KR20180136226A - Wearable computer - Google Patents

Abstract

The present invention relates to smart clothes interchanging a signal with a glasses terminal so that a keyboard overlaps an arm portion of clothes only to a user wearing a glasses terminal and an operation method thereof. The smart clothes comprise: a signal transmission/reception unit capable of transmitting and receiving a wireless signal with a glasses terminal processing data of an image photographed by a camera and an electronic fiber unit formed at an arm of clothes and electrically connected to the signal transmission/reception unit. By recognizing electronic fiber embedded in the arm of the clothes through the glasses terminal to overlap a keyboard image and wirelessly receiving and processing an input signal generated by touch of a user, a false recognition rate of input is reduced.

Description

≪ Desc / Clms Page number 1 > Wearable computer &

The present invention relates to a smart garment, and more particularly, to a smart garment. More particularly, the present invention relates to a smart garment, and more particularly, to a smart garment that recognizes electronic fibers embedded in an arm portion of a garment through a spectacle terminal, overlaps a keyboard image, receives input signals generated by a user's touch, And a method of operating the same.

The portable terminal has become an essential electronic device for modern people. The portable terminal includes a variety of input means such as a button-type keypad, a touch screen, and the like, and receives a user's command. Recently, a smart device such as a wristwatch or a spectacle, that is, a wearable computer, has been developed.

A wearable computer has a difficulty in providing an input device, and a method of projecting an input device using a laser or a beam projector is also used. However, the method of projecting a laser or a beam projector requires a separate planar space and recognizes the input using an operation sensor or the like, which has a disadvantage of high recognition rate. As a conventional technique, there is an input device and a method of a portable device of Korean Patent Laid-Open Publication No. 10-2014-0026665 as shown in Fig. This is a method of photographing a hand and projecting a keypad on a finger joint. Also, as shown in FIG. 2, there is a virtual input device system of US Patent No. 8228315. Although there is an advantage in that a separate keypad is not carried, there is a limit in that the erroneous recognition rate is high in view of recognizing all the input signals in the eyeglass terminal 10-1617580. Also, as shown in Fig. 3, there is a coating having an image display function of Japanese Patent Laid-Open No. 2002-302807. This discloses that an input signal is attached to one side arm of the garment. Although accuracy is high in transmitting and receiving signals through the cable embedded in the garment, there is a limitation in that it is difficult to change the utilization from the viewpoint of the keyboard in appearance. Thus, there is a growing demand for smart clothing that can operate as a keypad for wearers and spectacle wearers without the keyboard being visible from the outside.

The present invention relates to a smart garment, and more particularly, to a smart garment, which recognizes electronic fibers embedded in an arm portion of a garment through a spectacle terminal, overlaps a keyboard image, and wirelessly receives and processes an input signal generated by a user's touch, And a method of operating the same.

In order to achieve the above object, the smart clothing according to the present invention relates to a spectacle type eyeglass terminal capable of processing image data photographed by a camera of a wearable computer, and a smart garment compatible with the eyeglass terminal, A signal transmitting and receiving unit capable of transmitting and receiving a radio signal to and from the eyeglass terminal worn by a user and a conductive fiber formed on the arms of the clothes and electrically connected to the signal transmitting and receiving unit, And an electronic fiber portion in which an electronic fiber is disposed. At this time, when the user wearing the spectacle terminal views the electronic fiber part through the spectacle terminal, the spectacle terminal displays the keyboard image on the lens so that the keyboard image overlaps the electronic fiber part.

Or the keyboard image can be projected by the user's eyes. At this time, the electronic fiber unit may transmit the input signal generated by the user to the signal transmission unit. At this time, at least one mark portion is formed at one point of the electronic fiber portion so that the keyboard image is tracked to the position of the electronic fiber portion. The eyeglass terminal recognizes the mark portion, It can be traced on the fiber part. At this time, the electronic fiber portion may have a quadrangle shape, and the mark portions may be formed at apexes of the quadrangle. At this time, the signal transmitting and receiving unit and the spectacle terminal can wirelessly transmit and receive a signal using a radio wave or an infrared ray transmission method. At this time, it may further include a power supply unit electrically connected to the electronic fiber unit or the signal transmission / reception unit. At this time, when the user executes the keyboard mode, the spectacle terminal may overlap the keyboard image with the electronic fiber part. In addition, the method of operating a smart garment according to the present invention includes the steps of recognizing the arm portion of the smart garment from the image of the camera built in the glasses terminal, recognizing the electronic fiber portion of the arm portion of the recognized smart garment, And overlapping the map with the electronic fiber portion. In this case, the step of sending the input signal generated from the electronic fiber part to the eyeglass terminal through the signal transmission /

. At this time, the step of recognizing the electronic fiber part may recognize the electronic fiber part by recognizing the mark part formed at at least one point of the electronic fiber part.

According to the present invention, the keyboard can not be recognized from the outside, and the appearance is not different from that of ordinary clothes, so that it can be modified into various clothes. In addition, according to the present invention, since a keyboard input signal is generated using electronic fibers, the recognition rate is high. Further, according to the present invention, the mark is formed on the electronic fiber so that the keyboard image can be tracked, and the keyboard is projected only to the arm portion of the garment at various positions. Further, the present invention can automatically recognize the electronic fiber portion when the predetermined threshold value or more is determined based on the user's error rate.

1 to 3 are diagrams showing a conventional technique.
4 is a view of a smart garment according to an embodiment of the present invention.
5 and 6 are use state diagrams for an embodiment of the present invention.
Figure 7 is a flowchart of the operation of a smart garment according to an embodiment of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. 4 is a smart garment according to an embodiment of the present invention. 4, the smart clothing 100 includes a spectacle terminal 10 for processing image data photographed by a camera, a signal transmitting and receiving unit 120 for transmitting and receiving a wireless signal, And an electronic fiber unit 110 connected to the transmission / reception unit 120. Here, the eyeglass terminal 10 is a wearable computer such as a glasses type information terminal, and means a device for realizing an augmented reality. The smart clothing of the present invention can be interlocked with the augmented reality realizing device such as the eyeglass terminal 10, and provides a convenient input device for the augmented reality device. The present invention relates to a smart garment having a function of recognizing a keyboard through a glasses terminal and reducing a false recognition rate by operating in cooperation with a spectacle type eyeglass terminal of a wearable computer. At this time, the signal transmission / reception unit 120 or the electronic fiber unit 110 is electrically connected to the power supply unit 140 to receive power. That is, the power supply unit 140, the signal transmission / reception unit 120, and the electronic fiber unit 110 are connected through the electric wire. The signal transmitting and receiving unit 120 and the electronic fiber unit 110 may be connected to the power unit 140 by electric wires or may be connected to each other. The wire may be made of a metal having a low electrical resistance, or may be made of an electronic fiber. It is preferable to coat the electronic fiber with water so as to be waterproof, and it can be coated with carbon graphene to reduce the resistance, or coated with CNT (Carbon Nanotube) to improve conductivity, insulation and semiconductivity. The power supply unit 140 may have a built-in battery or a structure that receives power from an external solar panel. That is, since the flexible solar panel is attached to the back portion or the arm portion of the smart garment 100,

And the solar panel and the power supply unit 140 are electrically connected to each other to charge the power to the power supply unit 140. Thereafter, the charged power unit 140 supplies power to the electronic fiber unit 110 or the signal transmission / reception unit 120. Alternatively, the connector may be connected to the electronic fiber and may be charged with electric power from the outside through the connector. The connector may be a special adapter that is electrically connected to an external power source, or it may be an adapter developed in the form of a button. The electronic fiber part 110 is a part in which a fiber for transmitting a signal to the signal transmission / reception part 120 by the touch pressure is disposed. The conductive fiber is a fiber containing a metal material capable of flowing electricity, and the electronic fiber is an e-textiles, mainly a fiber material using conductive ink, metal wire, plated synthetic fiber and filament, plating, etched fabric and conductive polymer.

Several lines of electronic fibers are arranged in a certain region of the arm portion of the smart garment 100 according to the present invention. Each column is spaced at regular intervals and generates an electrical input signal by the user's pressure. The electronic fiber unit 110, which is an area in which the electronic fibers are disposed, is uniformly divided and transmits different signals generated by a user's touch to the signal transmission / reception unit 120. Different

The signal is recognized as a kind of coordinate, and the signal transmitting and receiving unit 120 transmits each signal to the glasses terminal 10. The signals inputted in the spectacle terminal 10 may be processed as coordinates or may be converted into coordinates in the signal transmission and reception unit 120 to transmit the coordinate signals to the spectacle terminal 10. [ By placing it on the arm portion of the smart garment 100 using electronic fibers, it is recognized as a general outfit on the outside. The electronic fiber part 110 may be formed in an elliptical shape, a circular shape, or the like, but is preferably formed in a rectangular shape or a square shape as in a general keyboard shape. For convenience of explanation, a rectangle is assumed, and the present invention is not limited to the drawings. The signal transmitting and receiving unit 120 is electrically connected to the electronic fiber unit 110 and exchanges radio signals with an external electronic device.

And is connected to a conductive fiber or an electronic fiber through which a signal flows with the electronic fiber part 110 to transmit a signal from the electronic fiber part 110 to an external electronic device. In this case, the external electronic device is a wearable computer worn by the user, and a typical example is a glass-shaped terminal. The signal transmitting and receiving unit 120 may be embedded in the smart garment, and may be detachably attached to the smart garment as an external communication device. That is, the electronic fiber part 110 and the snap button are electrically connected, and the external communication device can be used by connecting to the snap button. The signal transmitting and receiving unit 120 can send and transmit a wireless signal using Bluetooth with the eyeglass terminal 10.

5 and 6 are use state diagrams for an embodiment of the present invention. 3A shows a state in which a user inputs a keyboard input command while wearing the smart clothing of the present invention, and FIG. 3B shows a state in which the present invention Of the smart garment of the present invention.

5 and 6, when the user wears the smart clothing 100 and the glasses terminal 10 as a wearable computer and the user views the arm portion of the smart garment 100 through the glasses terminal 10, see. An electronic fiber portion 110 is disposed in an arm portion of the smart garment 100. The electronic fiber part 110 through which an electronic signal flows is a part where conductive fibers or electronic fibers that generate or flow an electronic signal by the touch of a user are disposed.

The spectacle terminal 10 incorporates a camera, captures an image, and maps a specific area to recognize the electronic fiber unit 110. [ The method of mapping the specific area and recognizing the electronic fiber part 110 may be a method of recognizing the electronic fiber part 110 by disposing the mark part 130 on the electronic fiber part 110. Specifically, the mark unit 130 is formed at four corners of the rectangular electronic fiber unit 110. The eyeglass terminal 10 recognizes the mark unit 130 among the photographed images and displays the keyboard image on the mark unit 130. [ And displays the keyboard image on the lens of the eyeglass terminal 10 by the user's eye. Therefore, the keyboard is visible only to the eyes of the wearer wearing the spectacle terminal 10, and is recognized along the mark portion 130, so that the keyboard image can be displayed only in the arm portion of the smart garment 10 by tracking.

At this time, the eyeglass terminal 10 may display a keyboard on the electronic fiber unit 110 only when the keyboard mode is executed. In other words, when the eyeglass terminal 10 does not execute the keyboard mode, the user may look at the arm of the clothes, but if the user views the arms of the clothes through the eyeglasses terminal 10 after executing the keyboard mode, (10)

And overlaps the keyboard image with the keyboard image. The eyeglass terminal 10 can receive a keyboard input signal from the signal transmitting and receiving unit 120. [ The keyboard mode is programmed in the eyeglass terminal 10 and can be turned on / off via a separate switch. Alternatively, it may be recognized that the sensor built in the eyeglass terminal 10 has a certain distance from the electronic fiber unit 110, and the keyboard mode may be activated when the distance is less than a predetermined distance. When the user views the arm portion of the smart garment 100 through the eyeglass terminal 10, the user brightens the image with the eye of the user so that the keyboard image is projected onto the electronic fiber portion 110. That is, the user recognizes the image with the keyboard in the arm portion of the smart garment 100, and the keyboard is not seen when the other person who does not wear the glasses terminal 10 sees it. Therefore,

Can be used in the same manner as ordinary clothes, and the keyboard can be seen and operated only by the person wearing the glasses terminal 10.

Figure 7 is a flowchart of the operation of a smart garment according to an embodiment of the present invention. Referring to FIG. 4, the eyeglass terminal includes a camera for photographing a forward image, and recognizes the arm of the smart garment from the image captured by the camera (S100). However, the step of recognizing the arm of smart clothing is premised on that the electronic fiber portion is embedded in the smart arm portion. That is, the portion to be ultimately recognized by the eyeglass terminal is the electronic fiber portion, and the step of recognizing the electronic fiber portion may be immediately recognized without omitting the arm portion recognition step of the smart garment. Alternatively, the arm portion and the electronic fiber portion of the smart garment may be recognized simultaneously for accurate recognition of the electronic fiber portion.

After step S100, the electronic fiber part of the arm part of the recognized smart garment is recognized (S200). [0044] The position of the electronic fiber portion can be recognized through the mark portion located at least one point of the electronic fiber portion. When the electronic fiber portion is a quadrangle, mark portions are formed at four vertexes. Alternatively, the mark portion may be formed at the center of the electronic fiber portion. At this time, the spectacle terminal can be operated so that the spectacle terminal automatically recognizes the electronic fiber portion when a sensor for measuring the distance between the signal transmission portion or the electronic fiber portion is attached and the distance is less than a predetermined distance. Further, it is possible to control whether or not the electronic fiber portion is recognized through a switch provided in the spectacle terminal. The eyeglass terminal can be a physical button or execute a program such as an application to recognize the electronic fiber portion. In other words, the keyboard mode for recognizing the electronic fiber portion can be controlled by a switch or an app.

After step S200, the keyboard map previously stored in the memory of the eyeglass terminal is overlapped with the recognized electronic fiber subregion (S300). The pre-stored keyboard map is a keyboard image that the user wants to use, and can be converted into various shapes of keyboard, font, or quick keyboard through various applications. The method of overlapping the electronic fiber part may be a method of displaying an image to the reality in a spectacle terminal, that is, a method of projecting a keyboard image directly on a user's eye by implementing an augmented reality, Or the like.

At this time, the eyeglass terminal can transmit the map setting signal to the signal transmitting and receiving unit so that the coordinate of the electronic fiber unit matches the predetermined keyboard map. That is, the eyeglass terminal transmits a map setting signal to the signal transmission unit so as to correspond to the shape of the keyboard, and then the signal transmission unit receives the keyboard input signal from the electronic fiber unit.

The mark portion is formed at a specific point of the electronic fiber portion, and overlaps the keyboard image using the mark portion as a reference coordinate. Also, it is possible to track and display an overlapped keyboard image even in the movement of the mark portion. Thus, even when the user wears smart clothing and moves his / her arm, the keyboard moves along. However, according to the present invention, since the command signal generated from the electronic fiber portion of the smart garment is transmitted to the eyeglass terminal, the error recognition rate can be greatly reduced .

After step S300, the glasses terminal receives an input signal generated by the user touching the electronic fiber part through the signal transmission / reception part (S400). In the electronic fiber portion, the conductive fibers or the electronic fibers are arranged with the heat being constantly aligned. Specifically, in the electronic fiber portion, the coordinates are set so that the conductive fibers or the electronic fibers are aligned by aligning a plurality of rows, and each space is partitioned. Signals generated at the touch of the divided space are different from each other, and the generated signal is transmitted to the signal transmission unit. The signal transmission unit transmits the received signal to the spectacle terminal.

For example, when a user presses a portion of the (1,10) coordinate of the electronic fiber portion, a signal is generated in the corresponding segmented portion and the coordinate information is transmitted to the signal transmission / reception portion. The signal transmitting and receiving unit transmits the received coordinate information (1,10) to the spectacle terminal.

To summarize, an electric signal is generated by the touch pressure of the user, and an electric signal generated by electrically connecting the electronic fiber unit and the signal transmission / reception unit is transmitted to the signal transmission / reception unit. The signal transmission method of the spectacle terminal may be a method of connecting a wired cable, but it may be a wireless communication method. As a typical example, a keyboard input signal can be transmitted to a glasses terminal using a wireless signal such as Bluetooth or Wi-Fi. In other words, the signal transmitting and receiving unit and the spectacle terminal can wirelessly transmit and receive signals using a radio wave or an infrared ray transmission method.

After the step S400, the spectacle terminal processes the input signal received from the signal transmitting unit through the internal control unit (S500). The control unit processes the input signal and outputs it to the eyeglass terminal. The eyeglass terminal receives the coordinate information and compares the coordinate information with the keyboard map to determine the output value. For example, assuming that the received coordinate information corresponds to (1, 10) and the keyboard value corresponding to coordinates (1, 10) is 'B', the output value is determined as B. And the determined B value is displayed as B on the output device of the eyeglass terminal. By determining the output value using the coordinate information as described above, there is compatibility that various keyboard images can be applied.

In addition, the present invention can reset the keyboard image overlap (Overlap) in consideration of the user's mistyping rate. The feedback to increase the synchro rate between the displayed keyboard image and the wiring of the electronic fiber part can be implemented through the embedded program.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

10: Glasses terminal 100: Smart clothing
110: electronic fiber unit 120: signal transmission / reception unit
130: mark portion 140: power source portion

Claims (8)

The present invention relates to a spectacle type spectacle terminal capable of processing image data photographed by a camera of a wearable computer and a smart garment compatible with the spectacle terminal, A signal transmission / reception unit; And an electronic fiber unit formed on an arm of the garment and electrically connected to the signal transmitting and receiving unit and having an electronic fiber arranged to generate an input signal by a touch of the user, The glasses terminal displays the keyboard image on the lens or the keyboard image on the lens so that the electronic image is overlapped with the keyboard image when the electronic fiber part is viewed through the glasses terminal, Wherein the signal transmitting / receiving unit converts the input signal generated due to the touch pressure of the electronic fiber part, in which the electronic fibers are uniformly partitioned, into coordinates, and transmits the coordinates to the glasses terminal. The electronic device according to claim 1, wherein at least one mark portion is formed at one point of the electronic fiber portion so that the keyboard image is tracked to the position of the electronic fiber portion, and the glasses terminal recognizes the mark portion, Characterized in that the marking is displayed on the electronic fiber part. The smart garment of claim 2, wherein the electronic fiber portion is rectangular and the mark portion is formed at the vertex of the square. The smart garment according to claim 1, wherein the signal transmitting and receiving unit and the spectacle terminal wirelessly transmit and receive a signal using a radio wave or an infrared ray transmission method. The smart garment according to claim 1, further comprising a power unit electrically connected to the electronic fiber unit or the signal transmitting and receiving unit. The smart garment according to claim 1, wherein when the user performs a keyboard mode, the glasses terminal overlaps the keyboard image with the electronic fiber part. A spectacle type eyeglass terminal capable of processing image data photographed by a camera of a wearable computer, an electronic fiber unit formed on an arm of the clothes, and a signal transmission / reception unit transmitting / receiving a radio signal between the eyeglass terminal and the electronic fiber unit The method comprising the steps of: recognizing an arm portion of a smart garment through the spectacle terminal; Recognizing, through the eyeglass terminal, the electronic fiber portion in which the electronic fiber is disposed among the recognized arm portions of the smart garment; Displaying a keyboard image on a lens of the eyeglass terminal or projecting the keyboard image with a user's eye by overlapping a keyboard map stored in the electronic fiber unit through the eyeglass terminal; Wherein the signal transmission and reception unit causes the electronic fiber unit, in which the user divides and uniformly divides the electronic fibers,
Generating an input signal according to the touch pressure; And converting the generated input signal into coordinates by the signal transmitting and receiving unit and transmitting the coordinates to the glasses terminal; ≪ / RTI > 8. The method of claim 7, wherein recognizing the electronic fiber portion in which the electronic fiber is disposed among the arm portions of the recognized smart garment through the eyeglass terminal recognizes a mark portion formed at at least one point of the electronic fiber portion, Recognizing fiber parts
Lt; RTI ID = 0.0 > 1, < / RTI >

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