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WO2023286953A1 - Dispositif de détection portatif et appareil de culture physique intelligent le comprenant - Google Patents

Dispositif de détection portatif et appareil de culture physique intelligent le comprenant Download PDF

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Publication number
WO2023286953A1
WO2023286953A1 PCT/KR2021/019501 KR2021019501W WO2023286953A1 WO 2023286953 A1 WO2023286953 A1 WO 2023286953A1 KR 2021019501 W KR2021019501 W KR 2021019501W WO 2023286953 A1 WO2023286953 A1 WO 2023286953A1
Authority
WO
WIPO (PCT)
Prior art keywords
exercise
sensing device
distance
user
information
Prior art date
Application number
PCT/KR2021/019501
Other languages
English (en)
Korean (ko)
Inventor
정진현
Original Assignee
주식회사 써티핏
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020210091285A external-priority patent/KR102419957B1/ko
Priority claimed from KR1020210143121A external-priority patent/KR102714139B1/ko
Application filed by 주식회사 써티핏 filed Critical 주식회사 써티핏
Publication of WO2023286953A1 publication Critical patent/WO2023286953A1/fr

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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B24/00Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B71/00Games or sports accessories not covered in groups A63B1/00 - A63B69/00
    • A63B71/06Indicating or scoring devices for games or players, or for other sports activities
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S17/00Systems using the reflection or reradiation of electromagnetic waves other than radio waves, e.g. lidar systems
    • G01S17/02Systems using the reflection of electromagnetic waves other than radio waves
    • G01S17/06Systems determining position data of a target
    • G01S17/08Systems determining position data of a target for measuring distance only
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S7/00Details of systems according to groups G01S13/00, G01S15/00, G01S17/00
    • G01S7/48Details of systems according to groups G01S13/00, G01S15/00, G01S17/00 of systems according to group G01S17/00
    • G01S7/481Constructional features, e.g. arrangements of optical elements
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S7/00Details of systems according to groups G01S13/00, G01S15/00, G01S17/00
    • G01S7/48Details of systems according to groups G01S13/00, G01S15/00, G01S17/00 of systems according to group G01S17/00
    • G01S7/491Details of non-pulse systems
    • G01S7/4912Receivers
    • G01S7/4913Circuits for detection, sampling, integration or read-out
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B5/00Optical elements other than lenses
    • G02B5/20Filters

Definitions

  • the present invention relates to a portable sensing device and a smart fitness device including the same.
  • the present invention relates to a portable sensing device capable of easily and precisely acquiring information on a user's exercise and a smart fitness device including the same.
  • Korean Patent Publication No. 10-2020-0030038 [Document 1] (title of the invention: exercise count meter, published on March 19, 2020) uses a camera A technical configuration that recognizes the user's movement and measures the number of exercises is posted.
  • An object of the present invention is to provide a portable sensing device having a sufficiently small weight and size for easy portability and a smart fitness device including the same.
  • Another object of the present invention is to provide a portable sensing device capable of precisely measuring information on a user's motion and a smart fitness device including the same.
  • Another object of the present invention is to provide a portable sensing device that can be conveniently used by a user during exercise and a smart fitness device including the same.
  • a portable sensing device includes a front cover, a rear cover opposite to the front cover, and a driver including a portion positioned between the front cover and the rear cover.
  • the front cover includes a light transmission part that transmits light
  • the driving part includes a substrate and a sensor part disposed on the substrate, and the sensor part includes a laser emitting part. (Laser Transmitter) and a laser receiver, and the laser emitting part and the laser receiving part may correspond to the light transmitting part.
  • Laser Transmitter Laser Transmitter
  • the laser emitting part and the laser receiving part may correspond to the light transmitting part.
  • the front cover may further include a recessed part recessed toward the rear cover, and the light transmission part may be formed on a bottom surface of the recessed part.
  • the light transmission part may include an opening formed on a bottom surface of the recessed part.
  • the light transmission part may further include a filter part disposed in the opening and transmitting the laser.
  • the filter unit may be spaced apart from the sensor unit by a first distance in a vertical direction, and the sensor unit may have a greater thickness than the first distance.
  • the opening may include a first opening corresponding to the laser emitting unit and a second opening corresponding to the laser receiving unit.
  • the light transmission part may further include a wall positioned between the first opening and the second opening.
  • the filter unit may overlap the first opening and the second opening in common.
  • the filter unit may include a first filter part corresponding to the first opening and a second filter part corresponding to the second opening.
  • the front cover may further include a light blocking coating layer formed on the surface.
  • the front cover further includes a portion from which the light blocking coating layer is removed, and the driving unit further includes at least one light emitting element, wherein the light blocking coating layer is removed from the at least one light emitting element. It can correspond to the part that has been made.
  • a smart fitness device receives a sensing device (Sensing Apparatus) for sensing information on a distance to an object using a laser, and the sensing information sensed by the sensing device, and based on the received sensing information. and a terminal (Mobile Terminal) that determines whether the user's exercise event is successful, and the sensing device includes a front cover, a rear cover opposite to the front cover, and the front cover and the It includes a driver including a portion located between the rear cover, and the front cover is formed on a recessed part and a bottom surface of the recessed part that is recessed toward the rear cover, and transmits light.
  • a sensing device Sensor Apparatus
  • Mobile Terminal Mobile Terminal
  • the driving part includes a substrate and a sensor part disposed on the substrate, and the sensor part includes a laser transmitter and a laser receiver.
  • the laser emitting part and the laser receiving part may correspond to the light transmitting part.
  • the portable sensing device and the smart fitness device including the portable sensing device according to the present invention have an effect of being easy to carry.
  • the portable sensing device according to the present invention and the smart fitness device including the same have an effect of being able to more accurately and quickly detect information about a user's exercise.
  • the portable sensing device according to the present invention and the smart fitness device including the same have an effect that the user can conveniently use them during exercise.
  • FIG. 1 to 4 are views schematically illustrating the configuration of a portable sensing device according to the present invention.
  • 5 to 18 are views for explaining the front cover.
  • 19 to 22 are views for explaining other configurations of the portable sensing device according to the present invention.
  • 23 to 25 are diagrams for explaining another configuration of a portable sensing device according to the present invention.
  • 26 to 29 are diagrams for explaining a smart fitness device.
  • 30 to 57 are diagrams for explaining types and display methods of exercise information.
  • 58 to 59 are diagrams for explaining an exercise mat.
  • 60 to 64 are views for explaining a method of counting exercise events in the smart fitness method according to the present invention.
  • 65 is a flowchart illustrating another example of a smart fitness method according to the present invention.
  • 66 is an example of setting various distance information for a 'plank', one of distance-maintaining exercise events, through the user terminal 20 linked with the sensing device 10 in the smart fitness method according to the present invention.
  • 67 is a conceptual diagram illustrating performing distance sensing to a user 500 for a 'plank', a representative distance-maintaining exercise event, using the sensing device 10 in the smart fitness method according to the present invention.
  • 68 is a purity diagram showing another example of a smart fitness method according to the present invention.
  • 69 is a conceptual diagram for explaining another example of a smart fitness method according to the present invention.
  • FIG. 70 shows that an alarm function for allowing the user to select the type of exercise event to be performed is performed through the user terminal 20 according to the smart fitness method of FIG. 69 .
  • 71 is a conceptual diagram illustrating an example of performing a distance-maintaining exercise event using a plurality of sensing devices 10 according to the smart fitness method according to the present invention.
  • FIG. 72 is a flowchart illustrating an example of a method for a user to set a starting distance for a distance keeping type exercise event in the smart fitness method according to the present invention.
  • first and second may be used to describe various components, but the components may not be limited by the terms. The terms may only be used for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention.
  • the terms and/or may include any combination of a plurality of related recited items or any of a plurality of related recited items.
  • embodiments of the present invention are ASICs (application specific integrated circuits), DSPs (digital signal processors), DSPDs (digital signal processing devices), PLDs (programmable logic devices), FPGAs (field programmable gate arrays, processors It may be implemented using at least one of processors, controllers, micro-controllers, microprocessors, and electrical units for performing functions.
  • ASICs application specific integrated circuits
  • DSPs digital signal processors
  • DSPDs digital signal processing devices
  • PLDs programmable logic devices
  • FPGAs field programmable gate arrays
  • processors It may be implemented using at least one of processors, controllers, micro-controllers, microprocessors, and electrical units for performing functions.
  • embodiments such as procedures or functions in the present invention may be implemented together with a separate software module that performs at least one function or operation.
  • first direction (DR1) and the second direction (DR2) may cross (perpendicular to) each other.
  • first direction DR1 may be referred to as a horizontal direction
  • second direction DR2 may be referred to as a vertical direction
  • FIG. 1 to 4 are views schematically illustrating the configuration of a portable sensing device according to the present invention.
  • a portable sensing device 10 (hereinafter, referred to as a 'sensing device') according to the present invention includes a front cover (100), a rear cover (200), and A driver 300 may be included.
  • the front cover 100 and the rear cover 200 may be coupled to form a housing of the sensing device 10 .
  • the front cover 100 and/or the rear cover 200 may include a plastic material for sufficient strength and light weight.
  • the front cover 100 and/or the rear cover 200 may also include various materials such as carbon fiber and metal.
  • the front cover 100 may include a light transmission part 110 that transmits light, for example, laser light.
  • the front cover 100 may include a button opening 140 through which a predetermined function button 141 is exposed.
  • the function button 141 may be a button for turning on/off power.
  • the driving unit 300 may include a portion positioned between the front cover 100 and the rear cover 300 .
  • the driving unit 300 may perform various functions of the sensing device 10 .
  • the driver 300 may include a substrate 310 and a sensor part 320.
  • the driving unit 300 may be protected by the front cover 100 and the rear cover 200 .
  • the substrate 310 may provide a space for disposing various electronic components.
  • the sensor unit 320 may be disposed on the substrate 310 .
  • the sensor unit 320 may sense a predetermined object using light.
  • the sensor unit 320 may sense a predetermined object such as a user by using laser light.
  • the sensor unit 320 may include a laser sensor.
  • the sensor unit 320 may include a laser transmitter 321 and a laser receiver 322.
  • the laser emitting unit 321 and the laser receiving unit 322 may be configured as one module.
  • the sensor unit 320 may correspond to the light transmission unit 110 of the front cover 100 in order to sense an object.
  • the sensor unit 320 may overlap the light transmission unit 110 in the vertical direction DR2 .
  • the laser emitting unit 321 and the laser receiving unit 322 of the sensor unit 320 may correspond to the light transmitting unit 110 .
  • the laser emitting unit 321 may emit laser light to the outside of the sensing device 10 through the light transmitting unit 110 .
  • the laser receiving unit 322 may receive laser light reflected from an object and returned through the light transmitting unit 110 .
  • 5 to 18 are views for explaining the front cover. Hereinafter, description of the parts described in detail above may be omitted.
  • the light transmission portion 110 formed on the front cover 100 may include a sensor opening for transmitting light.
  • the sensor part 320 corresponding to the light penetrating part 110 may include a portion exposed to the outside through the sensor opening.
  • the front cover 100 may further include a recessed portion 120 .
  • the depression 120 may have a recessed file shape in the front cover 100 .
  • the recessed portion 120 may be formed by recessing a portion of the front cover 100 toward the rear cover 200 .
  • the light transmission portion 110 may be formed on the bottom surface of the recessed portion 120 .
  • the sensor opening may be formed on the bottom surface of the recessed portion 120 .
  • the sensor unit 320 can receive light other than the light for detecting motion information (strange light), for example, light other than laser light. can be suppressed Accordingly, the precision of sensing may be improved.
  • the inlet portion of the depression 120 may include a portion where the width R1 of the depression 120 gradually decreases.
  • the light transmission part 110 may further include a filter part 130 .
  • the filter unit 130 is disposed in the sensor opening of the light transmission unit 110 and can sufficiently transmit predetermined light (laser light).
  • the filter unit 130 may be disposed under the front cover 100 to cover the light transmission unit 110 .
  • the sensor unit 320 may be covered and protected by the filter unit 130 .
  • the filter unit 130 may filter predetermined light.
  • the filter unit 130 may filter light of an infrared wavelength.
  • the filter unit 130 may include a first part 131 , a second part 132 , and a third part 133 .
  • the first part 131 may have a plate shape.
  • the second portion 132 may include a portion extending from the first portion 131 in the vertical direction DR2 .
  • the second portion 132 may include a portion extending toward the rear cover 200 in the vertical direction DR2 from the edge of the first portion 131 .
  • the third portion 133 may include a portion extending from the second portion 132 in the horizontal direction DR1 .
  • the third portion 133 may include a portion extending in the horizontal direction DR1 from the end of the second portion 132 .
  • the filter unit 130 may include a first groove HW1 at a lower portion.
  • the filter unit 130 may have a hat shape as a whole.
  • the filter unit 130 may be disposed on the substrate 310 to cover the sensor unit 320 .
  • the sensor unit 320 and at least one other electronic component 330 may be disposed on the front surface (FS) of the substrate 310.
  • a sufficient space for the filter unit 130 may be provided on the front surface FS of the substrate 310 .
  • the distance between the sensor unit 320 and the other electronic component 330 on the front surface FS of the board 310 may be sufficiently large as D1.
  • the filter unit 130 may be disposed on the front surface FS of the substrate 310 to cover the sensor unit 320 .
  • D1 may be greater than half of D2.
  • D1 may be greater than D2 for ease of work in the assembly process of the sensing device 10 .
  • the filter unit 130 in a state in which the filter unit 130 is disposed to cover the sensor unit 320, the filter unit 130 is spaced apart from the sensor unit 320 by a first distance G1 in the vertical direction DR2. It can be.
  • the first interval G1 may be smaller than the thickness TH1 of the filter unit 130 in the vertical direction DR2, that is, the thickness TH1 of the first part 131 of the filter unit 130. there is.
  • the sensor unit 320 can effectively receive the laser light.
  • the thickness TH2 of the sensor unit 320 may be greater than the thickness TH1 of the filter unit 130 and/or the first interval G1.
  • the third portion 133 of the filter unit 130 may include a portion positioned between the front cover 100 and the substrate 310 in the vertical direction DR2 .
  • other electronic components 330a and 330b may be disposed on the rear surface (RS) of the board 310 .
  • a relatively large battery unit 330b and/or interface unit 330a may be disposed on the rear surface RS of the substrate 310 .
  • a user may charge the battery unit 330b through the interface unit 330a.
  • the light transmission part 110 may include a first opening 111 and a second opening 112 .
  • the first opening 111 may correspond to the laser emitting unit 321 of the sensor unit 320
  • the second opening 112 may correspond to the laser receiving unit 322 of the sensor unit 320. there is.
  • a boundary portion 150 may be positioned between the first opening 111 and the second opening 112 .
  • the boundary portion 150 may divide the first opening 111 and the second opening 112 .
  • the boundary portion 150 may include a corresponding portion between the laser emitting portion 321 and the laser receiving portion 322 .
  • the size of the first opening 111 corresponding to the laser emitting unit 321 is the size of the second opening 112 corresponding to the laser receiving unit 322. ) may be smaller than the size of
  • the filter unit 130 may correspond to the first opening 111 and the second opening 112 in common. In other words, the filter unit 130 may overlap the first opening 111 and the second opening 112 in common.
  • the filter unit 130 may have a disk shape.
  • the filter unit 130 may include a first hole H1 corresponding to the boundary unit 150 .
  • a protrusion 151 protruding toward the rear cover 200 in the vertical direction DR2 may be formed on the boundary portion 150 .
  • the protrusion 151 may correspond to the first hole H1 of the filter unit 130 .
  • the protrusion 151 may be inserted into the first hole H1 of the filter unit 130 .
  • the protrusion 151 may be regarded as a predetermined wall separating the first opening 111 and the second opening 112 .
  • the filter unit 130 includes a first filter part 130a corresponding to the first opening 111 and a second filter part corresponding to the second opening 112. 130b) may be included.
  • a separate filter unit corresponding to the first opening 111 or the second opening 112 may be included.
  • the first filter unit 130a and the second filter unit 130b may be connected to the first opening 111 or the second opening 112 at the rear of the front cover 100 , respectively.
  • the filter unit 130 is disposed in a form covering the light transmission unit 110 at the rear of the front cover 100 , but the present invention may not be limited thereto.
  • the filter unit 130 may be disposed in a form covering the light transmission unit 110 in front of the front cover 100 .
  • 19 to 22 are views for explaining other configurations of the portable sensing device according to the present invention. Hereinafter, description of the parts described in detail above may be omitted.
  • the cross section of the front cover 100 may include a first base layer 100a and a light blocking coating layer 100b formed on the outer surface of the first base layer 100a.
  • the first base layer 100a may include a resin material.
  • the light blocking coating layer 100b may sufficiently suppress or prevent light from passing through the front cover 100 . To this end, the light transmittance of the light blocking coating layer 100b may be lower than that of the first base layer 100a.
  • the light blocking coating layer 100b may have a black color.
  • the thickness of the light blocking coating layer 100b may be thinner than that of the first base layer 100a.
  • the front cover 100 may further include a state information display unit 100c for displaying state information of the sensing device 10 .
  • the state information display unit 100c may be formed by removing the light blocking coating layer 100b from the surface of the front cover 100 .
  • the front cover 100 may include a portion from which the light blocking coating layer 100b is removed.
  • the state information display unit 100c may correspond to at least one light emitting element.
  • At least one light emitting element 340 may be disposed on the substrate 310 of the driver 300 .
  • the light emitting device may include a light emitting diode (LED).
  • At least one light emitting element 340 may correspond (overlap) with the state information display unit 100c.
  • light emitted from the light emitting element 340 may be emitted to the outside through the state information display unit 100c.
  • the user can easily grasp the state of the sensing device 10 using the light displayed through the state information display unit 100c.
  • the light emitting element 340 may emit green light. Then, a green color may be displayed through the state information display unit 100c.
  • the sensing device 10 may include at least one magnet 210 .
  • At least one magnet 210 may be disposed on the rear cover 200 .
  • the user to use the sensing device 10 by attaching it to an exercise device made of metal.
  • 23 to 25 are diagrams for explaining another configuration of a portable sensing device according to the present invention.
  • description of the parts described in detail above may be omitted.
  • the depression 120 in the front cover 100 of the sensing device 10 may be omitted.
  • the front surface of the front cover 100 may have a flat surface.
  • the light transmission portion 110 may be formed on the front cover 100 .
  • the front cover 100 may include a second base layer 100d and a coating layer 100e.
  • the second base layer 100d may include a resin material.
  • the second base layer 100d may filter light of a predetermined wavelength band, for example, light of an infrared wavelength band.
  • the second base layer 100d may include a resin material capable of filtering light.
  • the second base layer 100d may serve as a filter capable of filtering light of a predetermined wavelength band.
  • the coating layer 100e may be formed on the inner surface of the second base layer 100d.
  • the coating layer 100e may sufficiently suppress or prevent light from penetrating into the sensing device 10 . To this end, the light transmittance of the coating layer 100e may be lower than that of the second base layer 100d.
  • the coating layer 100e may have a black-based color.
  • the coating layer 100e may be omitted in a region corresponding to the light transmitting portion 110 of the second base layer 100d.
  • a portion of the second base layer 100d where the coating layer 100e is omitted may become the light transmission portion 110 .
  • the sensor unit 320 of the driving unit 300 may correspond to a portion (light transmission portion 110) where the coating layer 100e is omitted.
  • the width W1 of the portion where the coating layer 100e is omitted in the horizontal direction DR1 may be greater than the width W2 of the sensor unit 320 . In this case, it is easy to emit and receive laser light, and a sensing area can be sufficiently widened.
  • a distance G2 between the sensor unit 320 and the front cover 100 in the vertical direction DR2 may be smaller than the thickness TH3 of the second base layer 100d.
  • the distance G2 between the sensor unit 320 and the front cover 100 may be smaller than the thickness TH2 of the sensor unit 320 .
  • the sensing device 10 described above can sense a distance between a predetermined object OB and the sensing device 10 by using the laser of the sensor unit 320 .
  • 26 to 27 are diagrams for explaining the configuration of a smart fitness device. Hereinafter, description of the parts described in detail above may be omitted.
  • a smart fitness device (hereinafter referred to as a 'fitness device') according to the present invention may include a sensing device 10, a user terminal 20, and a server 30.
  • a sensing device 10 a user terminal 20
  • a server 30 a server 30.
  • the components shown in FIG. 25 are not essential, and it is also possible to implement a smart fitness device with more or fewer components.
  • the sensing device 10 may sense a distance to an object using a laser.
  • the sensing device 10 may transmit information about a distance to the sensed object to the user terminal 20 and/or the server 30 .
  • the sensing device 10 can be carried by a user.
  • the user terminal 20 may receive sensing information sensed by the sensing device 10 and determine whether the user's exercise event is successful or not based on the received sensing information.
  • the user terminal 20 can generate exercise information for the user.
  • the server 30 may receive sensing information from the sensing device 10 .
  • the server 30 may determine whether the user's exercise event is successful or not based on the sensing information received from the sensing device 10 . That is, the server 30 may also perform the role of the user terminal 20 .
  • the server 30 may transmit programs necessary for smart fitness to the user terminal 20 .
  • the server 30 may generate/store/manage/provide information about users using smart fitness, that is, user information.
  • the server 30 may receive exercise information about the user from the user terminal 20, store and manage the received information. In addition, the server 30 may process the exercise information received from the user terminal 20 to create/store/manage/provide statistical information.
  • the server 30 may also transmit information requested by the user terminal 20 , for example, statistical information, history information, etc. to the user terminal 20 .
  • the server 30 may transmit information about a smart fitness app to the user terminal 20 in response to a request of the user terminal 20 .
  • the user terminal 20 may communicate with the sensing device 10 and the server 30 .
  • the user terminal 20 may communicate with the sensing device 10 and the server 30 in a mobile communication method.
  • the user terminal 20 may be anything as long as it can perform mobile communication.
  • the user terminal 200 may be a smart phone, a PDA, a tablet PC, or the like.
  • the user terminal 20 includes a control unit 400, a sensing device information unit 401, a user information unit 402, an exercise information unit 403, a difficulty unit 404, a success determination unit 405, and a calorie unit. 406 , a display unit 407 , a memory unit 408 , a camera unit 409 , a user input unit 410 , a communication unit 411 , an interface unit 412 , and a sensor unit 413 .
  • the controller 400 may control overall functions and operations of the user terminal 20 .
  • the controller 400 may control the smart fitness function of the user terminal 20 .
  • the function of the control unit 400 can be more clearly explained through the following description.
  • the communication unit 411 may perform communication with the server 30 and/or the sensing device 10 under the control of the control unit 400 .
  • the communication unit 411 may perform communication with the server 30 and/or the sensing device 10 in a mobile communication method under the control of the control unit 400 .
  • the communication unit 411 may preferably include a mobile communication module.
  • communication between the user terminal 20 and the server 30 and communication between the user terminal 20 and the server 30 are assumed to be performed by the communication unit 411 on the side of the user terminal 20, unless otherwise specified. can be considered
  • the memory unit 408 may store programs necessary for the user terminal 20 and the like.
  • the memory unit 408 may store and manage various information, data, programs, etc. required for smart fitness under the control of the controller 400 .
  • the user input unit 410 may include a command input means such as a keypad or a touch pad through which a user may input a predetermined command to the user terminal 20 .
  • the interface unit 412 may provide a passage for connecting an external device such as an external memory and the user terminal 20 .
  • the display unit 407 may display predetermined information in the form of an image on the screen so that the user can view it.
  • the display unit 407 may display at least one exercise menu, calorie information, and the like on the screen.
  • the camera unit 409 may capture a surrounding image under the control of the controller 400 .
  • the sensor unit 413 may include various sensors for sensing various types of information.
  • the sensor unit 413 may include various sensors such as a gyro sensor and a vibration sensor.
  • the sensor unit 413 in the user terminal 20 has the same name as the sensor unit 320 in the sensing device 10, but is a different part.
  • the sensing device information unit 401 may store and manage information about the sensing device 10 linked to the user terminal 20 under the control of the control unit 400 .
  • Information about the sensing device 10 may be unique information such as a serial number of the sensing device 10 .
  • sensing device 10 Since the sensing device 10 has been described in detail above, further description of the sensing device 10 will be omitted.
  • Information about the sensing device 10 can be directly input by the user to the user terminal 20 .
  • information on the sensing device 10 may be transmitted from the sensing device 10 to the user terminal 20 during a communication process between the sensing device 10 and the user terminal 20 .
  • information on the sensing device 10 may be transmitted from the server 30 to the user terminal 20 .
  • the user information unit 402 may store and manage information about the user of the user terminal 20 under the control of the control unit 400 .
  • the user information may include unique information such as the user's name, resident registration number, and ID.
  • the user information may include information about the user's body, such as height, weight, gender, age, and the like.
  • the exercise information unit 403 may store and manage exercise information under the control of the controller 400 .
  • information about exercise may include various types of information, such as information about the type of exercise, information about the characteristics of exercise, information about an icon corresponding to the type of exercise, and statistical information about exercise.
  • Information on the type of exercise may include information on various exercises such as cycle, leg raise, lunger, plank, push-up, sit-up, and squat.
  • the difficulty unit 404 may store and manage information on the difficulty level of an exercise under the control of the control unit 400 .
  • the success determination unit 405 may determine whether or not the user's exercise was successful under the control of the control unit 400 .
  • the success determining unit 405 may determine that the user performed the push-up once successfully.
  • the calorie unit 406 may calculate calories consumed in response to an exercise performed by the user under the control of the controller 400 .
  • the calorie unit 406 may store and manage information on calories calculated under the control of the controller 400, that is, information on consumed calories.
  • a user may perform a smart fitness method (hereinafter referred to as a "fitness method") using the user terminal 20 . This will be described in more detail later.
  • a smart fitness method hereinafter referred to as a "fitness method”
  • the sensing device 10 may be activated (S100). For example, it is possible to turn on the power of the sensing device 10 and activate it in a fitness mode.
  • the sensing device 10 and the user terminal 20 may be interlocked (S200).
  • the sensing device 10 and the user terminal 20 can be automatically interlocked.
  • information of the sensing device 10 to be interlocked may be previously stored in the user terminal 20 .
  • an exercise menu for at least one exercise can be displayed on the screen of the user terminal 20 (S300).
  • the sensing device 10 may detect sensing information (S500).
  • the user terminal 20 may be set to correspond to the push-up exercise.
  • the sensing device 10 may detect sensing information about the user's push-up motion.
  • the sensing device 10 may transmit sensing information to the user terminal 20 (S600).
  • the user terminal 20 may determine (determine) success or failure of the exercise event based on the sensing information transmitted from the sensing device 10 (S700).
  • the sensing device 10 may sense information about a distance between an object, eg, a user's body, and the sensing device 10 and transmit the information to the user terminal 20 .
  • the user terminal 20 can determine whether the exercise event is successful or not based on the information about the distance between the sensing device 10 and the object, that is, the sensing information.
  • the user terminal 20 may count the number of successful exercise events (S800) and store this information (S900).
  • the user terminal 20 may obtain information on the user's exercise (information on the type of exercise performed by the user, information on the number of successes, etc.) through the above process.
  • the user terminal 20 may be able to transmit the acquired information to the server 30 .
  • the user USR may bring his body close to the sensing device 10 by bending his arm. After that, the user USR may spread his or her arm to move the body away from the sensing device 10 .
  • the sensing device 10 may sense the distance S1 between the sensing device 10 and the body of the user USR.
  • the sensing device 10 may sense information on the shortest distance to the user USR and information on the maximum distance to the user USR.
  • the sensing device 10 may be capable of sensing information about the distance between the shortest distance and the maximum distance to the user USR.
  • the sensing device 10 may transmit the sensed information to the user terminal 20 .
  • the user terminal 20 may determine success or failure of an exercise event, that is, a push-up, based on the sensing information received from the sensing device 10 .
  • the user terminal 20 performs a push-up when the difference between the shortest distance between the sensing device 10 and the user USR and the maximum distance between the sensing device 10 and the user USR is equal to or greater than a preset threshold distance. It can be judged as successful once.
  • the user terminal 20 can determine the total number of successful push-up exercises by the user.
  • the user terminal 20 determines that the shortest distance between the sensing device 10 and the user USR measured by the sensing device 10 is smaller than a preset threshold shortest distance, and the sensing device 10 measured by the sensing device 10 and the user USR ) When the maximum distance to the preset threshold is greater than the maximum distance, it may be determined that the push-up is successful once.
  • the present invention may be applicable to various exercises such as push-up and squat.
  • 30 to 57 are diagrams for explaining types and display methods of exercise information. Hereinafter, description of the parts described in detail above may be omitted.
  • the exercise information displayed on the screen of the display unit 407 of the user terminal 20 may include at least one exercise icon, that is, an exercise icon FC.
  • exercise information includes an icon for cycle exercise, an icon for leg raise exercise, an icon for lunge exercise, an icon for plank exercise, an icon for push-up exercise, an icon for sit-up exercise, and an icon for squat exercise.
  • an icon for a push-up exercise is a first icon FC1 and an icon for a squat exercise is a second icon FC2.
  • a process for a push-up exercise may be executed.
  • the sensing device 10 may detect sensing information for this.
  • the sensing device 10 may transmit the detected sensing information to the user terminal 20, and the user terminal 20 may determine whether the user's push-up was successful (or whether the exercise event was successful).
  • a process for a squat exercise may be executed.
  • the fitness method according to the present invention it is possible to further provide information on an achievement rate corresponding to at least one exercise event.
  • information on an achievement rate may be displayed corresponding to the exercise icon FC.
  • a mark (information) for confirming the achievement rate of the push-up exercise may be displayed around the icon for the push-up exercise.
  • the fitness method according to the present invention it may be possible to further provide information on an achievement rate according to a predetermined period in addition to an achievement rate for individual exercise.
  • the information on the achievement rate may mean the achievement rate on a predetermined date for a plurality of exercises.
  • the information on the achievement rate may also mean the achievement rate for a week, a month, or a year.
  • the fitness method according to the present invention it is possible to provide information on calories consumed in response to at least one exercise event.
  • information on daily calorie consumption can be provided.
  • Calorie consumption may refer to the amount of calories consumed as a result of exercise performed by the user.
  • the user uses a touch means such as a finger (PIT) to exercise icon FC.
  • a touch means such as a finger (PIT) to exercise icon FC.
  • PIT a finger
  • a method of double-tapping a black area as a method using a black area is described, but the present invention may not be limited thereto.
  • the user in a state in which information on daily calorie consumption is displayed on the screen of the user terminal 20, the user can double-tap the black area using a touch means (PIT) such as a finger. .
  • a touch means such as a finger.
  • information on calorie consumption according to the type of exercise may be individually displayed on the screen of the user terminal 20 .
  • FIG. 35 it may be possible to display information according to the order of calorie consumption.
  • information (000Cal) on the daily calorie consumption for the exercise corresponding to the first icon FC1 may be displayed around the first icon FC1.
  • information about the sum of calorie consumption of the overlapping icons may be displayed on the screen of the user terminal 20 .
  • the user may move the first icon FC1 or the second icon FC2 by using the touch means PIT so as to overlap each other.
  • information on the sum (AAACal) of the calorie consumption of the exercise event corresponding to the first icon FC1 and the calorie consumption of the exercise event corresponding to the second icon FC2 is displayed on the screen of the user terminal 20. can be displayed
  • Cyclic exercise may mean that strength training and/or aerobic exercise are performed in turn in order.
  • At least one icon for circular motion that is, circular icons CFC, CFC1, and CFC2 may be displayed on the screen of the user terminal 20 .
  • the screen of the user terminal 20 displays the first cycle icon CFC1.
  • a plurality of corresponding exercise events may be sequentially displayed.
  • processes for a plurality of exercise events corresponding to the first cycle icon CFC1 may be executed in a preset order.
  • a 10-minute cycling event 10 push-up events, 10 push-up events, 10 push-up events, and 10 push-up events.
  • Events to implement can be performed in sequence.
  • the user can perform an exercise sequentially in response to the circular motion.
  • the type of exercise included in the predetermined cycle icon can be added and, of course, can be deleted.
  • the execution order of a plurality of exercise events included in the cycle icon may also be changed.
  • the user may move the first icon FC1 or the second icon FC2 by using the touch unit PIT so as to overlap each other.
  • a cycle icon may be created on the screen of the user terminal 20 .
  • the circular motion corresponding to the circular icon CFC may include a motion corresponding to the first icon FC1 and a motion corresponding to the second icon FC2.
  • the circular exercise corresponding to the circular icon CFC may include a push-up exercise and a squat exercise.
  • the first icon FC1 and the second icon FC2 may return to their previous positions.
  • the push-up exercise corresponding to the first icon FC1 and the squat exercise corresponding to the second icon FC2 may be regarded as separate exercises from the push-up exercise and squat exercise corresponding to the cycle icon CFC.
  • the degree of overlap of the plurality of exercise icons FC it may be divided into calorie summation and circular exercise.
  • information about the sum of the calorie consumption of the exercise corresponding to the first icon FC1 and the calorie consumption of the exercise corresponding to the second icon FC2 may be displayed on the screen of the user terminal 20 .
  • a circulation icon (CFC) for a circular motion including may be displayed. That is, an event for a circular exercise including an exercise corresponding to the first icon FC1 and an exercise corresponding to the second icon FC2 may be newly generated.
  • recommended exercise information may be further provided.
  • a recommendation icon RC corresponding to recommended exercise information may be displayed on the screen of the user terminal 20 .
  • the screen of the user terminal 20 displays at least one recommendation icon RC.
  • the exercise menu of may be displayed sequentially.
  • an exercise event included in the exercise menu may be displayed on the screen of the user terminal 20. there is.
  • a process of at least one exercise event displayed on the screen of the user terminal 20 may be executed.
  • the exercise menu corresponding to the recommendation icon RC is displayed as including circular exercise, the present invention may not be limited thereto.
  • an exercise menu corresponding to the recommendation icon RC may also include a single exercise event.
  • An exercise event included in the exercise menu corresponding to the recommendation icon RC may be preset as recommended by an expert or the like.
  • a setting menu may be displayed on the screen of the user terminal 20 .
  • user information can be set or changed in the setting menu.
  • information such as the user's name (Kildong Hong), gender (male), age (45 years old), weight (75kg), height (175cm), etc. can be set.
  • the calorie unit 406 of the user terminal 20 may calculate calories consumed for exercise in consideration of set user information.
  • the calorie unit 406 can determine that 10 calories are consumed in response to one push-up of user Gil-Dong Hong.
  • information such as gender (male), age (20 years old), weight (100Kg), and height (190cm) can be set for user Mongryong Lee.
  • the calorie unit 406 can determine that 20 calories are consumed in response to one push-up of the user Mongryong Lee.
  • the calorie unit 406 may calculate calories consumed for exercise based on information such as the user's gender, age, weight and height.
  • the fitness method according to the present invention it is possible to set difficulty information for at least one exercise.
  • a difficulty menu for setting a difficulty level for at least one exercise may be displayed on the screen of the user terminal 20 .
  • information on the motion detection distance for squat motion may be set.
  • 49 shows an example in which the motion detection distance for the squat exercise is set to 45 cm.
  • the user may place the sensing device 10 on the floor and perform a squat exercise on top of the sensing device 10 .
  • the user may bring the hip part closer to the sensing device 10 by bending the knee, and then move the hip part away from the sensing device 10 by extending the knee.
  • the success determining unit 405 of the user terminal 20 determines that the squat has succeeded once when the shortest distance S2 between the sensing device 10 and the user is less than a preset motion detection distance (45 cm).
  • the success determination unit 405 may determine that the user did not succeed in squatting.
  • Difficulty information for the squat exercise can be set in this way.
  • 50 shows an example of a method of setting a motion detection distance for a lunge motion.
  • the motion detection distance of the lunge exercise may refer to a distance between the front foot and the rear foot.
  • the motion detection distance may mean information about the width of an exercise performed by the user.
  • the motion detection distance of the lunge exercise may increase as the width of the exercise increases.
  • the motion detection distance of the squat exercise may decrease.
  • the difficulty information of the exercise menu has been described by taking information on the exercise width (exercise detection distance) as an example, but the present invention may not be limited thereto.
  • difficulty information of the exercise menu may further include weight information and/or number of times information.
  • the difficulty of the exercise may increase as the number of times increases.
  • the fitness method according to the present invention it may be possible to further provide history information.
  • a date icon (CC) corresponding to a date may be displayed along with an exercise icon (FC) on the screen of the user terminal 20 .
  • the user may select the date icon CC by using the touch unit PIT.
  • date information according to a predetermined period may be displayed on the screen of the user terminal 20 .
  • a calendar for a given month may be displayed on the screen of the user terminal 20 .
  • the user terminal 20 additionally displays information such as information on the type of exercise performed by the user, information on the total calories consumed, and information on the achievement rate corresponding to at least one exercise in correspondence with the displayed period. It can be.
  • the user can easily and intuitively check various history information, such as the type of exercise performed in a desired period and the total amount of calories consumed according to the type of exercise.
  • date information according to a predetermined period is displayed on the screen of the user terminal 20, information on an achievement rate corresponding to each day may be further provided.
  • information on the achievement rate may be displayed in the form of a gauge around an icon (number) indicating a corresponding day.
  • the exercise achievement rate on the 14th day of (A) may be higher than the exercise achievement rate on the 15th day of (B).
  • date information according to a predetermined period is displayed on the screen of the user terminal 20, information on calorie consumption corresponding to each day may be further provided.
  • the user touches and selects at least one exercise icon (FC) using the touch means (PIT) and drags the selected exercise icon (FC) to exercise icon ( FC) can be changed.
  • the user may shake the user terminal 20 left and right.
  • the sensor unit 413 of the user terminal 20 may detect shaking of the user terminal 20 and transmit information about it to the control unit 400 .
  • control unit 400 may recognize the shaking information of the user terminal 20 transmitted from the sensor unit 413 as a pattern initialization command.
  • the user can drag the user touch means (PIT) on the black area.
  • PIT user touch means
  • dragging the black area may be recognized as a command for pattern initialization.
  • 58 to 59 are diagrams for explaining an exercise mat. Hereinafter, description of the parts described in detail above may be omitted.
  • the fitness device according to the present invention may further include an exercise mat 40.
  • the exercise mat 40 may include a mark corresponding to a location where the sensing device 10 is to be placed.
  • a first position 41 , a second position 42 , a third position 43 , a fourth position 44 , and a fifth position 45 may be displayed on the exercise mat 40 .
  • the sensing device 10 When the user performs a push-up exercise, the sensing device 10 may be placed at the second position 42 and the exercise may be performed.
  • the position corresponding to the sensing device 10 is displayed on the exercise mat 40, the position of the sensing device 10 can be constantly maintained during exercise. Accordingly, it is possible for the user to perform an exercise with a uniform intensity.
  • the sensing device 10 can be easily carried and used easily.
  • the present invention uses the sensor unit 320 using laser light, it is possible to more accurately and quickly detect information on the user's movement.
  • FIG. 60 to 64 are views for explaining a method of counting exercise events in the smart fitness method according to the present invention.
  • FIG. 60 is a flowchart illustrating an example of a method for preventing an error in counting the number of times an exercise event is performed in a smart fitness method according to the present invention.
  • FIGS. 63 and 64 are conceptual diagrams for explaining that a counting routine is performed according to the smart fitness method of FIG. 60, and FIGS. 63 and 64 set distances related to counting exercise events in the smart fitness method according to the present invention. shows examples of
  • the smart fitness method of FIG. 60 shows a process of counting a specific exercise event after a specific close-spaced exercise is selected.
  • the approach-and-separate exercise refers to an exercise performed while a user or an exercise device approaches the portable sensing device 10 and then moves away from the portable sensing device 10 .
  • Such close-spaced exercises may include squats, push-ups, lunges, bench presses, etc., but the scope of the present invention is not limited thereto.
  • the sensor unit 320 of the portable sensing device 10 senses the distance to the user at regular intervals (S1000). Then, it is determined whether the distance to the user is shorter than the first reference distance (S1100). These determinations and subsequent processes may be performed by the portable sensing device 10 , the user terminal 20 , or the server 30 .
  • a counting routine of close-spaced exercise events is triggered (S1200). Then, it is determined whether the distance to the user is greater than the second reference distance greater than the first reference distance (S1300).
  • the second reference distance may be determined in consideration of a predetermined extra distance in order to prevent an error from occurring in counting the number of exercise events due to the sensing angle of view of the sensor unit 320 and the curvature of the user's body. This will be examined in more detail with reference to FIGS. 61 and 62 in the future.
  • the number of close-spaced exercise events is counted and the counting routine ends (S1400). Then, it is determined whether the exercise event is over (S1500).
  • steps S1000 to S1500 are repeatedly performed, and the counting of the close-space type motion continues.
  • the exercise event may include a case where the user selects the end of the exercise or when the distance to the user is not sensed within the first reference distance for a predetermined time.
  • the distance between the sensor unit 320 and the user 500 becomes closer than the first reference distance D_ref1 as the user's body 500 approaches in the course of the user's approach and distance exercise.
  • a routine is triggered to count the number of athletic events. That is, the first reference distance D_ref1 is a distance for confirming the start of the close-spaced motion.
  • the second reference distance D_ref2 is a distance for confirming that the approach-and-space type exercise has been performed once.
  • the third reference distance D_ref3 may be a distance obtained by adding a distance margin for preventing counting errors to the first reference distance D_ref1.
  • the distance to the user is sensed closer than the first reference distance D_ref1 for triggering the counting routine, if the distance margin is not considered.
  • the distance to the user is sensed as being greater than the first reference distance D_ref1 by the curvature of the user's body and the sensing angle of view of the sensor unit 320, even though the user does not perform a squat motion. This is because the number of exercises can be counted.
  • the second reference distance for determining the performance of the close-spaced exercise is greater than or at least equal to the third reference distance to which a distance margin is assigned to prevent counting errors.
  • the smart fitness method may further include changing the type of the near-distance exercise event and changing the distance margin for preventing counting errors according to the changed near-distance exercise event. . This is because the body part for sensing the distance to the user may be changed by the sensor unit 320 for each type of exercise, and the pattern of the position of the sensor unit 320 placed by the user may be different.
  • the user can adjust the sensing distance in order to adjust the level of difficulty of the squat exercise.
  • the detection distance may be a first reference distance for detecting the start of the squat movement.
  • the third reference distance considering the distance margin in the second reference distance or the first reference distance for confirming the end of the squat exercise is not shown.
  • the user may change the sensing distance of squat exercise (corresponding to the first reference distance as shown in FIG. 63 ), counting distance, and distance margin.
  • the sensing distance, counting distance, and distance margin may indicate a state in which the values are set in advance.
  • the counting distance is a distance for confirming the performance of the squat exercise, and may correspond to the second reference distance discussed above.
  • the counting distance may be determined by adding a predetermined default distance to the sensing distance. For example, in the example of FIG. 64 , the counting distance '55cm' may be calculated by adding a default distance of '10cm' to the sensing distance '45cm'. At this time, the default distance is preferably at least equal to or greater than the margin distance for the squat exercise.
  • the counting distance cannot be set to a value equal to or less than the value obtained by adding the distance margin '10 cm' to the sensing distance '45 cm'. This is because, since the counting distance may be a distance optimally set for reducing counting errors, when the counting distance is set to '55 cm' or less, the possibility of occurrence of counting errors may be very high.
  • the counting distance may be automatically changed to be greater than or at least equal to a distance obtained by adding the distance margin to the sensing distance.
  • the counting distance '55cm' may be a distance obtained by adding the preset distance margin '10cm' to the sensing distance '45cm'.
  • the distance margin does not change even if the sensing distance and the counting distance are changed. This is because the distance margin, which has a great influence on the occurrence of the counting error, is preferably maintained at a predetermined value or independently set by a user.
  • variable range of the counting distance when the sensing distance of the squat exercise is changed, the variable range of the counting distance may be automatically changed to reflect this, or the variable range in the existing variable range may be limited. This may be in consideration of the set distance margin. In this case, the variable range of the distance margin may not be changed.
  • variable range of the counting distance may be automatically changed to reflect this, or the variable range of the existing variable range may be limited. At this time, the variable range of the sensing distance may not be changed.
  • the smart fitness method includes a sensing device 10 according to the present invention capable of sensing a distance to a user using a laser transmitter and a receiver, and a user terminal 20 interworking with the sensing device through short-range wireless communication.
  • a sensing device 10 capable of sensing a distance to a user using a laser transmitter and a receiver
  • a user terminal 20 interworking with the sensing device through short-range wireless communication.
  • a start distance and an end distance for a distance-maintaining exercise event are set (S2000).
  • the distance-maintaining rotation event may include a plank, a planche, various yoga or Pilates postures, and the like.
  • the start distance is a distance at which the counting of the exercise time starts, considering that the distance-keeping type exercise event has started
  • the end distance is a distance at which the counting of the exercise time ends, considering that the distance-keeping type exercise event has ended. And these distances are arranged at positions for measuring distances to specific body parts of the user.
  • the method of setting the start distance and the end distance of the distance keeping exercise event may be performed through an application running on the user terminal 20 or through the sensing device 10 .
  • 66 is an example of setting various distance information for a 'plank', one of distance-maintaining exercise events, through the user terminal 20 linked with the sensing device 10 in the smart fitness method according to the present invention.
  • the user can set the start distance and end distance of the plank exercise using the user terminal 20 .
  • the maximum value of the end distance may be the maximum sensing distance of the sensing device 10.
  • the user can also set a 'margin distance', which is a distance for correctly guiding the posture of the plank exercise performed by the user. And these distances may mean distances to the user's face.
  • an alarm function for correcting the user's exercise posture may be performed through the sensing device 10 or the user terminal 20 .
  • the user terminal 20 informs 'upper body is too high.
  • An alarm voice such as 'Please lower it a little more' may be provided or an alarm message may be displayed.
  • an alarm sound such as 'beep beep' or an alarm sound as described above may be provided through the sensing device 10 . If the sensing device 10 has a display, an alarm message may be provided through the display.
  • the sensing device 10 or The user terminal 20 recognizes that the user's exercise posture is wrong.
  • At least one of the sensing device 10 and the user terminal 20 may perform an alarm function for correcting an exercise posture of the user performing a specific distance-keeping exercise event.
  • a distance keeping exercise event is selected (S2100). Such selection may be made through the user terminal 20 or through the sensing device 10 .
  • the distance to the user is sensed using the sensing device 10 (S2200).
  • the sensing device 10 should be arranged to correspond to the user's body part, which is a standard for measuring the start distance and the end distance for the distance-keeping type exercise event that is set in advance.
  • the sensed distance is wirelessly transmitted to the user terminal 20 .
  • 67 is a conceptual diagram illustrating performing distance sensing to a user 500 for a 'plank', a representative distance-maintaining exercise event, using the sensing device 10 in the smart fitness method according to the present invention.
  • the distance to the user 500 may be the distance to the head or chest of the user 500, which is previously determined as a distance sensing position.
  • the sensing device 10 sets the second position 42 corresponding to the head of the user 500 or the second position 42 corresponding to the user's chest. It may be disposed at an intermediate point between the second position 42 and the fifth position 45 .
  • the position of the sensing device 10 may vary depending on the difference in body size of the user terminal 20 .
  • the user terminal 20 determines whether the distance to the user is less than the starting distance (S2300), and if the distance to the user sensed by the sensing device 10 is closer than the starting distance, (YES), the user terminal 20 proceeds to count the exercise time of the distance-maintaining exercise event (S2400).
  • the user terminal 20 determines whether the distance to the user exceeds the end distance (S2500), and if the distance to the user exceeds the end distance (YES), the exercise time of the distance-maintaining exercise event The counting ends (S2600), and the amount of exercise of the user is calculated based on the counted exercise time (S2700).
  • the smart fitness method according to the present invention using the sensing device 10 and the user terminal 20, it can be used for various distance-maintaining types of exercises as well as the approach-distance type exercises discussed above.
  • FIG. 68 is a purity diagram showing another example of a smart fitness method according to the present invention.
  • the smart fitness method will be described with reference to necessary drawings.
  • the distance to the user is sensed in a state where the distance-keeping exercise event is not selected as an exercise to be performed by the user (S3100).
  • the user terminal 20 determines whether the distance to the user is maintained within a predetermined range from the starting distance of the distance-maintaining exercise event for a predetermined time (S3200).
  • the predetermined range may or may not be the same as the guiding distance previously described with reference to FIG. 66 .
  • the user terminal 20 determines that the user is performing the distance-keeping exercise event exercise event (S3300), and proceeds with counting the exercise time of the distance-keeping exercise event (S3400 ).
  • the user terminal 20 determines whether the distance to the user is out of the guiding range set for the distance-maintaining exercise event (S3500).
  • the user terminal 20 determines that the user's exercise posture is wrong and performs an alarm function to correct the user's exercise posture (S3600). ). Such an alarm function has been previously described with reference to FIG. 66 .
  • the user terminal 20 determines whether the distance to the user exceeds the end distance (S3700), and if the distance to the user exceeds the end distance (YES), the exercise time of the distance-maintaining exercise event The counting ends (S3800), and the amount of exercise of the user is calculated based on the counted exercise time (S3900).
  • FIG. 69 is a conceptual diagram for explaining another example of a smart fitness method according to the present invention.
  • FIG. 69 is for explaining a method for determining the type of exercise when the user starts exercising without selecting the type of exercise to be performed and the distance to the user is sensed through the sensing device 10. will be.
  • a first starting distance (D_ST1) and a first guiding range (GR1) of a certain range are set in the first starting distance (D_ST1)
  • the second guiding range GR2 of a certain range is set in the starting distance D_ST2 and the second starting distance D_ST2. Also, portions of the first guiding range GR1 and the second guiding range GR2 overlap in the overlapping region OR.
  • the user terminal 20 determines that the user is performing the second guiding range GR2. It can be determined that a distance-maintaining exercise event is performed.
  • the user terminal 20 may perform an alarm function for the user to select a type of exercise event.
  • FIG. 70 shows that an alarm function for allowing the user to select the type of exercise event to be performed is performed through the user terminal 20 according to the smart fitness method of FIG. 69 .
  • a UI for selecting the type of distance-maintaining exercise event the user wants to perform It can be seen that is provided through the user terminal 20.
  • such an alarm message may be provided through a display unit provided in the sensing device 10, or provided as a voice signal through the user terminal 20 or a speaker of the sensing device 10. It could be.
  • 71 is a conceptual diagram illustrating an example of performing a distance-maintaining exercise event using a plurality of sensing devices 10 according to the smart fitness method according to the present invention.
  • the user 500 is performing a plank, which is a distance-keeping exercise event.
  • the sensing device 10 for sensing the distance D_sen1 to the user 500's head and An additional sensing device 10' for sensing the distance D_sen2 to the stomach of the user 500 is used.
  • the angle ⁇ for determining the plank posture of the user 500 can be calculated. .
  • the change amount of the distance D_sen12 between the sensing devices 10 and 10' may not be large. This is because the position where the sensing devices 10 and 10' are placed when the user 500 performs a plank exercise is highly likely to be always constant. And, this is because an auxiliary device such as the exercise mat 40 shown in FIG. 59 can be used.
  • the user terminal 20 may determine whether the plank posture of the user 500 is correct based on the determined angle ⁇ and the sensing distances D_sen1 and D_sen2.
  • an angular range corresponding to a case in which the user 500 has a right plank posture and a range of sensing distances in the head and stomach of the user 500 are predetermined.
  • the user terminal 20 detects the user 500 It can be judged that the head or upper body is raised too high to take the wrong frank posture.
  • the user terminal 20 may perform an alarm function of outputting a voice signal for correcting the plank posture of the user 500 or displaying a message. In some cases, such an alarm function may also be performed through the sensing devices 10 and 10'.
  • FIG. 72 is a flowchart illustrating an example of a method for a user to set a starting distance for a distance keeping type exercise event in the smart fitness method according to the present invention.
  • the method will be described with reference to necessary drawings.
  • the user selects a specific distance-maintaining exercise event to set a starting distance through the user terminal 20 (S400). Then, the user places the sensing device 10 (S4100).
  • the location where the sensing device 10 is disposed must be a location for performing distance sensing to set a starting distance for the specific distance-keeping exercise event.
  • the position of the sensing device 10 is preferably below the user's head, chest, stomach, etc.
  • the sensing device 10 receives the voice command (S4300), Based on the voice command, the sensed distance is set as a start distance of the distance keeping exercise event (S4400).
  • the user sets the distance to a specific body part sensed through the sensing device 10 through a voice command in a state in which a starting distance has already been set for a specific distance-maintaining exercise event. You can change the starting distance. This is possible even when the user is performing the specific distance-keeping type exercise event.
  • the smart fitness method according to the present invention it is possible to provide the user with the convenience of freely setting a desired starting distance through a voice command while actually performing a specific distance-maintaining exercise event.
  • a portable sensing device and a smart fitness device including the same can be widely used in a wide variety of industries, such as home training related industries, fitness center related industries, and smart care related industries.

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  • Measurement Of The Respiration, Hearing Ability, Form, And Blood Characteristics Of Living Organisms (AREA)

Abstract

La présente invention concerne un dispositif de détection portatif capable d'acquérir de manière commode et précise des informations relatives au mouvement d'un utilisateur, et un appareil de culture physique intelligent comprenant ce dispositif. Le dispositif de détection portatif selon la présente invention peut comprendre : un capot avant ; un capot arrière sur la face opposée du capot avant ; et un dispositif de commande, dont une partie est positionnée entre le capot avant et le capot arrière. Le capot avant peut comprendre une partie de transmission de lumière à travers laquelle la lumière passe. Le dispositif de commande peut comprendre un substrat et une partie capteur disposée sur le substrat, la partie capteur pouvant comprendre un émetteur laser et un récepteur laser. L'émetteur laser et le récepteur laser peuvent correspondre à la partie de transmission de lumière.
PCT/KR2021/019501 2021-07-13 2021-12-21 Dispositif de détection portatif et appareil de culture physique intelligent le comprenant WO2023286953A1 (fr)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
KR1020210091285A KR102419957B1 (ko) 2021-07-13 2021-07-13 휴대용 센싱 장치 및 그를 포함하는 스마트 피트니스 장치
KR10-2021-0091285 2021-07-13
KR1020210143121A KR102714139B1 (ko) 2021-10-25 2021-10-25 스마트 피트니스 장치 및 방법
KR10-2021-0143121 2021-10-25

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WO2023286953A1 true WO2023286953A1 (fr) 2023-01-19

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009158569A (ja) * 2007-12-25 2009-07-16 Seiko Instruments Inc 光検出半導体装置、光検出装置、及び画像表示装置
KR20170068082A (ko) * 2015-12-09 2017-06-19 (주)파트론 광학 센서 패키지
KR102053967B1 (ko) * 2016-11-29 2019-12-12 주식회사 와이즈웰니스 모바일 기기를 이용한 운동 관리 시스템
KR20210001456A (ko) * 2019-06-28 2021-01-06 레이트론(주) 일체형 광센서 패키지

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JP2009158569A (ja) * 2007-12-25 2009-07-16 Seiko Instruments Inc 光検出半導体装置、光検出装置、及び画像表示装置
KR20170068082A (ko) * 2015-12-09 2017-06-19 (주)파트론 광학 센서 패키지
KR102053967B1 (ko) * 2016-11-29 2019-12-12 주식회사 와이즈웰니스 모바일 기기를 이용한 운동 관리 시스템
KR20210001456A (ko) * 2019-06-28 2021-01-06 레이트론(주) 일체형 광센서 패키지

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