JP5033019B2 - Remote control system - Google Patents

Description

  The present invention includes a controller that controls one or more devices installed in a home, and a communication terminal that accesses the controller through a network and gives a control request for the device. The present invention relates to a remote control system in which a controller controls a device in the house.

Conventionally, a controller configured to control one or more devices installed in a home and a communication terminal that accesses the controller via a network and gives a control request for the device, and responds to a control request given from the communication terminal via the network. There is provided a remote control system in which a controller controls a device in a home (see, for example, Patent Document 1).
JP 2007-173955 A

  By the way, in the conventional example described in Patent Document 1, since it is necessary to connect the controller and each device with a signal line, not only does the work of wiring the signal line take time, but the signal line is used particularly in an existing house. There is a risk of damaging the aesthetics of the house because it must be exposed wiring.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a remote control system that simplifies the wiring work and reduces the risk of damaging the aesthetics of the house due to the exposed wiring.

In order to achieve the above object, the invention of claim 1 includes a controller that controls one or more devices installed in a home, and a communication terminal that accesses the controller through a network and gives a control request for the devices, The controller has a wireless communication function and one or more controller slave units that output a control signal for controlling the operation state of the device to the device and a wireless communication function. The controller slave unit is configured to transmit a control request to the controller slave unit to which the control target device is controlled by wireless communication . The controller slave unit is controlled by wireless communication using infrared as a medium. Control signal transmission means for transmitting control signals to other devices and a control signal corresponding to the control request A control unit for transmitting from the transmission unit, an operation input receiving unit for receiving an operation input, and a manual control unit for generating a control signal corresponding to the operation input received by the operation input receiving unit and transmitting the control signal from the control signal transmission unit. , the control signal transmission means, to the signal intensity at the time of transmitting the control signal the control means is generated, and wherein the weakly to Rukoto the signal strength at the time of transmitting a control signal to manual control means is generated.

According to the first aspect of the present invention, since no wiring is required between the controller master unit and the controller slave unit, the wiring work is simplified and the risk of damaging the aesthetics of the home due to the exposed wiring is reduced. In addition, since no wiring is required between the controller slave unit and the device to be controlled, the wiring work is further simplified, and the risk of damaging the aesthetics of the home due to the exposed wiring is further reduced, without using a communication terminal. Usability is improved because the device can be controlled. Furthermore, if the controller slave unit is installed in a place where the operation state of the device can be controlled by the control signal generated by the manual control means, the control signal corresponding to the control request from the communication terminal is reliably transmitted from the controller slave unit to the device. be able to.

According to a second aspect of the present invention, in the first aspect of the invention, the controller slave unit includes storage means for storing a control code preset for each device to be controlled, and the control means receives from the controller main unit. A control code corresponding to the control request is read from the storage means and a control signal is generated according to the control code.

According to the invention of claim 2 , since the control request can be simplified as compared with the case where the control code is transmitted from the controller master unit to the controller slave unit, wireless communication performed between the controller master unit and the controller slave unit can be performed. Even at low speeds, the operating state of the device can be controlled immediately.

According to a third aspect of the present invention, in the second aspect of the invention, the controller slave unit receives an infrared signal transmitted from an infrared remote controller attached to the device to be controlled, and learns a control code set in the device. A learning means is provided, and the control code learned by the learning means is stored in the storage means.

According to the invention of claim 3 , it is possible to add many kinds of devices to the control object, and usability is improved.

According to a fourth aspect of the present invention, in the second aspect of the invention, the controller master unit transfers the control code acquired via the network to the controller slave unit by wireless communication. The controller slave unit receives the control code received from the controller master unit. The control code is stored in the storage means.

According to the invention of claim 4 , it is possible to add many kinds of devices to the control object, and usability is improved.

The invention according to claim 5 is the invention according to any one of claims 1 to 4 , wherein the controller master unit identifies the device information specifying the control target device controlled by each controller slave unit and the controller slave unit Information storage means for storing the identification information to be associated with each other, and information providing means for creating a web page that discloses the device information and the identification information stored in the information storage means and providing them to the communication terminal via the network It is characterized by comprising.

According to the invention of claim 5, the web page provided from the information providing means of the controller base unit is displayed on the web browser of the communication terminal, thereby easily grasping the correspondence between the controller slave unit and the device to be controlled. This improves usability.

The invention of claim 6 is the invention according to any one of claims 1 to 5 , wherein the controller has a wireless repeater for relaying a wireless signal transmitted from the controller master unit to the controller slave unit. .

According to the sixth aspect of the present invention, the degree of freedom of the installation location of the controller master unit and the controller slave unit is increased, so that the usability is improved.

A seventh aspect of the present invention provides the control slave unit according to any one of the first to sixth aspects, wherein the controller slave unit transmits a control signal to the control target device via the communication line, and a control request. And a control means for generating a corresponding control signal and transmitting the control signal from the control signal transmission means.

According to an eighth aspect of the present invention, in the fifth aspect of the present invention, the information storage means stores at least a device name indicating the type of each device as device information and an installation location in the home where the device is installed, and information providing means Is characterized by creating a web page that displays device information of each device grouped by device name or installation location.

According to the invention of claim 8 , since the device can be searched by the device name or the installation location, the usability is improved.

  According to the present invention, the wiring work is simplified, and the risk of damaging the aesthetics of the house due to the exposed wiring is reduced.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  As shown in FIG. 1, the remote control system of this embodiment includes a plurality (two in the illustrated example) of controller slave units 2 and 3 that respectively control a plurality of devices 4 and 5 installed in the house, and each controller unit. The controller main unit 1 that performs wireless communication with the units 2 and 3 and the controller main unit 1 are accessed through a network (LAN <local area network> and the Internet) to give control requests for the devices 4 and 5 in the home. It is composed of communication terminals 8 and 9. Here, the controller main unit 1 and a communication terminal with a monitor screen at home (for example, a personal computer or a television set having a network communication function) 8 are connected to a communication cable (enhanced category 5 or category 6 LAN cable) Ls. Are respectively connected to a plurality of communication ports (not shown) included in the configuration management server 6. The configuration management server 6 has a web server function for creating a home page HP (see FIG. 2A) that serves as an entrance of a web page for controlling the devices 4 and 5 in the home and providing it to the communication terminals 8 and 9. And a network communication function for transferring packets within the LAN and between the LAN and the Internet. The configuration management server 6 has an Internet connection device 7 such as an ADSL modem, a cable modem, or an ONU (Optical Network Unit) according to the type of line (phone line, CATV line, optical fiber line, etc.) for connecting to the Internet. Are connected by the communication cable Ls and the Internet connection device 7 is interposed, so that the center device S and the controller master unit 1 described later can perform data communication via the Internet. However, since the configuration management server 6 and the Internet connection device 7 can be realized using a conventionally known technique, detailed illustration and description of the configuration are omitted.

  The center device S has a function for verifying whether or not a user who wants to control the devices 4 and 5 in the home by the communication terminal 9 via the Internet is a legitimate user, and is configured with the communication terminal 9 of the legitimate user. It has a function to mediate data communication with the management server 6 and the controller base unit 1. For example, the center device S is accessed via the Internet from a communication terminal 9 such as a mobile phone or a laptop computer having an Internet connection function. A control request can be given (requested) to the controller base unit 1 in the home via the device S and a response (response) to the control request can be received. However, since the center device S and the communication terminal 9 having such a function are conventionally known, detailed illustration and description thereof will be omitted.

  The controller base unit 1 performs wireless communication using a radio wave as a medium, and a base unit control unit 10 composed of a microcomputer and a LAN interface (I / F) unit 11 connected to the configuration management server 6 via a communication cable Ls. A wireless communication unit 12 and a memory unit 13 composed of a rewritable nonvolatile semiconductor memory such as an EEPROM are provided. Although not shown, a power supply circuit for creating a desired DC power supply from a commercial power supply and supplying operation power to each unit is also provided.

  The LAN interface unit 11 conforms to Fast Ethernet (registered trademark) such as 100BASE-TX standardized as, for example, IEEE 802.3u, and converts the data received from the base unit control unit 10 into an Ethernet (registered trademark) packet. It has a function of converting and transmitting it via the communication cable Ls, and converting an Ethernet (registered trademark) packet received via the communication cable Ls into original data and passing it to the parent device control unit 10. Further, the base unit control unit 10 realizes various functions to be described later by executing a program stored in the memory unit 13. The radio communication unit 12 performs radio communication using radio waves as a medium in accordance with the “specified low power radio station” defined in Article 6 of the Radio Law Enforcement Regulations.

  On the other hand, the controller slave unit 3 includes a slave unit control unit 30 composed of a microcomputer, a wireless communication unit 31 that performs wireless communication between the wireless communication unit 12 of the controller master unit 1, and the unification of the Japan Electrical Manufacturers' Association (JEMA). The device 5 includes an HA interface (I / F) unit 32 that interfaces a device (such as an air conditioner or a water heater) 5 that conforms to the standard and the child device control unit 30, and a rewritable nonvolatile semiconductor memory such as an EEPROM. And a memory unit 33 for storing control information such as an operation state. Although not shown, a power supply circuit for creating a desired DC power supply from a commercial power supply and supplying operation power to each unit is also provided.

  The other controller slave unit 2 includes a slave unit control unit 20 formed of a microcomputer, a wireless communication unit 21 that performs wireless communication between the wireless communication unit 12 of the controller master unit 1, and infrared rays transmitted to the device 4 to be controlled. And an infrared communication unit 22 that receives an infrared signal transmitted from an infrared remote controller (not shown) attached to the device 4 and a rewritable nonvolatile semiconductor memory such as an EEPROM. And a memory unit 23 for storing a control code corresponding to the above. Although not shown, a power supply circuit for creating a desired DC power supply from a commercial power supply and supplying operation power to each unit is also provided.

  The device 4 to be controlled by the controller slave unit 2 is a control signal (infrared signal) transmitted from an infrared remote controller attached to the device, such as an air conditioner (air conditioner) or a remote control type lighting device. ) Can control the operation state (running / stopping, lighting / extinguishing, etc.). However, since the content (control code) of the control signal differs depending on the manufacturer and type of the device 4, a control code corresponding to each device 4 is stored in the memory unit 23 of the controller slave unit 2 in advance. If the control code corresponding to the device 4 to be controlled is stored in the memory unit 23 of the controller slave unit 2 in this way, the control signal transmitted from the controller master unit 1 to the controller slave unit 2 is controlled as will be described later. Since it is not necessary to include a code and the control signal can be simplified as compared with the case where a control code is transmitted, even if the wireless communication performed between the controller master unit 1 and the controller slave unit 2 is low speed, the device 4 The operating state can be controlled immediately.

  Here, as a method of storing the control code for each device 4 in the memory unit 23, various types of control codes corresponding to devices that may be used are stored in the memory unit 23 at the stage of manufacturing the controller slave unit 2. In addition to the method of storing (the first method), the control target is actually selected from the various control codes stored in advance (for example, at the manufacturing stage) in the memory unit 13 of the controller base unit 1. A method of transferring a control code corresponding to the device 4 to the controller slave unit 2 and storing it in the memory unit 23 (second method), or various types of control downloaded from the center device S to the controller master unit 1 via the network A method of transferring a control code corresponding to the device 4 to be actually controlled from the codes to the controller slave unit 2 and storing it in the memory unit 23 (third method), or A control signal (infrared signal) transmitted by an infrared remote controller attached to the device 4 to be controlled is received by the infrared communication unit 22, and the received control signal is analyzed by the slave unit control unit 20 to obtain a control code. In addition, there is a method (fourth method) for storing the acquired control code in the memory unit 23. Since the fourth method is generally known as a learning function of an infrared remote controller, a detailed description thereof will be omitted. According to the third and fourth methods, there is an advantage that a variety of devices can be added to the control target and the usability is improved.

  The base unit control unit 10 of the controller base unit 1 has a control request transmission function and an information providing function. The control request transmission function refers to the device information stored in the memory unit 13 and identifies the identification information of the controller slave units 2 and 3 that control the devices 4 and 5 that are the target of the control request (in the slave units 2 and 3). A unique number <child device number>, etc.), the acquired child device number is set as a destination address, and a control request received from the communication terminals 8 and 9 via the network is transmitted to the wireless communication unit 12. is there. The information providing function is a function (web server function) that creates a web page that discloses device information and identification information stored in the memory unit 13 and provides the web page to the communication terminals 8 and 9 via the network. For example, as shown in FIG. 2 (b), create a web page WP1 that is grouped in places (living rooms, bedrooms, children's rooms) where devices 4 and 5 are installed, and click the link for each group (installation location). Then, it is hierarchized so as to link to the web page WP2 (see FIG. 2C) that collectively displays the names and operation states of the devices 4 and 5 belonging to the group (for example, the living room), or FIG. As shown in d), a web page WP3 is created and stored in the memory unit 13 for grouping at the installation locations (first and second floors) of the devices 4 and 5 and displaying the group in a lump. In response to a request from the terminals 8 and 9, the web page WPn (n = 1, 2, 3) stored in the memory unit 13 is appropriately read out and transmitted to the communication terminals 8 and 9 via the network.

  Next, with reference to FIG. 3A, an operation in the case where the home device 4 is controlled from the communication terminals 8 and 9 will be described.

  First, in the communication terminal 8 (or 9), for example, when the link of the operation state of the device (the device 4 to be controlled by the controller slave unit 2) displayed on the web page WP2 or WP3 is clicked, In the case of the communication terminal 8, the communication terminal 8 is connected to the controller master unit 1 only through the configuration management server 6, and in the case of the communication terminal 9 outside the house, via the center device S, the Internet connection device 7, and the configuration management server 6. A control request is transmitted from (or 9) (S1). In the controller base unit 1, the base unit control unit 10 refers to the device information of the device 4 stored in the memory unit 13, and determines the slave unit number of the controller slave unit 2 that controls the device 4 that is the target of the control request. As a destination address, a radio signal having the control request (a request for reversing the operation state of the device 4 or requesting the device operation state to be a specified operation state <eg, lighting or extinguishing>) from the wireless communication unit 12 Transmit (S2). In the controller slave unit 2 that has received the control request, the slave unit control unit 20 reads out the control code corresponding to the control request from the control codes stored in the memory unit 23, and the infrared communication unit 22 performs the control. A code control signal (infrared signal) is transmitted (S3). In the device 4 that has received the control signal, the operation state is inverted or becomes a specified operation state in accordance with the received control signal (control code). Here, infrared communication is easily affected by noise, and it is difficult for a user who operates the communication terminal 9 outside the home to check the operation state of the device 4 in particular. It is desirable to reliably control the operation state of the device 4 by transmitting the control signal a plurality of times. However, when the control signal is a control content that reverses the operation state of the devices 4 and 5, the operation state of the devices 4 and 5 is finally switched to an operation state not intended by the user by transmitting a plurality of times. Therefore, it is desirable to transmit only a control signal having a control content that changes the operation state of the devices 4 and 5 to a specified operation state a plurality of times. Although it is possible to include a control code in the control request transmitted from the controller master unit 1 to the controller slave unit 2, the control code is stored in the memory unit 23 of the controller slave unit 2 as described above. Since the control request can be simplified by not including the control code in the control request transmitted from the controller base unit 1, even if the wireless communication performed between the controller base unit 1 and the controller slave unit 2 is low speed The operating state of the device 4 can be immediately controlled.

  Next, with reference to FIG. 3B, an operation in the case where the home device 5 is controlled from the communication terminals 8 and 9 will be described.

  In the communication terminal 8 (or 9), for example, when the link of the operation state of the device (the device 5 to be controlled by the controller slave unit 3) displayed on the web page WP2 or WP3 is clicked, the communication terminal in the house In the case of 8, the communication terminal 8 (or in the controller master unit 1) via the configuration management server 6 only, and in the case of the communication terminal 9 outside the home via the center device S, the Internet connection device 7, and the configuration management server 6 A control request is transmitted from 9) (S1). In the controller base unit 1, the base unit control unit 10 refers to the device information of the device 5 stored in the memory unit 13, and sets the slave unit number of the controller slave unit 3 that controls the device 5 that is the target of the control request. As a destination address, a wireless signal having the control request (a request for setting the operation state of the device 5 as a specified operation state <for example, operation or stop>) as data is transmitted from the wireless communication unit 12 (S2). Upon receiving the control request, the controller slave unit 3 gives a control command for controlling the device 5 to the HA interface unit 32, and a control signal is output from the HA interface unit 32 to the device 5 via the signal line. The operating state of the device 5 is changed (S3). From the device 5 whose operating state has been changed, the changed operating state is returned as a control result to the controller slave unit 3 (S4). Then, the controller slave unit 3 that has received the control result from the device 5 returns the control result to the controller master unit 1 by wireless communication (S5). In the controller master unit 1, the master unit control unit 10 receives the received control. Based on the result, the operation state of the device 5 on the web page WP2 is rewritten and returned to the requesting communication terminal 8 (or 9) (S6). As a result, it can be confirmed that the operation state of the device 5 has been changed as requested by the web page WP2 displayed on the screen of the communication terminal 8 (or 9).

  In a situation where the controller master unit 1 is installed on the first floor of a detached house and the controller slave units 2 and 3 are installed on the second floor, radio waves may be greatly attenuated and wireless communication may become impossible. . Therefore, in such a situation, it is desirable to add a wireless repeater (not shown) that relays the wireless signal transmitted from the controller master unit 1 to the controller slave units 2 and 3 to the system. By adding a wireless relay device, there is an advantage that usability is improved because the degree of freedom of the installation location of the controller master device 1 and the controller slave devices 2 and 3 is increased. However, a wireless repeater that relays a radio signal using radio waves as a medium can be realized by a well-known technique, and thus detailed illustration and description of the configuration and operation are omitted.

  By the way, in the present embodiment, the controller slave unit 2 is provided with an operation input receiving unit 24 that receives a user's operation input and passes it to the slave unit control unit 20. As shown in FIG. 4, the operation input receiving unit 24 includes a plurality of (seven in the illustrated example) push button switches SW <b> 1 to SW <b> 7 disposed on the front surface of the controller slave unit 2. Note that these push button switches SW1 to SW7 are illuminated, and a built-in light source (light emitting diode) blinks in response to an instruction from the handset controller 20.

  As shown in FIG. 4, the three push button switches SW1 to SW3 arranged in a line in the horizontal direction are used to connect the device 4 that transmits a control signal (in the illustrated example, one of the air conditioner or two lighting fixtures). For example, when the pushbutton switch SW1 is pressed, “air conditioner” is selected as the control signal transmission destination (control target) device 4. On the other hand, the four push button switches SW4 to SW7 arranged in a line in the vertical direction are for selecting different control contents. For example, if the device 4 is “air conditioner”, the pushbutton switch SW4 corresponds to the reversal of the operation state (switching between operation and stop), the pushbutton switch SW5 corresponds to the switching of the operation mode to “cooling”, and the pushbutton switch SW6 corresponds to the switching of the operation mode to “heating”, and the push button switch SW7 corresponds to the change to the specified operation state (stop). If the device 4 is a lighting fixture, the pushbutton switch SW4 corresponds to the reversal of the operating state (switching between lighting and extinguishing), and the pushbutton switch SW5 is set to “all lighting” (dimming level 100%) of the dimming level. The push button switch SW6 corresponds to switching the dimming level to a preset dimming level, and the push button switch SW7 corresponds to changing to a specified operating state (lights off).

  Here, a device 4 that is relatively easy to determine the operating state (lighting / extinguishing), such as a lighting fixture, and a device that is relatively difficult to determine the operating state (control / stop), such as an air conditioner. 4, and if the control signal of the control content that reverses the operation state is transmitted to the latter device 4, the operation state may be switched to the operation state opposite to the intention of the operator (user). is there. On the other hand, for the former device 4, the operation state (lighting / extinguishing) can be switched by one push button switch SW7, so that the types of control contents can be increased without increasing the number of push button switches. Therefore, in the present embodiment, for each device selected by the three pushbutton switches SW1 to SW3, only one of the two pushbutton switches SW4 and SW7 can be set to be determined to be valid by the slave unit control unit 20. Yes. For example, as shown in FIG. 4, when the device 4 is an air conditioner, only the push button switch SW7 is set to be valid, and when the device 4 is a lighting fixture, only the push button switch SW4 is set to be valid. It is stored in the memory unit 23 of the slave unit 2. This setting can be performed using the pushbutton switches SW1 to SW7, or can be performed using a setting switch provided separately, but any method is conventionally known. Detailed description is omitted because it can be realized by using the above technique.

  Thus, in the case of stopping the air conditioner, if the push button switch SW7 is pressed after the push button switch SW1 is pressed to select the air conditioner, the operation input of the push button switch SW7 received by the operation input receiving unit 24 is performed. Accordingly, the cordless handset control unit 20 reads out a control code for stopping the air conditioner from the memory unit 23 and transmits the read control code (control signal) from the infrared communication unit 22 to stop the air conditioner.

  By the way, the controller slave unit 2 must be installed in a place where infrared communication can be performed with all the devices 4 to be controlled. For this reason, in this embodiment, the signal strength of the infrared signal transmitted from the infrared communication unit 22 during the manual control by the pushbutton switches SW1 to SW4 is remotely controlled in response to a control request from the communication terminals 8 and 9. For example, when the signal strength of the latter is 100%, the former signal strength is set to 80%. Therefore, if the controller slave unit 2 is installed at a position where all the devices 4 to be controlled can be controlled by manual control, a control signal (infrared ray) is used for remote control in response to a control request from the communication terminals 8 and 9. The probability of occurrence of a situation where the signal does not reach the device 4 can be reduced.

  In this embodiment, a system configuration in which one controller master unit 1 is provided with two types of controller slave units 2 and 3 is illustrated. However, the present invention is not limited to this, and one to a plurality of units are provided. The system configuration may include any one or more of the controller master unit 1 and at least one of the controller slave units 2 or 3.

It is a system configuration figure showing an embodiment of the present invention. It is explanatory drawing of the web page displayed on the screen of the communication terminal same as the above. (A) and (b) are time charts for explaining the operation. It is the front view which a part of controller slave unit same as the above omitted.

Explanation of symbols

1 Controller master unit 2, 3 Controller slave unit 4, 5 Device 8, 9 Communication terminal 12, 21, 31 Wireless communication unit

Claims (8)

A controller that controls one or more devices installed in a home and a communication terminal that accesses the controller through a network and gives a control request for the devices, and the controller has a wireless communication function and controls the operation state of the devices. One or more controller slave units that output a control signal to the device and a wireless communication function, and control the device that is the target of the control request given from the communication terminal via the network The controller slave unit includes a control signal transmission unit that transmits a control signal to a device to be controlled by wireless communication using infrared as a medium, and a control unit. Control means for generating a control signal corresponding to the request and transmitting it from the control signal transmission means, and operation input An operation input receiving means for receiving, and a manual control means for generating a control signal corresponding to an operation input received by the operation input receiving means and transmitting the control signal from the control signal transmitting means. The control signal transmitting means is generated by the control means. remote control system for relative signal strength at the time of transmitting a control signal, wherein the weak to Rukoto the signal strength at the time of transmitting a control signal to manual control means is generated. The controller slave unit includes a storage unit that stores a control code set in advance for each device to be controlled. The control unit reads a control code corresponding to a control request received from the controller parent unit from the storage unit and 2. The remote control system according to claim 1, wherein a control signal is generated in accordance with the control code . The controller slave unit includes a learning unit that receives an infrared signal transmitted from an infrared remote controller attached to a device to be controlled and learns a control code set in the device, and receives the control code learned by the learning unit. The remote control system according to claim 2, wherein the remote control system is stored in the storage unit . The controller master unit transfers the control code acquired via the network to the controller slave unit by wireless communication, and the controller slave unit stores the control code received from the controller master unit in a storage unit. Item 3. The remote control system according to Item 2 . The controller master unit is stored in the information storage unit and the information storage unit for storing the device information for specifying the control target device controlled by each controller slave unit and the identification information for identifying the controller slave unit in association with each other. remote claimed in any one of claims 1-4, characterized by comprising an information providing means for providing the communication terminal via a network by creating a web page that discloses the device information and identification information are Control system. Controller, remote control system according to any one of claims 1-5, characterized in that it comprises a radio repeater for relaying radio signals transmitted from the controller base unit to the controller handset. The controller slave unit includes a control signal transmission unit that transmits a control signal to a device to be controlled through a communication line, and a control unit that generates a control signal corresponding to the control request and transmits the control signal from the control signal transmission unit. The remote control system according to any one of claims 1 to 6, wherein: The information storage means stores at least a device name indicating the type of each device as device information and the installation location in the home where the device is installed, and the information providing means stores the device information of each device for each device name and installation location. 6. The remote control system according to claim 5, wherein a web page to be displayed in a group is created .

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