KR20170056300A - Mobile terminal and wearable device - Google Patents
Mobile terminal and wearable device Download PDFInfo
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- KR20170056300A KR20170056300A KR1020150159810A KR20150159810A KR20170056300A KR 20170056300 A KR20170056300 A KR 20170056300A KR 1020150159810 A KR1020150159810 A KR 1020150159810A KR 20150159810 A KR20150159810 A KR 20150159810A KR 20170056300 A KR20170056300 A KR 20170056300A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input 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
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input 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
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/011—Arrangements for interaction with the human body, e.g. for user immersion in virtual reality
- G06F3/015—Input arrangements based on nervous system activity detection, e.g. brain waves [EEG] detection, electromyograms [EMG] detection, electrodermal response detection
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input 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
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
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Abstract
Description
The present invention relates to a wearable device that cooperates with a mobile terminal and a mobile terminal.
A terminal can be divided into a mobile terminal (mobile / portable terminal) and a stationary terminal according to whether the terminal can be moved. The mobile terminal can be divided into a handheld terminal and a vehicle mounted terminal according to whether the user can directly carry the mobile terminal.
The functions of mobile terminals are diversified. For example, there are data and voice communication, photographing and video shooting through a camera, voice recording, music file playback through a speaker system, and outputting an image or video on a display unit. Some terminals are equipped with an electronic game play function or a multimedia player function. In particular, modern mobile terminals can receive multicast signals that provide visual content such as broadcast and video or television programs.
Such a terminal has various functions, for example, in the form of a multimedia device having multiple functions such as photographing and photographing of a moving picture, reproduction of a music or video file, reception of a game and broadcasting, etc. .
In order to support and enhance the functionality of such terminals, it may be considered to improve the structural and / or software parts of the terminal.
On the other hand, as interest in health care has increased, there has been an increasing demand for a user interface for collecting biometric information of a user and guiding a user's physical activity.
The present invention is directed to solving the above-mentioned problems and other problems. Another object of the present invention is to provide a mobile terminal that provides different information related to a movement according to a user's usual momentum, exercise intensity, and exercise interest.
Another object of the present invention is to provide a wearable device that monitors a user's heart rate and induces deep breathing of a user according to a user's heart rate.
According to an aspect of the present invention, there is provided a display apparatus including a main body, a display unit disposed on a front surface of the main body, a sensing unit configured to sense movement of the main body and form first sensing information, A GPS receiver configured to receive position information of the main body, and an exercise amount information generating unit configured to store exercise amount information generated using at least one of the first sensing information and the position information of the main body, Wherein the control unit selects one of the first and second execution modes based on the stored momentum information and displays the screen information corresponding to the execution of any one of the execution modes, And a first controller for controlling the display unit.
In one embodiment, the memory further includes a memory, and the first control unit can select any one of the execution modes according to the number of motion-related applications installed in the memory. Accordingly, the mobile terminal according to the present invention can select different execution modes according to the user's exercise interest.
The wearable device may include a touch screen, a photoplethysmogram (PPG) configured to sense biometric information of a user, and generate second sensing information, ) And a second graphic information to guide the breathing of the user using the second sensing information when the calculated heart rate satisfies a predetermined condition, And a second controller for controlling the touch screen to display the touch screen.
In one embodiment, the second control unit may control the touch screen such that at least a part of the graphic object guiding the user's breathing changes according to the amount of the user's breath. This allows the user to take a deep breath while monitoring the user's breathing volume in real time.
According to at least one of the embodiments of the present invention, the mobile terminal according to the present invention can provide different user interface screens related to the healthcare application according to the user's amount of exercise, exercise intensity, and exercise interest.
According to at least one of the embodiments of the present invention, the user can monitor the user's body condition in real time, and can take appropriate measures according to the user's body condition.
1A is a block diagram illustrating a mobile terminal according to the present invention.
1B and 1C are conceptual diagrams illustrating an example of a mobile terminal according to the present invention in different directions.
2 is a conceptual diagram for explaining another example of the
3 is a perspective view showing an example of a watch-type
FIG. 4 is a conceptual diagram illustrating a state in which a mobile terminal and a wearable device form one wireless communication system according to the present invention.
5 is a flowchart showing a control method of a mobile terminal according to the present invention.
6 is a conceptual diagram showing a representative embodiment of a mobile terminal according to the present invention.
7 is a conceptual diagram showing an execution screen according to the first execution mode described with reference to Fig.
8 is a conceptual diagram showing an execution screen according to the second execution mode execution described with reference to Fig.
9 is a conceptual diagram illustrating an embodiment of measuring a user's heart rate in a wearable device according to the present invention and displaying a body score calculated using the measured heart rate.
10A and 10B are conceptual diagrams showing an embodiment for guiding a user's breathing in a wearable device according to the present invention.
FIG. 11 is a conceptual diagram illustrating an embodiment in which a wearable device according to the present invention derives a user's motion using schedule information of a user.
FIG. 12 is a conceptual diagram illustrating an embodiment in which a wearable device according to the present invention guides a user's physical activity according to a physical condition of the user.
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used to designate identical or similar elements, and redundant description thereof will be omitted. The suffix "module" and " part "for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role. In the following description of the embodiments of the present invention, a detailed description of related arts will be omitted when it is determined that the gist of the embodiments disclosed herein may be blurred. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. , ≪ / RTI > equivalents, and alternatives.
The mobile terminal described in this specification includes a mobile phone, a smart phone, a laptop computer, a digital broadcasting terminal, a personal digital assistant (PDA), a portable multimedia player (PMP), a navigation device, a slate PC A tablet PC, an ultrabook, a wearable device such as a smartwatch, a smart glass, and a head mounted display (HMD). have.
However, it will be appreciated by those skilled in the art that the configuration according to the embodiments described herein may be applied to fixed terminals such as a digital TV, a desktop computer, a digital signage, and the like, will be.
1A to 1C are block diagrams for explaining a mobile terminal according to the present invention, and FIGS. 1B and 1C are conceptual diagrams showing an example of a mobile terminal according to the present invention in different directions.
The
The
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In addition, the
In addition to the operations related to the application program, the
In addition, the
The
At least some of the components may operate in cooperation with one another to implement a method of operation, control, or control of a mobile terminal according to various embodiments described below. In addition, the operation, control, or control method of the mobile terminal may be implemented on the mobile terminal by driving at least one application program stored in the
Hereinafter, the various components of the
First, referring to the
The
The wireless signal may include various types of data depending on a voice call signal, a video call signal or a text / multimedia message transmission / reception.
The
Wireless Internet technologies include, for example, wireless LAN (WLAN), wireless fidelity (Wi-Fi), wireless fidelity (Wi-Fi) Direct, DLNA (Digital Living Network Alliance), WiBro Interoperability for Microwave Access, High Speed Downlink Packet Access (HSDPA), High Speed Uplink Packet Access (HSUPA), Long Term Evolution (LTE) and Long Term Evolution-Advanced (LTE-A) 113 transmit and receive data according to at least one wireless Internet technology, including Internet technologies not listed above.
The
The short-
Here, the other
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Meanwhile, the
First, the
Examples of the
On the other hand, for convenience of explanation, the act of recognizing that the object is located on the touch screen in proximity with no object touching the touch screen is referred to as "proximity touch & The act of actually touching an object on the screen is called a "contact touch. &Quot; The position at which the object is closely touched on the touch screen means a position where the object corresponds to the touch screen vertically when the object is touched. The
The touch sensor uses a touch (or touch input) applied to the touch screen (or the display unit 151) by using at least one of various touch methods such as a resistance film type, a capacitive type, an infrared type, an ultrasonic type, Detection.
For example, the touch sensor may be configured to convert a change in a pressure applied to a specific portion of the touch screen or a capacitance generated in a specific portion to an electrical input signal. The touch sensor may be configured to detect a position, an area, a pressure at the time of touch, a capacitance at the time of touch, and the like where a touch object touching the touch screen is touched on the touch sensor. Here, the touch object may be a finger, a touch pen, a stylus pen, a pointer, or the like as an object to which a touch is applied to the touch sensor.
Thus, when there is a touch input to the touch sensor, the corresponding signal (s) is sent to the touch controller. The touch controller processes the signal (s) and transmits the corresponding data to the
On the other hand, the
On the other hand, the touch sensors and the proximity sensors discussed above can be used independently or in combination to provide a short touch (touch), a long touch, a multi touch, a drag touch ), Flick touch, pinch-in touch, pinch-out touch, swipe touch, hovering touch, and the like. Touch can be sensed.
The ultrasonic sensor can recognize the position information of the object to be sensed by using ultrasonic waves. Meanwhile, the
The
The
The
Also, the
In the stereoscopic display unit, a three-dimensional display system such as a stereoscopic system (glasses system), an autostereoscopic system (no-glasses system), and a projection system (holographic system) can be applied.
The
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In addition to vibration, the
The
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The signal output from the
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The identification module is a chip for storing various information for authenticating the use right of the
The
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Meanwhile, as described above, the
In addition, the
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Also,
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As another example, the
In the following, various embodiments may be embodied in a recording medium readable by a computer or similar device using, for example, software, hardware, or a combination thereof.
Referring to FIGS. 1B and 1C, the disclosed
Here, the terminal body can be understood as a concept of referring to the
The
A
In some cases, electronic components may also be mounted on the
As shown, when the
These
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Meanwhile, the
The
1B and 1C, a
However, these configurations are not limited to this arrangement. These configurations may be excluded or replaced as needed, or placed on different planes. For example, the
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In addition, the
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The touch sensor may be a film having a touch pattern and disposed between the
In this way, the
The first
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The first and
In this figure, the
The contents input by the first and
On the other hand, a rear input unit (not shown) may be provided on the rear surface of the terminal body as another example of the
The rear input unit may be disposed so as to overlap with the
When a rear input unit is provided on the rear surface of the terminal body, a new type of user interface using the rear input unit can be realized. When the
Meanwhile, the
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And a
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And a second
The terminal body may be provided with at least one antenna for wireless communication. The antenna may be embedded in the terminal body or formed in the case. For example, an antenna constituting a part of the broadcast receiving module 111 (see FIG. 1A) may be configured to be able to be drawn out from the terminal body. Alternatively, the antenna may be formed in a film type and attached to the inner surface of the
The terminal body is provided with a power supply unit 190 (see FIG. 1A) for supplying power to the
The
The
The
Meanwhile, in the present invention, information processed in the mobile terminal can be displayed using a flexible display. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.
2 is a conceptual diagram for explaining another example of the
As shown, the
A typical flexible display refers to a sturdy display that is lightweight and does not break easily, such as paper, formed on a thin, flexible substrate that can flex, bend, fold, twist, or curl like a conventional flat panel display.
In addition, the electronic paper is a display technology to which general ink characteristics are applied, and the point that the reflected light is used is different from the conventional flat panel display. The electronic paper can be changed by using a twist ball or electrophoresis (electrophoresis) using a capsule.
In a state in which the
The
Meanwhile, the
Meanwhile, the
The deformation detecting unit may be provided in the
The
Meanwhile, the
In addition, a battery (not shown) included in the
The state change of the
Meanwhile, the mobile terminal can be extended to a wearable device that can be worn on the body beyond the dimension that the user mainly grasps and uses. These wearable devices include smart watch, smart glass, and head mounted display (HMD). Hereinafter, examples of a mobile terminal extended to a wearable device will be described.
The wearable device can be made to be able to exchange (or interlock) data with another
3 is a perspective view showing an example of a watch-type
3, the watch-type
The
The watch-type
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On the other hand, the
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Meanwhile, the mobile terminal and the wearable device can share data through wireless communication, and can form a single system.
FIG. 4 is a conceptual diagram illustrating a state in which a mobile terminal and a wearable device form one wireless communication system according to the present invention.
Each of the mobile terminal and the wearable device may include the wireless communication unit described above, and data can be shared between the mobile terminal and the wearable device by using the wireless communication unit.
Particularly, the wearable device is fixed to the body of the user and can collect biometric information of the user in real time, and the mobile terminal can receive the biometric information of the user collected from the wearable device and receive the control command related thereto.
Hereinafter, embodiments related to a control method that can be implemented in the mobile terminal and the wearable device configured as above will be described with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.
In the following description of the drawings, the drawings drawn on the left side are referred to in the order of clockwise or top-down.
The mobile terminal according to the present invention provides different information related to the exercise according to the user's usual activity amount, exercise amount, exercise intensity and exercise interest.
To this end, the mobile terminal according to the present invention includes a sensing unit, a GPS receiver, and a first control unit. Hereinafter, the above-described constituent elements will be described in detail.
FIG. 5 is a flowchart showing a control method of a mobile terminal according to the present invention, and FIG. 6 is a conceptual diagram showing a representative embodiment of a mobile terminal according to the present invention.
In the mobile terminal according to the present invention, the step of storing the user's momentum information (S510) is proceeded.
Here, the first controller generates the momentum information using at least one of the sensing unit and the GPS receiver included in the mobile terminal.
Specifically, the sensing unit senses the movement of the main body and forms the first sensing information. Further, the GPS receiver is configured to receive position information of the main body. The first control unit generates the momentum information using at least one of the first sensing information and the position information of the main body. For example, the first controller can calculate the movement distance of the main body using the first sensing information and the position information of the main body, and calculate the user's momentum based on the calculated movement distance.
Meanwhile, in the mobile terminal of the present invention, a predetermined application can be executed based on a user request. Here, the predetermined application may be an application that provides information related to exercise. Hereinafter, for convenience of explanation, an application providing information related to the exercise is expressed as a " predetermined application ".
When the predetermined application is executed, information related to the motion is displayed on the display unit. Here, the information related to the exercise may include a total exercise amount of the user, a exercise amount per time, a type of exercise performed by the user, a weight change amount of the user, and the like. Information related to the motion may be generated from previously stored momentum information.
On the other hand, the predetermined application includes two different execution modes. Specifically, the predetermined application can be executed in the first and second execution modes, and different execution screens for each execution mode are displayed on the display unit. Explanation of execution screens according to execution of each of the first and second execution modes will be described later.
When the execution request for the predetermined application is applied, the first controller selects one of the first and second execution modes based on the pre-stored momentum information (S520).
The first control unit selects one of the first and second execution modes according to whether the pre-stored momentum information satisfies a predetermined condition. More specifically, the first control unit selects the first execution mode when the pre-stored momentum information does not satisfy the pre-set condition, and selects the second execution mode when the predetermined condition is satisfied .
Here, the predetermined condition may be set by the user. For example, the condition may be defined as a user's exercise frequency exceeding a reference value, a user's goal achievement rate exceeding a reference value, a user's monthly average exercise amount exceeding a reference value, and the like.
Further, a plurality of the above conditions can be set. The first control unit may select any one of the first and second execution modes according to the number of conditions satisfying the pre-stored momentum information among a plurality of conditions. For example, the condition may be set to four, and the first control unit may select the first execution mode when the conditions satisfying the pre-stored momentum information are two or less, You can choose an execution mode.
On the other hand, the first control unit sets a reference time based on the user input, and selects either the first or the second execution mode based on the exercise amount information stored within the reference time from when the execution request is applied .
For example, when the user sets the reference time as one month, the first controller selects the first and second execution modes using only the exercise amount information stored within one month based on the time point at which the execution request is applied .
When the execution mode is selected, the first control unit controls the display unit to display the screen information according to the execution of the selected execution mode (S530).
For example, as shown in FIG. 6, a
6, an execution screen 620 (hereinafter referred to as a first screen) according to execution of the first execution mode may be displayed on the display unit, and as shown in the lower right portion of FIG. 6, An execution screen 630 (hereinafter referred to as a second screen) according to execution of the second execution mode can be displayed.
The first screen may display the current number of steps and the target step number of the user. Also, the first screen may display a graph indicating the user's exercise time and the type of the exercise, and the information related to the user's exercise goal may be briefly displayed.
In addition, information related to the weight of the user (WEIGHT) may be displayed on the first screen. Here, the information related to the weight may be a weight value itself of the user, but it may be a message (e.g., IDEAL) indicating whether the current weight of the user is a proper weight, as shown in FIG.
Also, the first control unit compares the user's momentum with the momentum of other registered users, and controls the touch screen so that information related to the user's ranking is displayed on the first screen. Here, the information related to the rank may be a number indicating the rank of the user, but may be a message (e.g., DOWN) indicating whether the rank of the user is increased as shown in FIG.
On the other hand, the second screen displays more specific information than the first screen. More specifically, the second screen displays the user's current step number and the target step number together with the target achievement rate of the user.
In addition, the second screen may display a graph indicating the user's exercise execution time and the type of the exercise. Unlike the first screen, the intensity of the exercise performed by the user at a specific time is displayed together (for example, By varying the height of the bars included in the graph).
In addition, information related to the user's exercise goals (CHALLENGES) may be specifically displayed on the second screen. For example, on the second screen, the target achievement amount for each exercise type can be displayed.
In addition, information related to the weight of the user may be displayed on the second screen. Unlike the first screen, a graph showing the change in weight of the user can be displayed.
In addition, information related to the user's ranking (RANKING) may be displayed on the second screen as in the first screen. At this time, in the second screen, information related to another user having a higher ranking than the user may be displayed along with the ranking of the user.
Meanwhile, the first control unit generates and stores momentum information even during execution of the predetermined application. Thus, the momentum information is updated in real time. When the updated momentum information satisfies the condition as the momentum information is updated, the first controller changes the selected one of the execution modes to another one. Thus, the execution screen displayed on the display unit is changed.
As described above, the mobile terminal according to the present invention provides different interface screens according to the user's usual momentum, exercise intensity, and exercise interest. That is, when the user constantly performs the exercise and the degree of interest in the exercise increases, the mobile terminal according to the present invention provides a user interface screen that provides specific information on the exercise suitable for the user.
Hereinafter, the first and second execution modes will be described in detail.
FIG. 7 is a conceptual diagram showing an execution screen according to the first execution mode execution described in FIG. 6, and FIG. 8 is a conceptual diagram showing an execution screen according to the second execution mode execution described with reference to FIG.
As described in FIG. 6, when the first execution mode is executed, an
For example, as shown in FIG. 7, when a touch is applied to the graph included in the
On the other hand, as described in FIG. 6, when the second execution mode is executed, an
For example, as shown in FIG. 8, when a flicking input is applied to the
Hereinafter, an embodiment in which the mobile terminal according to the present invention selects an execution mode according to a user's exercise interest will be described.
As the degree of interest in the user's movement increases, the frequency of searching for exercise-related contents using the mobile terminal may increase, or the number of exercise-related words included in the conversation shared with other users may increase. In addition, the number of healthcare-related applications installed in the mobile terminal can be increased.
The first control unit searches for messages previously stored in the mobile terminal and at least one word preset in the Internet search record if an execution request for the predetermined application is granted. The first control unit selects one of the first and second execution modes according to the search result.
Here, the preset at least one word may be a word associated with exercise and may be set by a user. For example, the word may include a word indicating a kind of a sport, a term related to a specific sport, and the like.
Meanwhile, the first control unit selects the first execution mode when the number of searched words is equal to or less than the reference value, and selects the second execution mode when the number of searched words is equal to or greater than the reference value.
On the other hand, the first control unit searches for an application satisfying a predetermined condition among a plurality of applications installed in the memory, and selects one of the first and second execution modes based on the number of retrieved applications . Here, the application satisfying the predetermined condition is a healthcare-related application, and the type of the application can be set by the user.
Accordingly, the mobile terminal according to the present invention can provide different information related to the exercise according to the user's exercise interest.
Meanwhile, the exercise amount information may be information received from an external device, and the external device may be a wearable device that is fixed to the user's body and collects the user's body information in real time.
Hereinafter, a wearable device for transmitting momentum information to a mobile terminal according to the present invention will be described.
FIG. 9 is a conceptual diagram illustrating an embodiment of measuring a user's heart rate in a wearable device according to the present invention and displaying a body score calculated using the measured heart rate, FIGS. 10A and 10B are views showing a wearable device according to the present invention Fig. 8 is a conceptual diagram showing an embodiment for guiding the user's breathing. Fig.
The wearable device according to the present invention may include a touch screen, a photoplethysmogram (PPG) sensor, and a second control unit. Hereinafter, the above-described components will be described in detail with reference to the accompanying drawings.
The PPG sensor senses the user's biometric information and generates second sensing information. When the wearable device according to the present invention is formed so as to be worn on the wearer's wrist, the PPG sensor can continuously sense the user's biometric information and generate the second sensing information.
The second sensing information may be information related to the heart rate of the user. The second control unit calculates the heart rate of the user using the second sensing information. Here, the heart rate may be defined as the number of times the heart beats for one minute.
Meanwhile, the exercise amount information transmitted to the mobile terminal may be the calculated heart rate.
The second control unit controls the touch screen so that a graphical object guiding the user's breathing is displayed using the second sensing information when the calculated heart rate satisfies a predetermined condition.
Specifically, the second control unit can calculate the user's body score using the calculated heart rate. For example, the second control unit gives a higher body score as the calculated amount of change in the heart rate is larger, and gives a lower body score as the calculated amount of change in the heart rate is smaller, based on the calculated amount of change in the heart rate.
For example, as shown in FIG. 9, on the touch screen,
Generally, the more stress a user receives, the higher the body score calculated in the above manner. The wearable device according to the present invention can reduce the stress that the user receives when it is determined that the user is under stress over a predetermined value.
Specifically, the second controller controls the touch screen so that a graphic object guiding the user's breath is displayed when the body score calculated in the above-described manner is equal to or greater than the reference value.
For example, as shown in the first figure of FIG. 10A, when the calculated body score is not less than the reference value (for example, 78), the touch screen displays a message saying that the body score is too high ") Is displayed, and a message is displayed to take a break or to instruct the user to exercise.
Thereafter, when the body score is equal to or greater than the reference value (for example, 4 seconds or more) for a predetermined time, a
More specifically, the graphic object guiding the user's breath includes a first
At least one of the shape, shape, and size of the first
The second control unit calculates the amount of the user's breath using the second sensing information and controls the touch screen so that at least one of the shape, shape, and size of the first graphic object changes according to the calculated breath amount.
This allows the user to intuitively grasp the amount of the user's own breathing by taking a deep breath while gazing at the touch screen.
The second
For example, the second control unit may control the touch screen such that the colors of the grid lines sequentially change from left to right or from right to left. The user may adjust the amount of respiration to match the speed at which the color of the grid lines changes so that the border of the first
Specifically, when inducing the user's breath, the second control unit controls the touch screen so that the colors of the grid lines change from left to right. When inducing the user's exhalation, Control the touch screen to turn left.
Thus, the wearable device according to the present invention can guide the user's breathing.
On the other hand, when the wearable device of the present invention starts breathing guidance, the
In addition, a
For example, as shown in FIG. 10B, a user's
The second control unit controls the touch screen to change the color of the fifth graduation line of the second
On the other hand, the touch screen displays a body score that changes according to the user's breath. Thus, the user can check the effect of deep breathing in real time.
Hereinafter, an embodiment in which a wearable device according to the present invention induces a user's motion will be described.
FIG. 11 is a conceptual diagram illustrating an embodiment in which a wearable device according to the present invention derives a user's motion using schedule information of a user.
The second control unit searches the previously stored schedule information when the calculated body score is equal to or greater than the reference value.
Here, the schedule information may be information related to the schedule management application. Specifically, the user can execute the schedule management application to input and store the schedule of the user on a year, month, day, and hour basis.
The second control unit searches the unregistered time zone of the schedule information and controls the touch screen to display a message to guide the user to exercise at the searched time zone.
For example, as shown in FIG. 11, when the body score is equal to or greater than the reference value (for example, 78), a
Hereinafter, an embodiment in which a wearable device according to the present invention guides a user's physical activity according to a user's body state will be described.
FIG. 12 is a conceptual diagram illustrating an embodiment in which a wearable device according to the present invention guides a user's physical activity according to a physical condition of the user.
The second control unit may calculate a score (hereinafter referred to as an energy index) collectively indicating the user's physical condition using the body score and the user's exercise amount. Here, the energy index is inversely proportional to the body score, and may be inversely proportional to the user's amount of exercise.
The momentum may be a momentum received from the mobile terminal, and the second controller may calculate the momentum in cooperation with a sensing unit and a GPS receiver provided in the wearable device of the present invention.
The second control unit controls the touch screen to display different messages guiding the user's physical activity according to the energy index.
For example, as shown in FIG. 12, the
On the other hand, as shown in the second diagram of FIG. 12, when the user takes a break, if the energy index increases (1220b), the time required for the user to take a break is reduced (1220b).
Through this, the user can check his / her body condition and take appropriate measures according to the body condition.
The present invention described above can be embodied as computer-readable codes on a medium on which a program is recorded. The computer readable medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of the computer readable medium include a hard disk drive (HDD), a solid state disk (SSD), a silicon disk drive (SDD), a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, , And may also be implemented in the form of a carrier wave (e.g., transmission over the Internet). Also, the computer may include a
100: mobile terminal 110: wireless communication unit
120: Input unit
140: sensing unit 150: output unit
160: interface unit 170: memory
180: control unit 190: power supply unit
Claims (9)
A display unit disposed on a front surface of the main body;
A sensing unit configured to sense movement of the main body and to form first sensing information;
A GPS receiver configured to receive position information of the main body; And
Storing the generated momentum information using at least one of the first sensing information and the body position information,
Selecting one of the first and second execution modes based on the stored momentum information when an execution request for a predetermined application including the first and second execution modes is applied,
And a first controller for controlling the display unit to display screen information according to execution of any one of the execution modes.
A reference time is set based on user input,
Wherein the mobile terminal selects one of the first and second execution modes based on the exercise amount information stored within the reference time from when the execution request is applied.
And changing the execution mode of the predetermined application from one of the execution modes to another one of the execution modes when the exercise amount information satisfies a predetermined condition while the predetermined application is executing in any one of the execution modes .
Further comprising a memory,
Wherein,
Searching for an application satisfying a preset condition among a plurality of applications installed in the memory,
And selects one of the first and second execution modes based on the number of the searched applications.
Further comprising a wireless communication unit configured to perform wireless communication with the wearable device,
Wherein the first control unit includes:
And selects one of the first and second execution modes based on the exercise amount information received from the wearable device.
touch screen;
A photoplethysmogram (PPG) sensor configured to sense biometric information of a user and generate second sensing information; And
Calculating a heart rate of the user using the second sensing information,
And a second controller for controlling the touch screen to display a graphic object guiding breathing of the user using the second sensing information when the calculated heart rate satisfies a predetermined condition.
And controls the touch screen so that at least a part of the graphic object guiding the respiration of the user changes at least one of shape, shape and size according to the amount of the user's breath, using the second sensing information Wearable device.
Calculating a score related to the physical condition of the user using the calculated heart rate and controlling the touch screen to display the calculated score when the calculated score exceeds a reference value, And controls the touch screen so that a graphic object to be guided is displayed.
And the exercise amount information transmitted to the mobile terminal is the calculated heart rate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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KR1020150159810A KR20170056300A (en) | 2015-11-13 | 2015-11-13 | Mobile terminal and wearable device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR1020150159810A KR20170056300A (en) | 2015-11-13 | 2015-11-13 | Mobile terminal and wearable device |
Publications (1)
Publication Number | Publication Date |
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KR20170056300A true KR20170056300A (en) | 2017-05-23 |
Family
ID=59050440
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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KR1020150159810A KR20170056300A (en) | 2015-11-13 | 2015-11-13 | Mobile terminal and wearable device |
Country Status (1)
Country | Link |
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KR (1) | KR20170056300A (en) |
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2015
- 2015-11-13 KR KR1020150159810A patent/KR20170056300A/en unknown
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