• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    This simulator has the purpose that the subject can walk, run or fly anywhere in the world in a different way to that of another simulator, the subject being not only who decides where they want to perform the actions, but can also perform them physically, either through the sports tape or in suspension by means of the harness. The user not only has the sensation of being physically present in that virtual graphic environment generated by computer, but also can interact with him in real time. A clear difference compared to other types of simulators is that the environment completely surrounds the user; the vision and other perceptual channels are controlled in their entirety by the system, making the user feel part of the surrounding environment, which has been generated by the graphic projection system. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2545306A1
    申请号:ES201400160
    申请日:2014-03-04
    公开日:2015-09-09
    发明作者:Luis GANCEDO BOTELLA;Eduardo ROSTAND JURADO
    申请人:Luis GANCEDO BOTELLA;Eduardo ROSTAND JURADO;Jorge AYUSO RIVERA;
    IPC主号:
    专利说明:

    One-person simulation system capable of making the subject experience sensations and scenarios that can only be achieved with this system, allowing the free modulation of the experience one wishes to live. BACKGROUND
    In the current era, considered not in vain as the digital age, we find that all aspects of our daily lives have gradually subsumed virtual reality. Despite the fact that there are not few plots that escape this fact, there is a certain gap in relation to the practice of sport referred to the one-person experience.
    In the field of sports, today, the practice of sports activities in closed spaces has evolved a lot, having a multitude of functionalities or tools that allow performing the same exercise as in open spaces such as walking, running, etc. These activities can become monotonous due to the environment itself. An alternative solution that has been adopted is the inclusion of audiovisual systems, such as screens, speakers with piped music, etc. However, the programming of both is independent of exercise, causing the activity to become repetitive.
    On the one-person experience side, we focus on the field of virtual reality. There are already numerous virtual reality simulation devices, both for video games and for flight or driving simulators. For example, patent ES 2 085 895, describes an apparatus for the training and examination of drivers for land vehicles. However, in said patent the simulation is carried out on rails, so it is mandatory to follow the path or the orders that the simulator itself offers.
    Likewise, it is also worth highlighting the patent CN203165265 U, which consists of a peripheral located in 3D vision glasses that can be used for simulation. However, this invention consists only of said hardware / software, requiring an external application to be used.
    Explanation of the invention F.OEPM22 / 09 / 2014F.Effective Application No.22 / 09/2014
    The purpose of this simulator is that the subject can walk, run or fly anywhere in the world in a different way to that of another simulator, being the subject himself not only who decides where he wants to perform the actions, but also can perform physically, either through the sports strap or in suspension through the harness. The user not only has the sensation of being physically present in that computer-generated graphic virtual environment, but can also interact with it in real time. A clear difference with respect to other types of simulators is that the environment completely envelops the user; Vision and other perceptual channels are entirely controlled by the system, making the user feel part of the environment that surrounds him, which has been generated by the graphic projection system.
    Brief description of the figures
    Figure 1: It is the connection diagram between the CPU and each of the elements that make up the complete device.
    1. CPU
    two. Headband
    3. Harness
    Four. Audio system
    5. Glasses
    6. Humidifier system (humidity and odors)
    7. Air-conditioning system
    8. Fan
    9. Glove
    Figure 2: It is the complete simulation unit. It consists of:
    1. Air-conditioning system.
    two. Humidifier system (humidity and odors).
    3. Speaker system.
    Four. Fan system for the wind.
    5. CPU that governs the entire system.
    6. Three-dimensional vision system with motion and tilt sensors.
    7. Levitation system using a hydraulic harness.
    8. Treadmill. Detailed description of the invention
    This simulator is designed based on the creation of new software that will allow to link a 3D vision and digital audio system, a programmable sports treadmill, a harness system with programmable automatic elevation, and an air conditioning system.
    Therefore, a method is described for the simulation of experiences in natural environments, in cities and in any type of virtual environment that includes, on the one hand, the obtaining of the images and environments that will be used in the process, on the other the reproduction and the synchronous operation of all the devices used, allowing the complete sensation of doing the activity outdoors.
    This invention has the particularity of allowing the subject who tests it the possibility of walking, running or flying on any stage in the world, thanks to a treadmill and a hydraulic harness, all managed by self-created software. Within the method we can differentiate the following stages:
    The first stage consists of obtaining the images, by recording or by adapting the Google "Maps" tool to obtain a fluid sequence of continuous video and not by distant frames.
    1. The second stage consists of adapting the landscapes to the elements used: if there is a slope, it must be simulated by the treadmill. If we run through the Amazon, there must be a lot of humidity and a suitable temperature. If we jump off a cliff, the harness must be activated and go to "Flight Mode".
    two. In the third stage, each connection between the CPU and each of the elements must be programmed, in addition to making sure that the relationship between real-virtual displacement is 1/1 to ensure a satisfactory user experience.
    In order to achieve a simulation that is more adjusted to the virtual environment, the product to be patented consists of several elements that help to simulate the environment that is being displayed. These elements are:
    • Fans: provide air to a greater or lesser extent depending on the speed at which the subject is running.
    • Humidifiers: depending on the area in which we want to carry out the activity, they will provide the receptacle with greater or less humidity to achieve greater realism. In addition, they will be trained to humidify with odors, depending on the program to be used.
    • Air conditioner: like the humidifier, it will give us a higher or lower temperature depending on the area we are viewing.
    • 3D glasses: these glasses will be equipped with accelerometers to rotate the video depending on where the subject is looking, achieving full realism.
    • Speakers: provide ambient sound depending on the program to be used.
    • Treadmill: it will be directly interconnected to the program to mark the speed at which we run, and to simulate the slopes that we find in said program.
    • Hydraulic harness: provides the subject with the possibility of flying through the landscape chosen in the program.
    • Controller glove: it is responsible for directing the interface between the user and the CPU to be able to choose the program, and for more actions to be carried out in the software.
    • CPU: it is in charge of the correct operation and the correct interrelation of all the elements.
    权利要求:
    Claims (11)
    [1]
    1.-Simulator system of real or virtual environments in the practice of sports activities in static devices, characterized in that it comprises a CPU control unit that coordinates the following elements:
    Speaker system.
    Three-dimensional vision system With motion and tilt sensors.
    Treadmill.
    So that the simulator allows the user to indicate the environment in which they want to carry out the activity through an interface, obtaining as a result, thanks to the 3D visualization system and the accelerometer, the following effects:
    continuous images at constant speed;
    adaptation of the landscapes to the configured options, and
    Automatic adjustment of the incline or resistance of the treadmill to the slope of the route of the images shown.
    [2]
    2. Simulator system according to the preceding claim, characterized in that it additionally comprises at least one fan to simulate wind, according to the images / selected environment.
    [3]
    3. Simulator system according to claim 2, characterized in that the speed of the wind produced by the wind emitter is proportional to the real speed of movement measured by the treadmill and the CPU.
    [4]
    4.-Simulator system according to claim 1 characterized in that it comprises at least one humidifier and odor emitter device according to the selected environment
    [5]
    5. Simulator system according to claim 4, characterized in that the humidity and odor is relative to the environment that is displayed and is automatically released by the humidifier and odor emitter.
    [6]
    6. Simulator system according to claim 1, characterized in that it comprises an air conditioning system.
    [7]
    7. Simulator system according to claim 6, characterized in that the temperature is relative to the environment that is displayed.
    [8]
    8. Simulator system according to claim 1, characterized in that it comprises a sound emitting device, such as a loudspeaker.
    [9]
    9. Simulator system according to claim 8, characterized by the automatic emission of ambient sounds depending on the environment that is viewed.
    [10]
    10. Simulator system according to claim 1, characterized in that the control system is located in a glove that acts as an interface between the user and the CPU, through the glasses themselves.
    [11]
    11.-Simulator system according to claim 1, characterized in that it comprises the use of a hydraulic harness with its own software linked to the display system, which allows creating the sensation of flying.
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    同族专利:
    公开号 | 公开日
    ES2545306B1|2016-06-28|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US6139473A|1996-09-11|2000-10-31|Namco Ltd.|Action input device for simulator, and simulator using the same|
    EP1386642A1|2002-03-13|2004-02-04|Miguel Jimenez Laso|Gymnastic and sports apparatus comprising a stereoscopic projection screen|
    DE102006035715A1|2006-08-01|2008-02-07|Schmidt, Henning, Dipl.-Ing.|Robot-supported run simulator for e.g. sport training of leg muscle, has robotic arm rotatable transverse to guiding direction, located on linear motor, and rigidly connected with downward projecting lever|
    ES2324695A1|2008-05-16|2009-08-12|Jesus Sanchez Gonzalez|Method for the simulation of real or virtual environments for use when practising sports on static apparatuses and apparatus on which said simulation is performed|
    WO2013176338A1|2012-05-23|2013-11-28|전북대학교산학협력단|Winter-sports simulator using vibration|
    CN203165265U|2013-03-28|2013-08-28|周校平|Universal type logistics equipment simulation training device|CN105972763A|2016-05-25|2016-09-28|青岛海尔空调电子有限公司|Air conditioner system control method and air conditioner system|
    EP3159049A1|2015-10-23|2017-04-26|Too Hwan Kang|Curve cornering simulation device for providing the feeling of sliding when turning|
    CN106871333A|2017-01-05|2017-06-20|邯郸美的制冷设备有限公司|Method, the apparatus and system of a kind of scenery control air-conditioning in virtual world|
    IT201600124198A1|2016-12-07|2018-06-07|Michele Presicci|"INTERACTIVE SYSTEM TO BE APPLIED TO GYMNASTER EQUIPMENT, BASED ON THE INCREASED REALITY"|
    法律状态:
    2015-03-16| PC2A| Transfer of patent|Owner name: LUIS GANCEDO BOTELLA Effective date: 20150310 |
    2016-06-28| FG2A| Definitive protection|Ref document number: 2545306 Country of ref document: ES Kind code of ref document: B1 Effective date: 20160628 |
    2017-01-13| PC2A| Transfer of patent|Owner name: FUNDACION UNIVERSIDAD FRANCISCO DE VITORIA (FUFV) Effective date: 20170109 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201400160A|ES2545306B1|2014-03-04|2014-03-04|3D virtual simulator system|ES201400160A| ES2545306B1|2014-03-04|2014-03-04|3D virtual simulator system|
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