Home" by introducing new structural elements, new connections between structural elements, a new implementation of structural elements, which will enable automatic recognition of profiles and switching protocols of connected external devices, such as sensors and various actuators, and, as a result, expand the functionality of the claimed system.
The problem is solved in that in the system of remote monitoring and control of electronic devices "Smart Home", including N groups of sensors, M groups of actuators, a global repository of user control commands, a communication node, a control unit including a local repository of user control commands, and channels communication, according to the proposed technical solution, new is that it additionally contains a WEB server, a user script development module, a global repository of user scripts, us a device for managing a user system, a global storage of scanned commands for devices of all users, the control unit further comprises a control command scanning unit, a local storage of scanned control commands, a user script execution module, a user script storage unit, a security and encryption module, and the communication node is configured as wireless transceiver, while the inputs of the sensors and actuators are connected to the outputs of the transceiver of the wireless communication unit of the control unit, and the outputs of the sensors are connected to the inputs of the transceiver wireless communication unit of the control unit, the inputs of the executive devices are connected to the outputs of the transceiver wireless device of the control unit, and the outputs of the executive devices are connected to the inputs of the wireless transceiver device of the control unit, inputs of the wireless transceiver unit communications of the control unit are also connected with the outputs of the scan command control unit and the module scenarios of the user scripts, the outputs of the control command scanning unit are also associated with the input of the local storage of the scanned control commands and the input of the security and encryption module, and its input is associated with the output of the wireless transceiver device, the output of the user script execution module is also associated with the input of the user script storage unit, and the inputs of the user script execution module are associated with the outputs of the user script storage unit and the security and encryption module, the output is locally the storage of scanned control commands is connected to the input of the security and encryption module, the inputs of the WEB server are connected to the outputs of the security and encryption module, the global storage of scanned commands of all users, the global storage of user control commands, the module for developing user scripts, the global storage for user scripts, and the outputs WEB-servers are connected with the inputs of the security and encryption module, the global repository of scanned commands of all users, the global repository of user management mand, user script development module, global storage of user scripts, a device for managing the user system is connected wirelessly via a local Ethernet network to the control unit.
Also new is that it contains K control units, each of which is connected to the Internet.
New is the fact that a computer is used as a device for controlling the system by the user.
New is the fact that a tablet is used as a device for controlling the system by the user.
New is the fact that a smartphone is used as a device for controlling the system by the user.
The causal relationship between the set of essential features of the invention and the achieved technical result is as follows.
The introduction of new structural elements and new relationships between structural elements, as well as a new implementation of the structural elements of the inventive system of remote monitoring and control of electronic devices "Smart Home", namely that it:
- additionally contains a WEB server;
- additionally contains a user script development module;
- additionally contains a global repository of user scripts;
- further comprises a device for controlling the system by the user;
- additionally contains a global repository of scanned device commands for all users;
- the control unit further comprises a control command scanning unit;
- the control unit further comprises a local repository of scanned control commands;
- the control unit further comprises a user script execution module;
- the control unit further comprises a user script storage unit;
- the control unit further comprises a security and encryption module;
- and the communication node is made in the form of a transceiver device for wireless communication;
- while the inputs of the sensors and actuators are connected to the outputs of the wireless transceiver of the control unit, and the outputs of the sensors are connected to the inputs of the transceiver of the wireless communication unit, the inputs of actuators are connected to the outputs of the wireless transceiver of the control unit, and the outputs of the actuators are connected to inputs of the wireless transceiver of the control unit, inputs of the wireless transceiver of the unit and the controls are also associated with the outputs of the control command scan unit and the user script execution module, the outputs of the control command scan unit are also associated with the local storage input of the scanned control commands and the input of the security and encryption module, and its input is connected with the output of the wireless transceiver device, the output of the module user script execution is also associated with the input of the user script storage unit, and the inputs of the user script execution module are connected to the outputs and a block for storing user scripts and a security and encryption module, the output of the local storage of scanned control commands is connected to the input of the security and encryption module, the inputs of the WEB server are connected to the outputs of the security and encryption module, the global storage of scanned commands of all users, the global storage of user control commands, user script development module, global repository of user scripts, and the outputs of the WEB server are connected to the inputs of the security and encryption module, lobal store scanned commands all users, global repository user commands, module development user scenarios, global repository for managing a user's system user, device scenarios associated wireless communication via Ethernet to the control unit,
Together with the known features of a technical solution, it provides the ability to automatically recognize profiles and switching protocols of connected external devices, such as sensors and various actuators, and, as a result, expand the functionality of the claimed system.
This is because when introducing into the system a WEB server, a user script development module, a global repository of user scripts, a device for managing a user’s system, a global repository of scanned device commands for all users, when control commands are entered into the control unit of the scanning unit, a local repository of scanned control commands, user script execution module, user script storage block, security and encryption module, as well as during execution the communication center in the form of a wireless transceiver device, the Smart Home remote control and management system for electronic devices allows you to remotely control all kinds of engineering equipment systems without direct human intervention. This is achieved by first scanning, then recognizing the frequency and data transfer protocol of electronic devices, and then generating control signals at a recognized frequency and using a recognized data transfer protocol. Due to its design, the inventive system is capable of detecting new electronic devices capable of receiving and / or emitting wireless radio signals, determining the frequency of each detected electronic device and the possible direction of its radio signal, and recognizing the data transfer protocol of each detected electronic device.
A WEB server, a user script development module, a global repository of scanned commands for all users, a global repository of user scripts and a global repository of user management commands form the so-called “cloud server”, in which data on frequencies and protocols of previously recognized electronic devices are accumulated and stored. Here, a database of previously recognized electronic devices is created and formed. Signals received from a detected electronic device are processed and analyzed. Using the database created in the “cloud server”, manufacturers of electronic devices are identified. The stored data of the “cloud server” database on the frequencies and protocols of previously recognized electronic devices can be automatically used by other end users to speed up the process of recognition and processing of signals from detected new electronic devices. Also in the "cloud server" is formed and stored a database of all users. As in any other database, each individual user has his own unique account in the specified database of all users on the “cloud server”. Each individual user can view and change his account information in the database of all users on the "cloud server" using the "Personal Configurator" program. In the "cloud server", the control action is also generated on the detected electronic device according to the settings predefined by the end user and the encoding of the generated control action is transferred to the data transfer protocol of the detected electronic device. Further, from the “cloud server”, the encoded control action is transmitted to the detected electronic device at its operating frequency, as previously determined.
All of these operations, the claimed system performs automatically without the direct participation of a person.
When an end user connects a new electronic device to the system, the user, using the device to control the user system, logs into his account on the so-called “cloud server” and sets the name of the new device using the WEB server in his personal configurator. Then the user, again using the WEB server in his personal configurator, switches on the scanning mode of the new device. The WEB server transmits the scan mode enable signal to the security and encryption module of the control unit, from where the decrypted enable signal is sent to the control command scanning unit. The control command scanning unit is turned on and transmits a command to the wireless transceiver for receiving signals from sensors that emit signals, actuators that pick up signals and execute specific commands, or combined devices that combine sensors with actuators. Actuators and combined devices always contain a control device, such as a control panel.
When the sensor is connected, its signal enters the wireless transceiver, is recognized by the control command scanning unit and transmitted to the local storage of scanned commands. Further, this command is transmitted through the security and encryption module to the “cloud server”, where it is checked by means of the WEB server for the presence of a similar command in the global repository of scanned commands of all users. If a similar command is found, it is entered into the global repository of user management commands. Otherwise, the user must use the WEB service in his personal configurator to specify the name of this command. Then this command is entered into the global repository of user management commands.
For an executive or combined device, the user must simultaneously turn on his control device (usually a control panel) with the connected device and simulate all the desired commands on it. Commands from the control panel and / or from the connected device are sent to the wireless transceiver, then they are recognized by the control command scanning unit and transmitted to the local storage of scanned control commands. Further, these commands are transmitted through the security and encryption module to the “cloud server”, where the WEB server checks for the presence of similar commands in the global repository of scanned commands of all users. If a similar command is found, it is entered into the global repository of user management commands. Otherwise, the user must use the WEB service in his personal configurator to specify the name of each of the scanned and recognized commands. Then these commands are entered into the global repository of user management commands.
When managing the end user with the previously connected electronic device (s) (you), the user logs into the account on the “cloud server” through the device for managing the system of the user and selects management commands from the global repository using the WEB server in his personal configurator user necessary commands. Two options are possible: either execute the selected commands directly, or execute the selected commands in a specific sequence necessary for the user, taking into account (or not taking into account) the signals received from the connected sensors and actuators received at the same time.
In direct execution of commands, user-selected commands from the global repository of user commands for the “cloud server” are transmitted through the security and encryption module to the script execution module of the user of the control unit. The user script execution module generates control signals that are transmitted to the connected devices using a wireless transceiver for execution.
In the second case, the user forms the sequence of actions necessary for him from the commands he has chosen — the script. The user then gives the generated script a name, and this script is saved in the user's global script repository. From the global storage of user scripts of the “cloud server”, the script is transmitted through the security and encryption module to the user script storage unit of the control unit. Then, the user script execution module selects the scripts necessary for execution from the user script storage unit and generates control signals that are transmitted using the wireless transceiver to connected devices made in the form of sensors, actuators, or in the form of combined devices to execute commands in user-defined sequence.
When the wireless transceiver receives the feedback signal from the connected device, this command is sent to the user script execution module, where it is checked for the presence of such a command in the user script storage unit. If the received command is a condition of one or several scripts, then it is executed by the user script execution module. In the absence of the received command among the scenario conditions, this command is transmitted through the security and encryption module to the "cloud server" for display on the device for user management.
The device for controlling the system of the user is connected wirelessly via a local Ethernet network to the control unit, which provides the user with reliable access to the system anywhere and anytime.
The system contains N groups of sensors, M groups of actuators, where N can be equal to M, and can be more or less M, which significantly expands its functionality.
The technical result is also achieved due to the fact that the system contains K control units, each of which is connected to the Internet, as well as due to the fact that a computer, tablet or smartphone is used as a device for controlling the system. This is explained by the fact that when using several control units, it is possible to use the system with an unlimited number of end users. At the same time, each user can use for management the device that he has available or which is more convenient for him to use. All this significantly expands the functionality of the claimed system.
The proposed system of remote monitoring and control of electronic devices "Smart Home" is more efficient and reliable than the system known from the prototype, since a WEB server, a user script development module, a global repository of user scripts, a global repository of user management commands, a global repository of scanned commands devices of all users are located on the "cloud server". In this case, the user configuration is constantly updated in the control unit from the "cloud server". This allows, unlike the prototype, not to spend unnecessary energy and other resources on storing permanent information in the control unit. The local repositories of each of the end users are stored in the global repositories of the “cloud server”, therefore, in case of accidental damage, breakdown or loss by the user of the control unit, the entire configuration of such a user will remain intact. In this case, the user only needs to change the control unit and the whole system will work, as before, without changes and additional settings. Unlike the prototype, the inventive system is able to interact and control an arbitrary number of devices using just one wireless transceiver device, which is located in the control unit. This greatly simplifies and reduces the cost of the system. And the system itself does not require special radio-technical training for the user, since scanning and recognizing the frequency of operation of detected connected electronic devices is carried out automatically. The data transfer protocols of the inventive system are constantly updated by a command from the "cloud server", which gives unlimited possibilities for managing the engineering equipment system by the end user, without delving into the complexity of communication technologies. With this implementation of the system, its users automatically become a community and the database of various manufacturers of electronic devices in the "cloud server" has universal access with the possibility of sharing.
Thus, the inventive system provides the ability to automatically control the engineering equipment of a house, apartment, industrial premises or site without the direct presence of a person and provide operational information about the state of the controlled object to the end user, as it provides the ability to automatically recognize profiles and switching protocols of connected external devices, such as sensors and various actuators, and, as a result, allows you to expand the function ionalnye opportunities inventive system.
The scope of application is significantly expanded, the cost of implementation and the availability of control of the Smart Home system by any untrained end user are reduced by automatically identifying profiles and switching protocols of sensors and actuators of various manufacturers connected to it, transferring all characteristics to an external database stored in a remote cloud server ”, also provides the ability to use the specified database an unlimited number of end s users anywhere in the world.
The system of remote monitoring and control of electronic devices "Smart Home" is illustrated by drawings, where in FIG. 1 shows a block diagram of a system for remote monitoring and control of electronic devices “Smart Home”, in FIG. 2 - an option for connecting control units via a local Ethernet network to a “cloud server”.
The system of remote monitoring and control of electronic devices "Smart Home" contains sensors and actuators 1, at least one control unit 2 with access to the local Ethernet network 3 and through the device 4 for controlling the user system connected to the global Internet network, in which there is a "cloud server" 5. The system may contain N groups of sensors, M groups of actuators and K control units. The “cloud server” 5 contains a WEB server 6, a module 7 for developing user scenarios, a global store for 8 user scripts, a global store for 9 user management commands, a global store for 10 scanned device commands for all users. The control unit 2 comprises a control command scanning unit 11, a local storage 12 of scanned control commands, a user script execution unit 13, a user script storage unit 14, a security and encryption module 15, and a wireless transceiver 16. The inputs of the sensors 1 and / or actuators 1 are connected to the outputs of the transceiver 16 of the wireless communication unit 2, and the outputs of the sensors 1 and / or actuators 1 are connected to the inputs of the transceiver 16 of the wireless communication unit 2, the inputs of the transceiver 16 of the wireless unit 2, the controls are also connected with the outputs of the control command scanning unit 11 and the user script execution module 13, the outputs of the control command scanning unit 11 are also connected to the input locally of the storage 12 of the scanned control commands and the input of the security and encryption module 15, and its input is connected to the output of the wireless transceiver 16, the output of the user script execution module 13 is also connected to the input of the user script storage unit 14, and the inputs of the user script execution module 13 are connected with the outputs of the user script storage unit 14 and the security and encryption module, the output of the local storage 12 of scanned control commands is connected to the input of the security module 15 and the cipher The inputs of the WEB server 6 are connected to the outputs of the security and encryption module 15, the global repository of 10 scanned commands of all users, the global repository of 9 user control commands, the user script development module 7, the global repository of 8 user scripts, and the outputs of the WEB server 6 are connected with the inputs of security and encryption module 15, a global repository of 10 scanned commands for all users, a global repository of 9 user management commands, a user script development module 7, glo ballroom 8 user scenarios, a device 4 for controlling the user system is connected wirelessly via a local Ethernet network 3 to the control unit 2. Devices 1 can be of three types: sensors (they are only able to emit signals), actuators (they are only able to pick up signals and execute certain commands) and combined devices.
The system of remote monitoring and control of electronic devices "Smart Home" works as follows.
When connecting a new electronic device, in particular sensor 1 and / or actuator 1, to the system of remote monitoring and control of electronic devices “Smart Home” by the end user, the user, through device 4, controls the system of the user through the local Ethernet network 3, enters his account on “Cloud server” 5 and using the WEB server 6 in its personal configurator sets the name of the new device. As the device 4 for controlling the user system, for example, a personal computer, tablet, or smartphone is used. Then the user, again using the WEB server 6 in his personal configurator, switches on the scanning mode of the new device. The WEB server 6 transmits a scan mode enable signal to the security and encryption module 15 of the control unit 2. The security and encryption module 15 transmits the decrypted enable signal to the control command scanning unit 11, which is turned on and transmits a command to the wireless transceiver 16 to receive signals from sensors 1 and / or actuators 1.
Plug-in electronic devices 1 can be of three types: sensors that can only emit signals, actuators that can only pick up signals and execute certain commands, and combined devices.
If the new connected device 1 is a sensor, then its signal is transmitted to the wireless transceiver 16, then it is recognized by the control command scanning unit 11 and transmitted to the local storage 12 of the scanned control commands. Further, this command is transmitted through the security and encryption module 15 to the “cloud server” 5, where it is checked through the WEB server 6 for the presence of a similar command in the global repository of 10 scanned commands of all users. In the presence of such a command, it is entered into the global repository of 9 user control commands. If it is absent, the user must specify the name of this command through the WEB server 6 in his personal configurator, after which it is entered into the global repository of 9 user management commands.
If the new connected device 1 is an executive or combined one, then the user must simultaneously turn on his personal control device (for example, the control panel) with the connected device 1 and simulate on it all the commands necessary for the user for the connected device 1. Commands from the control panel and / or from the connected device 1 is received in the wireless transceiver 16, recognized by the control command scanning unit 11 and transmitted to the local storage 12 anirovannye management teams. Further, these commands are transmitted through the security and encryption module 15 to the “cloud server” 5, where through the WEB server 6 they are checked for the presence of similar commands in the global repository of 10 scanned commands of all users. In the presence of such a command, it is entered into the global repository of 9 user control commands. If it is absent, the user must specify the name of each of the scanned and recognized commands through the WEB server 6 in his personal configurator, after which it is entered into the global repository of 9 user control commands.
When controlling the end user with the previously connected electronic device (s) (you), the user, using the device 4 to control the user system via the local Ethernet network 3, logs into his account on the “cloud server” and using the WEB server 6 in his the personal configurator selects the necessary commands from the global repository of 9 user management commands. Two options are possible: either execute the selected commands directly, or execute the selected commands in a specific sequence necessary for the user, taking into account (or not taking into account) the signals received from the connected devices received at the same time 1.
In direct execution, the commands selected by the user from the global repository of 9 user management commands of the “cloud server” 5 are transmitted through the security and encryption module 15 to the user script execution module 13 of the control unit 2. The user script execution module 13 generates control signals that are transmitted and received using Wireless devices 16 are transmitted to connected devices - sensors and / or actuators 1 for execution.
In the second version, the user forms from the selected commands the sequence of actions he needs - a script. Then the user gives the name to the compiled script, and this script is stored in the global repository of 8 user scripts. From the global storage 8 of user scenarios of the “cloud server” 5, the script is transmitted through the security and encryption module 15 to the user script storage unit 14 of the control unit 2. Then, the user script execution module 13 selects the scripts necessary for execution from the user script storage unit 14 and generates control signals that are transmitted by the wireless transceiver 16 to the connected devices 1 for execution in a user-defined sequence. Upon receipt by the transceiver 16 of the wireless communication of the feedback signal from the connected device 1, this command is sent to the user script execution module 13, where it is checked for the presence of such a command in the user script storage unit 14. If the received command is a condition of one or more scenarios, then it is executed by the user script execution module 13. In the absence of the received command among the scenario conditions, it is transmitted through the security and encryption module 15 to the “cloud server” 5 for display on the device 4 for controlling the user system.
The proposed technical solution is more efficient and reliable than the solution known from the prototype, since all control commands and user scripts are stored on the "cloud server" 5. In this case, the personal user configurator is constantly updated in the control unit 2 from the "cloud server" 5. This allows, in contrast to the prototype, to reduce the cost of energy and other resources for storing constant information in the control unit 2. In addition, in the event of accidental damage, breakage or loss by the user of the control unit 2, the entire configuration of such a user will remain intact. The user only needs to change the control unit 2 and the whole system will work as before without any changes and additional settings.
The inventive system is able to interact and control an arbitrary number of devices using just one wireless transceiver 16, which is located in the control unit 2 and does not require additional input / output modules, which greatly simplifies and reduces the cost of the system. The inventive system does not require special radio technical training for the user, but scans and recognizes connected devices automatically. When using the inventive system, it is possible to automatically control the engineering equipment of a house, apartment, industrial premises or site without the direct presence of a person and to provide operational information about the state of the controlled object to the end consumer. Users of the inventive system automatically become a community and the database of the "cloud server" of 5 different manufacturers of electronic devices has universal access with the possibility of sharing. The data transfer protocols of the inventive system are constantly updated by a command from the “cloud server” 5, which gives unlimited possibilities for managing the engineering equipment system by the end user, without delving into the complexity of communication technologies.
In the inventive system, the WEB server 6 can be performed on the basis of the WEB server 1-M biz.
The control unit 2 can be made in the form of a 1-M wireless gateway.
The inventive system of remote monitoring and control of electronic devices "Smart Home" can be manufactured using known equipment and using well-known materials and means, which confirms its industrial applicability.

Claims (5)

1. The system of remote monitoring and control of electronic devices "Smart Home", including N groups of sensors, M groups of actuators, a global repository of user control commands, a communication node, a control unit including a local repository of user control commands, and communication channels, characterized in that it additionally contains a WEB server, a user script development module, a global repository of user scripts, a device for managing the user's system, a global repository of scanned x commands of devices of all users, the control unit further comprises a control command scanning unit, a local storage of scanned control commands, a user script execution module, a user script storage unit, a security and encryption module, and the communication node is made in the form of a wireless transceiver, while the inputs sensors and actuators are connected to the outputs of the wireless transceiver of the control unit, and the outputs of the sensors are connected to the inputs a wireless transmitting and receiving device of the control unit, inputs of executive devices are connected to the outputs of the wireless transmitter and receiver of the control unit, and outputs of executive devices are connected to the inputs of the wireless transmitter and receiver of the control unit, inputs of the wireless transmitter and receiver of the control unit are also connected to the outputs of the control command scanning unit and user script execution module, the outputs of the control command scanning unit are connected also with the input of the local storage of the scanned control commands and the input of the security and encryption module, and its input is connected to the output of the wireless transceiver, the output of the user script execution module is also connected to the input of the user script storage unit, and the inputs of the user script execution module are connected to the outputs of the block storing user scripts and the security module and encryption, the output of the local storage of scanned control commands is connected to the input of the security module and encryption, the inputs of the WEB server are associated with the outputs of the security and encryption module, the global repository of scanned commands for all users, the global repository of user control commands, the script development module, the global repository of user scripts, and the outputs of the WEB server are connected to the inputs of the security and encryption module , a global repository of scanned commands for all users, a global repository of user management commands, a user script development module, a global storage for user management system user scenarios device connected through wireless Ethernet local area network to the control unit.
2. The system according to claim 1, characterized in that it contains K control units, each of which is connected to the global Internet.
3. The system of claims. 1 and 2, characterized in that as a device for controlling the system by the user using a computer.
4. The system of claims. 1 and 2, characterized in that as a device for controlling the system by the user using a tablet.
5. The system of claims. 1 and 2, characterized in that as a device for controlling the system by the user using a smartphone.
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