Training Apparatus and Method
Disclosed is a training system consisting of storage maintaining a reference body movement model, and a system for collecting a trainee body movement model. A computer is associated with the storage and the system, which compares the trainee body movement model to the reference body movement model and generates a report comparing the trainee body movement model to the reference body movement model. The report includes an identification of similarity between the trainee body movement model and the reference body movement model, and an identification of dissimilarity between the trainee body movement model and the reference body movement model.
This application is a continuation of U.S. application Ser. No. 10/410,082 entitled TRAINING APPARATUS AND METHODS, filed Apr. 9, 2003, which in turn claims the benefit of Provisional Application Ser. No. 60/370,595, filed Apr. 9, 2002.
FIELD OF THE INVENTIONThis invention relates to advanced training systems and methods.
BACKGROUND OF THE INVENTIONThe role of a coach is to enable the athlete to achieve levels of performance that may not be possible if the athlete is left to his own endeavors. A wise coach develops not only the fullest physical potential in his charges, but also those capacities and habits of mind and body which will enrich and ennoble their later years. Effective training in a particular activity, whether golf, skiing, fly-fishing, cycling, running, swimming, and batting, to name but only a few of many types of physical activities, requires repetition, mental focus, dedication, perseverance, and a judicious and experienced coach for supplying the student with the necessary instruction, tools, motivation, and experience for helping the student achieve his/her maximum potential. Not everyone has access to a coach. As a result, many inherently talented people throughout the world fail to reach their full potential in their chosen activities.
Thus, there is a need in the art for advanced training systems and methods that are efficient, reliable, inexpensive, and do not require a coach, and that exploit the advancements in computer technology and systems and methods for tracking body movement.
SUMMARY OF THE INVENTIONThe above problems and others are at least partially solved and the above purposes and others realized in new and improved training system and method embodiments. A first apparatus embodiment consists of storage maintaining a reference body movement model, and a system for collecting a trainee body movement model. A computer is associated with the storage and the system, and is operative for comparing the trainee body movement model to the reference body movement model and generating a report comparing the trainee body movement model to the reference body movement model. The report includes an identification of similarity between the trainee body movement model and the reference body movement model. The report can also include an identification of dissimilarity between the trainee body movement model and the reference body movement model. The report can still further include remedial instructional information explaining how to correct the trainee body movement model to conform substantially to the reference body movement model.
Another apparatus embodiment consists of a first system for collecting a reference body movement model, a second system for collecting a trainee body movement model, and a computer associated with the first system and the second system for comparing the trainee body movement model to the reference body movement model and generating a report comparing the trainee body movement model to the reference body movement model. The report includes an identification of similarity between the trainee body movement model and the reference body movement model. The report can also include an identification of dissimilarity between the trainee body movement model and the reference body movement model. The report can still further include remedial instructional information explaining how to correct the trainee body movement model to conform substantially to the reference body movement model.
Yet another apparatus embodiment consists of storage maintaining a database of reference body movement models, a trainee body movement model collection system, and a computer. The computer is associated with the storage and the trainee body movement model collection system and is operative for comparing a trainee body movement model collected by the trainee body movement model collection system to a designated one of the reference body movement models and generating a report comparing the trainee body movement model to the designated one of the reference body movement models. The report compares the trainee body movement model to the designated one of the reference body movement models and includes an identification of similarity between the trainee body movement model and the designated one of the reference body movement models. In another embodiment, the report compares the trainee body movement model to the designated one of the reference body movement models and includes an identification of dissimilarity between the trainee body movement model and the designated one of the reference body movement models. In yet another embodiment, the report compares the trainee body movement model to the designated one of the reference body movement models and includes remedial instructional information explaining how to correct the trainee body movement model to conform substantially to the designated one of the reference body movement models.
Still another apparatus embodiment consists of storage maintaining a database of reference body movement models, a trainee body movement model collection system, and a computer. The computer is associated with the storage and the trainee body movement model collection system, and is operative for comparing a trainee body movement model collected by the trainee body movement model collection system to designated ones of the reference body movement models and generating a report comparing the trainee body movement model to each of the designated ones of the reference body movement models. In one embodiment, the report compares the trainee body movement model to each of the designated ones of the reference body movement models includes and includes an identification of similarity between the trainee body movement model and each of the designated ones of the reference body movement models. In another embodiment, the report compares the trainee body movement model to each of the designated ones of the reference body movement models and includes an identification of dissimilarity between the trainee body movement model and each of the designated ones of the reference body movement models. In yet another embodiment, the report compares the trainee body movement model to each of the designated ones of the reference body movement models and includes remedial instructional information explaining how to correct the trainee body movement model to conform substantially to each of the designated ones of the reference body movement models.
Yet still another apparatus embodiment consists of storage maintaining a reference body movement model indicative of movement of reference points in space, in which each of the reference points defines a predetermined reference movement path. Also provided is a system for generating a trainee body movement model indicative of movement of trainee reference points in space, in which each of the trainee reference points defines a trainee movement path corresponding to one of the reference movement paths. This embodiment incorporates alarms, which are each associated with one of the trainee reference points, and a computer. The computer compares the reference movement paths of the reference points of the reference body movement model to the trainee movement paths of the trainee reference points of the trainee body movement model, and for each trainee reference point activates its corresponding alarm if the trainee movement path thereof does not sufficiently correspond to the reference movement path of the corresponding reference point of the reference body movement model. The system is preferably carried by a close-fitting garment, in which the alarms are carried by the close-fitting garment each at one of the trainee reference points. Each of the alarms when activated issues an alerting stimulus, such as least one of an audible stimulus, a visual stimulus, and a physical stimulus such as a vibrating stimulus.
A further apparatus embodiment consists of storage maintaining a reference body movement model indicative of movement of reference points in space, in which each of the reference points defines a predetermined reference movement path. There is also a system for generating a trainee body movement model indicative of movement of trainee reference points in space, in which each of the trainee reference points defines a trainee movement path corresponding to one of the reference movement paths. Robotic mechanisms, carried by a close fitting garment, are each associated with one of the trainee reference points. A computer is also provided for comparing the reference movement paths of the reference points of the reference body movement model to the trainee movement paths of the trainee reference points of the trainee body movement model, and for each trainee reference point activating its corresponding robotic mechanism to promote corrective movement to the close-fitting garment if the trainee movement path thereof does not sufficiently correspond to the reference movement path of the corresponding reference point of the reference body movement model.
Consistent with the foregoing, the invention also contemplates associated apparatus and method embodiments.
Turning now to the drawings, in which like reference characters indicate corresponding elements throughout the several views, attention is first directed to
Set forth for purposes of orientation and reference in connection with the ensuing detailed description of the preferred embodiment of the instant invention, the foregoing brief description of system 10 is intended to be generally representative of a typical system operable for tracking body movements and for generating data indicative of body movements. Many such systems for tracking body movement are known in the art, such as that set forth in U.S. Pat. No. 5,963,891 (the '891 patent). System 10, including computer 11 and garments 12,13, may be constructed and arranged in accordance with the teachings set forth in the '891 patent. Details not specifically illustrated and described will be readily understood and appreciated by those skilled in the art.
Computer 11 has processing apparatus, an associated output apparatus such as a monitor or display, and input apparatus such as a keyboard, a pointing device, etc. Computer 11 can also be associated with a printer, a scanner, a camera, etc. Computer 11 is furnished or otherwise associated with storage 25. Storage 25 is resident or local storage and preferably resident and houses, among other things, software 26 of system 10. Storage 25 can house other things, such as a commercially available browser application 24 for facilitating access to and communication with a computer network such as a local area network or the Internet, and an operating system or platform and preferably one that is multi-tasking and responsive to inputs for accessing and interacting with storage and with networked components.
Sensors 15 define reference points in space, in which each of the reference points defines a predetermined reference movement path. In reference to garment 12, the sensors 15 thereof define trainer reference points in space in which each of the trainer reference points defines a trainer reference movement path. In reference to garment 13, the sensors 15 thereof define trainee reference points in space in which each of the trainee reference points defines a trainee reference movement path.
In the use of system 10, garment 12 is to be worn by a trainer or coach, and garment 13 is to be worn by a trainee or student, whether at the same time or at different times. With reference to
The trainee initiates movement, and garment 13 tracks the body movement of the trainee wearing garment 13 during the course of the movement, and generates data commensurate with the tracked body movements and stores the data as a trainee reference body movement model 22 (hereinafter “trainee model 22”) in storage 25 maintained by or otherwise associated with computer 11. Like model 20, model 22 is a particular type of movement of the trainee, such as a golf swing, a tennis swing, a fly-fishing cast, a batting swing, a discuss throw, a shot-put throw, a rowing stroke, a dance movement, dance movements, a dance, etc. Computer 11 is programmed to acquire trainee model 22 and store trainee model 22 into storage 25. Trainee model 22 is indicative of the trainee reference movement paths of the trainee reference points, namely, sensors 15 of garment 13.
In accordance with the invention, the type of movement indicative of trainee model 20 is the same as trainer model 22. Trainer model 22 is a proper, recommended, or correct movement of a particular type of movement, or, perhaps, a desired movement of a type of movement that a trainee wishes to learn or emulate. After acquiring trainee model 22, computer 11 is responsive, either automatically or manually in response to input user commands and in accordance with programming provided by software 25, and compares trainee model 22 to trainer model 20 and generates a report 30 comparing trainee model 22 trainer model 22. Although only one report is generated, a plurality of reports can be generated if desired. Report 30 includes an identification of similarity between trainee model 22 and trainer model 22 and, in addition thereto or optionally, an identification of dissimilarity between trainee model 22 and trainer model 20, e.g., whether the trainee movement paths of the trainee model 22 correspond to the trainer movement paths of trainer model 20. Report 30 can be accessed by computer 11 as an electronic document and printed from a printer associated with computer 11. After report 30 is generated, it can be stored, either automatically or manually, in storage 25 or elsewhere for later use. Preferably, report 30 includes remedial instructional information explaining how to correct trainee model 22 to conform substantially to trainer model 20, of which a trainee can use for taking corrective action. The positioning of sensors 15 of garments 12,13 are substantially identical, so comparisons of trainee and trainer movement models can be accurately made. Typically, report 30 will identify which, if any, of the trainee movement paths correspond to the trainer movement paths of trainer model 20, and which, if any, of the trainee movement paths that do not correspond to the trainer movement paths. In this way, an accurate identification of particular problem movement paths in the trainee model 22 can be readily identified.
Report 30 is to be used by the trainee in examining the similarities and differences between his trainee model 22 and trainer model 22, which allows the trainee to understand how to correct his movement for the purpose of helping him conform his movement correspond substantially to or more closely to the movement embodied by trainer model 22. After examining report 30, system 10 can again be used by the trainee to collect a new trainee model, in which a new report is generated comparing the new trainee model to trainer model 20. This process can be repeated by a trainee as many times as necessary for the trainee to effectively train himself to engage in a specific type of movement that conforms substantially to trainer model 20 as provided by the trainer.
A trainee and trainer can use system 10 at the same time, if desired, or at different times. In using system 10 at the same time, the trainer can, for instance, engage in repeated golf swings (or other selected type of movement) for creating repeated trainer models of golf swings, and a trainee can, in accordance with instructions provided by the trainer, engage in repeated golf swings for creating repeated trainee models, in which the trainee models are compared by computer 11 to the trainer models to generate reports useful for teaching the trainee to alter his swing or otherwise correct his swing to better conform with the collected trainer models. In using system 10 at different times, trainer model 20 is stored in storage 25, and accessed by a trainee via computer 11 for comparing collected trainee models to stored trainer model 20.
Although only one trainer model 20 is discussed as stored storage 25, a potentially vast number of stored trainer models 20a-20n can be provided and, for instance, maintained in a database 40 of storage 25, in which a trainee can use computer 11 to browse through trainer models 20a-20n of database 40 and make desired selections of trainer models in the use of system 10 as previously explained. Stored trainer models can each be different from one another, and can represent movements by different trainers. For instance, stored trainer models can be 1)different golf swings from the same or different trainers (such as golf coaches or professional golfers), 2)different tennis swings from the same or different trainers (such as tennis coaches or professional tennis players), 3)different batting swings from the same or different trainers (such as batting coaches or professional baseball players), etc., to name but a few. In this respect, database 40 can include activity—or subject—specific categories each containing one or more trainer models for a trainer to select from. The activity—or subject—specific categories and/or trainer models can also include identifications of the trainers from whence the trainer models came.
Rather than incorporating sensors 15 with garments 12,13, sensors 15 can be directly attached to a trainer in the course of use of system 10, and can be directly attached to a trainee in the course of use of system 10. Still, the positioning of sensors to a trainer and a trainee should be substantially identical in order to facilitate accurate comparisons by computer 11 between trainer and trainee models, and between the trainee and trainer reference points. Sensors 15 can be attached to trainees and trainers by way of any desired means. In accordance with the preferred embodiment disclosed herein, garments 12,13 function as carriers for sensors 15. One or more other types of carriers can be used without departing from the invention.
Some activities incorporate the use of implements. For instance, golfing incorporates the use of golf clubs, fly-fishing incorporates the use of a fly rod and line, tennis incorporates the use of a tennis club, etc. In this respect, one or more sensors for use by the trainer can by attached to an implement used by the trainer in the course of the creation of a trainer model so as to track movement of the implement, and this also is true for creation of a corresponding trainee model. To illustrate this point, reference is directed to
In this embodiment, computer 11 compares the trainer reference movement paths of the trainer reference points of trainer model 20 to the trainee reference movement paths of the trainee reference points of the trainee model during the course of its acquisition. Computer 11 is responsive to this real-time comparison event, and for each trainee reference point activates its corresponding alarm 70 if the trainee reference movement path thereof does not sufficiently correspond to the trainer reference movement path of the corresponding trainer reference point of trainer model 20. When an alarm activates, it indicates to the trainee that the trainee reference point for which it corresponds is outside the corresponding trainer reference movement path of trainer model 20. This embodiment provides the trainee with immediate feedback as to the competency of the trainee movement paths as compared to the trainer movement paths of the trainer model 20 during the course of the trainee movement. This aspect of the invention need not take place in a real time comparison event. In other words, a trainee model can be acquired after a trainee initiates a movement or swing and then compared to a trainer model, after which one or more of the alarms will activate indicating to the trainee which trainee movement paths as defined by the trainee reference points failed to adequately correspond to the corresponding trainer movement paths of the trainer reference points of the trainer model. Report 30 can also be generated along with the use of alarms as herein described.
Any desired robotic mechanisms can be used with the invention consistent with the teachings provided herein, which are operable so as to impart forcible movement. In this respect, it is to be understood that robotic mechanisms can be any such known mechanical devices capable of being activated by computer 11 so as to impart a forcible impulse or movement to garment so as to cause it to move, to inhibit movement of garment 13, etc. The goal of robotic mechanisms incorporated with garment 13 is to promote movement of a trainee wearing garment 13 in a particular or desired manner consistent with the trainer movement paths of a trainer model. Consistent with this, any such apparatus capable of performing this function can be used with the invention. It is further envisioned that garment 13 be furnished with instruments capable of imparting involuntary muscle movement, in response to actuation by computer 11, to a trainee wearing garment 13 so as to promote involuntary movement to the trainee in a particular or desired manner consistent with the trainer movement paths of a trainer model, such as trainer model 20. In this respect, garment 13 can incorporate devices capable of generating and delivering applied electrical impulses or other form of energy or impulse to a trainee, which are directed to muscle tissue or elsewhere so as to promote involuntary muscle movement designed to promote a particular type of muscle contraction or movement. Applied electrical impulses can be delivered cutaneously, subcutaneously with the use of pins or probes delivered directly into muscle tissue, etc. Other ways of providing involuntary muscle contraction/movement for causing desired movement in a trainee can be used with the invention and will readily occur to those skilled in the art. Anything associated with garment 13 capable of promoting movement to a trainee wearing garment 13 may be considered within the ambit of “robotic mechanism.” It is envisioned that a trainee can wear trainee garment 13 while sleeping, in which applied electrical or other energy pulses are directed at the trainee so as to stimulate involuntary muscle movements in accordance with a selected trainer model running on the computer in, for instance, a continuous feedback loop, as a means for creating muscle memory.
In a particular embodiment, robotic mechanisms 80 are each associated with each of the trainee reference points of garment 13, namely, sensors 15 thereof. In a comparing event carried out by computer 11 as herein described wherein a trainee model is compared to a trainer model, the comparing event is carried out by computer 11 in real time, in which the trainee model is generated in real time as the trainee initiates a selected movement and is compared real time to trainer model 20 maintained by storage 25. This real time comparison can be initiated manually, or, in accordance with programming provided by software 26, automatically by computer in response to a trainee initiating a selected movement. In this embodiment, computer 11 compares the trainer reference movement paths of the trainer reference points of trainer model 20 to the trainee reference movement paths of the trainee reference points of the trainee model during the course of its acquisition. Computer 11 is responsive to this real-time comparison event, and for each trainee reference point activates its corresponding robotic mechanism 80 if the trainee reference movement path thereof does not sufficiently correspond to the trainer reference movement path of the corresponding trainer reference point of trainer model 20. When robotic mechanism 80 of a particular trainee reference point activates, it imparts forcible movement to garment 13 or inhibits movement of garment 13, otherwise promoting movement of the particular trainee reference movement path for which it corresponds back within its corresponding trainer reference movement path of trainer model 20. This embodiment provides the trainee with immediate promotion of movement maintaining the trainee movement paths to the trainer movement paths of the trainer model 20 during the course of the trainee movement.
The present invention is described above with reference to a preferred embodiment and to preferred teachings. However, those skilled in the art will recognize that changes and modifications may be made to the invention without departing from the nature and scope thereof. For instance, a trainee garment 13 can be provided with an onboard computer for use in storing trainer models and acquiring trainee models and comparing trainee models to trainer models. A trainer garment can also be provided with its own onboard computer for collecting and storing trainer models, if desired. The invention can also be exploited in a networked computer environment, such as local area network or a generalized computer network, such as the Internet, in which stored trainer models are accessed over the computer network for use by user trainees. In a networked environment, trainer models can be maintained by a networked server or other storage device, in which the stored trainer models are accessed by user clients over a privately—or publicly—accessible web site. Also, the invention can incorporate gyroscopes and even satellite data including satellite global positioning data for use in acquiring trainee and trainer models, if desired, and also force platforms for measuring moments along x, y and z axes.
Various changes and modifications to the embodiment herein chosen for purposes of illustration will readily occur to those skilled in the art. To the extent that such modifications and variations do not depart from the spirit of the invention, they are intended to be included within the scope thereof.
Having fully described the invention in such clear and concise terms as to enable those skilled in the art to understand and practice the same, the invention claimed is:
Claims
1. A training system comprising: wherein the computer is capable of activating at least one of the plurality of robotic mechanisms to impart a corrective action to the garment such that the trainee movement path defined by each assessment point is encouraged to conform to its corresponding reference movement path.
- electronic storage maintaining a reference body movement model indicative of movement of a plurality of reference points in space, each of the reference points defining a reference movement path;
- a garment equipped with at least one sensor for informing a trainee body movement model, wherein the trainee body movement model is indicative of movement of at least one assessment point in space, each of the at least one assessment points associated with at least one of the location and orientation of one of each of the at least one sensors, each of the at least one assessment points defining a trainee movement path corresponding to one of the reference movement paths;
- a garment equipped with a plurality of robotic mechanisms, each serving at least one of the assessment points; and
- a computer for comparing each of the trainee movement paths to its corresponding reference movement path,
2. The training system of claim 1, wherein the computer generates a report comparing the trainee body movement model to the reference body movement model.
3. The training system of claim 2, wherein the report contains instructions explaining how to modify the trainee body movement model to conform with the reference body movement model.
4. The training system of claim 1, wherein the corrective action imparted to the garment is to inhibit a trainee movement path that deviates from the corresponding reference movement path.
5. The training system of claim 1, wherein the corrective action imparted to the garment exerts a force that promotes a trainee movement path that conforms to the corresponding reference movement path.
6. The training system of claim 1, wherein the corrective action imparted to the garment delivers an energy impulse designed to stimulate an involuntary muscle contraction that produces a trainee movement path that conforms to its corresponding reference movement path.
7. The training system of claim 6, wherein the energy impulse is one of electrical, electromagnetic, hydraulic, light and pneumatic energy.
8. The training system of claim 1, wherein the corrective action imparted to the garment exerts a force that promotes a trainee movement path that approaches, but does not completely conform to the corresponding reference movement path.
9. The training system of claim 1 wherein the electronic storage maintains a plurality of reference body movement models, at least one of the reference body movement models being selected for a training session.
10. A training garment comprising: wherein at least one of the location and orientation of the at least one sensor is detectable by a computer, and wherein the robotic mechanisms are capable of being activated by a computer to impart a corrective action to the garment such that the trainee movement path defined by each assessment point is encouraged to conform to its corresponding reference movement path.
- at least one sensor for informing a trainee body movement model, wherein the trainee body movement model is indicative of movement of at least one assessment point in space, each of the at least one assessment points associated with at least one of the location and orientation of one of each of the at least one sensors; and
- a plurality of robotic mechanisms, each serving at least one of the assessment points and each capable of imparting a corrective action to the garment
11. The training garment of claim 10 wherein the corrective action imparted to the garment is to inhibit a trainee movement path that deviates from the corresponding reference movement path.
12. The training garment of claim 10 wherein the corrective action imparted to the garment exerts a force that promotes a trainee movement path that conforms to the corresponding reference movement path.
13. The training garment of claim 10 wherein the corrective action imparted to the garment delivers an energy impulse designed to stimulate an involuntary muscle contraction that produces a trainee movement path that conforms to its corresponding reference movement path.
14. The garment of claim 10 wherein the corrective action imparted to the garment exerts a force that promotes a trainee movement path that approaches, but does not completely conform to the corresponding reference movement path.
Type: Application
Filed: Oct 18, 2012
Publication Date: Feb 14, 2013
Inventor: Lance Davidson (Scottsdale, AZ)
Application Number: 13/655,039
International Classification: A63B 69/00 (20060101);