Commercial device for variable climate control

FIELD: physics, control.

SUBSTANCE: invention relates to computer engineering. A climate control device, having a network interface configured to receive a request to use the climate control device; transmit an authorisation request to a payment system in response to receiving said request; receive an activation message containing information associated with the payment system in response to the authorisation request; transmit a payment message to the payment system based on a plurality of usage parameters, wherein the payment message leads to the deduction of funds from the account of the user; a user interface configured to receive user input which identifies a climate control programme containing a temperature parameter, a humidity parameter, an ionisation parameter, a dryer parameter, an air purification parameter, a sound parameter and a fragrance parameter, wherein each of said parameters is associated with a corresponding one of a plurality of times, a plurality of durations and a plurality of set values; and a climate control subsystem configured to change the environment based on the climate control programme.

EFFECT: automated climate control on a confined territory.

13 cl, 1 tbl, 11 dwg

 

RELATED APPLICATIONS

This application claims priority of provisional patent application U.S. 61/418674, filed December 1, 2010, which is incorporated herein in its entirety.

AREA of TECHNOLOGY

This invention is directed to systems, methods and apparatus for climate control in a limited area.

The LEVEL of TECHNOLOGY

Devices that control the climate in a closed or open space are an important and necessary part of modern society. In homes and in commercial buildings using different devices that serve to make the environment more pleasant or comfortable. Traditional devices that provide climate control, includes air conditioners, heaters, humidifiers, and similar equipment.

In some environments may be provided by the device management climate that allows site visitors to access the device management climate and climate change on the territory.

Summary of the INVENTION

In accordance with embodiments of the invention, there is provided a device for climate control and method control unit climate control. Accepted user input, containing the option of climate control. Activates the subsystem control� " s climate, which is made with the ability to change the environment based on the setting of the climate control. A payment message based on the usage parameter is transmitted to the settlement system. Payment message results in collection of funds from the user's account.

In some embodiments, accepted a request to use the device for climate control. In response to the reception of the request system calculations shall request authorization. In some embodiments, the activation message can be taken from the settlement system. In some embodiments, the activation message is received through a wireless network. In some embodiments, setting the climate control is selected from the group consisting of: temperature, humidity, ionization/purification and the ID of the flavor. In some embodiments, the user input contains numerous settings for the climate control and the option duration. In some embodiments, transmitted status message containing a parameter that indicates the amount of consumables. In some embodiments, the payment message contains the indicator of use. In some embodiments, the implementation can be changed lighting system.

These and other advantages of us�Mr sage disclosure will be clear to experts in the field of technology by reference to the subsequent detailed description and the accompanying drawings.

BRIEF description of the DRAWINGS

Fig. 1 shows a device climate control, settlement of accounts and the user terminals connected via a local network and is further connected via the network to a remote monitor in accordance with a variant implementation;

Fig. 2 shows functional components of an illustrative device climate control in accordance with a variant implementation;

Fig. 3 shows functional components of a subsystem climate control in accordance with a variant implementation;

Fig. 4 shows functional components of the communication module in accordance with a variant implementation;

Fig. 5 shows the functional components of the user interface module in accordance with a variant implementation;

Fig. 6 shows the functional components of the maintenance module and control in accordance with a variant implementation;

Fig. 7 shows the functional components of the settlement system in accordance with a variant implementation;

Fig. 8 shows the functional components of the user device in accordance with a variant implementation;

Fig. 9 shows functional components of a remote monitor in accordance with a variant implementation;

Fig. 10 is a block diagram of the sequence of operations of a method of controlling a device�istom climate control in accordance with a variant implementation;

Fig. 11 shows components of an exemplary computer that may be used to implement the invention.

DETAILED DESCRIPTION

In accordance with an embodiment of the invention, there is provided a method of controlling a device climate control. Accepted user input data that contains the option of climate control. Activated subsystem climate control, which is made with the ability to change the environment based on the setting of the climate control. A payment message based on the usage parameter is transmitted to the settlement system. Payment message results in charging of funds from the account.

In some embodiments, accepted a request to use the device for climate control. In response to the reception of the request the payment system is transmitted to the authorization request. In some embodiments, the activation message can be taken from the settlement system. In some embodiments, the activation message is received through a wireless network. In some embodiments, setting the climate control is selected from the group consisting of temperature, humidity, ionization/purification and the ID of the flavor. In some embodiments, the user input contains many parameters control�of climate and the duration parameter. In some embodiments, transmitted status message containing a parameter that indicates the amount of consumables. In some embodiments, the payment message contains the indicator of use. In some embodiments, the implementation can be changed lighting system.

Described here is a variant implementation of the device for climate control can allow the user to exercise control over the environment. In some embodiments, the control unit climate may require the user to pay for the operation. In some embodiments, such payment may be charged in the device management climate by entering of money, such as banknotes or coins. In some embodiments, such payment may be charged using a credit card, a gift card or similar payment device. In some embodiments, the payment may be collected through the settlement system, which is connected to an internal building system such as the system of settlements with subscribers of.

Described here is a variant implementation of the device for climate control can function for climate change in the environment. Further, the environment may be referred to as bathroom but experts in the field of technology will understand what is described here, the control device can control the environment in many different areas such as the bathroom, a separate area in open space or separate area within a large room. In some embodiments, the control device can be installed in a mobile confined space, such as a plane, car, rail car, boat, camper or similar vehicle. In some embodiments, the control device can control climate climate in a confined space, such as a hotel room. In some embodiments, the control unit climate can be used at home, in the office or in other confined space.

In performing the functions of environmental management described here, the unit of climate control may include one or more subsystems of the climate control, which function to modify specific aspects of the environment. In some embodiments, the implementation of a device subsystem climate control can control such aspects of the environment such as: temperature, aroma, humidity, ionization/purification of air, the ozone level in the room, sound climate and other environmental factors.

In some embodiments, is�the implementation of the climate could allow a local administrator or a local user to remotely monitor the status and function of climate control. In some embodiments, the implementation described here, the climate may have a connection through local network and/or large-scale network. Network connection to connect to such networks can be, for example, a telephone connection, wired Internet connection, wireless connection or other similar connection methods.

Fig. 1 shows a communication system 100 that may be used to provide online access to services provided by the device climate control, in accordance with a variant implementation. The communication system 100 includes a large-scale network 105, a local area network (LAN) 102, user space 150, the device 110 climate control system 120 of the calculations, the user device 140 and remote monitor 170.

In the illustrative embodiment of the Fig. 1 large-scale network 105 is the Internet. In other embodiments, the implementation of large-scale network 105 or a local network 102 may include one or more networks of various types, such as, for example, an intranet, a local area network (LAN), a large-scale network (WAN), wireless network, fiber channel, storage area network (SAN) or Ethernet. Others can be used. Alternatively, a large-scale network 105 or the local network 102 can contain combinationacai different types.

Fig. 2 shows functional components of the device 110 of climate control in accordance with a variant implementation. The device 110 climate control module contains 230 communication module 240 of the user interface module 250 of the service and control subsystem 220 climate control. The module 230 may be a network interface that provides connectivity for the device 110 climate control with large-scale network 105 and the LAN 102. The module 240 of the user interface provides functionality that allows the user device 110 climate control to interact with the device management climate. For example, the module 240 of the user interface may include a display and buttons that allow the user to enter data into the device 110 climate control and receive data from the device 110 climate control. The module 250 of the service and control provide control aspects of the device 110 climate control. The module 250 of the service and control can provide the functionality of registration and detection of problems, which can be used to determine the previous and current state of functioning of the device 110 climate control and its subsystems. Error detection problems may be, NRA�emer, an alarm system that provides warning and in some embodiments, the response to a specific condition of the device 110 climate control system or its components. Subsystem 220 climate control provides an interface that can accept various modules that can function to control the environment.

In a variant implementation of the subsystem 220 of climate control can take different modules that can be connected to the device 110 climate control. Subsystem 220 climate control includes physical connection to one or more modules and an interface that allows these modules to interact with components of the subsystem 110 climate control. In a variant implementation examples of modules that can connect to the subsystem 220 climate control, include: module fan that can move air in the environment of the device 110 climate control, humidifier/dehumidifier that can change the humidity in the environment of the device 110 climate control, ionizer module, which can ionize the air in the environment of the device 110 climate control 110, and other modules that can be used to change the environment in the territory.

Fig. 3 while�device functional components of the subsystem 220 of climate control in accordance with a variant implementation. Subsystem 220 climate control includes interface modules 310 and a wide range of modules climate control. Examples of modules climate control could include: module 330 of the temperature module 332 of the fragrance, the module 334 ionization/cleaning module 336 audio and climate module 338 humidifier/dehumidifier. In an embodiment, the implementation of each module can include one or more sensors that can detect conditions of the device and the environmental factors relevant to the device 110 climate control. In some embodiments, each module coupled to the subsystem 220 climate control, can change the result of their work in response to changes detected by the sensors relating to the device 110 climate control.

In some embodiments, the subsystem 220 of climate control can be connected to one or more sources of supplies. For example, the subsystem 220 of climate control can include or can be connected to a water source or reservoir of water for use with module 338 humidifier/dehumidifier. Subsystem 220 of climate control may include or be connected to a source of consumables, such as the odorous source material for use with module 332 flavor.

In an embodiment, be implemented thr�tion module 330 temperature may contain a heating element and a fan for driving the warm air from the heating element to the area around the device 110 climate control. In an embodiment, the implementation module 330 temperature may include a cooling element, such as a heat pump or air conditioning unit. In the embodiment of the heating element 330 may include other devices that can affect the temperature in the area around the device 110 climate control. In an embodiment, the implementation module 330 temperature may include a thermocouple or thermometer for determining the temperature near the device 110 climate control. In an embodiment, the implementation module 330 temperature may include a system that monitors the current status of consumables, such as coolant, which can be used during operation of the module 330 temperature.

In an embodiment, the implementation module 332 of the scent may include an authoring system aroma system and the movement of air for the propulsion of a manufactured scent in the area around the device 110 climate control. For example, in some embodiments, the module 332 of the scent may include a container with a fragrant substance that can be printed when the module 332 fragrance receives an activation signal or otherwise initiated. In some embodiments, the module 332 of the scent may include a heating element that heats Conte�ner with odorous substance to force the container with the aromatic substance to release one or more fragrances. In an embodiment, the implementation module 332 flavour may enter into "no flavor". In the "no flavor" module 332 aroma may draw air from the area around the device 110 climate control and process it through the deodorizing unit to remove the scent from the air around the device 110 climate control.

In an embodiment, the implementation module 334 ionization/purification may include an ionizer and/or device of the air cleaner. The device of the air cleaner and ionizer device can be included as part of the module 220 of climate control during installation or can be added after installation of the device 110 climate control.

In an embodiment, the implementation module 336 audio climate may include a speaker. In an embodiment, the implementation module 336 audio climate may include audio recordings. In some embodiments, the module 336 audio climate may include sound recordings, electronic sound files or CDs that can be selected by the user to form certain sounds to listen to in the environment or within the device 110 climate control. In an embodiment, the implementation module 336 sound climate, forming�VAT white noise to listen to the on-site module 110 climate control.

In an embodiment, the implementation module 338 humidifier/dehumidifier may include a system for adding or removing humidity in the area of the device 110 climate control. In an embodiment, the implementation module 338 humidifier/dehumidifier may also comprise a device for increasing or decreasing the amount of ionization and/or cleaning of air around the device 110 climate control.

Subsystem 220 of climate control may include a combining module 340. Combining the module can interface with multiple modules within a subsystem 220 climate control to provide simultaneous and/or joint functionality. In a variant implementation, the combining module 340 may take one or more parameters of the climate control or the control program climate. In response to one or more parameters of the climate control or the control program combining climate module 340 may cause the one or more modules of the subsystem 220 climate control to operate in series or in parallel. For example, in an embodiment of the combining module 340 may communicate with the module temperature to maintain a specific temperature for a period of time, e.g., within one hour.

Fig. 4 shows functional to�mponent module 230 connection in accordance with a variant implementation. The module 230 may include a local area interface 402 and the network interface 404. The module 230 may receive and transmit information via the network interface 404 via the local network 102 and a large-scale network 105. The module 230 can also receive and transmit data via the local interface 402 to the module 240 of the user interface and from it. The module 230 can also receive and send data to other components of the device 110 climate control and from them. In an embodiment, the implementation module 230 may include a web server that allows the user to interact with the device 110 climate control via a web page, which you can access from your computer, handheld device, phone, or other similar devices.

Fig. 5 shows the functional components of the module 240 of the user interface in accordance with a variant implementation. The module 240 of the user interface includes a device 502 data entry device and display 504. In a variant implementation, the module 240 of the user interface can receive and transmit data through the module 230 of the communications. For example, in a variant implementation, the user device 110 climate control can access the module 230 connection through a web page that displays information about devices� 110 climate control and allows the user to enter data into the device 110 climate control. The module 240 of the user interface may include an interface for receiving coins or bills through the device 502 data entry. The module 240 of the user interface may include an interface for receiving payment through a credit card or similar device through the device 502 data entry. The module 240 of the user interface may present information relevant to the status of the device 110 climate control, through the device 504 display.

Fig. 6 shows the functional components of the module 250 of the service and control in accordance with a variant implementation. The module 250 of the service and control may contain a subsystem 610 database of orders devices subsystem 611 Troubleshooting, subsystem 612 performance, subsystem 613 data management and reporting subsystem user interface 614, the network subsystem 615, subsystem 616 performance of the fan subsystem 617 e-business journals, subsystem 618 controls and subsystem 619 climate control. For example, in the embodiment, the implementation module 250 of the service and control to interface with all or some of the above subsystems. In an embodiment, the implementation of some modules included in Fig. 6, can be included or not included in the module 250 �servicing and control. In some embodiments, additional subsystems may be included in addition to those outlined in Fig. 6.

In some embodiments, the subsystem 610 database of orders devices may be included in the module 250 of the service and control. Subsystem 610 database of orders device records information relating to the status of the device 110 climate control. The information recorded in the subsystem database 610 orders devices may include, for example, number of invoices, the history of the bills, the currently used parameters climate control parameters to control the climate, which was used in the past, the state information of the device 110 climate control, chronological information regarding the device 110 climate control and other information relating to the operation of the device 110 climate control.

In some embodiments, the subsystem 611 Troubleshooting can be included in the module 250 of the service and control. Subsystem 611 Troubleshooting performs some functions that can be used to assess the functionality of the device 110 climate control. Subsystem 611 Troubleshooting can transfer the information to podcast�IU 610 database of orders devices subsystem 618 control and other subsystems of the module 250 of the service and control depending on the status of the device 110 climate control, input device 110 climate control and information detected by the sensors corresponding to the device 110 climate control.

In some embodiments, the subsystem 612 performance may be included in the module 250 of the service and control. Subsystem 612 performance performs some functions that can be used to assess the performance of the device 110 climate control. Subsystem 612 performance can transmit information subsystem 610 database of orders devices subsystem 618 controls, remote monitor 170 and other subsystems depending on the status of the device 110 climate control.

In some embodiments, the subsystem 613 data management and reporting can be included in the module 250 of the service and control. Subsystem 613 data management and reporting performs some functions that can be used to process data taken by the sensors and generated by the various components of the device 110 climate control. Subsystem 613 data management and reports may transfer information subsystem 610 database of orders devices subsystem 618 control� and other subsystems depending on the status of the device 110 climate control.

In some embodiments, the subsystem user interface 614 may be included in the module 250 of the service and control. Subsystem 614 of the user interface interacts with the module 240 of the user interface device 110 climate control. Subsystem user interface 614 can transmit messages to a user device 140 from him, and a remote monitor 170 and to give the possibility to receive and transmit messages from the module 250 of the service and control.

In some embodiments, networking subsystem 615 may be included in the module 250 of the service and control. Network subsystem 615 is connected to the module 230 of the communications. Network subsystem 615 provides network access through a large-scale network 105 and the local network 102 to the module 250 of the service and control from him. In some embodiments, networking subsystem 615 may provide network access to the module 250 of the service and control when other subsystem of communication device 110 climate control will not operate correctly.

In some embodiments, the subsystem 616 performance of the fan may be included in the module 250 of the service and control. Subsystem 616 performance of the fan communicates with the subsystem 220 climate control DL� information recording fan or multiple fans which can be included in the subsystem 220 climate control.

In some embodiments, the subsystem 617 e-workbooks can be included in the module 250 of the service and control. Subsystem 617 e-workbooks interacts with the various electronic components within the device 110 climate control. Subsystem 617 e-workbooks can maintain a log of information relating to the status of the device 110 climate control. Information, log onto the subsystem 617 e-workbooks can be shared with other subsystems and modules of the device 110 climate control or external devices.

In some embodiments, the subsystem control 618 may be included in the module 250 of the service and control. The subsystem control 618 can record information from the sensors included in the device 110 of climate control. Information adopted by the subsystem control 618 can be exchanged with other subsystems of the module 250 of the service and control or external modules.

In some embodiments, the subsystem 619 climate control can be included in the module 250 of the service and control. Subsystem 619 climate control can provide an interface between the module 250 of the service and control subsystem 220 �of the Board of the climate.

Fig. 7 shows the functional components of the system 120 by calculation in accordance with a variant implementation. The system 120 calculations contains a module connection 710 and the 720 data. In an embodiment of the system 120 calculations receives and transmits data to the module 240 of the user interface device 110 climate control. The system 120 may also receive and transmit data to the module 230 of the communications device 110 climate control. In the illustrative embodiment of the system 120 calculations receives and records information relevant to use of the device 110 climate control. In the illustrative embodiment of the system 120 calculations receives information relating to payments made for use of the device 110 climate control, through the module 710 communications and records such information in the database 720 data. It should be noted that although Fig. 1 shows a system 120 settlements located in the user space 150, in some embodiments, the system 120 can be located at a location remote from the user premises 150. For example, in some embodiments, the system 120 can interact with the device 110 climate control via large-scale network 105.

Fig. 8 shows the functional components user�elska device 160 in accordance with a variant implementation. User device 160 contains a web browser 810 and a display 820. The web browser 810 can be a traditional web browser, used to access the web site via the Internet. Display 820 displays the user text, graphics, web pages and other information. For example, many options, climate control, a user can choose to enter into the device 110 climate control can be displayed on the display 820. User device 160 may be any device that allows the user to interact through a large-scale network 105 or a local network 102. User device 160 may be connected to a large-scale network 105 or the local network 102 via a direct (wired line or wirelessly. User device 160 may have a display screen for displaying information. For example, user device 160 may be a personal computer, a laptop, a workstation, a Central computer, etc. alternatively, user device 160 may be a mobile communication device, such as a cordless phone, digital assistant, etc. Can be used in other devices.

Fig. 9 shows functional to�ponents remote monitor 170 in accordance with a variant implementation. In the embodiment of the remote monitor 170 may be any device that allows the user to interact through a large-scale network 105. Remote device 170 includes a network interface 910 for connection with large-scale network 105. Remote monitor 170 may be connected to a large-scale network 105 via a direct (wired) connection line via the network interface 910 or wirelessly via the network interface 910. In the illustrative embodiment of the remote monitor 170 may communicate with one or more devices control the climate in different locations to transmit information to one or more devices for climate control and/or receiving data from one or more devices of climate control. Remote monitor 170 may transfer the software updates or other information to the device 110 climate control via the network interface 910. Remote monitor 170 may receive information regarding the performance and functionality from the device 110 climate control.

Fig. 10 is a block diagram of the sequence of operations of way of environment management on site in accordance with a variant implementation.

In optional stage 1010 is accepted, the message activation. Neobezatelna 1010 may be included in some embodiments of the present disclosure. In the illustrative embodiment of the device 110 climate control was adopted by the activation message. In some embodiments, the activation message is received through the module 240 of the user interface. For example, a user can insert a credit card into the slot on the module 240 of the user interface. In some embodiments, the activation message is received through the module 230 of the communications. For example, the activation message can be sent from the system 120 calculation device 110 climate control in response to a telephone call from the user to the front Desk who authorized payment for use of the device 110 climate control. In some embodiments, the activation message can be taken as a result of payment made through the user interface 240. In some embodiments, the activation can be adopted in the authorization is made through the system 120 calculations.

In some embodiments, in response to receipt of the message activate the device 110 climate control can provide prompt module 240 through the user interface to warn the user that the device 110 climate control is ready to accept parameters to control the climate. In some embodiments, in response to at�m message activation device 110 climate control can transmit a signal via the local network 102 or a large-scale network 105, the device 110 climate control is ready to accept parameters to control the climate. In response to the signal device 110 climate control can take parameters climate control from an external device, such as user device 140, the system 120 calculations or remote monitor 170. For example, the user can access the device 110 climate control via LAN 102 by opening a web page that provides access to the device 110 climate control module 230 of the communications.

In step 1020 is accepted user input, containing the option of climate control. In the illustrative embodiment of the user input contains the option of climate control, is adopted in the device 110 of climate control. In some embodiments, user input is received through the user interface 240.

In some embodiments, the user input may comprise a plurality of settings of the climate control that can be used to initiate several modules of the subsystem 220 climate control either simultaneously or alternately, or in combination. In some embodiments, the parameters of the climate control can contain many times, durations (durations), set values of sparameters climate control and range values for the parameters of the climate control. So many options of climate control can make a program of climate control. Management program climate contains many parameters to put in the device 110 of climate control. The parameters of the illustrative program of climate control can determine one or more parameters of the climate control that has been changed within the specified range of the setting values for the specified time period.

In a variant implementation of the device 110 climate control will handle the control program of the climate in such a way that the sensors within the device 110 climate control can monitor changes in the environment of the device 110 climate control to detect whether the specific parameter from the specified set of parameters control the climate within the range defined by the control program of the climate. Table 1 illustrates the many options of climate control that can be used in the illustrative embodiment, the device 110 climate control.

Table 1
Climatic aspectClimatic setting valueThe range to the�matichenkov Start time (24 hour time)Duration (hours)Addi-
tive
Temperature65 degrees±2 degrees22:008
LightDimming-22:008-
SoundSoft-8Sound
whales
AromaStrongStrong-medium23:007Sandalwood
LightAverage-6:00 PM3-
SoundSoft-6:00 PMJazz 1
AromaNo flavorZero-light6:00 PM3-
IonizerFull ionizationFull-medium9:00 PM15
LightBright9:00 PM15
Temperature75 degrees±2 degrees9:00 PM15

In a variant implementation of the building in which it is installed climate control can have one or more predefined programs climate control, available to users that are appropriate for the operation of the device 110 climate control with a specific set of control modules, climate, connected with the subsystem 220 climate control. For example, the climate control, which controls the environment, Thu�would provide relief from the effects of rhythm disturbances of the organism or seasonal depression or other illness, can be developed and provided to the user as an option module 240 through the user interface. In a variant implementation of the programme of climate control can be provided to assist the user in establishing, maintaining or release or variation of a specific user state, such as fatigue, depression, and can be funny or provided in a different mood.

In step 1030 is activated subsystem 220 of climate control, which is made with the ability to change the environment based on the setting of the climate control. In a variant implementation, when the user input contains a variety of settings, climate control, activate different modules of the subsystem 220 climate control. In a variant implementation, when the user input contains the climate control module 310 of the interface subsystem 220 of climate control can handle the program, to determine the order of work modules module 220 climate control. The interface module 310 may interact with the sensors to determine whether one of the modules module 220 management climate change is the result of its work to support specific option climate control within the specified range.

In step 1040 the payment message per�given system 120 calculations based on the setting of use, besides a payment message results in collection of funds from the user's account. In a variant implementation of the payment message results in charging of funds from the account of user device 110 climate control. In an embodiment, the device 110 climate control, in which the user wants to enter coins or bills through the module 240 of the user interface, sending a payment message may lead to the imposition of the designated funds from the user and issuing date to the user. When a payment message is received, the information pertaining to the parameters of the climate control, and payment message can be recorded by the module 250 of the service and control system and 120 calculations.

In some embodiments, the payment message transmits the activation message to the device 110 climate control. After use of the device 110 climate control was completed, the device 110 climate control can transmit a payment message system 120 calculations. In some embodiments, the payment message may contain data regarding the type of use, amount of use and duration of use of the device 110 climate control. In some embodiments, the user makes a request for use of the device 110 control�ia climate the request can be made through an external device, such as a web browser module 240 through the user interface through a remote monitor 170 or via another device that communicates with the device 110 climate control.

In some embodiments, the device 110 climate control can transmit a status message, which contains information relating to the status of the device 110 climate control. Status message, for example, can be formed by the module 250 of the service and control on the basis of information stored in the subsystem 617 e operating logs or other subsystem module 250 of the service and control. In a variant implementation, the status message may contain information relating to the amount of consumable material, for example, to the amount of water to the amount of odorous material to the condition of the air cleaning filter (e.g., clean or dirty) or other consumables. In some embodiments, the status message may include a warning that the number of consumables too small or too large.

In a variant implementation of the device 110 of climate control may include an interface that allows him to access, control and interact with an external device that can be used�to isolates to change or environmental management, the device 110 climate control. For example, in an embodiment of the device 110 climate control can connect to the device on-site, for example, the device management window curtains. The device management window curtains can represent, for example, the device that changes the intensity of the light in the window to change the amount of light that enters an area. The device management window curtains can also represent a device that controls how open or closed window blinds, or open or closed blinds on the window. Other examples of external devices that can transmit and who can receive commands and information from the device 110 climate control, include, for example, the heating unit, stereo system, alarm clock, TV, or other components that may correspond to the territory. In a variant implementation of the device 110 climate control can make the external device with which it is connected, to act in accordance with the control program of the climate, which was accepted by the device 110 climate control.

Illustrative usage scenarios in accordance with this disclosure, assume that the user is in a hotel room that uses the device 110 �of the Board of the climate. After checking in the Luggage at the hotel, the user determines that the expenses related to the use of the device 110 climate control in his hotel room, will be charged from his account at the hotel every evening. Once the device 110 climate control receives the activation message, the user accesses the module 240 of the user interface via a web page, which connects to the device climate control via LAN 102. Through the web page, the user defines a set of parameters of climate control for your room. When the device 110 climate control accepts parameters to control the climate, they are saved by the module 250 of the service and control system and transmitted 120 calculations and remote monitor 170.

Subsystem 220 climate control processes adopted by the settings of the climate control and forces the device 110 climate control to start managing the environment. For example, if the accepted parameters of the climate control are the specific humidity and the specific temperature that is triggered by the operation of the respective modules of the subsystem climate control. At a time when the climate begins to manage environment, the device 110 climate control activates the sensors to determine whether the environmental conditions during activation, set the required parameters of climate control. In a typical work environment on-site device 110 climate control may not meet the conditions specified by the settings of the climate control. Under these conditions, device sensors climate control determine the difference between the detected environment and conditions specified by the settings of the climate control. On the basis of this particular variation of the device units 110 management climate change the environment, to satisfy specified conditions. After that, the device 110 climate control periodically checks the environment to determine whether conditions have changed and/or whether to change the response of the modules of subsystem 220 climate control.

If the settings of the climate control set on the input of the program control the climate, have been satisfied, the device 110 climate control is deactivated. In response to the deactivation status information can be recorded and transmitted to the system 120 calculations and remote monitor 170. The device 110 climate control can also calculate the cost corresponding to the use of the device 110 climate control, and transfer this information to the user interface and/or system 120 calculations.

Described here, the device and methods can be implemented with use�use of digital circuits or using one or more computers, using well-known computer processors, memory, storage devices, software, and other components. Typically, the computer includes a processor for executing commands and one or more blocks of memory for storing commands and data. The computer may also include or be coupled to one or more devices of large capacity, such as one or more magnetic disks, internal hard disks and removable disks, magneto-optical disks, optical disks, etc.

Described here, the device and methods can be implemented using computers in the relationship client-server. As a rule, in such a system the client computers are located remotely from the server computer and communicate through a network. The relationship client-server can be defined and managed by computer programs running on the respective client and server computers.

Described here, the device and methods can be used within a network system, cloud computing. In such a network system, cloud computing server, or other processor, which is connected to the network communicates with one or more client computers via a network. The client computer can communicate with the server�, for example, through a network browser application residing and operating on the client computer. The client computer may store data on the server and access the data through the network. The client computer may transmit requests for data or requests to the online service to the server through the network. The server can perform the required services and to provide data to a client computer (computers). The server can also transmit data, is arranged to force a client computer to perform a specified function, for example, to perform a calculation, display some data on screen, etc. for Example, the server may transmit the request made with the ability to force a client computer to perform one or more of the steps of the method described here, which includes one or more of the steps shown in Fig. 10. Some of the stages described here are methods, comprising one or more of the steps shown in Fig. 10 may be performed by the server or by another processor in a network system, cloud computing. Some of the stages described here are methods, comprising one or more of the steps shown in Fig. 10, can be performed by a client computer in a network system, cloud computing. The stages of the methods described herein, including one or more stages, showing�abilities in Fig. 10, can be executed by the server and/or client computer in a network system, cloud computing in any combination.

Described here, the device and methods can be implemented using a computer program product, physically embodied on storage media, for example, in the non-transient machine-readable storage device for execution by a programmable processor; and described herein, the steps of the method comprising one or more of the steps shown in Fig. 10, can be implemented using one or more computer programs that can be executed by this processor. A computer program is a set of computer software commands that can be used directly or indirectly in a computer to perform some action or to obtain some result. A computer program can be written in any form of programming language, including compiled or interpreted languages, and it can be deployed in any form, including as a standalone program or as a module, component, subroutine, or other unit suitable for use in a computing environment.

A high-level block diagram of an illustrative computer that may be used to implement description�nnyh systems here, the devices and methods illustrated in Fig. 11. The computer 1100 includes a CPU 1101, functionally coupled to the device 1102 and data storage memory 1103. The CPU 1101 controls the entire operation of the computer 1100, executing computer software commands that control such operations. The computer program commands can be stored in the device data storage 1102 or on another computer readable medium, and loaded into memory 1103, when performing computer programming commands. Thus, the steps of the method shown in Fig. 10, can be determined by computer software commands stored in the memory 1103 and/or in the device data storage 1102, and managed by the CPU 1101, the executing computer software commands. For example, computer program commands can be implemented as computer executable code programmed by the specialist in the field of technology, to perform an algorithm defined by the method steps shown in Fig. 10. In accordance with this by executing computer software commands, the CPU 1101 executes an algorithm defined by the method steps shown in Fig. 10. The computer 1100 also includes one or more network interfaces 1104 to communicate with other devices via the network. The computer 1100 also includes CE�I one or more devices 1105 I / o, which enable testing of interaction with the computer 1100 (e.g., display, keyboard, mouse, speakers, buttons, etc.).

The processor 1101 may include microprocessors, both General and special purpose, and may be the sole processor or one of multiple processors of the computer 1100. The processor 1101 may include, for example, one or more Central processing units (CPU). The CPU 1101, the device 1102 data storage and/or memory 1103 may include, be supplemented by, or to be embedded in one or more specialized integrated circuits (ASIC) and/or one or more programmable logic integrated circuits (FPGA).

The device 1102 and data storage memory 1103 contain the physical neuremedy machine-readable medium. The device 1102 and data storage memory 1103 may include high speed random access memory, such as dynamic RAM (DRAM), static RAM (SRAM), synchronous dynamic random access memory with double data rate (DDR RAM), or other devices of solid-state random access memory and may include nonvolatile memory such as one or more storage devices, magnetic disk, such as internal hard disks and removable disks, storage devices on magnetic�-optical disk, device storage on optical disk, flash memory device a semiconductor memory, such as erasable programmable read only memory (EPROM), electrically erasable programmable read only memory (EEPROM), read only memory compact discs (CD-ROM), read only memory digital versatile disks (DVD-ROM) or other non-volatile solid-state storage device.

Device 1105 I / o may include peripheral devices such as printer, scanner, display screen, etc. for Example, device 1105 I / o may include a display device such as a monitor with a cathode ray tube (CRT) or liquid crystal display (LCD) for displaying information to the user, a keyboard and a manipulator, such as a mouse or a trackball by which the user can provide input to the computer 1100.

Any of the systems discussed here and devices, including device 110 climate control system 120 calculations, user device 140, remote monitor 170 and their components, including device 502, a data entry device 504 display module 220 climate control module 230 connection and the module 250 of the service and control can be implemented with the use�m computer such as computer 1100.

Specialist in the field of technology will understand that the implementation of an actual computer or computer system may have other structures and may contain other components, and that Fig. 11 is a top-level view of some of the components of such a computer for illustrative purposes.

The preceding detailed description should be regarded as being in all respects illustrative, not limiting, and the amount disclosed here, the invention should be determined not from the detailed description and in the claims, and interpreted in accordance with the entire breadth permitted by the patent rights. It should be understood that shown and described herein options for implementation are merely illustrative for the principles of the present invention, and that experts in the field of technology can be implemented in various modifications without departing from the scope and spirit of the invention. Experts in the field of technology can implement various other combinations of signs without deviation from the scope and spirit of the invention.

1. A method of controlling a device climate control, containing phases in which:
take in the device management climate prompted to use the device for a climate control;
transmit the authorization request to a system that is�e calculations in response to the reception of the above mentioned request;
take the activation email from the system of calculations in response to the authorization request;
take user input identifying a program of climate control that contains the setting temperature, setting humidity, ionization parameter, the parameter of the dehumidifier, the option to clean up the air, a sound parameter of fragrance, and each of these parameters is associated with a corresponding one of the plurality of times, the many times and many selections.
activate multiple subsystems climate control, made with the ability to change the environment on the basis of a program management environment; and
transmit a payment message to the settlement system on the basis of multiple parameters use
besides a payment message results in collection of funds from the user's account.

2. A method according to claim 1, wherein the payment message is transmitted via a wireless network.

3. A method according to claim 1, additionally containing phase, which transmit a status message indicating the number of odorous material.

4. A method according to claim 1, wherein the payment message contains many indicators of use.

5. A method according to claim 1, additionally containing a stage at which
change the lighting system.

6. The device climate control, containing:
network interface�the ys, made with the possibility
to accept the request to use the device for a climate control;
to transmit the authorization request to the payment system in response to the reception of the above mentioned request;
to receive the activation message containing the information associated with the billing system in response to the authorization request;
to transmit a payment message to the settlement system on the basis of multiple use options, and payment message results in collection of funds from user's account;
the user interface is made with the possibility
accepting user input identifying a program of climate control that contains the setting temperature, setting humidity, ionization parameter, the parameter of the dehumidifier, the option to clean up the air, a sound parameter of fragrance, and each of these parameters is associated with a corresponding one of the plurality of times of a plurality of durations and a plurality of set values; and a subsystem climate control, configured to: modify the environment through a programme of climate control.

7. The climate according to claim 6, wherein the network interface is additionally configured to
to transmit a status message indicating the number of odorous material.

8. The device control�communicating climate according to claim 6, in which the payment message contains many indicators of use.

9. The climate according to claim 6, in which the subsystem climate control is additionally performed with the opportunity to change the lighting system.

10. A device for climate control that contains
processor and
a memory to store instructions of a computer program, wherein instructions of the computer program when executed by a processor cause the processor to perform operations, comprising:
the reception of the request to use the device for a climate control;
transfer authorization request to the payment system in response to the reception of the above mentioned request;
the reception of the activation message in response to the authorization request, wherein the activation message includes the information associated with the settlement system;
receiving user input identifying a program of climate control that contains the setting temperature, setting humidity, ionization parameter, the parameter of the dehumidifier, the option to clean up the air, a sound parameter of fragrance, and each of these parameters is associated with a corresponding one of the plurality of times, the many times and many selections.
activation of many subsystems of the climate control to change the environment-based programs� climate control and
the transmission of payment messages to the payment system on the basis of multiple parameters use;
besides a payment message results in collection of funds from the user's account.

11. The device according to claim 10, further comprising;
the transmission of status messages indicating the number of odorous material.

12. The device according to claim 10, wherein the payment message contains many indicators of use.

13. The device according to claim 10, wherein activating subsystem climate control further comprises changing the lighting system.



 

Same patents:

FIELD: medicine.

SUBSTANCE: invention relates to transfusiology and is intended for application in medical institutions in planning and transfusion to patient of preserved donated blood components. Method is realised with application of bar-coding technology, with formation of unified information and technological system, where databank of patients who have transfusions of donated blood components in anamnesis is maintained; transfusion plan, with respect to which available components of donated blood are estimated, is composed in accordance with operation plan, and request is sent to blood centre for missing volume of donated blood components, data about obtained blood components are automatically included into medical information system.

EFFECT: ensuring safety of transfusion of donated blood components.

7 cl, 18 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to activation of services using algorithmically configured keys. The method of user subscription to the service comprises: identification in the computer of issuer of the user who is authorized for subscription to a service on the basis of a criteria determined by an issuer; extraction by a computer of the issuer of data associated with the user and shared data element which is shared by the issuer computer and the service provider computer; formation of the first activation code by the issuer computer and sending the first activation code to the user; and the user sends the first activation code and data associated with the user to the service provider computer; and the service provider computer forms the second activation code and authorizes the user for subscription to service, if the first and the second activation codes are identical.

EFFECT: prevention of violation of security of data processing system.

20 cl, 9 dwg

FIELD: medicine.

SUBSTANCE: invention relates to medical working process of visualisation. System contains: control unit (114), containing processor (116); and multitude of processing executives (102), connected with it, with processor (116) realising control of realisation with feedback of plane of medical visualisation working process by means of multitude of processing executives (102), and processor (116) is made with possibility of inquiring electronic medical information, dealing with and/or not dealing with visualisation from one or more processing executives; formation of plan of visualisation procedure working process by means of visualisation procedure, based on information inquired; reception of signal, indicating due date of planned visualisation procedure; downloading visualisation protocol, corresponding to visualisation procedure, into visualisation system, used for visualisation procedure; realisation of scanning by means of visualisation system; and updating plan of visualisation procedure working process.

EFFECT: increased reliability of patient diagnostics.

15 cl, 9 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to systems and methods of conducting a transaction to acquire available goods or services using stored means associated with designation. The methods include: receiving, at a point of sale, identifiers of goods or services selected for acquisition, and designation; determining if the goods or services comprise available goods or services; calculating the sum required to acquire the available goods or services; determining if the stored means are enough to acquire the available goods or services; using the stored means to acquire the available goods or services; and using an additional funding source provided by the customer to acquire any goods or services which are not available goods or services. The system implements said methods.

EFFECT: high accuracy and reliability of a transaction, which includes an additional alternative source.

18 cl, 9 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to a computer-readable data medium of a web configuration system, a method of customising a welding system and a web configuration system for customising a welding system. The web configuration system includes at least one processor and one or more tangible, computer-readable media at least collectively including or storing instructions executable by the at least one processor. The instructions include instructions to limit configuration options for a welding system based on user selection of a power source for the welding system, instructions to calculate a weld cable size for the welding system based on the user selection of the power source and user selection of input voltage, instructions to assign weld cable characteristics based on the weld cable size and a user selected cable length, and instructions to assemble a welding system order based at least on the user selection of the power source and the weld cable characteristics.

EFFECT: obtaining a computer-readable data medium of a web configuration system.

20 cl, 10 dwg

FIELD: medicine.

SUBSTANCE: invention relates to control of sugar level in blood. Method contains the following stages: multitude of measurements of glucose level in user's blood is carried out by means of microprocessor; multitude of measurements of glucose level in blood is stored in memory device; it is determined whether the last measurement of glucose level in blood, performed at specified moment of time during the day, is lower than the first threshold, which constitutes about 70 mg of glucose per decilitre of blood, or higher than the second threshold, which constitutes about 150 ml of glucose per decilitre of blood; it is estimated by means of microprocessor if, at least, one measurement of glucose level from multitude of measurements, carried out in time interval approximately 3-hour long relative to specified time, at which the last measurement of glucose level in blood for previous days, was lower the first threshold or higher than second threshold; it is notified that for the same time period for previous days multitude of measurements of glucose level in blood shows the tendency of reduction of glucose level in blood relative to the first threshold or of increase of glucose layer relative to the second threshold.

EFFECT: increased accuracy of determination of user's state for control of diabetes course.

24 cl, 17 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to technology of automatic selection of extra data, for example, ad, guide data, extra data, data on operating performances. Thus, processing, storage and/or transmission resources can be saved. This device for automatic selection of extra data to be included in content comprises classifier connected with user profile and selection means connected with extra data base. Extra data of definite category is placed in appropriate or contrasting context depending on used interest in thus goods category. Profiles of user are automatically classified as profiles with either pronounces or weak interest in this category.

EFFECT: adapted selection of extra data to be included in the content for twofold decrease in total volume of extra data.

11 cl, 2 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention describes a system, an apparatus and a method of processing payment transactions performed using a mobile device having a contactless component, such as a microchip. The method is carried out using a wireless (cellular) network as a channel for transmitting data by an issuer to a mobile device, which is particularly advantageous in cases when the contactless component has no communication with a reading device or a point of sale terminal in which a near-field wireless communication means is used. Data transmitted between the mobile device and the issuer may be encrypted or decrypted to provide additional security and protection of data from access by other users or applications. If encryption keys are used for encryption or decryption, the keys may be allocated by a key allocation server or another suitable object through a mobile gateway which participates in data encryption and decryption operations.

EFFECT: invention enables to update, correct or synchronise data on operations, which are supported by an issuer, with data stored in the device.

27 cl, 6 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to prompting message update for a network client device user. The method includes: determining, by a client device, the number of update prompting symbols according to the number of updated messages provided by a server; generating the update prompting symbols according to the determined number of prompting symbols; adjusting state parameters of the generated update prompting symbols; displaying the update prompting symbols according to the adjusted state parameters on the display of the client device; determining if at least one updated message has been viewed, and if it is determined that neither of said updated messages is viewed, updating, by the client device, adjusted state parameters, otherwise changing the number of updated messages according to the determined number of viewed messages.

EFFECT: high efficiency of prompting message update to a network client device user.

13 cl, 6 dwg

FIELD: medicine.

SUBSTANCE: invention relates to medical monitoring. Method contains stages, at which: with application of medical device (10) in time interval obtained are patient's data which contain patient's data (50) before the interval, followed in time by time interval (52), during which patient's data are not obtained, and following in time patient's data (54) after said interval; received are one or more recordings (56, 58) of patient's ID with time labels, associated with obtained patient's data; information of first patient's ID is associated with patient's data before interval; and information of second patient's ID is associated with patient's data after interval; operations of association are based on time positions of one or more recordings (56, 58) of patient's ID with time labels, associated with patient's data, relative to time interval, with operations of association being performed by digital processor.

EFFECT: reduction of patient's data loss, as well as of medical mistakes, conditioned by ambiguity of patient's identifier (ID).

12 cl, 5 dwg

FIELD: measurement equipment.

SUBSTANCE: invention relates to methods for determining variation of a valve parameter for valve control. According to a diagnostic method of a control valve, data on position, which indicates position of the control valve, and data on pressure, which indicates pressure drop on the valve actuator, and unnecessarily direction of stroke of the control valve is measured (41) during online operation of the control valve. Data on position and data on pressure drop is processed (42) so that it can contain data near initial points of a variety of individual movements of stroke of the control valve during normal online operation of the control valve. Finally, a chart of variation of the valve parameter of the control valve is determined (44) based on processed data on position and on pressure drop, which are collected in the variety of points along the stroke range of the control valve during online operation of the control valve.

EFFECT: improvement of accurate diagnostics of valves in online modes.

16 cl, 10 dwg

FIELD: transport.

SUBSTANCE: invention relates to method for vehicle tire pressure determination. The method includes monitoring system starting in learning mode, timer stating if vehicle speed has exceeded preset threshold, timer stopping if speed is less than or equal to speed threshold or if preset time period has elapsed, readout of several pressure values in different tires during timer operation, saving these values in memory and their averaging to determine recommended pressure threshold after preset time period has elapsed, as well as setting recommended pressure threshold in tire pressure monitoring system.

EFFECT: possibility to determine low tire pressure and to monitor tire pressure.

11 cl, 3 dwg

FIELD: radio engineering, communication.

SUBSTANCE: device includes an input data setting unit, eight multipliers, four adders, two dividers, two square root calculation devices and a subtraction device; the following new units are introduced: eight multipliers, two dividers, two subtraction devices, two square root calculation devices, two sine calculation devices, as well as two additional outputs of the input data setting unit, communications between the specified units and other elements of the device.

EFFECT: improving target detection accuracy.

3 dwg

FIELD: medicine.

SUBSTANCE: group of inventions refers to medicine. A drug delivery control unit comprises a user's interface configured to receive input data. The input data comprises patient's data and/or drug data and/or vascular access device data. A sensor is configured to measure a liquid pressure rate in a liquid delivery canal, which is used to deliver the drug to a patient's infusion site by means of the vascular access device. A processor is configured to assess a model state of the infusion site on the basis of the pressure rate in the liquid delivery canal and the input data. An output device notifies, supplies an urgent signal and/or a graphic/digital indication if the assessed model state of the infusion site and the liquid pressure rate in the liquid delivery canal to the infusion site testifies to infiltration. There are disclosed a method for controlling the drug delivery and a computer-readable carrier containing commands for implementing the method.

EFFECT: inventions enable detecting the infiltration condition and notify about the same.

16 cl, 6 dwg, 1 tbl

FIELD: medicine.

SUBSTANCE: group of inventions refers to medicine, namely to organising and conducting insulin therapy for a patient. Determining a user's dose of basal insulin is ensured by using a device for insulin administration and a portable device for diabetic data control. The method involves measuring the number of the user's blood glucose concentrations over the number of time intervals. The collected data are used to state if the user has performed the minimum number of measurements of the fasting blood glucose concentration over at least one of the four time intervals prescribed. That is followed by stating if the collected data indicate one of the first schedule showing the low blood glucose concentration, and the second schedule showing the lower blood glucose concentration than in the first schedule showing the low glucose concentration. Thereafter, the method provides considering if the basal insulin dose correction in the portable device for the first and second schedules correspond to each other; the user is warned, and the basal insulin dose correction is prohibited in any of the devices. Taking preventive measures aiming at measuring the basal insulin dose by means of the devices involves collecting the data, and the preventive measures are taken to avoid the user's hypoglycaemic state.

EFFECT: group of inventions enables rendering aid in the patients suffering from diabetes by means of the devices for determining the basal insulin dose and controlling the blood dose level in an insulin dose and taking the preventive measures.

27 cl, 11 dwg

FIELD: measurement equipment.

SUBSTANCE: method allows visualising controlled parameters of an object, work progress of the object and prompt formation. In addition to the visualisation unit of controlled parameters and storage units of scheduled, actual and archive charts of operations on the object, the system includes shaping elements of control and informative messages.

EFFECT: improving promptness of decision making at deviations from a normal progress of operations on the object.

18 cl, 4 dwg

FIELD: medicine.

SUBSTANCE: invention relates to means for the estimation of energy efficiency of a cardiovascular system. The method of automatic processing of blood pressure signals contains stages at which: a detected pressure signal P(t) for one or more heart contractions is discretised, with each heart contraction starting at an initial moment, coinciding with the moment of the diastolic pressure, and finishing at the last moment, coinciding with the moment of the following diastolic pressure, and containing a dicrotic point, the morphology of a discretised pressure signal P(t) for each heart contraction is analysed and separated, the moment and value of pressure in one or more characteristic points of the signal P(t) are determined. For each heart contraction a value of energy efficiency is determined by the determination of the impedance Zd-D(t) of a direct dynamic wave of pressure for each of one or more characteristic points, except the point of an initial diastolic pressure, and the impedance ZD of a direct pressure wave is determined by the addition with alternating signs of values of the impedances Zd-D(t) of the direct dynamic pressure wave, ordered in accordance with the direct time order, starting with the initial moment of the analysed heart contraction, to a dicrotic moment, the dynamic reflected impedance Zd_R(t) is determined for each of one or more characteristic points and the value of impedance ZR of reflected pressure waves is determined, energy efficiency is determined as a ratio between the impedance ZD of the direct pressure wave and the impedance ZR of the reflected waves RES=ZD/ZR. The method is realised by an automatic device for processing the blood pressure signal with the application of a storage medium, which contains stored software.

EFFECT: application of the invention makes it possible to increase the reliability of energy efficiency estimation.

14 cl, 6 dwg

FIELD: medicine.

SUBSTANCE: invention relates to means for glucose level control. The method of presenting information about the analyte concentration consists in the following: a value of concentration of at least one analyte, present in each of a multitude of physiological samples, taken during the first preliminarily determined time interval, is measured by means of an analyte sensor, the values of the analyte concentration are stored, the accordance of the quantity of the stored values of the analyte concentration to the minimal threshold value is determined, current measurement of the analyte concentration is presented simultaneously with at least one of the two selected headlines of the message, containing an overview of the stored values of the analyte concentration for the preliminarily determined time interval or a model of tendency in the change of the stored values of the analyte concentration, and the message is demonstrated after the selection of a message headline for the model of change tendency for the second preliminarily determined time interval. The second version of the method includes an additional notification by the message after the selection of the heading for an overview of the stored values of the analyte concentration, showing the distribution of values for one of the preliminarily determined ranges, the first threshold or the second threshold, exceeding the first threshold values. The third version includes the estimation, after the determination of the correspondence of the quantity of measurements to the minimal threshold value, of the correspondence of the stored values of the analyte concentration to one or several rules, preliminarily stored in a measuring device, in order to form the message, which contains some of the stored values as a part of the message, sent to the user, with the presentation of the current analyte measurement and simultaneous demonstration of the message to the user as the first message, received by the user before receiving any other messages. In the fourth version of the method implementation, after the determination of the accordance of the quantity of measurements to the minimal threshold value, estimated is the correspondence of the stored values of the analyte concentration to one or several rules, preliminarily stored in the measuring device, in order to form the message, which contains some of the stored values as a part of the message, sent to the user, with the presentation of the current measurement of the analyte concentration from the measurement stage and simultaneous demonstration of the message to the user after the measurement stage. In the fifth version the tendency of change of glucose concentration values towards a decrease, identified on a particular day, in which at least one value of the glucose concentration is lower than the second preliminarily determined threshold on each of the three last days is additionally automatically identified for the particular day, the tendency of change of the glucose concentration values towards an increase, identified on a particular day, on which at least one value of the glucose concentration is higher than the first preliminarily determined threshold on one of the three last days within one and the same time interval, with sending to the user a multitude of dates, on each of which there is only one corresponding message, with such a corresponding message containing data about either the tendency of change of the values towards the increase or the tendency of change of the values towards the decrease, and if on one particular date both tendencies are identified, the user is informed only about the tendency of change of the values towards the decrease.

EFFECT: application of the invention makes it possible to simplify control and increase the accuracy of measuring the glucose level in blood.

18 cl, 8 dwg

FIELD: weapons and ammunition.

SUBSTANCE: complex comprises an electronic computer, data transfer equipment with communications means, automation means, interface unit of operational and tactical and radar information, which is connected to the switching device of connection and two data transfer instruments with communications means. One of the instruments is designed for information exchange of radar information with the reconnaissance asset, and the other - for information exchange of operational and tactical information with superior, subordinate and interacting control bodies. The interface unit comprises a control unit which enables to handle radar information from the reconnaissance assets at that the ability to process in it the operational and tactical information coming from the superior, subordinate and interacting control bodies is maintained. For the target accepted for destruction the complex provides an opportunity to detect the proofs of shooting settings and data of flight mission to serve the shooting in real time.

EFFECT: increased efficiency of target destruction by giving rocket formations and formations of multiple artillery rocket systems of heavy calibre the properties of reconnaissance-strike complex operating on the principle of reconnoitred-struck.

1 dwg

FIELD: medicine.

SUBSTANCE: invention relates to medical monitoring. Method contains stages, at which: with application of medical device (10) in time interval obtained are patient's data which contain patient's data (50) before the interval, followed in time by time interval (52), during which patient's data are not obtained, and following in time patient's data (54) after said interval; received are one or more recordings (56, 58) of patient's ID with time labels, associated with obtained patient's data; information of first patient's ID is associated with patient's data before interval; and information of second patient's ID is associated with patient's data after interval; operations of association are based on time positions of one or more recordings (56, 58) of patient's ID with time labels, associated with patient's data, relative to time interval, with operations of association being performed by digital processor.

EFFECT: reduction of patient's data loss, as well as of medical mistakes, conditioned by ambiguity of patient's identifier (ID).

12 cl, 5 dwg

FIELD: machine building.

SUBSTANCE: automated electric drive of a rolling mill comprises a setting unit (1), a voltage regulator (2), a limiting unit (3), a regulated delay unit (4), a current regulator (5), a linear dynamic link (6) with transmission function stated in the patent claim, a rolling speed sensor (7), a power amplifier (8), a current sensor (9), a voltage sensor (10), a DC motor (11). When rollers catch an ingot, the current of the electric motor is increased and a correction signal is generated, the signal acts at the current regulator input and facilitates the speed stabilisation and fast setting of the current required to create the rolling moment.

EFFECT: improved quality of regulation and reduced dynamic loads due to the limitation of oscillations caused by non-linear dependence of rolling moment on angular velocity of electric drive at the correction of electric drive current circuit.

2 dwg

Up!