MULTI-DIMENSIONAL MOVEMENT RECORDING AND ANALYSIS METHOD FOR MOVEMENT ENTRAINMENT EDUCATION AND GAMING

Abstract

A method of recording multiple dimensions of a user's movement using a gyroscope-equipped smart device and scoring it relative to a reference recording and/or set of inflection markers for use in dance games, flash mobs, and/or movement training applications.

Claims

1. A method of recording multiple dimensions of a user's movement (three spacial dimensions over time) using a gyroscope-equipped smart device (smartphone, smart watch, etc.) and scoring it relative to a reference recording and/or set of inflection markers, comprising: recording time-stamped limb orientation data from one or more gyroscope-equipped smart device(s) affixed to predetermined locations upon a user's limb(s); scoring said orientation data by relative comparison with a reference recording and/or set of inflection markers, determining said reference recordings as the recording of an exemplary model, or the averaged value of a group of users; determining said inflection markers as including but not limited to the base rhythms of a song, as used for dance education and gaming application, or a marching rhythm when used for soldier training, said scoring being a function of a.) the difference between the gyroscope recording values and the pre-set reference values, and/or b.) the difference between the timing of the recording inflections relative to the timing of reference inflections and/or soundtrack landmark timing, aka inflection markers.

2. The method of claim 1, wherein multiple users listen to synchronized music recording played on their own headphones and dance freestyle to said music with the recording smart device(s) in a predetermined location on their person as a silent disco dance game.

3. The method of claim 2, wherein the users are scored by their accuracy as measured by their movement inflection relative to predetermined reference inflections.

4. The method of claim 1, wherein multiple users listen to synchronized music recording played on their own headphones and dance to predetermined choreography to said music with the recording smart device(s) in a predetermined location on their person as a flash mob dance game.

5. The method of claim 4, wherein the users are scored by their accuracy as measured by their overall movement fidelity to one dimension of a predetermined reference recording.

6. The method of claim 4, wherein the users are scored by their accuracy as measured by their overall movement fidelity to all dimensions of a predetermined reference recording.

7. The method of claim 2, wherein the users are scored by their accuracy as measured by their movement inflection relative to the average inflection value of said group.

8. The method of claim 1, wherein multiple users listen to synchronized music recording played aloud on a stereo system and dance freestyle to said music with the recording smart device(s) in a predetermined location on their person as a silent disco dance game.

9. The method of claim 1, wherein multiple users listen to synchronized music recording played aloud on a stereo system and dance to predetermined choreography to said music with the recording smart device(s) in a predetermined location(s) on their person as a flash mob dance game.

10. The method of claim 9, wherein the users are scored by their accuracy as measured by their overall movement fidelity to one dimension of the average value of all users' recordings.

11. The method of claim 9, wherein the users are scored by their accuracy as measured by their overall movement fidelity to all dimensions of the average value of all users' recordings.

Description

DESCRIPTION

[0020] FIG. 1 illustrates three of the most common locations for the Smart Device(s) 101, in the Front Pocket 102, Wrist 103, and Upper Arm 104 of the User 105, and the headphones: Wired Headphones 106, Wireless Headphones 107

[0021] FIG. 2 shows Reference Values for Y 201, X 202, and Z 203. Recording Values for Y 204, X 205, and Z 206 are shown in comparison by matching elapsed Time 207.

[0022] FIG. 3 The Orientation Differences. Y 301, X 302, Z 303 between the Reference Values (201, 202, 203) and Recording Values (204, 205, 206) is demonstrated by the corresponding shaded areas (301, 302, 303).

[0023] FIG. 4 shows Recording Inflection Points 401, Reference Inflection Points 402, and the Inflection Difference 403.

[0024] FIG. 5 shows geo-location based entrainment Audio Zones 501 with augmented reality audio AR Audio Zones 502 (distance-volume gradation). Also Point Zones 503 and AR Point Zones 504. Different areas may employ Size Limits 505 and/or Minimum Speed Limits 506. The Streets 507 and Avenues 508 are both clearly labeled.

REFERENCE NUMERALS

[0025] 101 Smart Device(s) 102 Front Pocket 103 Wrist [0026] 104 Upper Arm [0027] 105 User [0028] 106 Wired Headphones 107 Wireless Headphones 201 Reference Values Y [0029] 202 Reference Values X 203 Reference Values Z 204 Recording Values for Y 205 Recording Values for X 206 Recording Values for Z 207 Time [0030] 301 Orientation Differences Y 302 Orientation Differences X 303 Orientation Differences Z 401 Recording Inflection Points 402 Reference Inflection Points 403 Inflection Difference [0031] 501 Audio Zones [0032] 502 AR Audio Zones [0033] 503 Point Zones [0034] 504 AR Point Zones [0035] 505 Size Limits [0036] 506 Minimum Speed Limits 507 Streets [0037] 508 Avenues

Operation

[0038] Reference Values (201, 202, 203) have either a.) been previously determined by the first Recording Values (204, 205, 206), or b.) were pre-set by an exemplary model using a predetermined method, or c.) the Reference Values (201, 202, 203) are determined by the plurality of users in movement, by averaging the Recording Values (204, 205, 206) of all the users.

[0039] Reference Inflection Points 402 have either been pre-set using a predetermined method or they can are determined during the movement (dance game, choreography, etc) by averaging a plurality of Recording Inflection Points 401 from a plurality of users. Recording Inflection Points 401 are determined as the extreme gyroscope values (the high points and/or low points). The three gyroscope spacial dimensions allow for a plurality of combinations, from both high and low points for all three dimensions, producing six simultaneous Recording Inflection Points 401. Alternatively, Recording Inflection Points 401 could be narrowly defined to just one polarity (eg low-points) of one dimension (eg Y 204). This wide range of possible Recording Inflection Points 401 provides flexibility, to meet the specific needs of different applications of the method.

[0040] Reference Values (201, 202, 203) and Reference Inflection Points 402 may be set for one or more locations, including but not limited to the Front Pocket 102, Wrist 103, and Upper Arm 104, for either one and/or both sides, as appropriate for the type of movement being entrained.

[0041] Gyroscope Recording Values (204, 205, 206) are recorded by the Smart Device 101 while the User 105 performs the desired movements. The User 105 may keep time by listening to a song via their Headphones (106 or 107) as they move with the Smart Device 101 affixed to a predetermined location, including but not limited to, their Front Pocket 102. Wrist 103, or Upper Arm 104.

[0042] The Smart Device 101 need not be limited to the standard locations (102, 103, 104). Indeed, as long as the location is the same when the Reference Values (201, 202, 203) are determined as when the Recording Values (204, 205, 206) are measured, it may be used in any location that best suits the application.

[0043] The Orientation Difference (301, 302, 303) and/or Inflection Difference 403 are calculated by the Smart Device 101 These differences (301, 302, 303, 303/403) could be observed as real time audio readings (which may be used as real-time feedback, to alert to being too fast or too slow on the beat), and/or viewed afterward.

Minimum Speed Limits on Busy City Avenues:

[0044] Sidewalks on busy streets, like 5th Ave. in New York, may have Minimum Speed Limits 506 Groovin' will require respecting the Speed Limit 506, to avoid disrupting pedestrian traffic. (Indeed, this can even encourage users to groove faster than the average walking speed of the area, to help prevent congestion and avoid negative public sentiment.)

Augmented Reality Audio:

[0045] For activities including but not limited to public dancing, or groovin (walking in rhythm with music), the use of geo-location based audio entrainment zones, or AR Audio Zones 502 provide augmented reality audio via a distance-volume gradation. This allows for Users 105 to hear the music at a lower volume as they are getting closer to an Audio Zone 501. The music gets louder as the User 105 passes through the AR Audio Zone 502, until reaching full volume when they enter the Audio Zone 501. For example, if a User 105 is walking West on E 56th St. (507) and approaching the 5th Avenue Audio Zone 501, they will begin to hear the music playing in the 5th Ave Audio Zone 501 as early as half a block away.

[0046] If the orientation of the User 105 is know with a predetermined degree of accuracy (for example if their Smart Device 101 is a pair of augmented reality glasses) the AR Audio Zones 502 may further enhance the augmented reality effect by altering the volume between each ear (or even introducing a micro-delay) to enhance the perception of the music coming from the direction of the Audio Zone 501.

Jukeboxes:

[0047] Another of a multiplicity of uses for Point Zones 503 is to be used like an augmented reality jukebox. Point Zones 503 could also be made mobile, like an augmented reality boom box.

Note on Self-Organizing Regulation:

[0048] By adjusting the size, location, and number of Point Zones 503, the location and concentration of silent raves can self-organize to accord with predetermined parameters. For example, if a park has a predetermined Size Limit 505 for silent rave dance games, the Point Zone 503 could divide into two-dividing the dancers (aka Users 105) evenly into the two groups, and guide them to different areas of the park, or even relocate one to an entirely new nearby location. This may be automatically employed whenever a Point Zone 503 gets over-enrolled, instead of simply denying new Users 105 from joining.

[0049] Self-organization can also help keep dancing, and groovin', within socially acceptable and legal limits. For example, a neighbor or police request could be used to trigger an automatic limiting, redirection, division, dispersion, and/or relocation of a public dance game which has been deemed too disruptive, using a predetermined method.

[0050] Speed limits could also be self-organized based on a predetermined method and a plurality of inputs including, but not limited to: a.) the measurements of average pedestrian speeds in the Audio Zone 501 in question, b.) User 105 opinion feedback, and/or c.) the numbers and/or speeds which have been known to historically trigger complaints in the Audio Zone 501 in question.

[0051] Other self-organizing methods may be utilized to help users take full advantage of the benefits of this method, while also balancing the complex and often conflicting desires of pedestrians, workers, and residents in crowded urban environments, using predetermined methods.