KR102041306B1 - Radio Multipath Controlling System for Distributed Optical Display with Vibration Function - Google Patents

Abstract

The present invention implements and controls various types of image pixels by collectively delivering multi-path control signals to individual driveable distributed optical display devices within a specific area, and integrates its own vibration function of the distributed optical display device. An optical display control system for controlling whether or not an image is implemented in an optical display device so as to provide a sensory perception of a control signal, the receiver having a built-in receiver capable of receiving a radio signal from an external device and having its own on / off operation And a plurality of optical display devices including a driving module capable of driving the respective display operations according to the signal input through the receiver, and implementing the respective pixels of the display to reflect the lighting of the LED elements. A controller including a wireless transmitter for wirelessly transmitting a 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; A signal repeater for receiving a control signal from the controller and relaying the control signal to a plurality of optical display devices in a communication line located close to the periphery, wherein the optical display device controls the receiver from the controller and the signal repeater. The present invention provides a multipath control system for a distributed wireless optical display having a vibration function including a vibration module that drives a vibration to transmit its own vibration when a signal is input.

Description

Radio Multipath Controlling System for Distributed Optical Display with Vibration Function

The present invention relates to a multipath control system for a distributed wireless optical display having a vibration function. More particularly, the multipath control signal can be collectively transmitted to distributed optical display devices that can be individually driven in a specific area. It implements and controls various types of image pixels, and incorporates its own vibration function of the distributed optical display device into the multipath control system of the distributed wireless optical display with vibration function that can sense the collective control signals sensibly. It is about.

In general, when watching concerts such as famous singers or sports events such as soccer and baseball, they are typically used to display light, pictures, or text images using various optical display devices such as a cheering rod or a mobile phone.

Such an optical display device has a structure in which a user can individually drive and control the power by an operation of turning on / off a power, and since the optical display device is controlled only by individual methods of a plurality of users, a collective sense of unity in the corresponding band and There is a problem that control that can realize a sense of unity is difficult.

In order to solve the above problems, as a related art related to a control system using an LED root rod as an optical display device, Korean Patent Publication No. 56208 (2017.05.23.) Displays a symbol by using the afterimage effect of the LED. A first LED round bar for transmitting display control information to display the sign; And at least one second LED cheer rod receiving the transmitted display control information and displaying the sign according to the received display control information, wherein each of the first LED cheer rods and the at least one second The LED cheering rod includes: a LED light source unit including a main body formed in a rod shape, and an LED array in which a plurality of LEDs are arranged to form at least one curved shape inside the main body; And a sensor unit formed under the LED light source unit, a sensor unit detecting a linear movement or a rotational movement of the LED light source unit, a communication unit transmitting and receiving the display control information by wireless communication, and an afterimage effect when the linear movement or rotational movement is detected. A cheering system using an LED cheering rod capable of displaying a group support in a stable state is known as it comprises a handle portion including a control unit for controlling the LED light source unit to display a symbol using a.

However, the above-described prior art uses only indiscriminate short range communication, and thus there is a technical limitation in the radio wave reaching distance from the control position toward the optical display device, and causes a communication failure due to the interference caused by concentration in a specific frequency band. there was.

In addition, in the case of the above-described prior art, the cheering of a specific moment in the overall cheering operation is inconsistent because the visual perception of the illumination of the optical display device such as the cheering rod is different from the overall view in the field. There was a problem of missing the action.

KR Patent Publication No. 10-2017-0056208 (2017.05.23.)

The present invention is to solve the above problems, it is configured to transmit a batch of control signals in close proximity to each physical location for driving the distributed optical display devices to increase the control efficiency of the collective distributed optical display device It provides excellent reach for signal propagation, and furthermore, it has built-in vibration function of distributed optical display device so as to sense collective control signals sensibly, so it supports cheering in preparation for a certain moment of support. It is an object of the present invention to provide a multipath control system of a distributed wireless optical display having a vibration function for maximizing the sense of unity.

In addition, the present invention is configured to implement the communication through the two bands by providing two separate communication devices of the separate bands according to the transmission and reception of the radio control signal for each physical location, distributed with a built-in vibration function that can maintain a fast and excellent communication state It is to provide a multipath control system of a type wireless optical display.

The multipath control system of a distributed wireless optical display having a vibration function proposed by the present invention is an optical display control system for controlling whether or not an image is implemented in an optical display device, and receives a radio signal from an external receiver. And a driving module which can be driven by a separate display operation according to its own on / off operation but reflects whether the LED element is turned on according to a signal input through the receiver to enable each pixel of the display to be implemented. A plurality of optical display devices; A controller including a wireless transmitter for wirelessly transmitting a 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; A signal repeater for receiving a control signal from the controller and relaying the control signal to a plurality of optical display devices in a communication line located close to the periphery, wherein the optical display device controls the receiver from the controller and the signal repeater. When the signal is input is made to include a vibration module for driving to transmit its own vibration.

The optical display device is configured to detect an ambient sound as an acoustic signal to convert a control signal and to apply a control signal for driving the vibration to the vibration module.

The controller transmits a radio control signal toward the signal repeater, the first controller being capable of transmitting a frequency of 900 MHz band from the radio transmitter, and a radio control signal transmitted to the signal repeater, but from the radio transmitter 400 MHz band. A second controller is provided to transmit a frequency of the second controller.

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

The controller configures a pattern setting means to set and input a vibration pattern to be driven through the vibration module.

The signal repeater transmits a control signal to each communication line, but is provided with a first signal repeater and the first signal repeater provided for operating a frequency of 900 MHz band from the first controller, and transmits a control signal to each communication line. A second signal repeater may be configured to provide a frequency operation of the 400 MHz band from the second controller.

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

According to the multi-path control system of the distributed wireless optical display having a vibration function according to the present invention, since the controller and the signal repeater, which are wireless transmission modules for control signals directed to the optical display device, are provided two by one, 400 MHz By avoiding simultaneous driving according to and 900MHz band, it is possible to overcome the interference caused by jamming concentrated in a specific band while eliminating collision for the transmission signal.

In addition, the multi-path control system of the distributed wireless optical display having a vibration function according to the present invention transmits a start signal command, such as a specific cheering aid, to the holding optical display device as a vibration, thereby preparing for a preliminary preparation according to the cheering operation. At the same time, there is an effect that can promote a sense of unity in the area.

In addition, the multi-path control system of the distributed wireless optical display with a built-in vibration function according to the present invention is configured to vibrate the optical display device by detecting the ambient acoustic sound in the field, the user according to the length and tempo of the field transmission sound It is effective to expand the scope of use because it increases the amusement and entertainment of people, and provides effective information about the visually impaired.

In addition, the multipath control system of the distributed wireless optical display having a vibration function according to the present invention performs communication between the controller and the signal repeater through the 400 MHz and 900 MHz bands, thereby achieving an excellent reach distance compared to the 2.4 GHz band. .

In addition, the multi-path control system of the distributed wireless optical display having a vibration function according to the present invention periodically checks the communication state by receiving a reply signal confirming whether or not the response to the transmission signal of the controller from the signal repeater, selective communication By defining the state, there is an effect that can achieve a good driving efficiency according to the communication application of the better band.

1 is a conceptual diagram schematically showing an embodiment according to the present invention.
Figure 2 is a block diagram schematically showing an embodiment according to the present invention.
3 is a block diagram schematically showing an optical display device in one embodiment according to the present invention;
Figure 4 is a block diagram schematically showing a controller and a signal repeater in one embodiment according to the present invention.

The present invention provides an optical display control system for controlling whether or not an image is implemented in an optical display device, and includes a receiver configured to receive a wireless signal from the outside and can be driven by a separate display operation according to its own on / off operation. A plurality of optical display devices including a driving module for implementing each pixel of the display to reflect the lighting state of the LED device according to the signal input through the receiver; A controller including a wireless transmitter for wirelessly transmitting a 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; A signal repeater for receiving a control signal from the controller and relaying the control signal to a plurality of optical display devices in a communication line located close to the periphery, wherein the optical display device controls the receiver from the controller and the signal repeater. The technology features a multipath control system of a distributed wireless optical display with a vibration function including a vibration module for driving its own vibration when a signal is input.

Next, a technical configuration of a multipath control system for a distributed wireless optical display having a vibration function according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

One embodiment of a multipath control system for a distributed wireless optical display having a vibration function according to the present invention is an optical display control for controlling whether or not an image is implemented in an optical display device as shown in FIGS. 1 and 2. The system comprises a plurality of optical display devices 10, a controller 20, and a signal repeater 30.

In FIG. 1, the optical display device 10 is configured to display the optical display device through optical dispersion, and the external shape is configured by applying a cheer rod having a round bar shape. However, the optical display device 10 of the present invention is limited thereto. However, it is possible to configure by applying a display device of various shapes having an optical dispersion function.

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

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

As shown in FIG. 3, the optical display device 10 includes a plurality of LED elements 14 in a configuration for displaying an image, and a driving module 13 for controlling whether the LED elements 14 are turned on. ).

The driving module 13 reflects whether the LED element 14 is turned on according to a signal input through the receiver 11 to implement each pixel of the display.

The drive module 13 is configured to allow individual display operations according to its own on / off operation as a basic drive mode, and when the control signal is received from the receiver 11, the controller 20. It is possible to preferentially drive the display operation according to the control signal set in the.

As shown in FIG. 3, the optical display device 10 constitutes a vibration module 15 which is capable of exhibiting a vibration phenomenon when a control signal is input from the outside or a control signal according to an operation of an individual device is input.

The vibration module 15 has a structure installed in the optical display device 10, the control signal through the controller 20 and the signal repeater 30 to the receiver 11 of the optical display device 10 Drives to receive its own vibration to receive the input.

The optical display device 10 is configured to include at least one vibration control switch 16 to control whether the vibration module 15 is on or off from the user. For example, when the vibration control switch 16 is turned off in the optical display device 10, the controller 20 and the signal repeater 30 are turned off as the current supply to the vibration module 15 is cut off. Even if a control signal is inputted, it is possible to keep the driving of the vibration module 15 in a stationary state by itself.

In addition, the optical display device 10 is configured to adjust the vibration intensity according to the driving of the vibration module 15. That is, it is possible to set the vibration intensity of the vibration module 15 by operating the vibration operation switch 16 of the optical display device 10.

The optical display device 10 constitutes an acoustic recognition unit 17 that can recognize the ambient sound to drive the vibration module 15.

The acoustic recognition unit 17 is configured to detect the ambient sound in the field as an acoustic signal, convert it into a control signal, and apply a control signal for driving the vibration to the vibration module 15.

Since the acoustic recognition unit 17 recognizes only a predetermined decibel (dB), that is, a sound of 100 dB or more, as an acoustic signal, it is preferable to configure an efficient automatic driving of the vibration module 15 in a general performance situation. .

In addition, the optical display device 10 may be configured to configure the sound correction unit 18 to switch to a control signal divided according to the decibel size of the sound signal detected by the sound recognition unit 17.

The acoustic compensator 18 is configured to automatically correct and drive the vibration intensity of the vibration module 15 according to the application of the control signal divided to the vibration module 15.

For example, when the decibel size of the sound signal detected by the sound recognition unit 17 is relatively large, the sound correction unit 18 drives the vibration intensity of the vibration module 15 to be strongly controlled, and vice versa. If the decibel size of the sound signal sensed by the unit 17 is relatively small, the sound correction unit 18 also transmits the control signal according to the vibration module 15 to relatively weakly drive the vibration intensity.

When the acoustic compensator 18 is configured as described above, it is possible to automatically correct and control the vibration intensity according to the sound volume to express a more realistic sense of presence to the user.

The controller 20 performs a function of transmitting a control signal for the first time so as to collectively control driving for the operation of the plurality of optical display devices 10.

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

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

The controller 20 includes a radio transmitter 25 for transmitting a radio signal toward the signal repeater 30, that is, a control signal according to a control packet.

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

The controller 20 transmits a radio control signal toward the signal repeater 30, but communicates using the frequencies of two separate bands.

The controller 20 has a structure in which two are provided for the 900MHz and 400MHz band transmission. That is, as shown in FIG. 4, the controller 20 transmits a radio control signal toward the signal repeater 30, but transmits a frequency in the 900 MHz band from the radio transmitter 25. 21 and a second controller 23 which 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 controller 20 forms an optional drive structure that determines whether the vibration module 15 is turned on or off by setting. For example, when the controller 20 applies only a control signal for the driving module 13 to output only the image display directed to the optical display device 10, only the LED device 14 is turned on. Controlled and the drive to the vibration module 15 is kept stationary.

As shown in FIG. 3, the controller 20 configures the pattern setting means 28 to input and set the vibration pattern to be driven through the vibration module 15 of the optical display device 10.

The pattern setting means 28 includes various patterns in which tempo, intensity, and the like, which are classified according to types of control packets to be transmitted from the controller 20 to the optical display device 10, are combined.

As the pattern of the pattern setting means 28 can be known in advance by the user, it is possible to confirm the type of the control packet only by the vibration state of the optical display device 10 as well as to provide efficient information for the visually impaired person.

The signal repeater 30 relays and transmits a control signal between the controller 20 and the optical display device 10.

The signal repeater 30 is installed at spatially limited physical positions for controlling the optical display device 10, and receives a control signal from the controller 20 to provide a plurality of optical display devices in a communication line located close to the periphery. Relay control is performed so that control signals may be collectively transmitted to (10).

As shown in FIG. 4, the signal repeater 30 is configured such that two pairs are formed at each physical position. The signal repeater 30 includes a first signal repeater 31 and a second signal repeater 33.

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

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

It is configured to transmit and receive a signal in association with the second controller (23). That is, the second signal repeater 33 is provided for the frequency operation of the 400MHz band from the second controller 23 to transmit a control signal to each communication line.

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

As a wireless communication method applicable to the signal repeater 30 and the optical display device 10, Bluetooth Low Energy, Zigbee, and IEEE 802.15.4 are used.

In the control signal transmission of the controller 20 toward the signal repeater 30, 400 MHz and 900 MHz are not simultaneously transmitted. That is, the first controller 21 and the second controller 23 do not operate at the same time in principle in that the first controller 21 and the second controller 23 can sequentially communicate signals. In the signal repeater 30, the first signal repeater 31 or the second signal repeater 33 selectively operates to transmit only one control signal directed to the optical display device 10.

When configured as a selective signal transmission structure between the controller 20 and the signal repeater 30 as described above, to prevent the collision caused by the transmission signal of the signal repeater 30 toward the optical display device 10 to secure communication stability It is possible.

In addition, the controller 20 is configured to include communication verification means 27 for confirming whether or not a response to the transmission signal from the signal repeater 30 with respect to the control signal transmitted to the signal repeater 30.

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

The communication verification means 27 compares the communication status of the 900MHz and 400MHz band based on the RSSI value of the ping response reply signal received from the signal repeater 30. That is, the ping response response received from the first signal repeater 31 to the first controller 21 for the communication state of the 900 MHz band, which is a communication signal between the first controller 21 and the first signal repeater 31. From the second signal repeater 33 to the second controller 23 for the RSSI value of the signal and the communication state of the 400 MHz band which is a communication signal between the second controller 23 and the second signal repeater 33. The RSSI value of the received ping response signal is compared and judged.

The communication verification means 27 compares the RSSI values of the ping response reply signals received by the first controller 21 and the second controller 23, and corresponds to a band having a higher average RSSI value among 900 MHz and 400 MHz bands. Control to define communication.

As described above, when receiving the reply signal confirming whether or not the response to the transmission signal of the controller 20 from the signal repeater periodically to configure the communication verification means 27 to confirm the communication state, the definition of the optional communication state It is possible to achieve excellent driving efficiency according to the communication application of a better band.

That is, according to the multipath control system of the distributed wireless optical display having the vibration function according to the present invention configured as described above, the multipath control system of the distributed wireless optical display having the vibration function according to the present invention is optical Selective communication is implemented by two controllers and signal repeaters, which are wireless transmission modules for control signals directed to display devices, to prevent simultaneous driving according to the 400MHz and 900MHz bands, eliminating collisions for transmission signals and concentrating on specific bands. It is possible to overcome communication obstacles caused by radio interference.

In addition, since the present invention transmits a start signal command, such as a specific support slogan, to the gripping optical display device as a vibration, it is possible to achieve a preliminary preparation according to the support operation and at the same time to achieve a sense of unity in the corresponding area.

Furthermore, the present invention is configured to vibrate the optical display device by detecting the ambient sound in the field, increasing the user's amusement and entertainment in accordance with the short and long tempo of the sound on the field, and providing efficient information for the visually impaired, etc. It is possible to further expand the scope of application.

In addition, since the present invention performs communication between the controller and the signal repeater through the 400MHz and 900MHz band, it is possible to implement an excellent reach compared to the 2.4GHz band.

In the above, a preferred embodiment of a multipath control system for a distributed wireless optical display incorporating a vibration function according to the present invention has been described, but the present invention is not limited thereto. It is possible to perform a various deformation | transformation and a change within the range, and this also belongs to the scope of the present invention.

10: optical display device
11 receiver 13 drive module
14: LED device 15: vibration module
16: vibration control switch 17: acoustic recognition unit
18: Acoustic Correction 20: Controller
21: first controller 23: second controller
25: wireless transmitter 27: communication verification means
28: pattern setting means 30: signal repeater
31: first signal repeater 33: second signal repeater

Claims (7)

An optical display control system for controlling whether or not an image is implemented in an optical display device, the receiver having a built-in receiver to receive a wireless signal from the outside, and can be driven by a separate display operation according to an on / off operation thereof, but the receiver A plurality of optical display devices including a driving module for implementing each pixel of the display to reflect whether the LED device is turned on according to a signal input through the display device; A controller including a wireless transmitter for wirelessly transmitting a 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; A signal repeater for receiving a control signal from the controller and relaying the control signal to a plurality of optical display devices in a communication line located close to the periphery, wherein the optical display device controls the receiver from the controller and the signal repeater. When the signal is input is made including a vibration module for driving to transmit its own vibration,
The optical display device comprises a vibration operation switch having at least one or more so as to control the setting on or off for the vibration module from the user,
The optical display device includes a sound recognition unit that detects the ambient sound as an acoustic signal and converts it into a control signal, and recognizes only the sound of at least 100 dB as an acoustic signal to apply a control signal for vibration driving to the vibration module.
The optical display device is configured to convert the control signal to the vibration module according to the decibel size of the sound signal detected by the acoustic recognition unit to configure the sound correction unit configured to automatically drive the vibration intensity of the vibration module,
The controller may be configured to transmit a radio control signal toward the signal repeater, the first controller being capable of transmitting a frequency in the 900 MHz band from the radio transmitter, and to transmit the radio control signal toward the signal repeater, but 400 MHz from the radio transmitter. A second controller provided to transmit a frequency of the band;
The controller includes communication verification means for periodically receiving a reply signal for confirming the response to the transmission signal from the signal repeater to confirm the communication state,
The controller includes a pattern setting means for setting and inputting a vibration pattern to be driven through the vibration module, wherein the pattern setting means comprises: a tempo divided according to a type of control packet to be transmitted from the controller toward the optical display device; It is configured to have a plurality of patterns combined strength and weakness,
The signal repeater may be configured to transmit a control signal to each communication line, but may be provided together with the first signal repeater and the first signal repeater provided for frequency operation in the 900 MHz band from the first controller. It comprises a second signal repeater provided for the frequency operation of the 400MHz band from the second controller to transmit,
And the signal repeater transmits the control signal received from the controller to the plurality of optical display devices in the 2.4 GHz band. delete delete delete delete delete delete

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