KR20140076896A - Apparatus and method for remote controlling for both on-line and off-line - Google Patents

Abstract

Disclosed is a remote control apparatus of an on-line and an off-line, which is capable of remotely controlling an arbitrary external apparatus by using a user terminal on-line or allowing a user to directly control the arbitrary external apparatus off-line. A data transmitting unit periodically transmits control data measured by at least one sensor electrically connected to an arbitrary external apparatus to a first server at a predetermined period. A control unit receives a control command for the control data from the user terminal to control the external apparatus based on the control data transmitted to the first server. In this case, the user terminal is connected to the first server through wire/wireless communications to receive the control data from the first server and transmits the control command for the control data to the first server after monitoring the control data for the arbitrary external apparatus. According to the present invention, a current situation such as a power usage situation can be monitored in real time by using the user terminal (for example, a smart phone, a smart pad, a computer, etc.) to be remotely controlled.

Description

[0001] The present invention relates to an on-line / off-line remote control device and a remote control device for both on-line and off-

The present invention relates to an on-line / off-line remote control apparatus and method, and more particularly, to an on-line / off-line remote control apparatus and method in which a server and a remote control apparatus share mutual control data.

An embedded system is a system with a specific purpose that is equipped with a microprocessor that serves as a computing system for a specific device. It does not read software (operating system) that operates the device from a disk like a computer, ) Devices. These embedded systems must reflect the physical characteristics such as real-time processing and low power, concurrent design of hardware and software, and limited use of resources. Therefore, it is necessary to construct a development system that satisfies these characteristics throughout system development.

In recent years, the "Embedded, Everywhere" era in which embedded systems are extended to all industries such as digital information appliances, medical, aviation, and military has been coming in line with wired / wireless communication networks. In order to connect to the Internet, It connects and connects with IP and sends and receives data. However, as the functions become diversified, the specifications of the embedded are getting bigger and the program is getting bigger.

Therefore, in order to reduce the capacity of the device while expanding the performance, the device may use another server configured for the cloud based on processing and storing the data with a minimum amount of capacity to transmit and receive data. In addition, since the device is connected to the server configured as a client-based rather than the server-based, the address of the basic server is fixed and the client-based device automatically tries to connect, so even if the IP of the device is changed, You do not need to know. The device periodically transmits its own information and sensing data to the set server and operates by receiving new setting data as feedback.

In addition, existing server method has difficulty because various setting is required to access the network. In order to use multiple devices in one place, it is necessary to secure a large number of fixed IPs, but a method of using a large number of internal IPs by installing a router in one external IP is mainly used. However, in order to connect to a server-based device from an external remote PC, you must configure port forwarding on the IP router. If the embedded device is directly connected to a DHCP-based cable modem, DSL modem, or PPoE modem, The IP address is changed every time an attempt is made to connect to the communication company server), the user can not know the changed IP address and can register the changed IP address by registering with the specific company's DDNS server to know the IP address of the device, There will be blank spaces.

However, if client-based method is automatically connected to the configured server and the user connects the device indirectly through the configured server, even if the IP of the device changes, the device automatically connects to the server. none. And it can not be hacked because it can not connect directly to the device. The display on the instrument panel can also be minimized, and the status information can be viewed in real-time on a networked PC or smart phone and controlled remotely.

In particular, Korean Patent Laid-Open Publication No. 2011-0125521 discloses a method and system for remotely controlling a computer power using a mobile phone, wherein the on / And a method and system for controlling the system.

In addition, Korean Patent Laid-Open Publication No. 2011-0103124 (a name of the invention: an illumination control remote control device using an external portable device) discloses a remote control device capable of performing lighting control of a specific place using an external portable device.

An aspect of the present invention is to provide a remote control method and apparatus capable of directly controlling offline by allowing Ethernet communication to a general switch and remotely controlling the same through an online user terminal.

According to another aspect of the present invention, there is provided a program for allowing a computer to execute a remote control method capable of direct-line direct control by enabling Ethernet communication to a general switch, And a computer readable recording medium recorded thereon.

According to another aspect of the present invention, there is provided a remote control apparatus for controlling an arbitrary external apparatus remotely using a user terminal on-line by a user or controlling the arbitrary external apparatus directly off- The remote control apparatus according to claim 1, further comprising: a data transmission unit that periodically transmits control data measured by at least one sensor electrically connected to the external device to the first server at predetermined intervals; And a control unit for receiving a control command for the control data from the user terminal based on the control data transmitted to the first server and controlling the external apparatus, 1 server, receives the control data from the first server, monitors the control data for the external device, and transmits a control command for the control data to the first server.

According to another aspect of the present invention, there is provided a remote control method for controlling an arbitrary external device remotely using a user terminal on-line by a user or controlling the arbitrary external device directly off- (A) controlling data measured from at least one sensor electrically connected to the arbitrary external device at intervals of a predetermined time interval, the method comprising the steps of: (a) A data transfer step of transferring the data to the server; (b) controlling the external device by receiving a control command for the control data from the user terminal based on the control data transmitted to the first server, And receives control data from the first server, monitors control data for the external device, and transmits a control command for the control data to the first server .

According to another aspect of the present invention, there is provided a computer readable medium storing a program for causing a computer to execute any one of the above methods.

According to the remote control method and apparatus of the present invention, since the Ethernet communication is made possible with the general switch, it is possible to perform direct offline control and remotely control through the online user terminal.

FIG. 1 illustrates an overall system for implementing a remote control apparatus according to the present invention.
2 is a block diagram showing the configuration of a remote control apparatus according to the present invention;
3 is a schematic view of the structure of a remote control apparatus according to the present invention,
FIG. 4 is a diagram illustrating an external device in a whole system implementing a remote control device according to an embodiment of the present invention,
5 is a view showing a remote control device according to an embodiment of the present invention applied to LED lighting control,
6 is a view showing a state in which a user terminal and a remote control device are synchronized with each other,
FIG. 7 is a flowchart illustrating a communication and data processing between a remote control apparatus and a server according to the present invention;
8 to 9 are views showing data sharing between a remote control device and a server according to the present invention;
10 is a view illustrating a memory synchronization between a remote control device and a server according to the present invention.
FIGS. 11A and 11B are diagrams showing a remote control device and a server communication diagram according to the present invention;
12 to 13 are diagrams showing a state in which a user server is added to a basic server,
14 is a diagram illustrating a viewer implemented on a user terminal for exchanging control data with a remote control apparatus according to the present invention.

Hereinafter, preferred embodiments of a remote control apparatus and method according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram illustrating an overall system for implementing a remote control apparatus 100 according to the present invention. 1, a user accesses a server 110 via the Internet using a user terminal (for example, a smart phone, a smart pad, or a computer) 120, The server 110 sends control information when it is periodically connected to the remote control apparatus 100. [ The remote control apparatus 100 controls the input / output based on the control information sent from the server 110 and transmits the resultant value to the server 110 again. The server 110 may store the status information of the remote control apparatus 100 in a memory or a database server (not shown). The user can control the external device while monitoring the information of the remote control device 100 stored in the server 110 on the internet through the user terminal 120 in real time. Therefore, the remote control apparatus 100 according to the present invention can be applied to an outlet provided with a switch.

That is, the remote control apparatus 100 according to the present invention can be installed in a desired place (for example, a home or a company office) using a user terminal (for example, a smart phone, a smart pad, (Eg, refrigerator, heater, lighting, etc.) in real time and remotely controlled. Specifically, as shown in FIG. 3, the electric usage status is measured in real time through a current sensor, an illuminance sensor, a temperature sensor, etc., and the load is controlled by an output switch. And receives a control signal from the server 110 to control the output. Furthermore, the remote control device 100 according to the present invention can operate in a cloud-based manner, so that it is easy to install and use and is easy to expand.

In an implementation, a user may connect to a particular server 110 via a user terminal 120. At this time, the address of the connected server 110 may be www.netserver.co.kr. After connecting to the server 110, the user can monitor the current usage status of a specific external device desired by the user through the user terminal 120. As a result of monitoring, it is possible to have an effect of controlling a specific external device in an actual off-line by inputting a desired control command through a user terminal 120 in the form of a touch or the like.

Hereinafter, a case in which the remote control apparatus 100 according to the present invention is utilized from the viewpoint of power use will be described in order to facilitate understanding. For example, electricity supplied to a factory, building, or house can be classified as either mandatory or optional. Essential power sources such as refrigerators, computer servers, etc., which should not be out of power, should be supplied with electricity at all times. On the other hand, an optional power source such as an air conditioner, a fan, and a heater can be turned off for a short period of time. There is also a regulated power supply that can be used with dimming functions like lighting. Therefore, from the point of view of power use, the power can be divided into essential power, selective power and regulated power, the essential power is always supplied with electric power, and the selective power and the regulated power can be selectively cut off and adjusted according to the load amount. Therefore, in this case, the power use can be selectively controlled using the remote control apparatus 100 according to the present invention.

2 is a block diagram showing a configuration of a remote control apparatus 100 according to the present invention. Referring to FIG. 2, the remote control apparatus 100 according to the present invention includes a data transmission unit 210 and a control unit 220. The data transmission unit 210 periodically transmits control data measured from any external device electrically connected to the remote control device 100 to the server 110 at a predetermined interval (for example, a period of two seconds). At this time, the data transmission unit 210 continuously transmits the control data to the server 110 irrespective of whether or not there is a control data monitoring request from the user terminal 120.

The server 110 having received the control data is connected to the user terminal 120 through wire / wireless communication. When the user terminal 120 requests the control data monitoring for a specific external device, the server 110 provides corresponding control data . The control data provided from the server 110 can be monitored through a viewer on the display unit of the user terminal 120 (see FIG. 14), and the user can input a control command for control data of a specific external device. The server 110 receiving the control command input from the user terminal 120 transmits the corresponding control command at the instant of periodic connection with the remote control apparatus 100 and transmits the control command to the control unit 100 of the remote control apparatus 100 220 controls the external device based on the received control command.

When a monitoring request for control data of a specific external device is input from the user terminal 120 to the server 110, the server 110 separately stores a monitoring request command, and is connected to the data transmission unit 210, And transmits the control data to the user terminal 120 upon receiving the control data of the external device.

The external device is electrically connected to the remote control device 100 according to the present invention. Specifically, the external device may be an air conditioner, a heater, or a regulated power source classified as a power source, but is not limited thereto, such as a refrigerator or a computer server classified as an essential power source as shown in FIG. In this case, when there are two ports of the remote control apparatus 100, there may be two external apparatuses, and a plurality of remote control apparatuses 100 may exist to connect the other external apparatuses.

At this time, the user terminal 120 should be synchronized with the remote control apparatus 100 according to the present invention. Referring to FIG. 6, the information displayed on the screen of the user terminal 120 through the Internet and the information on the power consumption of each external device, which is confirmed by the remote control device 110, must match each other in real time.

That is, the controller 220 controls the power consumption of one or more external devices electrically connected to the remote controller 100, while maintaining the amount of power required for the essential power as it is, And the usage amount is controlled through the temperature sensor and the illuminance sensor. In particular, when the remote controller 100 is applied to the LED lighting control as shown in FIG. 5, the brightness of the illumination can be adjusted by outputting a dimming signal for adjusting the brightness of the illumination due to the characteristics of the illumination. At this time, basically, the user receives commands of the user from the user terminal 120, and more specifically, controls the power consumption of each external device. However, depending on the case, The power can be set to be cut off.

In particular, the maximum current is the amount of current that should not exceed the instantaneous current due to the agreement with the electricity supplier. Therefore, if electricity is used in excess of the maximum current, the cost of overuse will be incurred, resulting in an increase in the electricity bill. Therefore, if the current used exceeds the preset maximum current, it is possible to temporarily shut off the selected power source such as an air conditioner or a heater or to dim the lighting to control the overall power by lowering the illuminance.

For example, if there is a power usage target set value as shown in Table 1 below, power consumption can be managed as follows using the remote control device 100 according to the present invention.

Use Goals Set power (month) 300 KW Set maximum current 2.5 A Required amount of electricity 220 W

Assuming that the set power is 300 KW per month, it is possible to use 10 KW per day by calculating 30 days per month, which is 417 W per hour. With 417 W per hour, the average supply current is 1.9 A because the commercial voltage is 220 V. If the required wattage is 220 W, 220 W x 24 H x 30 D = 158.4 KW a month. Therefore, subtracting the required power amount of 158.4 KW from the set target amount of 300 KW, the selected power and the adjusted power amount become 141.6 KW. That is, since the selected power and the adjusted power are 141.6 KW, it is possible to consume 197 W per hour by calculating 141.6 KW / 30 days / 24 hours.

As mentioned above, the required power amount means electricity that should not be turned off for a while, such as a refrigerator or a computer server. Therefore, in order to manage electricity usage, it is necessary to temporarily shut off the selected power source such as an air conditioner or a heater or to dim the lighting to lower the illuminance, thereby managing the total amount of electricity. Peak currents can temporarily shut off the selected electricity if it exceeds a certain time.

If the user inputs a button inhibition value for prohibiting the buttons provided in the remote control apparatus 100 to the setting database of the server 110, the remote control apparatus 100 receives the prohibition data of the setting data, So as to stop the button function of the remote control device 100. Therefore, the remote control apparatus 100 stops using the offline off button.

When the output part is automatically set in the output control, the user terminal 120 of the user compares the real time data value inputted from the sensor in the remote control device 100 with the upper limit value and the lower limit value of the set value of the sensor, The output can be controlled. The output control can be divided into automatic / manual control. Manual control can be used to turn on / off the output remotely. Automatic can set the upper limit value and the lower limit value in the memory and compare the sensor value input from the remote control device 100 to automatically control the output. When the user selects automatic or manual output ports in the setting database of the server, the automatic / manual program of the remote control apparatus 100 is executed.

For each remote control device 100, various data can be processed and a viewer can be created in the server 110 by inputting a product number, a product type, a controlling device name, a management group name, an administrator,

Referring to FIG. 7, the server 110 receives information of the remote control device 100 from the remote control device 100, checks whether the remote control device 100 information exists in the server database, and newly registers the information if it is not present. At this time, the user inputs product information and other setting values for the external apparatus. On the other hand, if the remote control device 100 information exists in the server database, the setting information is retrieved from the server database to transmit the setting information to the remote control device 100, and the remote control device 100 can store the information.

8 to 9, when the server 110 transmits the product number, button information, sensing value, and output status of the external device from the remote control device 100, the remote control device 100 transmits the product number, The button information, the output data, and the setting information. In this case, the product number refers to a number unique to the external device stored in the remote control device 100, and the button information includes status information about whether the button for controlling power use of the external device is on / off, ≪ / RTI > In addition, the sensing value means a sensor value acquired from an external device, and the setting information means a condition value of an output linked with the input / output control data, the transmission period, and the sensing value. Furthermore, if data is not received from the remote control apparatus 100 after the transmission period has elapsed, the server 110 informs that the communication is disrupted and informs the set user of the communication disconnection situation (refer to FIG. 14). 10, when the status information of the remote control apparatus 100 is transmitted to the server 110, the server 110 transmits the transmission data of the remote control apparatus 100 to the remote control apparatus 100 The control information is stored in the server database or memory. Then, the server 110 transmits information of the remote control device 100 newly stored in the server database or the memory to the remote control device 100. Then, the user can know the power consumption of each external device through the status information viewer transmitted from the remote control device 100 and input the corresponding control information. 11A to 11B, detailed contents of communication between the remote control apparatus 100, the server 110, and the user terminal 120 according to the present invention are shown.

 At this time, when the amount of data stored in the server 110 exceeds the capacity, or a separate server can be used at the request of the user. 12 to 13, in addition to the basic servers (servers 1 and 111), user servers (servers 2 and 112) may be additionally used. In this case, when the remote control apparatus 100 is booted, the remote control apparatus 100 accesses the server 1 111, which is basically set in the remote control apparatus 100, and receives the address of the server 2 112. Then, by exchanging data with the address of the server 2 (112) stored in the memory, the server 2 (112) can perform the remote control method described above. The server 2 (112) is set by the user, and the server 1 (111) is fixed. When the user connects to the primary server (server 1, 111) and inputs a new web site to the user server (server 2, 112) of the remote control apparatus 100, when the remote control apparatus 100 is booted, 1, 111), receives the user setting value, and transmits the data of the remote control device 100 to the user server (server 2, 112) at the set time interval and receives the new setting value.

The remote control apparatus 100 according to the present invention is free from the designing method in comparison with the existing system and further can be used by further adding the remote control apparatus 100 when the control of the external apparatus is required. Since a separate server 110 is operated, it is easy to change the program, and it is easy to install because it is connected to the server 110 automatically. Also, since a plurality of external devices can be connected and controlled according to the number of ports of the remote control device 110, it is possible to integrally manage various devices and indirectly connect through the set server 110, You do not need to know IP. In addition, since the device information is received by the server 110, the user does not need to directly connect with the device, and hacking is blocked. This allows the server 110 and the device to share information in real time, minimizing data loss and delivering the situation immediately in the event of an emergency, thereby allowing the user to monitor.

In the above description, terms such as 'first', 'second', and the like are used to describe various components, but each component should not be limited by these terms. That is, the terms 'first', 'second', and the like are used for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a 'first component' may be referred to as a 'second component', and similarly, a 'second component' may also be referred to as a 'first component' . Also, the term " and / or " is used in the sense of including any combination of a plurality of related listed items or any of the plurality of related listed items.

The present invention can also be embodied as computer-readable codes on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like, and a carrier wave (transmission via the Internet). In addition, the computer-readable recording medium may be distributed to a computer system connected to a wired / wireless communication network, and a computer-readable code may be stored and executed in a distributed manner.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the embodiment in which said invention is directed. It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

100: remote control device 110: server
210: data transferring unit 220:

Claims (11)

An on-line / off-line remote control device capable of controlling an arbitrary external device remotely using a user terminal by a user on-line or controlling the arbitrary external device directly in offline by the user,
A data transmission unit that periodically transmits control data measured from one or more sensors electrically connected to the external device to the first server at predetermined intervals;
And a control unit receiving the control command for the control data from the user terminal based on the control data transmitted to the first server and controlling the external apparatus,
The user terminal is connected to the first server through wired / wireless communication, receives the control data from the first server, monitors the control data for the arbitrary external device, and transmits the control data to the first server And transmits the control command to the remote controller. The method according to claim 1,
Wherein the first server stores the monitoring request when the monitoring request for the control data is input from the user terminal and transmits the control data to the user terminal upon receiving the control data from the data transmitting unit Remote control device. 3. The method according to claim 1 or 2,
Wherein the control unit sets the external device to be unable to directly control the external device directly in the offline mode by the user. 3. The method according to claim 1 or 2,
The remote control device is connected to the first server, which is a basic server, via wired / wireless communication during initial booting. When the remote control device reads the address of the second server from the first server and sets the second server as a user server, And the control device transmits / receives control data using the second server. 3. The method according to claim 1 or 2,
Wherein the sensor is any one of a current sensor, an illuminance sensor, and a temperature sensor. A remote control method performed by an on-line / off-line remote control device capable of controlling an arbitrary external device remotely by a user using a user terminal on-line or controlling the arbitrary external device directly in offline by the user In this case,
(a) a data transmission step of periodically transmitting control data measured from at least one sensor electrically connected to the external device to the first server at predetermined intervals;
(b) a control step of receiving a control command for the control data from the user terminal based on the control data transmitted to the first server, and controlling the external device,
The user terminal is connected to the first server through wired / wireless communication, receives the control data from the first server, monitors the control data for the arbitrary external device, and transmits the control data to the first server And the control command for the remote control is transmitted. The method according to claim 6,
Wherein the first server stores the monitoring request when the monitoring request for the control data is input from the user terminal and transmits the control data to the user terminal upon receiving the control data from the data transmitting unit Remote control method. 8. The method according to claim 6 or 7,
Wherein the step (b) is set so that the external device can not be controlled directly by the user in an off-line manner. 8. The method according to claim 6 or 7,
The remote control device is connected to the first server, which is a basic server, via wired / wireless communication during initial booting. When the remote control device reads the address of the second server from the first server and sets the second server as a user server, And the control device transmits / receives control data using the second server. 8. The method according to claim 6 or 7,
Wherein the sensor is any one of a current sensor, an illuminance sensor, and a temperature sensor. A computer-readable recording medium storing a program for causing a computer to execute the remote control method according to any one of claims 6 to 7.

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