RU2661266C1 - Intellectual automation system - Google Patents

Abstract

FIELD: building; information technology.

SUBSTANCE: invention relates to building automation system. System contains server (2), control devices (5) for each consumed energy carrier: gas, heat, hot and cold water, electricity, sensors (4) losses and accounting of energy consumed. Devices are controlled by a computer module. System contains devices that provide information transfer from the computer module via communication channels of local and global networks, data transfer protocol in the local network contains the ability to relay commands through network devices. System contains head processing server (2) and its cloud twin (2’). Backup cloud server (2’) in case of disconnection of the main communication channel or electricity takes over control of itself and starts transmitting on the backup channel information to the head unit.

EFFECT: improved reliability, system autonomy, more accurate monitoring of the system state is achieved.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, as well as to the field of processing and data transmission for special applications, as well as to the field of microprocessor control, analysis and control systems and can be used to create centralized control systems, analysis, intelligent and remote control of the infrastructure of any buildings and premises , full or partial automation of technical processes, with the ability to control systems of electricity, water, heat, gas, air-conditioned ia, multimedia visualization, etc.

To date, many technical solutions are known.

Known MICROPROCESSOR INFORMATION AND MANAGEMENT SYSTEM "SMART HOUSE" (Utility Model Patent No. 53510, priority date 10.24.2005). The microprocessor information management system "Smart Home" containing N groups of sensors, N groups of actuators and a control unit consisting of a microprocessor having a first group of inputs and outputs, which is the first group of inputs and outputs of the control unit and a group of inputs and outputs of the system for connecting to an external computer, as well as a second group of inputs and outputs, characterized in that N processing and communication units and a power supply are included, which is included in the control unit and the output of which is a power supply The control window is connected to the power inputs of N processing and communication units, while the group of outputs of each of the N processing and communication units is connected to the group of inputs of the corresponding groups of actuators, the group of inputs is connected to the group of inputs of the corresponding sensor groups, and the group of inputs and outputs is connected to the second group of inputs and outputs of the control unit.

The disadvantages of this system are the inability to upgrade and improve the system, the inability to connect sensors and equipment with digital interfaces to the microprocessor system. Any change in the system occurs through rewriting the firmware on the microcontroller. Also in this system it is impossible to connect third-party alternative devices with a more affordable price. Not implemented energy efficiency management.

The INTELLECTUAL SYSTEM OF AUTOMATION OF LIFE SUPPORT SYSTEMS (Utility Model Patent No. 108611, priority date 01/01/2011) is also known from the prior art. Intelligent life-support automation system, including metering devices, meters and sensors for each energy source used: gas, heat, hot, hot and hot water , electricity, additionally installed control devices for regulating the thermal regime and a means of displaying information about the consumed energy in units of their measurement , characterized in that it contains electronic meters with an intelligent output, a computer module that performs the functions of metering, control and management, devices for regulating and turning on / off the supply of each of the energy resources, devices for reporting events in a controlled system, devices for transmitting information from a computer module via communication channels of local and / or global networks, special software based on embedded algorithms that changes the connection parameters of counters of different types and manufacturers, combining all the necessary objects into a single information space.

The specificity of such a system is the collection of the consumption of the analyzed resources and, accordingly, the passive management of energy efficiency of resources and the passive increase in security. The system is more aimed at simplifying the collection of data than the application of active actions on the developed algorithms.

Closest to the proposed in technical essence the SYSTEM "SMART HOUSE" WITH INTELLECTUAL ADAPTIVE INPUT / OUTPUT (Utility Model Patent No. 130098, priority date 09/10/2012) Smart House system with intelligent adaptive input / output, containing N groups of sensors, N groups of actuators and a control unit, consisting of a microprocessor, characterized in that it further comprises an equipment profile generator that queries about existing equipment profiles, generating and transmitting the generated equipment profiles in local and global storage of equipment profiles, local storage of equipment profiles, 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 I / O modules, consisting of a block of power switches, an amplifier-converter of signal level and switch, and global storages e hardware profiles made in the form of storage on a remote server.

The disadvantages of this system are the underdeveloped artificial intelligence system, poor data transfer protection, the lack of properly developed controlled devices and principles of data transfer within the system. In addition, there is no possibility of updating system devices automatically via wireless communication channels. The system is based on the use of third-party devices with the possible integration of these devices into a working model, but without the ability to control taking into account events and the status of control devices.

The technical solution is aimed at eliminating all the above disadvantages and is achieved due to the fact that a new principle and standard for communication between devices is created; interfaces are integrated into the system; all control functionality is transferred to the head unit, which is also a server; in addition to the local server, a network server is used, which is duplicate; the principles of data encryption are applied, new algorithms are being introduced that analyze both the data inside the system and the data received from cloud services connected to the management of the site system, built on scripts with advanced features; creating devices that do not exceed the form factor of standard devices and are able to replace them. In addition, all devices and components are of their own design.

The technical problem to which the invention is directed is to create an intelligent automation system, devoid of the disadvantages of the presented analogues and able to organize and implement automated and remote control of human life processes and various technical processes.

The technical result provided by the claimed invention is the expansion of management capabilities, providing a higher level of protection, increasing the use of energy efficiency, implementing autonomy through communication channels and power tools, reducing the consumption of managed and analyzed resources, organizing a data encryption mechanism for implementing the system’s autonomy, implementing management interfaces, automatic installation and analysis of cloud services, removing range limitations use. A significant advantage of the presented solution is also the low cost of implementation and advanced operational characteristics.

This intelligent automation system has created its own interface-server communication standard; management interfaces are used, taking into account the removal of all processing functions from the interface to the processing server, which allows you to use all the functions of the system regardless of the interface. The Internet is used as the main data transfer channel (wi-fi or rj-45 connection), in the event of a connection breakdown on the main channel, the system goes into standby mode and establishes a connection via an alternative GPRS, GSM, SMS channel or any other channel embedded in the system. The use of several communication channels allows the use of autonomy from the connection. Management interfaces can be a multi-user secure site; An application for mobile devices (including smartphones, smart watches, smart glasses, tablets, players, etc.) or computer systems on any operating system; voice control for mobile devices, for stationary devices.

Improving the energy efficiency of a room or process, increasing comfort and safety of human life, optimizing labor costs and increasing production efficiency is realized through the use of two-channel communication between devices and a server; an expanded list of analyzed data through the use of modernized microcontrollers with deep self-analysis, additional sensors for the microcontroller that can accurately detect the consumption or leakage of managed resources; applicable algorithms for data analysis, device management; device-driven analysis; analysis of consumption or loss of resource. According to the algorithms, the system assigns a status to the process, gives it an anxiety rating: ordinary situation; situation requiring attention; a situation requiring an instant solution to the problem and notifying the user of this unusual situation. The notification is carried out by means of all interfaces and the backup channel of SMS alerts from the local server of the system or from the backup Internet server. The empowerment of people with disabilities is due to the adaptation of interfaces for the ability to control with one hand and one finger; voice control recognizes speech taking into account speech defects of people and possible speech recognition errors by the system.

The increase in the reception distance is realized through the use of the principle of communication between devices with assignment of identifiers to devices and commands, which allows the transmission to repeatedly transmit data to all devices or devices addressed to the command, i.e. devices can act as repeaters.

The implementation of system security is implemented using a minimum of 128 bit encryption of the transmitted data inside the system and out through the management interfaces. Realization of the possibility of forced or scheduled replacement of a system key. Due to the non-attachment of system interfaces to the processing server, it is possible to implement user verification by the system locally, by means of the device on which the interface is installed, for example, the ability to use device identification tools, a fingerprint detector of a smartphone, camera or painting to identify the user and other identification sensors that are equipped with devices

The artificial intelligence is enhanced by adding cloud-based information services, such as actual weather and weather forecasts, sunrise / sunset schedules, daylight hours, time synchronization by location or time zone selection, algorithms located outside the system’s local server and any other allowed data on rights of a paid or free license.

The autonomy of the power supply system with the implementation of control and protection in the absence of supply of any resource processed by the system is achieved by using batteries for devices that need it. As a result, devices become non-volatile, and in the event of a power outage, they are able to analyze and manage resources for some time. In case of battery discharge, the user will be notified and the opportunity to block the resource for further system security will be offered.

Duplication of the local server and network server is done to achieve autonomy, security and ease of use of the system. Servers can communicate via the Internet (the main communication channel), in the event of a disconnection of the main communication channel or electricity, they can communicate through the backup communication channels gprs or sins and other communication channels of the system.

The creation of an advanced event configurator, based on the analysis of data within the system or the analysis of cloud services, or by external commands, is implemented by writing a specialized software module. The configurator is implemented on the server side using a standard for managing it through any interfaces. This will allow users of the system in any way convenient for them to compose complex automation tasks without specialized knowledge in programming and robotics.

Fast, simple and automatic installation of the system with the possibility of installation by people without a specialized education is achieved by writing specialized software for devices and servers. This approach is implemented by an initially open network of devices, after connecting all devices, the system will offer to close and protect communication between devices. When adding new devices to the system, the head device can briefly switch to open network mode, scan the devices and then offer to include them in the protected network. The principle of upgrading the network key can be implemented on schedule or forcibly, but subject to the availability of all devices in the system, in case of inaccessibility, the system will notify the user and the service organization, if any.

Expanding the scope and scope of application by reducing the cost of system components is realized through the development of our own components. Devices are developed on a single secure channel of the system with a single system standard. This approach allows you to develop both your devices and organize cooperation with other smart home device developers. A closed channel, protocol and communication standard will increase the security of the system by a multiple, it is also possible to use unprotected devices of other automation systems through the expansion board of the head unit, which will open the transmission channel.

An automatic update of device firmware via a radio channel inside the system is implemented, which will allow updating the system and expanding capabilities without dismantling the system in automatic mode.

In FIG. 1 is a diagram of the operation of an intelligent automation system.

The system consists of software and hardware.

The software (control) part is the control code that is embedded in the devices and performs analyzing, processing functions.

The hardware (executive) part is devices that collect information and respond to received commands.

The connection of the two parts occurs on the device (2), which acts as the processing server of the system and the head device of the system. The server has a cloudy take (2 '), which in case of unavailability of the server (2) for a person for some reason makes it possible to relay commands through itself, make decisions, communication between servers can occur via the Internet, GPRS, SMS, e-mail, Web requests, etc. Types of communication can be expanded. A person contacts the system through interfaces (1), which are software: a website, voice control, applications, etc .; and hardware: a switch, a button, a toggle switch, etc. Interfaces (1) encode and transmit to the server (2) and (2 ') the wishes of the person, the server checks the wishes of the person according to various built-in algorithms, checks the status of possible data sources and gives a command to the managed equipment, such as: system devices (3), system sensors (4), devices controlled by the system (5), this also includes elements of other automation systems. In addition to managed devices, data received from cloud web services is also used to process information (6). Communication (2) with (3), (4), (5) takes place via a radio channel, which may differ depending on the configuration of the system. Communication (2) together (6) can occur in various ways via the Internet. Servers (2) and (2 ') can notify the user of a non-standard situation in various ways, the user can specify the communication method in the system settings.

The claimed system allows you to securely transmit data, manage the system from various devices, ensure the autonomy of the system from the main communication channel and electricity, more accurately monitor the status of the system and make a more correct decision through the use of more parameters in the analysis.

Claims (1)

Intelligent automation system, including a device that performs the functions of the head unit and server, control devices for each energy source consumed: gas, heat, hot and cold water, electricity, in addition to the control devices, sensors for loss and metering of the energy source can be installed, devices are controlled by means of microelectronics and commands received from a computer module that performs the functions of accounting, control and management, devices for regulation and switching on / off the supply of each energy resource, a notification device about events in the controlled system, devices that provide information transfer from a computer module via communication channels of local and / or global networks, a data transfer protocol in a local network contains the ability to relay commands through network devices, special software software according to the laid down algorithms, changing the connection parameters of control devices, combining all the necessary objects into a single information program Transity, characterized in that the system contains a backup cloud server, which, in the event of a disconnection of the main communication channel or electricity, takes control of itself and starts transmitting information to the head unit via the backup channel, processing of cloud services to provide information, battery power to maintain the system in autonomous mode, works on a secure radio channel with the use of at least 128 bit data encryption, with the implementation of the ability to remotely flash the device by r to the channel, with the possibility of using means of identification of the system control device, simple and automatic deployment of the system and creating a network between the devices and all devices, sensors and components - of local design and development.

Images