KR101094858B1 - Real-Time Virtual Realrity Sports Platform Apparutus Using Feedback Motion Base and Power Feedback Health Equipments - Google Patents

Abstract

The present invention relates to a real-time virtual reality sports platform device, connected to the main control means 200, the main control means 200 is installed and driven three-dimensional game or virtual reality program including the three-dimensional motion path information, the main control means 200 3D movement path information transmitted from the main control means 200 and physical quantity information such as 3D position and direction velocity, acceleration, moving distance, power, energy consumption, etc. of the user and the exercise apparatus 110 in the virtual space. By the user to the feedback control means 330 and the power feedback driving means for controlling the load applied to the feedback driving means 310 driven by the user to be equal to the load actually felt by the user in the virtual reality A power feedback means 300 comprising a drive sensing means 320 for measuring an exercise load and the main control means 200, and the main control means 2. 00) consists of motion control means 410 for controlling the posture and vibration of the motion haptic reproducing apparatus 420 with the posture and vibration that the user can actually feel in virtual reality according to the 3D motion path information and the physical quantity information transmitted from 00). Is connected to the motion reproducing means 400, the main control means 200, the operation input means 500 for receiving and transmitting the user's operation input to the main control means, and is connected to the main control means 200 A three-dimensional graphics engine 610 for generating three-dimensional image information using the three-dimensional motion path information transmitted from the main control means 200, and one or more two-dimensional or three for displaying image information of the three-dimensional graphics engine. An image reproducing means 600 composed of a dimensional display 620 and an acoustic reproducing means 700 connected to the main control means 200 and expressing sound information transmitted from the main control means 200. It relates to a real-time virtual reality sports platform device characterized in that it comprises a.

According to the present invention, in addition to the real-time virtual reality technology centering on 3D graphics by visual and sound transmitted through the eyes and ears, the motion reproducing means of the sensation ring sensor, which is a human posture sensor, and the haptic effect By providing 4D virtual reality that makes people feel, it is possible for humans to feel the perfect graphic and immersive feeling as if the user is immersed in the virtual world. In addition, the force that is actually manipulated using the muscles of the body, such as human hands and feet, is input through the sensor and used as an input for the motion in the virtual reality space. According to various reaction forces according to the force feedback (Force Feedback) means it is possible to exercise while feeling the force feedback (Force Feedback) that is directly transmitted to the exercise load to the user's body. Therefore, it is possible to make a cyber space, such as a sports game, which moves objects of various contents in virtual reality, into a space in which one participates and competes, thereby effectively increasing the immersion and effect of exercise.

Exercise, Motion Base, Motion Feedback, Power Feedback, Virtual Reality, Fitness, Sports

Description

Real-Time Virtual Realrity Sports Platform Apparutus Using Feedback Motion Base and Power Feedback Health Equipments}

The present invention uses a real-time virtual reality technology to exercise the exercise using the real muscles as input, the input moves the virtual object in the virtual reality and feels this movement with a motion generator and at the same time the load of the virtual object exercise health device The present invention relates to a virtual reality sports platform applied to a main control means (200), which is installed and driven by a three-dimensional game or a virtual reality program including three-dimensional motion path information, and is connected to the main control means (200), According to the three-dimensional motion path information transmitted from the main control means 200 and the physical quantity information such as the three-dimensional position and direction of the user and the exercise device 110 in the virtual space, the speed, acceleration, moving distance, power, energy consumption, etc. The amount of load applied to the feedback driving means 310 driven by the user to be equal to the load actually felt by the user in virtual reality. A power feedback means 300 comprising a feedback control means 330 for controlling and a driving sensing means 320 for measuring an exercise load applied by the user to the power feedback driving means, and the main control means 200. Motion control for controlling the posture and vibration of the motion sensation reproducing apparatus 420 with posture and vibration that the user can actually feel in virtual reality according to the 3D motion path information and the physical quantity information transmitted from the main control means 200. A motion reproducing means 400 comprising a means 410, an operation input means 500 connected to the main control means 200, for receiving and transmitting a user's operation input to the main control means, and the main control means. A three-dimensional graphics engine 610 connected to the 200 and generating three-dimensional image information using the three-dimensional motion path information transmitted from the main control means 200, and the three-dimensional graphics engine; Image reproducing means 600 composed of one or more two-dimensional or three-dimensional display for displaying the image information of the real, and the sound connected to the main control means 200, representing the sound information transmitted from the main control means 200 Real-time virtual reality sports platform device characterized in that it comprises a reproduction means 700.

The present invention of the above configuration is a device for a virtual reality sports device to move the objects in the virtual reality through the actual movement, such as the human limbs and to feel the movement environment of these objects to the real person. In other words, the multi-axis platform implements an active motion driving device that enables the movement of virtual objects such as cars, airplanes, birds, etc. in virtual reality through hands and feet, and allows them to feel the movements of these virtual objects on their own. As a result, as shown in FIG. 2, a virtual reality game enables a real user to move and manipulate a car, plane, or bird in virtual reality by using his muscles, and to feel graphics, audio, and wind accordingly. Thus, real muscle and human sensors, ie graphics through eyes, sounds through ears, posture through vestibular organs, tactile sensing through acceleration, gravity through wind, etc., all through the present invention from virtual reality. The sense of human senses means that the exercise of hands and feet is shown in virtual reality, and the conditions of load in the virtual reality are imposed on the exercise of muscles, meaning a health and sports environment.

Functional display of the existing sports equipment, that is, the exercise environment using a device such as a bicycle, can be expressed as shown in FIG. In other words, the program and the principles of the game in the thinking of the exerciser are mainly used as a dynamometer that moves a person's body, ie, the muscle consumes energy with the force and distance that corresponds to the weight of the body and the device and the acceleration of movement. When you move, you have a structure that reacts again to feel the physical change that appears as this. Such sports equipment uses a method of replacing a load of actual equipment with a simple mechanical or electric equipment.

In this regard, the concept of a u-sport (Ubiquitous-Sports) device or a virtual reality (VR) sport device may be newly proposed as a type of a new sport device. Ubiquitous Sports (U-Sports) or VR (Virtual Reality) sports means a kind of Sports that combines the virtual environment and the sports environment of the real world with the real world. It can be defined as a concept. u-Sports or Virtual Reality (VR) sports devices currently correspond to e-sports with simple online game functions and have the concept of configuration as shown in FIG. In other words, with the new virtual environment in the human head, the movement of human muscles adds force from a device or fitness device, such as a dynamometer, which is a force feedback, including the force that actually moves the body or object. Will be different. In actual sports, the force required to move the body in the playground, snow, and water is the most load, but in u-Sports, the force generated by the content or by a certain principle that is mounted on the fitness equipment It moves into this real muscle and this amount of movement is transmitted through the one or more sensors or sensor networks to the world of content, or the virtual reality world, whereby aerodynamics are sometimes driven by certain principles within the content, Driven with programmed dynamics, it is a moving or adjusting parameter that makes a change in the virtual world, and the result is a graphic, audio and motion platform or motion-based motion motion that can be seen and felt by the actual person. Generally the structure of the It is good.

This new environment uses new instruments and devices, so-called u-Sports equipment, without the use of real playgrounds and devices such as balls, or the use of real worlds such as playgrounds or ski resorts, and the graphics, tactile sense for the virtual world that humans feel. New timeless space in the world of new kinematics that adds to content other than the world of inertial systems of Newton's second law in virtual reality spaces that newly create 4D inputs such as, olfactory, and posture (vestibular loop tube) It is possible to play sports with new rules applied to the content virtual world, and to play a comprehensive game in the virtual world through the interconnection through the network.

In the meantime, these u-sports devices have not been attempted to actually exercise with comprehensive VR functions. Among them, the immersive u-sport equipment is not possible with a simple game console because it requires a power environment to move the human body and muscles. There was no example. These systems require state-of-the-art comprehensive technology, from computer graphics to servo motor control, and are virtually impossible without expensive equipment that requires high technology. When the element technologies of these u-Sports equipments have been developed so far, it can be seen that the graphic parts were developed before the commercialization level, and the motion queuing parts required by the dual sports equipment, the virtual vehicle dynamic parts, and Content development related parts through dynamometers and motion measurement sensors connected to exercise equipment have not been made systematically. Motion base, that is, motion simulator technology has been developed mainly for military use and has been applied to aviation simulators, but there was a problem that no device having such a function exists in the full-scale popularization market.

In order to solve the problems of the existing technology, the present invention provides a real-time virtual reality sports platform device of a relatively inexpensive and simple structure, a human posture detection sensor in the real-time virtual reality technology centered on the 3D graphics of the eyes and ears By providing 4D virtual reality that makes you feel the sensation effect of the semicircular canal and the acceleration movement, it is possible to give humans the perfect graphic and sensation that immerses themselves in the virtual world like the real world, and the force of the muscles of the hands and feet The movement that feels force feedback, that is, the movement of the hands and feet, makes cyber spaces such as sports games that move objects of various contents in this virtual reality into a space where one participates and competes, thereby improving the immersion and effect of the movement. The task is to make it extremely high.

In order to achieve the above object, the real-time virtual reality sports platform apparatus of the present invention is the main control means 200 is installed and driven three-dimensional game or virtual reality program including three-dimensional motion path information, and the main control means ( 200, the three-dimensional movement path information transmitted from the main control means 200 and the three-dimensional position and direction velocity, acceleration, moving distance, power, energy consumption of the user and the exercise device 110 in the virtual space, Feedback control means for controlling the amount of load felt by the user by controlling the amount of load applied to the feedback driving means 310 driven by the user to be equal to the load actually felt by the user in the virtual reality according to the physical quantity information such as 330 and one or more power units comprising drive sensing means 320 for measuring an exercise load applied by the user to the power feedback drive means. Connected to the feedback means 300 and the main control means 200, according to the three-dimensional motion path information and physical quantity information transmitted from the main control means 200 to the posture and vibration that the user can actually feel on the virtual reality Motion reproducing means 400 comprising motion control means 410 for controlling posture and vibration of the movement haptic reproducing apparatus 420 and the main control means 200, and inputting a user's manipulation to the main control means. A three-dimensional graphic connected to the operation input means 500 and the main control means 200 to receive and transmit the received information, and generating three-dimensional image information using the three-dimensional motion path information transmitted from the main control means 200. An image reproducing means 600 composed of an engine 610, one or more two-dimensional or three-dimensional displays displaying image information of the three-dimensional graphics engine, and connected to the main control means 200, wherein the subject It is characterized in that it comprises a sound reproducing means 700 for representing the sound information transmitted from the fish means 200.

In addition, the motion control device 420 includes a mounting platform 421 on which the exercise device 110 is mounted, a motion driving device 422 and a motion driving device 422 connected to three sides of the mounting platform. It is characterized by consisting of the base platform 423 connected to the three sides.

In addition, the motion drive device 422 is characterized by consisting of a linear cylinder or a hydraulic servo cylinder using a high-performance motor.

In addition, the image reproducing means 600 is connected to the main control means 200 and the three-dimensional graphics engine 610, and receives the user's state through a video camera to display in the virtual space virtual reality after chroma key It is characterized in that it further comprises a chroma key reproducing means 630 that can be expressed on the display 620 to give or characterize the user through the object tracking.

In addition, it is connected to the main control means 200, by using the three-dimensional motion path information and the wind direction information according to the physical quantity information transmitted from the main control means 200 to reproduce the wind speed that the user can actually feel in the virtual reality It is characterized in that it further comprises a wind speed reproduction means (800).

In addition, the wind speed reproducing means 800 is characterized in that it comprises a blower fan 810 is installed at least one.

In one embodiment, the exercise device 110 has a bike shape consisting of a seat 112 and the vehicle body 111, the front of the vehicle body 111 receives a user's direction change operation input A handle sensor / driving means 520 is provided to allow a user to feel a load, and a pedal 311 driven by a user is mounted on the power feedback driving means 310.

In addition, the manipulation input means 500 is installed on the manipulation button 510 for inputting a manipulation signal required by the user and the handle sensor / drive means 520, and the brake sensor 511 and the bike for detecting a user's brake manipulation. It characterized in that it comprises a gear shift selection button 512 that can adjust the reduction ratio or select the automatic shift.

Meanwhile, in another embodiment, the exercise device 110 has a canoe shape consisting of a seat and a hull, and the power feedback driving means having an oar handle attached to both sides of the hull 113. It is characterized in that the 310 is installed respectively.

According to the present invention, the real-world virtual reality technology centering on the 3D graphics of the eyes and ears provides a 4D virtual reality that allows the human body to feel the sensation effect of the secular ring sensor and the acceleration movement, which is a human's virtual reality like the real world. It is possible to give a perfect graphic and bodily sensation to oneself, and exercise that feels the force using the muscles of the hands and feet, or force feedback, which is the reaction of the hands and feet. By making cyberspace such as a moving sports game into a space where one participates and competes, there is an effect that the immersion and effect of exercise can be extremely increased.

In other words, the health equipment is a human interface input device such as a game action joystick, so that the game machine can be manipulated through actual muscles, and the load according to the virtual environment in the game is added to the fitness exercise device to create a haptic effect, At the same time, it is possible to provide a perfect virtual reality exercise device by experiencing motion feedback in the virtual reality by the multi-axis motion base. Thus, it provides a platform to create a variety of new virtual reality sports devices using fitness devices that allow users to directly use the muscles of their bodies, think as their heads, and compete and enjoy over networks in the virtual world. It can be made, it is no longer a tough fitness device, it is possible to exercise and enjoy excitingly, and the exercise device without time and space constraints is made.

Hereinafter, a real-time virtual reality sports platform device according to an embodiment of the present invention with reference to the accompanying drawings.

The real-time virtual reality sports platform device of the present invention, as shown in FIG. 5, the power feedback means 300, which is composed of the main control means 200, the feedback control means 330, and the driving sensing means 320, reproduces the feeling of movement. Motion reproducing means 400, manipulation input means 500, three-dimensional graphics engine 610, and images of the three-dimensional graphics engine, comprising motion control means 410 for controlling the attitude and vibration of the apparatus 420. It is characterized in that it comprises the image reproducing means 600 and the acoustic reproducing means 700 composed of one or more two-dimensional or three-dimensional display 620 for displaying information.

First, the main control means 200 will be described. The main control means 200 has a function of controlling the other components connected to the main control means 200 is installed and driven by a three-dimensional game or a virtual reality program including three-dimensional motion path information. The three-dimensional game or virtual reality program including the three-dimensional motion path information driven by the main control means 200 is a standardized graphic development environment, dynamic modeling, fitness device drive / sensor network, multi-axis 4D simulator motion platform It is desirable to be developed using the authoring tool for VR Sports system development in a comprehensive development environment. The main control means 200 may be implemented using a computer using a CPU that is used universally, or a one-chip processor having a chip board or system on chip (SOC) concept that is manufactured to be specialized in the functions of the present invention. .

Next, the power feedback means 300 is demonstrated. The power feedback stage 300 is connected to the main control means 200, as shown in Figure 5, the three-dimensional motion path information transmitted from the main control means 200 and the user and the exercise device in the virtual space Feed back driving means 310 driven by the user to be equal to the load actually felt by the user in the virtual reality according to the physical quantity information such as the three-dimensional position and direction speed, acceleration, movement distance, power, energy consumption, etc. of the 110 Feed back control means 330 for controlling the amount of load applied to the) and drive sensing means 320 for measuring the exercise load applied to the power feedback drive means.

The power feedback means 300, first, has a function for increasing the driving experience, such as the existing force feedback joystick, and secondly it is responsible for the drive unit function for inputting the movement. Driving sensation is mainly a feeling of high frequency vibration and provides riding vibration such as vibration of the engine or unevenness of the road surface, and at the same time, high response multi-axis which feels the rising, falling, rotation, acceleration and deceleration of virtual objects. The main factor is to give exercise feedback to the motion base to give a haptic effect, and the driving part requires a load for manipulating pedal rotation, rowing, ascending and descending, and measuring the amount of exercise.

In the method of implementing the feedback driving means 310, a means for driving a corresponding power when an external power signal is applied, and for outputting a corresponding power signal when a driving signal is received, is used as an example. Or it is possible to use a motor such as an alternating current motor. In this case, considering the rotational characteristics of the motor having a high rotational characteristic generally between several hundreds and tens of thousands of rpm, and the driving force / load of a user located at several hundreds per minute and hundreds of companies, the motor has suitable deceleration means such as a reduction gear. It is preferable to attach and use. On the other hand, the drive sensing means 320 is used to calculate the physical quantity by measuring the rotational speed and the drive torque of the feed back drive means 310, in accordance with an embodiment of the present invention using an Hall sensor or the like (RPM sensor (RPM) It is common to configure a sensor combination such as a combination of a sensor and a torque sensor. However, a configuration may be calculated by using the amount of the voltage / current output from the feedback driving means 310 and its variation value. .

Next, the motion reproducing means 400 will be described. The motion reproducing means 400 is connected to the main control means 200, and the posture and the subtraction that the user can actually feel on the virtual reality according to the 3D motion path information and the physical quantity information transmitted from the main control means 200. Motion control means 410 for controlling the posture and vibration of the movement haptic reproducing apparatus 420 by the sense of speed and vibration. That is, when the user and the exercise device 110 are tilted to the right in the virtual reality, the exercise device 110 is actually tilted to the right, and when the user and the exercise device 110 are accelerated in the virtual reality, the acceleration is caused by the direction of gravity. To perform a posture change function such as tilting the exercise device 110 to the rear so as to feel similar. In addition, the motion reproducing means 400 in the virtual reality when the user and the exercise device 110 is traveling on the path of high or low of the terrain or traveling in a path crossing the waves, the height of the terrain / bend or wave It has a function of driving the user and the exercise device 110 up and down in a real space so that the user can feel. On the other hand, the motion reproducing means 400 reproduces the vibration having a frequency of about several Hz so that the user and the exercise device 110 in the virtual reality to drive the driving vibration due to the rough terrain. In order to enable the motion reproducing means 400 capable of such a function, there may be various methods for configuring the motion control device 420 constituting one component of the motion reproducing means 400, but the work 4 and 4_2, the mounting platform 421 on which the exercise device 110 is mounted, the motion driving device 422 connected to three or more sides of the mounting platform, and the motion driving device are illustrated. It is preferred that 422 be composed of a base platform 423 connected to at least three sides. In this case, as shown in FIG. 9, the motion control device 420 controls each of the motion driving devices 422 in conjunction with each other, thereby reproducing a desired motion. The motion driving device 422 belongs to an intermediate weight load operating area that must drive a mass of about 200 kg when considering the weight of the user and the exercise device, and requires a high system response characteristic that must be reproduced up to several Hz of vibration. In consideration of the fact that it is preferable that the linear actuator having a response characteristic of several Hz, it is preferable to be composed of a linear cylinder or a hydraulic servo cylinder using a high-performance motor. In addition, in order to enable the motion reproducing means 400 capable of such a function, the motion control means 410 constituting a component of the motion reproducing means 400 is a kinematic, a filter and a real time in a digital control manner. It is desirable to implement by using a controller to make the performance and development environment of the system flexible, and to adjust various parameters and change the motion information with the content. The motion control means 410 may be implemented as a one-chip processor using a computer using a CPU that is used universally, or a chip board or system on chip (SOC) concept manufactured to be specialized in the functions of the present invention. Do.

Next, the operation input means 500 will be described. The manipulation input means 500 is connected to the main control means 200 as shown in FIG. 5, and inputs manipulations of the user to the main control means such as operation / stop of the device, program selection, difficulty selection, and load adjustment. It has a function to receive and deliver. On the other hand, the manipulation input means 500 may be modified in various ways, such as having an input form such as the handle shape of the bike or the shift of the brake gear in accordance with an embodiment of the present invention. In addition, the present invention has the same configuration as the power feedback means 300, as shown in Figure 10, in addition to the operation input means 500, the user can feel the operation load while receiving the user's direction change operation It may be configured to include one or more handle sensor / drive means 520 so that the user can input the force feedback to the user to be equal to the load that the user can actually feel in the virtual reality as well as the user input. desirable. In this case, the handle for manipulating the handle sensor / drive means 520 is one of the handle-type bike handle 521 or the vehicle-shaped handle 522 of the bike according to the embodiment of the present invention as shown in FIG. It may be configured to include any one, or to be configured to be mounted to the handle sensor / drive means 520 by simply replacing the bike handle 521 or the car handle 522 detachably. In addition, it is preferable that the handle sensor / drive means 520 is configured to include one or more as shown in FIG. .

Next, the image reproducing means 600 will be described. The image reproducing means 600 is connected to the main control means 200 as shown in FIG. 5, and generates three-dimensional image information using the three-dimensional motion path information transmitted from the main control means 200. 3D graphics engine 610 and one or more two-dimensional or three-dimensional display 620 for displaying the image information of the three-dimensional graphics engine. On the other hand, the image reproducing means 600 is connected to the main control means 200 and the three-dimensional graphics engine 610 as shown in Figure 5, after receiving the user's appearance through a video camera after chroma key It is preferable that the apparatus further comprises a chroma key reproducing means 630 capable of displaying on the display 620 a user who has been shown in virtual reality in virtual reality or through object tracking.

On the other hand, the chroma key reproducing means 630 is a realistic u-Sports function and object to show the graphics and game participants through the video camera to create a participatory sports environment in the virtual space after the chroma key in virtual reality It is preferable to configure a realistic interface and an agent to support a mode that shows a character through tracking instead of sharing it on a network. To this end, the chroma key reproducing means 630 has a high-definition alpha video input stream function that supports chroma keys, supports a video stream in a 3D environment in real time, and connects real-time characters and motion data, supports inverse kinematics, and shaders. Special effects such as particles and skin using techniques are supported in real time, and it is desirable to have a high performance real time 3D graphics processing function that supports transparency with texturing techniques for virtual objects and live video.

Next, the acoustic reproducing means 700 will be described. The sound reproducing means 700 is connected to the main control means 200 as shown in FIG. 5, and expresses sound information such as background sound / effect sound / warning sound / background music transmitted from the main control means 200. Has The sound reproducing means 700 is configured to include one or more speakers 710, it is preferable to represent a variety of realistic sounds, such as stereo / 5.1 channel.

Next, the wind speed reproducing means 800 will be described. As shown in FIG. 5, the wind speed reproducing means 800 uses the three-dimensional motion path information transmitted from the main control means 200 and the wind direction information according to the physical quantity information to determine the wind speed that the user can actually feel in the virtual reality. Has the ability to reproduce. To this end, the wind speed reproducing means 800 is preferably configured to include one or more blowing fan 810, as shown in Figure 6, installed in six places of the front, rear, left / right and top / bottom It is more preferable to maximize the effect that the user actually feels the virtual reality space by adjusting the wind speed of each blowing fan 810 to be able to change the wind direction as well as the wind direction.

Hereinafter, a bike-type real-time virtual reality sports platform device according to an embodiment of the present invention will be described. The bike type real-time virtual reality sports platform device as shown in Figures 4 and 7 the exercise device 110 has a bike shape consisting of a seat 112 and the vehicle body 111, the vehicle body ( A handle sensor / drive means 520 is provided on the front surface of the 111 to receive a user's direction change operation and allow the user to feel the operation load, and a pedal 311 driven by the user in the power feedback driving means 310. ) Is mounted. In this case, the manipulation input means 500 may include a manipulation button 510 for inputting a manipulation signal required by the user and the handle sensor / driving means 520 in order to provide a user with a feeling of operation similar to that in a real motorcycle. It is preferably configured to include a brake sensor 511 for detecting the user's brake operation and the gear shift selection button 512 to adjust the reduction ratio of the bike or to select the automatic shift. On the other hand, the handle sensor / drive means 520 can simply enable the user to sense the operating load by using a tension, such as a spring, and the power feedback means 300 further comprises the handle sensor / It is also possible to perform the function of the drive means 520.

On the other hand, in another embodiment of the present invention the exercise device 110 has a canoe (canoe) shape consisting of a seat and the hull, as shown in Figure 11, both sides of the hull (oar) Canoe type real-time virtual reality sports platform device is characterized in that each of the power feedback drive means 310 is attached to the handle is installed.

In the following, the operation of the real-time virtual reality sports platform device of the present invention through the operation of the bike type real-time virtual reality sports platform device according to an embodiment of the present invention.

The 3D virtual reality image is expressed in the image reproducing means by a program embedded in the main control means, and sound such as effect sound or background music is output through the sound reproducing means. At this time, the user inputs his weight (mass) to the main control means through the manipulation input means and is set to the mass required for the dynamic calculation along with the mass of the virtual cycle. After that, the user presses the pedal as if to actually ride the cycle and starts the exercise. At this time, the rotational speed and the power of the pedal are measured by the driving sensor unit and input to the main control means. The main control means performs dynamic calculation of each physical quantity of the moving object using the stored three-dimensional path information in real time. As shown in Fig. 6, the cycle over time and the movement speed, acceleration, position, and direction of the user's object are calculated, and rolling resistance, air resistance, slope resistance, inertia resistance, etc. are calculated using the cycle pedal. Attitudes and vibration factors, such as the load to be applied and the tilt of the cycle, are calculated. The load to be applied to the pedal thus calculated is controlled by the feedback control means of the power feedback means so that the user controls the load to be applied to the pedal. Through this load control process, the load control enables the user to feel the force differently even when the same speed pedal is pushed up or down the hill in the virtual reality 3D path. Measured by the driving sensing means and input to the virtual reality program of the main control means to control the virtual reality program. Meanwhile, the steering angle of the steering wheel is measured through the steering wheel sensor / driving means, and whether or not the brake operation is measured through the brake sensor is used as an input for adjusting the direction and speed of the cycle in the virtual reality 3D path. On the other hand, when the configuration of the operation input means to have the same configuration as the power feedback means, the load amount that can be actually felt according to the terrain or speed in the virtual reality when the user turns the steering wheel in the virtual reality as well as the user's operation input Force feedback can be delivered to the user so that In addition, the calculated posture of the cycle is transmitted to the motion reproducing means so that the motion control means adjusts the posture of the vehicle body in response to the transmitted posture and vibration, etc., to allow a more realistic exercise. Through this process, the user feels as if they are actually moving on the 3D virtual reality path and realistically immerses themselves in the exercise.

In the foregoing description, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

The development of authoring tools and service software including 4D MMI generator and script SW package for U-Sports related technology development has been developed for the real-time virtual reality technology centered on 3D graphics of the eyes and ears, and the semicircular tube, which is a human postural sensor, It provides 4D virtual reality that makes people feel the effects of motion, and provides the technology that gives humans the perfect graphic and immersion that immerses them in the virtual world like real life. In addition, the exercise of feeling the force using the muscles of the hands and feet, that is, the reaction of force feedback, that is, the movement of the hands and feet, participates and competes in the cyber space like a sports game that moves objects of various contents in this virtual reality. Necessary element technology to be made into space is developed. These technologies will be developed as a systematic module for each element, making technology standardization easier, and will be the cornerstone for future international standards. As these technologies are made in Korea for the first time in the world, they can lead the technology and take advantage of the high ground to occupy the vast next generation sports and fitness market by preoccupying related fields.

1 is a conceptual diagram of a fitness device according to an embodiment of the present invention.

2 is a conceptual diagram of u-sports using the real-time virtual reality sports platform device according to an embodiment of the present invention.

3 is a conceptual diagram of use of a real-time virtual reality sports platform device according to an embodiment of the present invention.

4 is a schematic view of a real-time virtual reality sports platform device according to an embodiment of the present invention.

5 is a block diagram of a device for real-time virtual reality sports platform according to an embodiment of the present invention.

6 is a physical quantity calculation graph of a bike type real-time virtual reality sports platform device according to an embodiment of the present invention.

7: Appearance reference diagram of the bike-type real-time virtual reality sports platform device according to an embodiment of the present invention

8 is an appearance reference diagram of a motion control means of a virtual reality sports platform device according to an embodiment of the present invention;

9 is an operation control principle diagram of the motion control means of the virtual reality sports platform apparatus according to an embodiment of the present invention

10 is a block diagram of the handle sensor / driving means of the virtual reality sports platform apparatus according to an embodiment of the present invention

11 is a view illustrating an appearance of an apparatus for reproducing an exercise haptic in a canoe type real-time virtual reality sport platform device according to another embodiment of the present invention

<Description of Symbols Used in Main Parts of Drawing>

100: real time virtual reality sports platform device

110: exercise device 111: body

112: sheet 113: hull

200: main control means

300: power feedback means 310: power feedback drive means

320: drive sensing means 330: feedback control means

400: motion reproduction means 410: motion control means

420: motion sensation reproduction device 421: mounting platform

422: motion drive 423: base platform

500: operation input means 510: operation button

511: brake sensor 512: gear shift button

520: handle sensor / drive means 521: bike handle

522: car handle

600: image reproduction means 610: three-dimensional graphics engine

620: Display 630: Chroma-key reproduction means

700: sound reproduction means 710: speaker

800: wind speed reproduction means 810: blowing fan

Claims (9)

delete A main control means 200 in which a three-dimensional game or a virtual reality program including three-dimensional motion path information is installed and driven; It is connected to the main control means 200, the three-dimensional movement path information transmitted from the main control means 200 and the three-dimensional position and direction of the user and the exercise device 110 in the virtual space, the direction, acceleration, moving distance, The feed adjusts the load amount felt by the user by controlling the load amount applied to the feedback driving means 310 driven by the user to be equal to the load amount actually felt by the user in virtual reality according to physical quantity information such as power, energy consumption, and the like. One or more power feedback means (300) comprising back control means (330) and drive sensing means (320) for measuring an exercise load applied by the user to the feedback drive means (310); Connected to the main control means 200, the motion haptic reproducing apparatus 420 with posture and vibration that the user can actually feel in virtual reality according to the three-dimensional motion path information and physical quantity information transmitted from the main control means 200 Motion reproducing means 400 consisting of motion control means 410 for controlling the posture and vibration of the; A manipulation input means (500) connected to the main control means (200), the manipulation input means (500) transmitting and receiving a user's manipulation input to the main control means; A three-dimensional graphics engine 610 connected to the main control means 200 and generating three-dimensional image information by using three-dimensional motion path information transmitted from the main control means 200; Image reproducing means (600) consisting of one or more two-dimensional or three-dimensional displays (620) for displaying image information; Sound reproduction means (700) connected to the main control means (200) and expressing sound information transmitted from the main control means (200); Characterized in that configured to include, The exercise haptic reproducing apparatus 420 includes a mounting platform 421 on which the exercise device 110 is mounted, a motion driving device 422 and a motion driving device 422 connected to three or more sides of the mounting platform. Real-time virtual reality sports platform device, characterized in that consisting of the base platform 423 connected to at least three sides. The method according to claim 2, The motion driving device 422 is a real-time virtual reality sports platform device, characterized in that consisting of a linear cylinder or a hydraulic servo cylinder using a high-performance motor. The method according to any one of claims 2 to 3, The image reproducing means 600 is connected to the main control means 200 and the three-dimensional graphics engine 610, receives the user's state through a video camera and displays the object in a virtual reality in a virtual space after chroma key or an object. And a chroma-key reproducing means (630) capable of expressing a user characterized through tracking on the display (620). The method according to claim 4, Wind speed reproduction is connected to the main control means 200, and reproduces the wind speed that the user can actually feel in the virtual reality using the three-dimensional motion path information and the wind direction information according to the physical quantity information transmitted from the main control means 200 Means 800; Real-time virtual reality sports platform device characterized in that it further comprises. The method according to claim 5, The wind speed reproducing means (800) is a real-time virtual reality sports platform device, characterized in that it comprises one or more installed blowing fan (810). The method according to claim 6, The exercise device 110 has a bike shape consisting of a seat 112 and the vehicle body 111, The front surface of the vehicle body 111 has the same configuration as the power feedback means 300, the handle sensor / drive means 520 for receiving the user's direction change operation and the user can feel the operating load is installed, Bike-type real-time virtual reality sports platform device, characterized in that the user-driven pedal 311 is mounted on the power feedback drive means (310). The method of claim 7, The manipulation input means 500 is provided on a manipulation button 510 for inputting a manipulation signal required by a user and a reduction ratio of a brake sensor 511 and a bike which are installed at the handle sensor / drive means 520 to sense a user's brake manipulation. Bike type real-time virtual reality sports platform device, characterized in that it comprises a gear shift selection button 512 that can adjust or select the automatic shift. The method according to claim 6, The exercise device 110 has a canoe (canoe) shape consisting of the seat and the hull 113, Canoe type real-time virtual reality sports platform device, characterized in that the power feedback drive means 310, each of which is attached to the oar handle (312) is installed on both sides of the hull (113).

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