Ryan Paul Kaps

D693892, Nov 19, 2013

Jan 11, 2013

29/441943

Bhaskar Bose - Carlsbad CA, US
Ryan Kaps - Fountain Hills AZ, US
Joseph Scarbo - Rancho Margarita CA, US

Blast Motion, Inc. - Burlingame CA

2102

D21796, D3218

D694842, Dec 3, 2013

Jan 11, 2013

29/441945

Bhaskar Bose - Carlsbad CA, US
Ryan Kaps - Fountain Hills AZ, US
Joseph Scarbo - Rancho Margarita CA, US

Blast Motion, Inc. - Burlingame CA

2102

D21753

20120122574, May 17, 2012

Nov 16, 2011

13/298158

Michael FITZPATRICK - Burlingame CA, US
Michael BENTLEY - Encinitas CA, US
Bhaskar BOSE - Carlsbad CA, US
Ryan KAPS - Fountain Hills AZ, US

A63F 13/00
G09G 5/00

463 31, 345156

System and method for utilizing motion capture data for healthcare compliance, sporting, gaming, military, virtual reality, industrial, retail loss tracking, security, baby and elderly monitoring and other applications for example obtained from a motion capture element and relayed to a database via a mobile phone. System obtains data from motion capture elements, analyzes data and stores data in database for use in these applications and/or data mining, which may be charged for. Enables unique displays associated with the user, such as 3D overlays onto images of the user to visually depict the captured motion data. Ratings, compliance, ball flight path data can be calculated and displayed, for example on a map or timeline or both. Enables performance related equipment fitting and purchase. Includes active and passive identifier capabilities.

20130095941, Apr 18, 2013

Nov 29, 2012

13/688213

BLAST MOTION, INC. - Encinitas CA, US
Ryan KAPS - Fountain Hills AZ, US
Bhaskar BOSE - Carlsbad CA, US
Joseph SCARBO - Rancho Margarita CA, US

BLAST MOTION, INC. - Encinitas CA

H05K 5/02
A63B 53/00
H01Q 1/52

473223, 361728, 343841, 3122231

Enables coupling or retrofitting a golf club with active motion capture electronics that are battery powered, passive or active shot count components, for example a passive RFID, and/or a visual marker on the cap for use with visual motion capture cameras. Does not require modifying the golf club. Electronics package and battery can be easily removed and replaced, for example without any tools. May utilize a weight that is removed when inserting the electronic package in the mount, wherein the weight element may have the same weight as an electronics package, for no net change or minimal change in club weight. May be implemented with a shaft enclosure and expander that may be coupled with a screw aligned along an axis parallel to the axis of the shaft. May utilize non-permanently and/or friction coupling between the mount and shaft. Cap may include a visual marker and/or logo.

20130211774, Aug 15, 2013

Feb 1, 2013

13/757029

BLAST MOTION INC. - , US
Bhaskar BOSE - Carlsbad CA, US
Ryan KAPS - Fountain Hills AZ, US

BLAST MOTION INC. - Burlingame CA

G01P 13/00

702145

Enables a fitting system for sporting equipment using an application that executes on a mobile phone for example to prompt and accept motion inputs from a given motion capture sensor to measure a user's size, range of motion, speed and then utilizes that same sensor to capture motion data from a piece of equipment, for example to further optimize the fit of, or suggest purchase of a particular piece of sporting equipment. Utilizes correlation or other data mining of motion data for size, range of motion, speed of other users to maximize the fit of a piece of equipment for the user based on other user's performance with particular equipment. For example, this enables a user of a similar size, range of motion and speed to data mine for the best performance equipment, e.g., longest drive, lowest putt scores, highest winning percentage, etc., associated with other users having similar characteristics.

20130225309, Aug 29, 2013

Jan 10, 2013

13/737956

Blast Motion, Inc. - , US
Bhaskar BOSE - Carlsbad CA, US
Ryan KAPS - Fountain HIlls AZ, US

BLAST MOTION, INC. - Encinitas CA

A63B 69/36

473266

A broadcasting system for broadcasting images with augmented motion data, which includes at least one camera, a computer and a wireless communication interface. The system obtains data from motion capture elements, analyzes data and optionally stores data in database for use in broadcasting applications, virtual reality applications and/or data mining. The system also recognizes at least one motion capture data element associated with a user or piece of equipment, and receives data associated with the motion capture element via the wireless communication interface. The system also enables unique displays associated with the user, such as 3D overlays onto images of the user to visually depict the captured motion data. Ratings, compliance, ball flight path data can be calculated and displayed, for example on a map or timeline or both. Furthermore, the system enables performance related equipment fitting and purchase.

D689495, Sep 10, 2013

Jan 10, 2013

29/441942

Bhaskar Bose - Carlsbad CA, US
Ryan Kaps - Fountain Hills AZ, US
Joseph Scarbo - Rancho Margarita CA, US

Blast Motion, Inc. - Encinitas CA

1402

D14433

20220370893, Nov 24, 2022

Aug 1, 2022

17/878835

- San Marcos CA, US
Bhaskar BOSE - San Marcos CA, US
Michael BENTLEY - Carlsbad CA, US
Ryan KAPS - Mesa AZ, US

Blast Motion Inc. - San Marcos CA

A63F 13/211
A63F 13/42
A63F 13/235
A63F 13/25
A63F 13/525
A63F 13/833
G06T 19/00

A system that mirrors motion of a physical object by displaying a virtual object moving in a virtual environment. The mirroring display may be used for example for feedback, coaching, or for playing virtual games. Motion of the physical object is measured by motion sensors that may for example include an accelerometer, a gyroscope, and a magnetometer. Sensor data is transmitted to a computer that calculates the position and orientation of the physical object and generates a corresponding position and orientation of the virtual object. The computer may correct or adjust the calculations using sensor data redundancies. The virtual environment may include constraints on the position, orientation, or motion of the virtual object. These constraints may be used to compensate for accumulating errors in position and orientation. The system may for example use proportional error feedback to adjust position and orientation based on sensor redundancies and virtual environment constraints.