KR101850972B1 - Radio Multipath Controlling System for Distributed Optical Display - Google Patents

Abstract

The present invention relates to a multipath control system for a distributed wireless optical display, to control image reproduction and type on an optical display device to collectively transfer a multipath control signal to distributed optical display devices in a predetermined area to implement and control various types of image pixels. According to the present invention, the system comprises: a plurality of optical display devices including a receiver to receive a wireless signal from the outside and a driving module reflecting turn-on/off of a light emitting diode (LED) device according to a signal inputted through the receiver to execute each pixel of a display to be implementable; a controller to receive information to be implemented on the optical display device from a manager and including a wireless transmitter to wirelessly transmit a control signal of a control packet according to an external input signal; and a signal relay receiving the control signal from the controller to relay the control signal to collectively transmit the control signal to the plurality of adjacent optical display devices on a communication line.

Description

[0001] The present invention relates to a multi-path control system for a distributed wireless optical display,

The present invention relates to a multi-path control system of a dispersive wireless optical display, and more particularly, to a multi-path control system for multi-path control systems of distributed optical display devices, To a multi-path control system of a distributed, wireless optical display.

Generally, when a spectator sports a concert such as a famous singer, a soccer game, or a baseball game, a variety of optical display devices such as a support rope and a mobile phone are used to represent a light, a picture, or a character image.

Such an optical display device has a structure in which a user can individually control driving by turning on and off a power source and controls an optical display device only in a manner of a plurality of users individually, There has been a problem in that it is difficult to control to realize a sense of unity.

In order to solve the above problems, Korean Patent Laid-Open Publication No. 56208 (May 27, 2017) related to a control system using an LED support rod as an optical display device displays a symbol using the afterimage effect of an LED A first LED support rod for transmitting display control information to display the symbol; And at least one second LED support rods receiving the transmitted display control information and displaying the symbols according to the received display control information, wherein each of the first LED support rods and the at least one second LED support rods An LED light source unit including a main body formed into a rod shape and an LED array in which a plurality of LEDs are arranged in a bent shape at least in the main body; A sensor unit formed at a lower portion of the LED light source unit for sensing linear motion or rotational motion of the LED light source unit, a communication unit for transmitting and receiving the display control information through wireless communication, And a control unit for controlling the LED light source unit to display a symbol by using the LED light source unit. Accordingly, a support system using an LED support rod capable of displaying a group support in a stable state is known.

However, since the above-mentioned prior art uses only indiscreet short distance communication, there is a technical limitation on the distance of reaching the optical waveguide at the control position toward the optical display device, and there is a problem that communication disturbance is caused due to radio interference due to concentration in a specific frequency band there was.

KR Patent Publication No. 10-2017-0056208 (May 27, 2017).

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a system and method for controlling distributed optical display devices, And a multi-path control system of a distributed wireless optical display capable of realizing an excellent reach distance for signal propagation.

In addition, the present invention provides a distributed wireless optical display capable of maintaining a fast and excellent communication state because two communication devices in divided bands according to transmission / reception of a radio control signal are provided for each physical location so as to realize communication through two bands And to provide a multipath control system.

An optical display control system for controlling whether or not an image is implemented in an optical display device, the optical display control system including a receiver for receiving a wireless signal from the outside, A plurality of optical display devices including a drive module for implementing each pixel of the display in a manner that reflects whether the LED device is turned on according to a signal input through a receiver; A controller having a wireless transmitter for inputting information to be implemented in the optical display device from an administrator and wirelessly transmitting a control signal of a control packet according to an external input signal; And a signal relay for receiving a control signal from the controller and relaying control of the communication line to a plurality of optical display devices in a close vicinity.

The controller includes a first controller configured to transmit a radio control signal to the signal repeater and to transmit a frequency of 900 MHz band from the radio transmitter, and a controller configured to transmit a radio control signal to the signal repeater, And a second controller that is provided to transmit the frequency of the second controller.

The signal repeater includes a first signal repeater for transmitting a control signal to each of the communication lines, the first signal repeater being provided for a frequency operation of 900 MHz from the first controller, and a second signal repeater provided together with the first signal repeater, So as to constitute a second signal repeater for the frequency operation of the 400 MHz band from the second controller.

The controller includes communication verification means for periodically receiving a reply signal for confirming whether or not to respond to a transmission signal from the signal repeater to confirm a communication state.

The signal repeater transmits the control signal received from the controller toward the plurality of optical display devices in the 2.4 GHz band.

According to the multi-path control system of the dispersion-type wireless optical display according to the present invention, since a controller and a signal repeater, which are wireless transmission modules of a control signal directed to the optical display device, are provided for selective communication, It is possible to prevent simultaneous driving and to overcome a communication trouble due to interference of radio waves concentrated on a specific band while eliminating collision with a transmission signal.

In addition, since the multi-path control system of the distributed wireless optical display according to the present invention performs communication between the controller and the signal repeater through the 400 MHz and 900 MHz bands, it is possible to realize an excellent reaching distance compared to the 2.4 GHz band.

In addition, the multipath control system of the distributed wireless optical display according to the present invention periodically receives a reply signal for confirming whether or not a response to the transmission signal of the controller is received from the signal repeater, thereby confirming the communication state. So that it is possible to achieve an excellent driving efficiency due to application of a communication with a better bandwidth.

1 is a conceptual diagram schematically showing an embodiment according to the present invention;
2 is a block diagram schematically illustrating an embodiment according to the present invention;
3 is a block diagram schematically illustrating a controller and a signal repeater in an embodiment according to the present invention;

The present invention relates to an optical display control system for controlling whether or not an image is implemented in an optical display device, the optical display control system including a receiver for receiving a wireless signal from the outside, A plurality of optical display devices having drive modules for implementing each pixel of the display in a manner that can be embodied; A controller having a wireless transmitter for inputting information to be implemented in the optical display device from an administrator and wirelessly transmitting a control signal of a control packet according to an external input signal; And a signal repeater for receiving control signals from the controller and relaying the signals to be transmitted to a plurality of optical display devices in the vicinity by a communication line located close to the periphery of the multi-path control system. .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following will describe in detail the technical construction of a multipath control system of a distributed wireless optical display according to a preferred embodiment of the present invention with reference to the accompanying drawings.

An embodiment of a multipath control system of a distributed radio optical display according to the present invention is an optical display control system for controlling whether or not to implement an image in an optical display device, as shown in Figs. 1 and 2, An optical display device 10 of the present invention, a controller 20, and a signal repeater 30.

In FIG. 1, the optical display device 10 is configured to be optically dispersed and displayed by using a support bar having a round bar shape. However, the optical display device 10 of the present invention is limited thereto But it is also possible to apply various display devices having an optical dispersion function.

The optical display device 10 is configured to turn on / off the power of itself and to operate various functions (for example, lighting, screen color, etc.) available to each user.

The optical display device 10 incorporates therein a receiver 11 so as to receive a radio signal from the outside, that is, the signal repeater 30 in real time.

The optical display device 10 includes a driving module 15 having a plurality of LED elements (not shown) for displaying an image and controlling whether the LED elements are turned on or off.

The driving module 15 reflects whether the LED device is turned on according to a signal input through the receiver 11, thereby implementing each pixel of the display in an embodi- ment.

The controller 20 may be a basic driving mode in which the driving module 15 is configured to perform an individual display operation according to its own on / off operation. When the control signal is received from the receiver 11, So that it is possible to preferentially drive the display operation according to the control signal inputted in the setting operation.

The controller 20 functions to transmit a control signal for the first time so that the driving for the operation of the plurality of optical display devices 10 can be collectively controlled.

The controller 20 has a structure in which information to be implemented in the optical display device 10 can be input from a manager. That is, the controller 20 can be connected to a management PC (not shown) having a separate input device (e.g., a keyboard or a mouse) and a monitor to set control packets according to an external input signal, It is a server equipment capable of short-range communication.

The controller 20 has an interface (not shown) so as to be connected to the server equipment of the management PC. For example, the controller 20 is connected to server equipment of the management PC through interfaces such as ethernet, USB, RS-485, and DMX-512.

The controller 20 is provided with a radio transmitter 25 for transmitting a radio signal, that is, a control signal in accordance with a control packet, to the signal transponder 30.

The wireless transmitter 25 may be configured by applying various wireless communication methods capable of transmitting wireless communication signals, and it is preferable that the wireless communication device is configured using IEEE 802.15.4 and LoRa wireless communication.

The controller 20 is configured to transmit a radio control signal toward the signal repeater 30 and communicate using frequencies of two divided bands.

The controller 20 is configured to have two antennas for 900 MHz and 400 MHz band transmission. 3, the controller 20 includes a first controller (not shown) which transmits a radio control signal toward the signal repeater 30 and is capable of transmitting a frequency of 900 MHz band from the radio transmitter 25 And a second controller 23 that transmits a radio control signal toward the signal repeater 30 and is capable of transmitting a frequency of 400 MHz band from the radio transmitter 25.

The signal repeater 30 performs a function of relaying control signals between the controller 20 and the optical display device 10.

The signal relay (30) is installed for each spatially defined physical location for controlling the optical display device (10), and receives a control signal from the controller (20) (10) so that the control signals are transmitted collectively.

As shown in FIG. 3, the signal repeater 30 includes two first signal repeaters 31 and a second signal repeater 33. The first signal repeater 31 and the second signal repeater 33 are configured to form a pair of two for each physical location.

The first signal repeater 31 is configured to transmit and receive signals in cooperation with the first controller 21. That is, the first signal repeater 31 transmits a control signal to each communication line, and is provided for the frequency operation of 900 MHz band from the first controller 21.

The second signal repeater 33 is provided in a pair with the first signal repeater 31.

And can transmit and receive signals in cooperation with the second controller (23). That is, the second signal repeater 33 is provided for the frequency operation of the 400 MHz band from the second controller 23 so as to transmit a control signal to each communication line.

The signal repeater 30 transmits the control signal received from the controller 20 to the plurality of optical display devices 10 in the 2.4 GHz band.

Bluetooth low energy, zigbee, IEEE 802.15.4 or the like is used as a wireless communication method applicable to the signal relay device 30 and the optical display device 10. [

The transmission of the control signal of the controller 20 toward the signal repeater 30 is not simultaneously transmitted at 400 MHz and 900 MHz. That is, in the case of the first controller 21 and the second controller 23, in principle, the first controller 21 and the second controller 23 are not operated at the same time, The first signal repeater 31 or the second signal repeater 33 selectively operates to transmit only one control signal to the optical display device 10 in the signal repeater 30.

As described above, when the selective signal transmission structure between the controller 20 and the signal repeater 30 is configured, it is possible to prevent collision according to the transmission signal of the signal repeater 30 directed to the optical display device 10, It is possible.

The controller 20 is also provided with a communication verifying means 27 for verifying whether or not the control signal transmitted to the signal repeater 30 responds to the transmission signal from the signal repeater 30.

The communication verifying unit 27 is configured to periodically verify the communication state with the signal repeater 30 in the controller 20. The controller 20 periodically pings the signal repeaters 30 ; packer internet grouper) to check each communication status for the 900MHz and 400MHz bands.

The communication verifying means 27 compares the communication state of the 900 MHz and 400 MHz bands based on the RSSI value of the ping response signal received from the signal repeater 30. The first controller 21 receives the ping response reply from the first signal relay 31 in response to the communication state of 900 MHz band which is a communication signal between the first controller 21 and the first signal relay 31, Signal from the second signal relay 33 to the second controller 23 with respect to the RSSI value of the signal and the communication state of the 400 MHz band which is the communication signal between the second controller 23 and the second signal relay 33 And compares the RSSI value of the received ping response reply signal.

The communication verifying means 27 compares the RSSI value of the received ping response reply signal with the first controller 21 and the second controller 23 to determine whether the average RSSI value of the 900 MHz or 400 MHz band Communication is defined to be defined.

As described above, if the communication verifying unit 27 is configured to periodically receive a reply signal for confirming whether or not a response to the transmission signal from the controller 20 is received from the signal repeater and confirm the communication status, So that it is possible to achieve excellent driving efficiency due to application of communication with a better bandwidth.

In other words, according to the multi-path control system of the distributed wireless optical display according to the present invention configured as described above, since the controller and the signal repeater, which are wireless transmission modules of the control signals toward the optical display device, , It is possible to prevent simultaneous driving according to the 400 MHz and 900 MHz bands, thereby eliminating the collision to the transmission signal and overcoming the communication trouble due to radio interference concentrated in a specific band.

In addition, since the present invention performs communication between the controller and the signal repeater through the 400 MHz and 900 MHz bands, it is possible to realize an excellent reaching distance as compared with the 2.4 GHz band.

Although the preferred embodiments of the multipath control system of the dispersed wireless optical display according to the present invention have been described above, the present invention is not limited thereto, and various modifications and variations may be made within the scope of the claims, And it is also within the scope of the present invention.

10: Optical display device
11: Receiver 15: Drive module
20: controller 21: first controller
23: second controller 25: radio transmitter
27: communication verifying means 30: signal repeater
31: first signal repeater 33: second signal repeater

Claims (5)

An optical display control system for controlling whether or not to implement an image in an optical display device, the optical display control system comprising: a receiver built in to receive a wireless signal from the outside and being driven by a separate display operation according to its own on / off operation, A plurality of optical display devices including a drive module for implementing each pixel of the display in a manner that reflects whether the LED device is turned on according to a signal input through the display device; And a wireless transmitter for wirelessly transmitting a dispersion type wireless optical display control signal of a control packet according to an external input signal, the controller being capable of inputting information to be implemented in the optical display device from an administrator; And a signal repeater for receiving a distributed RAS optical display control signal from the controller and relaying the RAS to the plurality of optical display devices in a vicinity,
The controller includes a first controller configured to transmit a radio control signal to the signal repeater and to transmit a frequency of 900 MHz band from the radio transmitter, and a controller configured to transmit a radio control signal to the signal repeater, And a second controller,
The signal repeater includes a first signal repeater for transmitting a control signal to each of the communication lines, the first signal repeater being provided for a frequency operation of 900 MHz from the first controller, and a second signal repeater provided together with the first signal repeater for transmitting a control signal to each communication line And a second signal repeater provided for frequency operation in the 400 MHz band from the second controller,
The controller periodically receives a reply signal for confirming whether or not to respond to the transmission signal from the signal repeater to check the communication state and determines an RSSI value of a ping (packer internet grouper) response reply signal received from the signal repeater And a communication verifying means for comparing and judging the communication states of the 900 MHz and 400 MHz bands and defining a band having a high RSSI value as the corresponding communication.
delete delete delete The method according to claim 1,
Wherein the signal repeater transmits the control signal received from the controller to a plurality of optical display devices in a 2.4 GHz band.

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