CN112973084A - Golf swing analyzing apparatus and golf practice simulation system using the same - Google Patents

Abstract

The present invention relates to a golf swing analyzing apparatus and a golf practice simulation system using the same, which can analyze the speed and trajectory of a golf swing by being mounted on a golf club and more accurately derive the movement trajectory of a golf ball at the time of an imaginary stroke based on swing information, the apparatus comprising: a sensing module adhered to any one selected from a golf club or a user's body, detecting a position change amount based on a swing motion of the golf club or a motion of the user, and generating a position change signal corresponding thereto; a swing analyzing module calculating swing result data including a speed and a trajectory related to a swing of the golf club by analyzing the position change signal generated from the sensing module; and the aiming analysis module analyzes the position change signal generated from the sensing module, analyzes whether the swing position of the user faces to a preset target hitting direction or not and guides the swing position.

Description

Golf swing analyzing apparatus and golf practice simulation system using the same

Technical Field

THE present invention relates to a GOLF swing ANALYZING APPARATUS which can analyze THE velocity and trajectory of a GOLF swing by being mounted on a GOLF club and more accurately derive THE trajectory of movement of a GOLF ball at THE time of a hypothetical shot on THE basis of swing information as described above, and a GOLF practice SIMULATION system (APPARATUS FOR analog GOLF SWING AND SYSTEM FOR VIRTUAL GOLF SIMULATION) USING THE SAME.

Background

Generally, golf swing habits of different users are different, and a golf club influences a swing, so that a matching choice of golf clubs, a swing posture, and the like can be said to be very important factors in a golf practice process.

Particularly, a golf swing varies depending on the body shape of a user, and in recent years, many recommended swing methods for general users have been proposed along with the spread of golf.

However, in order to develop a proper golf swing habit, a general user needs to not only perform repeated practice and continuous management but also accurately recognize his or her own swing motion and correct an incorrect posture or the like.

To this end, a number of swing analysis means have been developed to assist the user in learning the golf swing. As an example, the existing screen golf facility displays the movement trace of the golf ball on the screen according to only the direction and power of the hit ball, but it is difficult to precisely display the direction and flight distance of the ball in the case of the above-mentioned.

As another example of conventional swing analysis means, there has been proposed a method of analyzing a swing motion by capturing motion information of a user during a swing, but in such a case, it is difficult to actually commercialize the swing analysis means because it is required to provide a sophisticated analysis device and expensive equipment.

Prior art documents

Patent document

Korea publication No. 2014-0063468 (2014.05.27.)

Disclosure of Invention

The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a golf swing analyzing apparatus which can analyze the velocity and trajectory of a golf swing by being mounted on a golf club and applying a sensing technique and more accurately derive the trajectory of a virtual golf ball hit on the basis of swing information as described above, and a golf practice simulation system using the same.

As a means for solving the above-mentioned problems, a golf swing analyzing apparatus to which the present invention is applied is characterized by comprising: a sensing module adhered to any one selected from a golf club or a user's body, detecting a position change amount based on a swing motion of the golf club or a motion of the user, and generating a position change signal corresponding thereto; a swing analyzing module for analyzing the position change signal generated from the sensing module to calculate swing result data including a speed and a trajectory related to a swing of the golf club; and a sighting analysis module for analyzing the position change signal generated from the sensing module, analyzing whether the swing position of the user is towards a preset target hitting direction, and guiding the swing position.

As an example, it is characterized in that: the sensing module includes: a sensor unit including a 3-axis gyro sensor and a 3-axis acceleration sensor for detecting and generating a position change amount based on a swing motion of a golf club or a motion of a user and outputting a position change signal corresponding thereto; a signal processing unit for processing the position change signals output from the 3-axis gyro sensor and the 3-axis acceleration sensor; a transceiver for transmitting the position change signal of the processed sensor part to the swing analysis module or the aiming analysis module; and a control part for controlling the sensing time point of the sensor part and issuing a command for transmitting a position change signal of the sensor part to the swing analysis module or the aiming analysis module.

As an example, the method is characterized by further comprising the following steps: the display module is used for monitoring the processing result of the swing analysis module; wherein the swing analyzing module calculates simulation result data including expected arrival point, direction and distance information about a virtual golf ball based on the calculated swing result data.

As an example, it is characterized in that: the collimation analysis module comprises: a target setting unit that sets a target hitting direction in a state where a user desires to hit a target point, requests the sensor unit for a reference direction value with respect to the target hitting direction, and stores the reference direction value transmitted back from the sensor unit in response; and the number of the first and second groups,

and a sighting adjustment unit which detects a swing position of the user after a target hitting direction is set in the target setting unit, receives a position change signal related to a movement of the user at the swing position from the sensing module, and provides guidance information on whether the swing direction of the user is directed toward the set target hitting direction to the user by comparing and analyzing a reference direction value stored in the target setting unit and a direction value included in the position change signal.

As an example, it is characterized in that: the aiming adjustment unit includes a vibration sensor for providing a vibration signal, and the vibration sensor is controlled to shorten a vibration period or provide a stronger vibration intensity as the direction value included in the position change signal is closer to a reference direction value.

Further, a golf practice simulation system using a golf swing analyzing apparatus to which the present invention is applied is characterized by comprising: the golf swing analyzing apparatus as described above; a database storing at least one golf course map and a plurality of topographic feature information; a linkage server for receiving the input of the simulation result data of the analysis module, generating coordinate data based on the movement track of the golf ball, and then linking the movement track of the golf ball with the selected golf course map by using the coordinate data; a simulation server for generating the golf course map linked in the linkage server and the movement track of the golf ball as images; a display for displaying the simulation image processed by the simulation server; and a network server for providing support for a wired and wireless communication network between the golf swing analyzing apparatus and the linkage server.

As an example, it is characterized in that: the golf swing analyzing apparatus includes at least two unique identification codes, the linkage server identifies each user by the identification codes transmitted from the golf swing analyzing apparatus, and the simulation server guides a game sequence of a plurality of users based on a golf game rule and provides images linked by the linkage server according to a golf game progress sequence of each user.

As an example, the method is characterized by comprising the following steps: a setting unit for selecting the golf course map and the topographic feature and setting the number of participants and the progress mode of the simulated game; and a matching server for matching the topographic feature to the selected one golf course map and transferring the matched golf course map to the simulation server.

As described above, the golf swing analyzing apparatus to which the present invention is applied and the golf practice simulation system using the same can analyze the velocity and trajectory of a golf swing by being mounted on a golf club and applying a sensing technique and more accurately derive the movement trajectory of a virtual golf ball hit on the basis of swing information as described above.

In addition, it is possible to help the junior user reduce errors in the hitting direction and correct the swing posture by providing the aiming function set based on the target hitting direction, thereby helping the user grasp more accurate aiming skills.

In addition, it is possible to provide a more realistic golf game and golf practice environment by providing simulation image information in which the golf swing result and the movement trace of the golf ball are linked, thereby helping a user grasp a proper swing method and continuously providing learning power.

Drawings

Fig. 1 is a schematic view showing an example of mounting a golf swing analyzing apparatus to which the present invention is applied.

Fig. 2 is a schematic view for schematically illustrating a golf swing analyzing apparatus to which the present invention is applied.

Fig. 3 is a block diagram illustrating a configuration of a golf swing analyzing apparatus to which an embodiment of the present invention is applied.

Fig. 4 is a block diagram illustrating a configuration of a golf swing analyzing apparatus to which another embodiment of the present invention is applied.

Fig. 5 is a schematic diagram for explaining an implementation of the sight analysis module to which an embodiment of the present invention is applied.

Fig. 6 is a block diagram illustrating a configuration of a golf practice simulation system using a golf swing analyzing apparatus to which the present invention is applied.

Fig. 7 and 8 are schematic diagrams illustrating a configuration of a simulation screen realized by a simulation server to which an embodiment of the present invention is applied.

Description of the symbols

10: golf club

20: golf swing analysis device

30: database with a plurality of databases

40: linkage server

50: simulation server

60: display device

70: network server

80: setting part

90: matching server

Detailed Description

Next, a golf swing analyzing apparatus to which the present invention is applied and a golf practice simulation system using the same will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic view illustrating an example of installation of a golf swing analyzing apparatus to which the present invention is applied, fig. 2 is a schematic view schematically illustrating a golf swing analyzing apparatus to which the present invention is applied, and fig. 3 is a block diagram illustrating a configuration of a golf swing analyzing apparatus to which an embodiment of the present invention is applied.

The golf swing analyzing apparatus 20 to which the present invention is applied can be attached to the golf club 10 to detect the amount of change in position of the golf club 10 during a swing and analyze the trajectory of the swing, i.e., the path and speed of the swing.

Further, the movement trajectory such as the moving speed, direction, and flying distance of the virtual golf shot can be predicted and calculated based on the analyzed trajectory of the swing and the speed information.

The golf swing analyzing apparatus 20, as described above, can be moved together during a swing by being installed in the golf club 10 and can collect the amount of position change thereof in real time, and preferably, as shown in fig. 1, can be easily installed in or removed from the golf club 10 by being provided with a clamp structure 280 at one side thereof.

The golf swing analyzing apparatus 20 to which the present invention is applied may include a sensing module 200 and a swing analyzing module 250.

First, the sensing module 200 may detect a real-time position change amount of the golf club 10 during a swing and generate a position change signal corresponding thereto.

The swing analysis module 250 may calculate swing result data including a speed and a trajectory related to the swing of the golf club 10 by collecting and analyzing the real-time position change information generated from the sensing module 200.

Specifically, as shown in fig. 3, the sensing module 200 may include a sensor unit 210, a signal processing unit 220, a transceiver unit 230, and a control unit 240.

The sensor unit 220 is configured by a sensor for detecting a real-time position change amount of the golf club 10, and may generate position change signals in X-axis, Y-axis, and Z-axis directions of the golf club 10 by including, for example, a 3-axis gyro sensor 211 and a 3-axis acceleration sensor 212.

Since the 3-axis gyro sensor 211 and the 3-axis acceleration sensor 212 may be sensors using known techniques, detailed descriptions of the operation principle, the signal generation process, and the like related thereto will be omitted.

The signal processing unit 220 may process detection signals detected from the 3-axis gyro sensor 211 and the 3-axis acceleration sensor 212.

For example, the signal processing section 220 may include various signal processing circuits for performing signal processing on the detection signal, such as an amplification process of amplifying a weak electric signal of the received detection signal, a noise removal process of removing noise, and a filtering process of filtering an unnecessary signal.

The transceiver part 230 is used to transmit the detection signal of the processed sensor part 210 to the swing analysis module 250. In this case, the signal transmission of the transceiver 230 may be performed by a control signal of the control unit 240, which will be described below.

The control unit 240 may control the sensor unit 210 to sense a position change amount at a swing time of the golf club 10. That is, the control unit 240 may control a sensing time of the sensor unit 210.

In this case, the control unit 240 may include a plurality of switches for setting an ON/OFF state (ON/OFF state) of the device and an application target of the golf club 10, and the sensing time of the sensor unit 210 may be set to automatically start sensing by the sensor unit 210 when the user's operation of the switches or the movement of the golf club 10 is detected.

In addition, the control part 240 may control the transceiver part 230 to transmit the sensing signal generated from the sensor part 210 to the swing analyzing module 250, and at this time, may also control the transceiver part to automatically perform data transmission at a time point when the sensing signal of the sensor part 210 is generated.

The golf swing analyzing apparatus 20 according to an embodiment of the present invention may further include a display module 260 on the basis of the sensor module 200 and the analysis module 250.

The display module 260 may help a user to recognize his/her swing related information by displaying the processing result of the sight analysis module 250, thereby effectively performing swing practice.

In addition, the swing analyzing module 250 may calculate simulation result data including information on an expected arrival point, direction, and distance of an imaginary golf ball based on the swing result and display it in the display module 260 together with the swing result data of the golf club 10.

In this case, the swing analyzing module 250 may apply an algorithm designed based on physical equations for correlating the swing result data with the motion mechanism of the golf ball, and preferably, a correction equation for improving the accuracy of the simulation result may be derived and applied to the algorithm.

In addition, the swing analyzing module 250 may perform different analysis processes according to applicable objects of the golf club 10 selected by, for example, a driver, an iron club, etc., and calculate simulation result data based on the analysis processes.

Fig. 4 is a block diagram illustrating a configuration of a golf swing analyzing apparatus to which another embodiment of the present invention is applied, and fig. 5 is a schematic diagram illustrating an implementation of a sight analyzing module to which an embodiment of the present invention is applied.

Further, the golf swing analyzing apparatus 20 to which the present invention is applied further includes: the aiming analysis module 270 provides an aiming function based on sensors by being mounted on the golf club 10 and the body of the user.

That is, the sight analyzing module 270 analyzes whether or not the swing position of the user is directed to a preset target hitting direction a by analyzing the position change signal generated from the sensing module 200 according to the user's motion.

Specifically, as shown in fig. 4, the sight analysis module 270 may include a target setting unit 271 and a sight adjustment unit 272.

The target setting unit 271 may be provided with a setting button (not shown) exposed to the outside of the golf swing analyzing apparatus to which the present invention is applied, so as to issue a target setting command.

The target setting unit 271 may set the target hitting direction a when the user presses the setting button in a state of looking at the target point. The target setting unit 271, after setting the target hitting direction a, requests the sensor unit 210 for a reference direction value with respect to the target hitting direction a, and stores the reference direction value transmitted back from the sensor unit 210 in response; and the number of the first and second groups,

in this case, the reference direction value has a fixed position value at a corresponding set time point, and only indicates a linear direction value excluding the height and the left-right direction.

The aiming adjustment unit 272 detects the swing position of the user after the target hitting direction a is set in the target setting unit 271, and receives a position change signal related to the movement of the user in the swing position from the sensor module 200.

In this case, after the user's movement is initially started in a state where the target hitting direction a is set, the swing position detection by the user may determine that the swing position is a case where a set time is exceeded or a case where the user's movement enters a predetermined rotation angle range.

Further, the aiming adjustment portion 272 compares and analyzes the reference direction value stored in the target setting portion 271 and the direction value included in the position change signal received according to the movement of the user in the swing position, and provides the user with guidance information on whether the swing direction of the user is directed to the set target hitting direction a.

As an example, the aiming adjustment unit 272 may include a vibration sensor 273 for providing a vibration signal, and as shown in fig. 5, the vibration sensor 273 may be controlled to shorten a vibration period or provide a stronger vibration intensity as the direction value included in the position change signal is closer to the reference direction value.

That is, the sighting adjustment unit 272 may guide and indicate a state in which the swing position of the user is accurately maintained at 90 ° with respect to the target hitting direction a and a state in which the swing position exceeds 90 ° with respect to the target hitting direction a by using different vibration motions.

The aiming adjustment unit 272 may be provided with a speaker for generating a signal sound to realize the same aiming function as the above-described method by using a different signal sound output, in addition to the guidance by the vibration sensor 273.

As described above, the sighting analysis module 270 to which an embodiment of the present invention is applied can provide a sighting function on a sensor basis by being mounted on the body of a user indoors or even in a field, thereby helping a junior user to reduce errors in a hitting direction and correct a swing posture, thereby helping the user grasp more accurate sighting skills and thereby improving performance.

Fig. 6 is a block diagram illustrating a configuration of a golf practice simulation system using a golf swing analyzing apparatus to which the present invention is applied, and fig. 7 and 8 are schematic diagrams illustrating a configuration of a simulation screen realized by a simulation server to which an embodiment of the present invention is applied.

In addition, a golf practice simulation system (hereinafter, referred to as a "simulation system") using a golf swing analyzing apparatus to which the present invention is applied may receive an input of analysis data related to a golf swing from the above-described golf swing analyzing apparatus 20 and simulate and display a movement trajectory of a golf ball linked based on the input on a screen, thereby performing a golf practice or a game.

Specifically, a simulation system to which the present invention is applied may include a golf analysis device 20, a database 30, a linkage server 40, a simulation server 50, a display 60, and a web server 70, as shown in fig. 6.

The golf swing analyzing apparatus 20 described above may be applied to the golf swing analyzing apparatus 20 described above, so a detailed description thereof will be omitted herein.

The database 30 may store at least one golf course map and a plurality of topographic feature information constituting the golf course map. The database 30 may store basic system environment-related setting values such as rules and difficulty levels of the golf game.

The linkage server 40 may receive input of simulation result data from the swing analyzing module 250 of the golf swing analyzing apparatus 20 and generate coordinate data based on a motion trajectory of a golf ball, and then link the motion trajectory of the golf ball with the selected golf course map using the coordinate data.

The simulation server 50 may generate an image of the golf course map linked with the movement trajectory of the golf ball in the linkage server 40.

The display 60 may provide a user with a visual golf game or even a golf practice environment by outputting the simulation image processed in the simulation server 50.

That is, as shown in fig. 7, the simulation server 50 may visually display the movement trajectory of the golf ball linked according to the processing result of the linkage server 40 through a display.

The web server 70 may provide support for a communication network between the golf swing analyzing device 20 and the linkage server 40. For example, the web server 70 supports a wireless communication network in consideration of portability of the golf swing analyzing apparatus 20, and preferably may include a communication module supporting a wireless local area network or bluetooth communication.

In addition, the golf swing analyzing device 20 to which an embodiment of the present invention is applied may include an inherent identification code and be provided with at least two or more, and the linkage server 40 may identify each golf swing analyzing device 20 by the identification code included in the data transmitted from the golf swing analyzing device 20, thereby substantially identifying a plurality of users.

This is to identify each user when performing a simulation game among a plurality of users, and in the case of the above, the simulation server 50 may guide the game sequence of the plurality of users, the user sequence, and the like according to the golf game rule, receive the input of golf swing result data sequentially performed by each user, and provide the images linked in the linkage server 40 to each user.

The simulation system to which the present invention is applied may further include: the setting unit 90 selects the golf course map and the topographic feature, and sets the number of participants and the progress mode of the simulated game.

The setting unit 90 may select a game mode including a game mode such as a baseball game, a battle game, a hole-by-hole game, and an exercise function for an exercise mode, and the simulation server 50 may provide an image related to one of the game modes selected by the setting unit 90.

The simulation system to which the present invention is applied may further include: and a matching server 80 for matching the topographic feature to one golf course map displayed according to the selection of the setting part 90 and transferring the matched golf course map to the linkage server.

That is, as shown in fig. 8, the matching server 80 selectively applies various kinds of topographic features including weather, trees, lawns, houses, carts, and surrounding backgrounds in order to provide a more realistic graphic environment while providing athletic information before performing simulation, and the final golf course map after matching processing by the matching server 80 is transferred to the simulation server and displayed as an image.

From the above description, it will be understood by those skilled in the art that various changes and modifications may be made in the present invention without departing from the scope of the technical idea thereof. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

Claims (8)

1. A golf swing analyzing apparatus, comprising:

a sensing module adhered to any one selected from a golf club or a user's body, detecting a position change amount based on a swing motion of the golf club or a motion of the user, and generating a position change signal corresponding thereto;

a swing analyzing module for analyzing the position change signal generated from the sensing module to calculate swing result data including a speed and a trajectory related to a swing of the golf club; and the number of the first and second groups,

and an aiming analysis module for analyzing the position change signal generated from the sensing module, analyzing whether the swing position of the user faces to a preset target hitting direction or not and guiding the swing position.

2. A golf swing analyzing apparatus according to claim 1, wherein:

the sensing module includes:

a sensor unit including a 3-axis gyro sensor and a 3-axis acceleration sensor for detecting and generating a position change amount based on a swing motion of a golf club or a motion of a user and outputting a position change signal corresponding thereto;

a signal processing unit for processing the position change signals output from the 3-axis gyro sensor and the 3-axis acceleration sensor;

a transceiver for transmitting the position change signal of the processed sensor part to the swing analysis module or the aiming analysis module; and the number of the first and second groups,

and a control part for controlling the sensing time point of the sensor part and sending a command for transmitting a position change signal of the sensor part to the swing analysis module or the aiming analysis module.

3. The golf swing analyzing apparatus of claim 2, further comprising:

the display module is used for monitoring the processing result of the swing analysis module;

wherein the swing analyzing module calculates simulation result data including expected arrival point, direction and distance information about a virtual golf ball based on the calculated swing result data.

4. A golf swing analyzing apparatus according to claim 2, wherein:

the collimation analysis module comprises:

a target setting unit that sets a target hitting direction in a state where a user desires to hit a target point, requests the sensor unit for a reference direction value with respect to the target hitting direction, and stores the reference direction value transmitted back from the sensor unit in response; and the number of the first and second groups,

and a sighting adjustment unit which detects a swing position of the user after a target hitting direction is set in the target setting unit, receives a position change signal related to a movement of the user at the swing position from the sensing module, and provides guidance information on whether the swing direction of the user is directed toward the set target hitting direction to the user by comparing and analyzing a reference direction value stored in the target setting unit and a direction value included in the position change signal.

5. The golf swing analyzing apparatus of claim 4, wherein:

the above-mentioned aiming adjustment part is provided with,

a vibration sensor for providing a vibration signal is included and by controlling the vibration sensor, a vibration period is shortened or a stronger vibration intensity is provided as the direction value included in the position change signal is closer to the reference direction value.

6. A golf practice simulation system using a golf swing analysis device, comprising:

a golf swing analyzing apparatus according to any one of the above claims 1 to 5;

a database storing at least one golf course map and a plurality of topographic feature information;

a linkage server for receiving the input of the simulation result data of the analysis module, generating coordinate data based on the movement track of the golf ball, and linking the movement track of the golf ball with the selected golf course map by using the coordinate data;

a simulation server for generating the golf course map linked in the linkage server and the movement track of the golf ball as images;

a display for displaying the simulation image processed by the simulation server; and the number of the first and second groups,

and the network server is used for providing support for a wired and wireless communication network between the golf swing analysis device and the linkage server.

7. The golf practice simulation system using a golf swing analyzing apparatus according to claim 6, wherein:

the golf swing analyzing apparatus includes an inherent identification code and is provided with at least two or more,

the linkage server identifies each user through the identification code transmitted from the golf swing analyzing means,

the simulation server guides the game sequence of a plurality of users based on the golf game rules, and provides images linked by the linkage server according to the progress sequence of the golf game of each user.

8. The golf practice simulation system using a golf swing analyzing apparatus according to claim 6, comprising:

a setting unit for selecting the golf course map and the topographic feature and setting the number of participants and the progress mode of the simulated game; and the number of the first and second groups,

and the matching server is used for matching the topographic feature to the selected golf course map and transmitting the matched golf course map to the simulation server.

Images