WO2017039033A1 - Dispositif d'affichage portable - Google Patents

Dispositif d'affichage portable Download PDF

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Publication number
WO2017039033A1
WO2017039033A1 PCT/KR2015/009275 KR2015009275W WO2017039033A1 WO 2017039033 A1 WO2017039033 A1 WO 2017039033A1 KR 2015009275 W KR2015009275 W KR 2015009275W WO 2017039033 A1 WO2017039033 A1 WO 2017039033A1
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WIPO (PCT)
Prior art keywords
information
display module
control
control information
unit
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PCT/KR2015/009275
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English (en)
Korean (ko)
Inventor
한상일
Original Assignee
(주) 네오인플러스
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Application filed by (주) 네오인플러스 filed Critical (주) 네오인플러스
Priority to PCT/KR2015/009275 priority Critical patent/WO2017039033A1/fr
Publication of WO2017039033A1 publication Critical patent/WO2017039033A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer

Definitions

  • the present invention relates to a wearable display device, and more particularly, to a wearable display device including an integrated control unit, which is intended to provide a wearable display device that effectively implements a variety of displays after a user wears the wearable display device. have.
  • the present invention relates to a wearable display device, and according to the configuration of the wearable display device including an integrated control unit, the object of the present invention is to provide a wearable display device that effectively implements a variety of displays after the user wears.
  • a wearable display device includes a display module and an integrated control unit for controlling the display module, wherein the integrated control unit stores at least one of first control information and second control information. And a control information generator for generating second control information based on the first control information and the base information, and a control mode selector for selecting at least one of a first control mode and a second control mode.
  • the integrated controller controls the display module based on the first control information
  • the second control mode controls the display module based on the second control information. And controlling the display module.
  • the integrated control unit may further include a sensing unit configured to sense various biosignals of the user, wherein the sensing unit generates the base information including the generated sensing information based on the various biosignals,
  • the control information generation unit may compare the first control information including the biometric index measured in the normal state of the user previously stored in the storage unit with the sensing information, and based on whether the comparison result is equal to or greater than a reference value. 2 control information is generated.
  • the bio-index includes at least one of the degree of breathing, electrocardiogram, speed, acceleration and body temperature measured in the normal state of the user, the sensing information, the degree of breathing, electrocardiogram, And at least one of a speed degree, an acceleration degree, and a body temperature, and when the comparison result corresponds to a reference value or more, the second control information may include emergency image related information informing of an emergency state.
  • the integrated control unit may further include a GPS receiver configured to receive location information of the user from the outside, wherein the base information includes the location information, and the first control information includes a plurality of image related information.
  • the control information generation unit may generate the second control information including image related information corresponding to the location of the user among the plurality of image related information included in the first control information with reference to the position information.
  • the integrated control unit may implement an image corresponding to the location of the user based on the second control information.
  • the display module may include a circuit board having a conductive pattern formed on a flexible insulating film, a plurality of LEDs (light emitting diodes) disposed on the circuit board, and UV resins on the front and rear surfaces of the circuit board. It characterized in that it comprises a formed coating film.
  • the detachable means attached to the region of the flexible insulating film region in which the LED is not disposed so as to be detachable to the adherend including the power supply unit and the bend to supply the power required for the operation of the display module and the integrated control unit; It characterized in that it further comprises.
  • a wearable display device includes: a display module, an integrated control unit controlling the display module, the integrated control unit, a storage unit storing at least one of first control information and second control information; And transmitting the first control information to an external device and receiving the second control information generated by the external device based on the first control information.
  • the integrated control unit may include the first control information. And controlling the display module based on at least one of the second control information.
  • the integrated control unit may further include a sensing unit configured to sense various biosignals, wherein the sensing unit generates the first control information based on the various biosignals, and the communication unit is pre-stored in the external device. And comparing the biological index and the first control information and receiving the second control information generated by the external device based on whether the comparison result is equal to or greater than a reference value.
  • the integrated control unit may further include a GPS receiver that receives location information from the outside, wherein the first control information is the location information, and the second control information is based on the location information.
  • the external device may be provided to the integrated controller in order to implement an image designated according to the location information in the display module.
  • the integrated control unit may further include a control mode selector configured to select at least one of a first control mode and a second control mode.
  • the display module is controlled based on first control information, wherein the first control information is information preset in the storage unit, and when the control mode selector selects the second control mode, the integrated control unit controls the second control information. It characterized in that for controlling the display module based on.
  • the display module may include a first display module and a second display module, and the control mode selector may select at least one of the first display module and the second display module as a selection display module, and may select the first display module.
  • the integrated control unit controls the selection display module by selecting at least one of a control mode and the second control mode.
  • a wearable display device includes: a display module, a sensing unit configured to sense an external environment to generate sensing information, an integrated controller controlling the display module, an operation required for the operation of the display module, and the integrated controller; And a detachable means attached to the display module to be detachable from the power supply unit for supplying power and the adherend, wherein the integrated control unit is based on preset first control information and sensing information.
  • a storage unit for storing at least one, and a control mode selection unit for selecting at least one of the first control mode and the second control mode, wherein the integrated control unit, when selecting the first control mode, the first control Control the display module based on the information; and selecting the second control mode when selecting the second control mode. And controlling the display module based on the beam.
  • the sensing information may include at least one of sound information, illuminance information, operation information, and temperature information.
  • the wearable display device communicates with an external device, thereby realizing an image desired by the user on the wearable display device.
  • the wearable display device of the present invention by detecting a user's biological signal, the user's health state can be implemented on the wearable display device.
  • the wearable display device receiving GPS (glogbal pointing system) information from the outside, it is possible to implement a designated image according to the position information provided by the GPS information on the wearable display device.
  • GPS global positioning system
  • FIG. 1 is a block diagram illustrating a wearable display device according to an exemplary embodiment.
  • FIG. 2 is a block diagram of a wearable display device for implementing an image of a user's health state.
  • FIG. 3 is a block diagram illustrating a wearable display device implementing an image corresponding to location information of a user.
  • FIG. 4 is a block diagram illustrating a wearable display device according to an exemplary embodiment.
  • FIG. 5 is a block diagram of a wearable display device implementing an image of a user's health state.
  • FIG. 6 is a block diagram illustrating a wearable display device implementing an image corresponding to location information of a user.
  • FIG. 7A and 7B illustrate block diagrams of the wearable display apparatus including the control mode selector 723.
  • FIG. 8A and 8B illustrate a block diagram of a wearable display device according to another exemplary embodiment.
  • FIG. 9 is a block diagram of a wearable display device according to another exemplary embodiment.
  • 10A and 10B illustrate an example in which a wearable display device is applied.
  • 11A and 11B illustrate another example in which a wearable display device is applied.
  • a wearable display device includes a display module and an integrated control unit for controlling the display module, wherein the integrated control unit stores at least one of first control information and second control information. And a control information generator for generating second control information based on the first control information and the base information, and a control mode selector for selecting at least one of a first control mode and a second control mode.
  • the integrated controller controls the display module based on the first control information
  • the second control mode controls the display module based on the second control information. And controlling the display module.
  • first and second may be used to describe various components, but the components should not be limited by the terms. The terms may be used for the purpose of distinguishing one component from another component.
  • first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.
  • the wearable display device is a device made of a flexible material and worn by a user to implement an image.
  • wearable display devices may be various types of devices such as clothes, shoes, gloves, glasses, hats, and ornaments that can be worn by a person or animal on the body.
  • a description will be given based on a wearable display device attached to various types of adherends, but the wearable display device may be variously implemented without being limited thereto.
  • the wearable display apparatus 100 includes a display module 110, an integrated control unit 120, and a detachment unit 130.
  • the display module 110 may include a flexible circuit board and a plurality of light emitting diodes (LEDs).
  • the flexible printed circuit board may have a configuration in which a conductive pattern is formed on a flexible insulating film.
  • the conductive pattern attaches a copper foil to a polyimide insulating film to remove an oxide film by an etching method.
  • the pattern may be formed.
  • a conductive pattern may be formed by printing the conductive silver paste on the polyester insulating film using a silk screen.
  • the conductive paste may be formed by printing a metal paste on a silk screen.
  • the UV resin coating film may be formed on the front and rear of the flexible circuit board, the coating film is cured by irradiating UV light to the UV resin can be quickly cured by ultraviolet light.
  • the coating film can safely protect the display module 110 composed of a flexible circuit board, a conductive pattern, and a plurality of LEDs.
  • the plurality of LEDs are arranged horizontally and vertically on the flexible circuit board, and are connected to the conductive pattern and connected to emit light.
  • the plurality of LEDs can display moving images, various pictures, and text information through the configuration of the plurality of LEDs arranged vertically and horizontally. .
  • the integrated control unit 120 may include a storage unit 121 capable of storing control information and a control information generator 122 capable of generating control information.
  • the integrated control unit 120 may include a storage unit 121 capable of storing control information and a communication unit 122 capable of communicating with an external device ED.
  • the display module 110 may be controlled.
  • the integrated control unit 110 provides the display module 110 by providing the first control signal SA1 generated based on the first control information IA1 to the display module 110. Can be controlled.
  • the first control information IA1 is set by the user in advance in order to implement an image desired by the user according to the first control information IA1 on the display module 110.
  • the stored information may correspond to information about the desired image.
  • the storage unit 121 is a memory card that is connected to an electronic device, programs a desired image through the electronic device, and stores information about the information as the first control information IA1. It can be conveniently stored at 121.
  • the integrated controller 120 may provide the first control signal SA1 to the display module 110 to implement the desired image. have.
  • the integrated controller 110 may provide the display module 110 with the second control signal SA1 generated based on the second control information IA2.
  • the control information generator 122 may receive the first control information IA1 and the base information, and generate the second control information IA2 based on the first control information and the base information.
  • the storage unit 121 may provide the stored first control information IA1 to the control information storage unit 122.
  • the base information BI may be, for example, information collected by sensing an external environment, information about a biosignal collected from a user, or location information of the wearable display apparatus 100.
  • the control information generation unit 122 may receive the base information BI.
  • the control information generation unit 122 may generate the second control information AI2 based on the received first control information IA1 and the base information BI. A detailed generation process for the second control information AI2 will be described later.
  • the external device ED may transmit the second control information AI2 to the communication unit 122.
  • the control information generation unit 122 may provide the generated second control information AI2 to the storage unit 121 and store the generated second control information AI2.
  • the integrated control unit 120 Based on the second control information AI2, the integrated control unit 120 provides the second control signal SA2 to the display module 110 so as to control the display module 110.
  • the image according to AI2) can be implemented.
  • the detachable means 130 may enable the wearable display apparatus 100 to be detached and attached to the adherend.
  • the first velcro tape may be attached to the wearable display apparatus 100
  • the second velcro tape may be attached to the adherend, such that the wearable display apparatus 100 includes a first pair of velcro tapes. It is easily attached to the adherend by the detaching means 130, and can be separated if necessary.
  • the detachment means 130 since the detachment means 130 may be configured in various ways, the detachment means 130 according to the present invention is not limited thereto.
  • the wearable display apparatus 100 may further include a power supply unit (not shown) for supplying power required for the operation of the display module 110 and the integrated control unit 120.
  • the power unit (not shown) may be charged in a state where it is attached from the wearable display apparatus 100, and furthermore, may be charged in a separated state.
  • FIG. 2 is a block diagram of the wearable display apparatus 200 that implements a user's health state as an image.
  • the wearable display apparatus 200 includes a display module 210, an integrated controller 220, and a detachable means 230.
  • the display module 210 may correspond to the display module 110 of FIG. 1
  • the detachment means 230 may correspond to the detachment means 130 of FIG. 1, and thus, a detailed description thereof will be omitted.
  • the integrated control unit 220 includes a first sensing unit 221, a storage unit 222, and a communication unit 223.
  • the first sensing unit 221 may be included in the wearable display apparatus 200 as one module separated from the integrated control unit 220.
  • the first sensing unit 221 may include at least one sensor, and may sense various bio signals BTI.
  • the various biological signals BTI may correspond to an electrocardiogram, a breathing signal, a body temperature, a speed signal, an acceleration signal, or the like.
  • the first sensing unit 221 may generate sensing information SI based on the sensed biosignal BTI.
  • the sensing signal SI may be generated by converting the analog signal into a digital signal.
  • the first sensing unit 221 may provide the sensing information SI to the control information generation unit 222.
  • the second control information IA'2 may be generated based on the first control information IA'1 and the sensing information SI.
  • the control information generation unit 222 compares the first control information IA'1 based on the biometric information of the user's normal state and the sensing information SI which is the base information, and whether the comparison result is greater than or equal to the reference value Based on the second control information (IA'2) can be generated.
  • the storage unit 221 may be stored in advance as the first control information (IA'1), such as the biometric index in the normal state of the user, that is, electrocardiogram, breathing degree, body temperature, speed and acceleration degree, etc. have.
  • the ECG information of the sensing information SI and the first control information IA′1 may be compared.
  • second control information corresponding to the information about the image (IA ') The control information generation unit 222 may generate 2).
  • the control information generator 222 may generate the second control information IA′2 to implement an image representing a steady state.
  • the control information generation unit 223 may provide the second control information IA′2 to the storage unit 222.
  • the integrated controller 220 may provide the second control signal SA ′ 2 to the display module 210 to control the display module 210 based on the second control information IA ′ 2.
  • the sensing information SI is compared with the first control information IA′1, and when the comparison result is greater than or equal to a reference value indicating a dangerous state, the second control signal SA′2 displays the display.
  • the module 210 may control an image informing of an emergency state, for example, a red image to continue to blink continuously.
  • the display module 210 may be controlled to implement an image representing a steady state, for example, an image representing green safety.
  • this is one embodiment of the present invention, and the present invention is not limited thereto. If the reference value is less than the reference value, the ECG, respiratory rate, body temperature, speed, and acceleration degree of the biosignal are directly displayed based on the sensing information (SI).
  • the control may be implemented at 210.
  • the first control signal SA ′ 1 may be transmitted to the display module 210.
  • the second control signal SA ′ 2 may be provided to the display module 210.
  • FIG. 3 is a block diagram illustrating a wearable display device 300 that implements an image corresponding to user location information.
  • the wearable display apparatus 300 includes a display module 310, an integrated controller 320, and a detachable means 330.
  • the display module 310 may correspond to the display module 110 of FIG. 1
  • the detachment means 330 may correspond to the detachment means 130 of FIG. 1, and thus a detailed description thereof will be omitted.
  • the integrated controller 320 includes a GPS receiver 323, a storage 322, and a control information generator 322.
  • the GPS receiver 323 is a module separated from the integrated controller 320 and may be included in the wearable display apparatus 300.
  • the GPS receiver 323 may include at least one global pointing system (GPS) receiver and may receive GPS information (GPSI).
  • GPS information GPSI may include information such as latitude, longitude, altitude, time, etc. of the user who uses the wearable display device 300.
  • the GPS receiver 323 may generate location information PI1 as information on the current location of the user based on the received GPS information GPSI.
  • the GPS receiver 323 may provide the location information PI1 to the control information generator 322, and the storage unit 222 may store the stored first control information IA ′′ 1 in the control information generator 322.
  • the first control information IA ′ ′ 1 may correspond to image related information to be implemented corresponding to each position. Accordingly, specific image related information corresponding to a specific position may be preset and stored in the storage unit 321.
  • the first control information IA''1 may be used to promote Gyeonggi-do when the user's location is Seoul, a promotional phrase for promoting Seoul or an image corresponding to a symbol of Seoul, and the user's location is Gyeonggi-do.
  • the second control information IA ′′ 2 may be generated based on the position information PI and the first control information IA ′′ 1. That is, the second control information IA ′′ 2 may be generated based on the position information PI. This may correspond to information for identifying the current user's position through the first control information IA ′′ 1 and implementing a designated image corresponding to the current user's position.
  • the second control signal SA ′′ 2 may be provided to the display module 310.
  • embodiments of the present invention are not limited thereto, and the GPS receiver 323 and the control information generator 322 may be configured as one module.
  • the first control information IA ′′ 1 for the storage unit 321 may be controlled to implement a corresponding image according to various location information.
  • the integrated control unit 320 may provide the second control signal CS2 to the display module 310 to control the display module 310 based on the second control information CI2.
  • the second control information IA ′′ 2 may be a promotional image for Seoul, or with reference to the first control information IA ′′ 1. It may correspond to information about a promotional video of a company located in Seoul. Therefore, the integrated control unit 320 may control the display module 310 to implement an image related to Seoul based on the second control information IA ′′ 2. As a method of controlling the display module 310, the second control signal IA ′′ 2 may be provided to the display module 310. As a result, through the wearable display device 300, various images are implemented according to the location information of the user, thereby exhibiting an advertisement effect.
  • FIG. 4 is a block diagram illustrating a wearable display apparatus 400 according to an exemplary embodiment.
  • the wearable display apparatus 400 includes a display module 410, an integrated controller 420, and a detachable means 430.
  • the display module 410 may correspond to the display module 410 of FIG. 1
  • the detachment means 230 may correspond to the detachment means 130 of FIG. 1, and thus, a detailed description thereof will be omitted.
  • the integrated control unit 420 may include a storage unit 421 for storing control information and a communication unit 422 for communicating with an external device ED.
  • the display module 110 may be controlled.
  • the integrated control unit 410 provides the display module 410 with a first control signal CS1 generated based on the first control information CI1 to the display module 410.
  • the first control information CI1 is set by the user in advance in order to implement an image desired by the user according to the first control information CI1 on the display module 410 and is stored in the storage unit 421. The stored information may correspond to information about the desired image.
  • the storage unit 421 is a memory card that is connected to an electronic device, programs a desired image through the electronic device, and stores information about the information as the first control information CI1. 421 may be conveniently stored.
  • the integrated controller 420 may provide the first control signal CS1 to the display module 410 to implement the desired image. have.
  • the integrated control unit 110 may provide the display module 110 with the second control signal CS1 generated based on the second control information CI2.
  • the second control information CI2 may be generated through wireless communication between the communication unit 422 and the external device ED.
  • the wireless communication method may use a low power short-range communication method such as Radio Frequency (RF), Zigbee, Bluetooth, and Ultra-wideband (UWB).
  • the storage unit 421 may provide the stored first control information CI1 to the communication unit 422.
  • the first control information CI1 may be, for example, information collected by sensing an external environment, information about a biosignal collected from a user, or location information of the wearable display device 400.
  • the communication unit 422 may transmit the first control information CI1 to the external device ED.
  • the external device ED may generate the second control information CI2 based on the received first control information CI1.
  • a detailed generation process for the second control information CI2 will be described later.
  • the external device ED may transmit the second control information CI2 to the communication unit 422.
  • the communication unit 422 may provide the received second control information CI2 to the storage unit 121 and store the received second control information CI2.
  • the integrated control unit 120 may provide a second control signal CS2 to the display module 410 to display the second control information ( An image according to CI2) can be implemented.
  • the wearable display apparatus 400 may further include a power supply unit (not shown) for supplying power required for the operation of the display module 410 and the integrated control unit 420.
  • the power unit (not shown) may be charged in a state where it is attached from the wearable display device 400, and furthermore, may be charged in a separated state.
  • FIG. 5 is a block diagram of the wearable display apparatus 500 that implements a user's health state as an image.
  • the wearable display apparatus 500 includes a display module 510, an integrated controller 520, and a detachable means 530.
  • the display module 510 may correspond to the display module 110 of FIG. 1
  • the detachment means 530 may correspond to the detachment means 130 of FIG. 1, and thus a detailed description thereof will be omitted.
  • the integrated control unit 520 includes a first sensing unit 521, a storage unit 522, and a communication unit 523.
  • the first sensing unit 521 is a module separated from the integrated control unit 520 and may be included in the wearable display apparatus 500.
  • the first sensing unit 521 may include at least one sensor and may sense various biosignals BTI.
  • the various biological signals BTI may correspond to an electrocardiogram, a breathing signal, a body temperature, an acceleration signal, or the like.
  • the first sensing unit 521 may generate the first control information CI ′ 1 based on the sensed biosignal BTI.
  • each of the analog signals may be converted into a digital signal to generate first control information CI ′ 1.
  • the first sensing unit 521 may provide the first control information CI ′ 1 to the storage unit 522, and the storage unit 522 may store the first control information CI ′ 1 and then communicate with the communication unit.
  • 523 may be provided.
  • the second control information CI ′ 2 may be generated through wireless communication between the communication unit 523 and the external device ED.
  • the wireless communication method may use a low power short-range communication method such as Radio Frequency (RF), Zigbee, Bluetooth, and Ultra-wideband (UWB).
  • the communication unit 523 may transmit the first control information CI ′ 1 to the external device ED.
  • the external device ED compares the biometric index previously stored in the external device ED with the received first control information CI ′ 1 and based on whether the comparison result is equal to or greater than a reference value, the second control information. (CI'2) can be generated.
  • the external device may be stored in advance in the user's normal state, such as electrocardiogram, respiratory rate, body temperature, speed and acceleration degree.
  • the ECG information of the first control information CI ′ 1 may be compared with the biometric index stored in the external device ED.
  • second control information (CI ′) corresponding to the information about the image is provided.
  • the external device ED may generate 2).
  • the reference value is less than the reference value, the external device ED may generate the second control information CI ′ 2 to implement an image representing a normal state.
  • the communication unit 523 may provide the storage unit 522 with the second control information CI ′ 2 received from the external device ED.
  • the integrated control unit 520 may provide the second control signal CS ′ 2 to the display module 510 to control the display module 510 based on the second control information CI ′ 2.
  • the biometric index stored in the external device ED is compared with the first control information CI'1, and when the comparison result is equal to or greater than a reference value indicating a dangerous state, the second control signal CS'2.
  • the display module 510 may control the image informing of an emergency state, for example, a red image to continue to blink continuously.
  • the display module 510 may be controlled to implement an image representing a normal state, for example, an image representing green safety.
  • this is one embodiment of the present invention, and the present invention is not limited thereto.
  • the display module 510 may be controlled to be implemented. As a method of controlling the display module 510, the first control signal CS ′ 1 is transmitted to the display module 510 in order to control the display module 250 based on the first control information CS ′ 1. In order to control the display module 510 based on the second control information CS ′ 2, the second control signal CS ′ 2 may be provided to the display module 510. As a result, through the wearable display apparatus 500, the current state information of the user can be checked, and in a dangerous state, the dangerous state can be notified.
  • FIG. 6 is a block diagram of a wearable display apparatus 600 implementing an image corresponding to user location information.
  • the wearable display apparatus 600 includes a display module 610, an integrated controller 620, and a detachable means 630.
  • the display module 610 may correspond to the display module 110 of FIG. 1
  • the detachment means 630 may correspond to the detachment means 130 of FIG. 1, and thus a detailed description thereof will be omitted.
  • the integrated controller 620 includes a GPS receiver 621, a storage 622, and a communication unit 623.
  • the GPS receiver 621 may be included in the wearable display apparatus 600 as one module separated from the integrated controller 620.
  • the GPS receiver 621 may include at least one global pointing system (GPS) receiver and may receive GPS information (GPSI).
  • GPS information GPSI may include information such as latitude, longitude, altitude, time, etc. of the user who uses the wearable display device 300.
  • the GPS receiver 321 may generate first control information CI ′′ 1 based on the received GPS information GPSI as information on the current location of the user.
  • the GPS receiver 621 may provide the first control information CI ′′ 1 to the storage 622.
  • the storage unit 622 stores the first control information CI ′′ 1, and then the communication unit 623. ) Can be provided.
  • the second control information CI ′′ 2 may be generated through wireless communication between the communication unit 623 and the external device ED.
  • the wireless communication method may use a low power short-range communication method such as Radio Frequency (RF), Zigbee, Bluetooth, and Ultra-wideband (UWB).
  • the communication unit 623 may transmit the first control information CI ′′ 1 to the external device ED.
  • the external device ED may generate the second control information CI ′′ 2 in order to implement the designated image on the display module 610 according to the location information corresponding to the first control information CI ′′ 1. have.
  • the external device ED may be preset to implement a specific image according to a specific location. For example, when the user's location is Seoul, the second control information CI ′′ 2 related to this may be implemented in the external device ED so that an image corresponding to a promotional phrase or a symbol of Seoul may be implemented. It can generate and transmit to the communication unit 623.
  • embodiments of the present invention are not limited thereto, and the GPS receiver 621 and the communication unit 623 may be configured as one module.
  • the external device ED may be controlled to implement a corresponding image according to various location information, and the external device ED may be included in the wearable display device 600.
  • the communication unit 623 may provide the storage unit 622 with the second control information CI ′′ 2 received from the external device ED.
  • the integrated controller 620 may provide the second control signal CS ′′ 2 to the display module 610 in order to control the display module 610 based on the second control information CI ′′ 2.
  • the second control information CI ′′ 2 may be a promotional image of Seoul, or a company located in Seoul. May correspond to information about a promotional video. Therefore, the integrated control unit 620 may control the display module 610 to implement an image related to Seoul based on the second control information CI ′′ 2. As a method of controlling the display module 610, the second control signal CS ′′ 2 may be provided to the display module 610. As a result, through the wearable display device 600, by implementing a variety of images according to the location information of the user, there is an advantage that can exhibit the advertising effect.
  • FIG. 7A and 7B illustrate block diagrams of the wearable display apparatus 700 including the control mode selector 723.
  • the wearable display apparatus 700 includes a display module 710, an integrated controller 720, and a detachable means 730.
  • the integrated controller 720 includes a control mode selector 723, a storage 721, and a communication unit 722.
  • the embodiment is not limited thereto, and may include a control signal generator (not shown) instead of the communication unit 722, and an operation thereof will be omitted for convenience.
  • the control mode selector 723 may select a control mode when the integrated controller 720 controls the image implementation of the display module 710.
  • the control mode may include a first control mode and a second control mode.
  • the first control mode may refer to controlling the display module 710 based on the first control information
  • the second control mode may refer to controlling the display module 710 based on the second control information.
  • the control mode selector 723 may provide the first control mode signal Cmode1 to the storage 721 and the communication unit 722.
  • the operation of the communication unit 722 may be turned off, and the integrated control unit 720 controls the display module 710 based on the first control information CI1 stored in the storage unit 721.
  • the integrated controller 720 may provide the first control signal CS1 to the display module 710.
  • the control mode selector 723 may provide the second control mode signal Cmode2 to the storage 721 and the communication unit 722. In this case, the operation of the communication unit 722 may be turned on to generate the second control information CI2. Details thereof will be omitted.
  • the integrated control unit 720 provides the second control signal CS2 to the display module 720. can do.
  • the control mode selection may be remotely selected by the user, or may be selected by a button provided in the wearable display apparatus 700. In this way, the user's intention is reflected and an effective image can be realized by selecting a control mode suitable for a situation.
  • FIGS. 8A and 8B are block diagrams of a wearable display apparatus 800 according to another exemplary embodiment.
  • the wearable display apparatus 800 includes a display module 810, an integrated controller 820, and a detachable means 830.
  • the integrated controller 820 includes a storage 821, a second sensing unit 822, and a control mode selection unit 823.
  • the second sensing unit 822 may generate sensing information by sensing an external environment of the wearable display apparatus 800.
  • the sensing information may include at least one of sound information, illuminance information, operation information, and temperature information of an external environment.
  • the second sensing unit 822 may include a sound sensor to sense the sound level from the external environment, and may generate sound information from the sound level.
  • An illumination sensor may be included to sense an illumination level from an external environment, and the illumination information may be generated from the illumination degree.
  • a motion sensor may be included to sense a motion of a user wearing the wearable display device 800 from an external environment.
  • a temperature sensor may be included to sense a temperature degree from an external environment. This is an example, and the present invention is not limited thereto, and may include information related to a sensor capable of sensing other external conditions as described above.
  • the control mode selector 823 may provide the first control mode signal Cmode1 to the second sensing unit 822.
  • the operation of the second sensing unit 822 may be turned off, and the integrated control unit 820 controls the display module 810 based on the first control information IB1 stored in the storage unit 821.
  • the integrated controller 820 may provide the first control signal SB1 to the display module 510.
  • the control mode selector 823 may provide the second control mode signal Cmode2 to the second sensing unit 822.
  • the operation of the second sensing unit 822 may be turned on to sense an external environment and generate sensing information.
  • the second control information IB2 may be generated based on the sensing information.
  • the second sensing unit 822 may generate second control information IB2 based on the generated sensing information and provide the generated second control information IB2 to the storage unit 821.
  • the present invention is not limited thereto, and the second control information generation unit (not shown) included in the integrated control unit 820 generates second control information IB2 based on the sensing information.
  • the storage unit 821 can be provided.
  • the display module 810 may be controlled by setting a predetermined pattern according to the sensing information.
  • the image pattern may move together with the direction in which the user moves through the user's motion information.
  • the display module 810 may be controlled to implement a colorful pattern or color than the previous image.
  • the display module 810 may be controlled by setting patterns of various methods, without being limited thereto.
  • the integrated control unit 820 may provide a second control signal SB2 to the display module 810. .
  • the control mode selection may be remotely selected by the user, or may be selected by a button provided in the wearable display apparatus 800. Through this, it is possible to reflect the user's intention, to implement an effective image harmonious with the external environment.
  • FIG. 9 is a block diagram of a wearable display apparatus 900 according to another exemplary embodiment.
  • the wearable display apparatus 900 includes a display module 910, a module selector 920, an integrated controller 930, and a detachable means 940.
  • the display module unit 910 includes a first display module 911 and a second display module 912. However, this is one embodiment and the present invention is not limited thereto and may include at least two display modules.
  • the module selector 920 may select at least one of the first display module 911 and the second display module 912 included in the display module unit 910 to be controlled by the integrated controller 930. have.
  • the integrated controller 930 may include a control mode selector (not shown).
  • the module selector 920 may select a display module to be controlled, and may set a control mode of the selected display module through a control mode selector (not shown). For example, referring to FIGS. 8A, 8B, and 9, the module selector 920 may select the first display module 911 to control the first display module 911 in the first control mode.
  • the second display module 912 may be selected by the module selector 920 to control the second display module 912 in the second control mode.
  • the module selection may be remotely selected by the user, or may be selected by a button provided in the wearable display device 900. Through this, in the case of the wearable display apparatus 900 having a plurality of display modules, the control mode of each display module may be changed, thereby making it possible to effectively implement more various images.
  • FIGS 10A and 10B illustrate an example in which the wearable display apparatus 1010 is applied.
  • the wearable display apparatus 1010 may be attached to the adherend 1020 in the form of clothing through detachable means 1015a and 1015b.
  • the wearable display device 1010 including the flexible display module may be flexible while being firmly attached to the garment-shaped adherend 1020, which may be a flexible material, even when the wearable attachable body 1020 is active.
  • Various curved images can be realized.
  • a fabric cover (not shown) may be attached to the front surface of the wearable display device 710 to exhibit various lighting effects.
  • the wearable display device 710 according to the present invention can be used as a tool for cheering at a stadium or when riding a bicycle, and can be used as a safety light. It can be used for many purposes.
  • the wearable display apparatus 1010 may be attached to the columnar adherend 1020, and the wearable display device 1010 may vary in length to surround the columnar adherend 1020. It can be attached and can implement various images.
  • FIGS. 11A and 11B are diagrams illustrating still another example to which the wearable display apparatus 1110 is applied.
  • the wearable display apparatus 1110 may include a first display module 1111a and a second display module 1111b.
  • the first display module 1111a may be attached to the center portion of the garment-shaped adherend 1120, and the second display module 1111b may be attached to the right arm portion of the garment-shaped adherend 1120.
  • the wearable display apparatus 1110 may select at least one of the first display module 1111a and the second display module 1111b to control the selected display module.
  • the control mode may be selected to control the first display module 1111a and the second display module 1111b to the same control mode or to different control modes. Through this, one wearable display device 810 may implement an image in various ways.
  • the wearable display apparatus 1110 may include a first display module 1111a and a second display module 1111b.
  • the first display module 1111a may be attached to the upper portion of the columnar adherend 1120
  • the second display module 1111b may be attached to the lower portion of the columnar adherend 1120. Control-related details will be omitted as described above.
  • the wearable display device 1110 may include at least two or more display modules, and the display modules are attached to the adherend in various ways, and the control method of the display module is selected to provide an effective image. Implementation can be realized.

Abstract

Selon un mode de réalisation de l'invention, un dispositif d'affichage portable comprend un module d'affichage et une unité de commande intégrée permettant de commander le module d'affichage, l'unité de commande intégrée comprenant : une unité de stockage permettant de stocker des premières informations de commande et/ou des secondes informations de commande ; et une unité de génération d'informations de commande permettant de générer des secondes informations de commande d'après les premières informations de commande et les informations de base, l'unité de commande intégrée contrôlant le module d'affichage d'après les premières informations de commande et/ou les secondes informations de commande.
PCT/KR2015/009275 2015-09-03 2015-09-03 Dispositif d'affichage portable WO2017039033A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/KR2015/009275 WO2017039033A1 (fr) 2015-09-03 2015-09-03 Dispositif d'affichage portable

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/KR2015/009275 WO2017039033A1 (fr) 2015-09-03 2015-09-03 Dispositif d'affichage portable

Publications (1)

Publication Number Publication Date
WO2017039033A1 true WO2017039033A1 (fr) 2017-03-09

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WO (1) WO2017039033A1 (fr)

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20080093011A (ko) * 2008-09-29 2008-10-17 (주)테슬라시스템 차량 운행 정보의 자동 백업과 광고 정보의 저장, 디스플레이 및 원격 업데이트가 가능한 시스템
KR20090110566A (ko) * 2008-04-18 2009-10-22 한국봉제기술연구소 생체신호 측정용 스마트 의복
US20100217096A1 (en) * 2006-01-23 2010-08-26 Reuven Nanikashvili A health monitor and a method for health monitoring
KR20110069356A (ko) * 2009-12-17 2011-06-23 주식회사 이-클리오 고령친화형 헬스케어서비스 시스템
KR20150075981A (ko) * 2013-12-26 2015-07-06 엘지전자 주식회사 웨어러블 디바이스를 이용한 스마트 웨어 시스템

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20100217096A1 (en) * 2006-01-23 2010-08-26 Reuven Nanikashvili A health monitor and a method for health monitoring
KR20090110566A (ko) * 2008-04-18 2009-10-22 한국봉제기술연구소 생체신호 측정용 스마트 의복
KR20080093011A (ko) * 2008-09-29 2008-10-17 (주)테슬라시스템 차량 운행 정보의 자동 백업과 광고 정보의 저장, 디스플레이 및 원격 업데이트가 가능한 시스템
KR20110069356A (ko) * 2009-12-17 2011-06-23 주식회사 이-클리오 고령친화형 헬스케어서비스 시스템
KR20150075981A (ko) * 2013-12-26 2015-07-06 엘지전자 주식회사 웨어러블 디바이스를 이용한 스마트 웨어 시스템

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