Golf swing measurement and analysis system
First Claim
1. A golf swing measurement and analysis system comprising:
- a golf club comprising a shaft, a club head, and the club head further comprising a club head top surface and a club head face, wherein the club head further comprises;
an acceleration measurement assembly mounted within the club head for measuring acceleration in three separate orthogonal directions defining a measurement axes coordinate system; and
a plurality of impact sensor elements located within the club face of the club head for measuring ball impact forces and ball impact location on the club face; and
a computational engine that receives communications from the club head, the computational engine including a processor that performs analysis based on a golf swing model stored on the computational engine, the golf swing model comprising multiple levers including at least one rigid lever and at least one non-rigid lever, wherein the processor executes instructions to cause the computational engine to perform tasks including;
interpret acceleration measurements made by the acceleration measurement assembly, the interpretation being done with respect to boundary conditions of said golf swing model;
detect whether said acceleration measurement assembly alignment is misaligned;
calibrate the acceleration measurements based on the detection to create calibrated acceleration measurements;
define dynamically changing relationships between an inertial axes coordinate system defined by said golf swing model and said measurement axes coordinate system during a golf swing; and
measure a signal strength of a signal transmitted from the golf club to a receiver to define a dynamic spatial relationship between the club head and a predefined location where the transmitted signal is received.
1 Assignment
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Accused Products
Abstract
An integrated golf club and analysis system that measures and analyze the performance characteristics of both: 1) a free golf swing without impact with a golf ball and 2) a golf swing with ball impact analysis. Free swing analysis provides critical information needed to analyze swing style so that dynamics swing characteristics optimization can be evaluated throughout the entire swing without ball impact, while impact analysis provides critical information on ball impact location on the club face, however, they cannot be measured simultaneously since ball impact eliminates the ability to identify the swing metric peaks such as velocity if it were to occur after ball impact. To achieve both, an integrated electronics golf club head comprises multiple types of sensors for measuring club head motion, impact and spatial location information with a weight and balance of a regulation golf club head.
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Citations
20 Claims
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1. A golf swing measurement and analysis system comprising:
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a golf club comprising a shaft, a club head, and the club head further comprising a club head top surface and a club head face, wherein the club head further comprises; an acceleration measurement assembly mounted within the club head for measuring acceleration in three separate orthogonal directions defining a measurement axes coordinate system; and a plurality of impact sensor elements located within the club face of the club head for measuring ball impact forces and ball impact location on the club face; and a computational engine that receives communications from the club head, the computational engine including a processor that performs analysis based on a golf swing model stored on the computational engine, the golf swing model comprising multiple levers including at least one rigid lever and at least one non-rigid lever, wherein the processor executes instructions to cause the computational engine to perform tasks including; interpret acceleration measurements made by the acceleration measurement assembly, the interpretation being done with respect to boundary conditions of said golf swing model; detect whether said acceleration measurement assembly alignment is misaligned; calibrate the acceleration measurements based on the detection to create calibrated acceleration measurements; define dynamically changing relationships between an inertial axes coordinate system defined by said golf swing model and said measurement axes coordinate system during a golf swing; and measure a signal strength of a signal transmitted from the golf club to a receiver to define a dynamic spatial relationship between the club head and a predefined location where the transmitted signal is received. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A golf swing analysis system comprising:
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a receiver that receives measurement data regarding a golf club swing; a non-transitory computer-readable medium that includes; information defining a golf swing model; and instructions for analyzing golf swing data according to the golf swing model; and a computational engine including a processor that executes the instructions to analyze the measurement data relative to the golf swing model, the processor performing stages that include; calculating toe down angle at an impact point; calculating club face angle at the impact point; calculating a dynamically changing swing radius; and reporting results to a user based on at least the calculation stages. - View Dependent Claims (14, 15, 16, 17)
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18. A golf swing analysis system comprising:
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a receiver that receives golf swing measurement data; a non-transitory computer-readable medium that includes; information defining a golf swing model; and instructions for analyzing golf swing data according to the golf swing model; and a computational engine including a processor that executes the instructions to analyze the measurement data relative to the golf swing model, the processor performing stages that include; calculating a dynamically changing toe down angle; calculating dynamically changing club head radial acceleration; and reporting results to a user based on at least the calculated toe down angle, and dynamically changing club head radial acceleration. - View Dependent Claims (19, 20)
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Specification