Sensor for detecting whether a basketball player's shot was successful
First Claim
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1. A system for detecting basketballs passing through a basketball hoop comprising:
- a ball ejector configured to launch a series of basketballs to various locations on a basketball playing area for a basketball player to catch and shoot towards the basketball hoop;
an interface configured to program the ball ejector to launch the series of basketballs to the various locations on the basketball playing area;
a ball sensor comprising a microphone, a processor electronically connected to the microphone, an electronic storage device in electronic connection with the processor, and a protrusion extending from said microphone, wherein the microphone is configured to detect a sound generated when one or more of the basketballs shot towards the basketball hoop and passing through the basketball hoop contact the protrusion; and
a controller in electrical communication with said ball sensor and the interface, wherein the controller is configured to record the number of made shots or missed shots for each of the various locations on the basketball playing area the basketballs are launched to;
wherein the electronic storage device comprises a number of pre-recorded sample audio signals, wherein each of the pre-recoded sample audio signals comprise recordings of sounds detected by the microphone when basketballs passing through the hoop contact the hollow tube, and executable software instructions, which when executed by the processor, configure the processor to;
filter audio signals received from the microphone;
compare the filtered audio signals to the pre-recorded sample audio signals stored on the electronic storage device; and
determine that the basketball shot was successfully made where the audio signal received from the microphone is within a predetermined margin of error compared to any of the pre-recorded sample audio signals.
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Abstract
A system for improving a basketball player'"'"'s ability to shoot basketballs towards a basketball hoop having an improved ball sensor is disclosed. An interface allows a player to select various locations for a ball ejector to launch basketballs to. A hollow protrusion extends though the net of the basketball hoop and has a microphone positioned therein. A processor compares audio signals generated by said microphone to pre-recorded sample audio signals of a basketball passing through the net of the basketball hoop to determine if a basketball shot was successfully made.
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Citations
9 Claims
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1. A system for detecting basketballs passing through a basketball hoop comprising:
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a ball ejector configured to launch a series of basketballs to various locations on a basketball playing area for a basketball player to catch and shoot towards the basketball hoop; an interface configured to program the ball ejector to launch the series of basketballs to the various locations on the basketball playing area; a ball sensor comprising a microphone, a processor electronically connected to the microphone, an electronic storage device in electronic connection with the processor, and a protrusion extending from said microphone, wherein the microphone is configured to detect a sound generated when one or more of the basketballs shot towards the basketball hoop and passing through the basketball hoop contact the protrusion; and a controller in electrical communication with said ball sensor and the interface, wherein the controller is configured to record the number of made shots or missed shots for each of the various locations on the basketball playing area the basketballs are launched to; wherein the electronic storage device comprises a number of pre-recorded sample audio signals, wherein each of the pre-recoded sample audio signals comprise recordings of sounds detected by the microphone when basketballs passing through the hoop contact the hollow tube, and executable software instructions, which when executed by the processor, configure the processor to; filter audio signals received from the microphone; compare the filtered audio signals to the pre-recorded sample audio signals stored on the electronic storage device; and determine that the basketball shot was successfully made where the audio signal received from the microphone is within a predetermined margin of error compared to any of the pre-recorded sample audio signals. - View Dependent Claims (2, 3, 4, 5)
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6. A system detecting basketballs passing through a basketball hoop, the system comprising:
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a ball ejector; an interface comprising a number of individually selectable locations arranged in a spaced angular pattern along a rendering of a basketball playing area, wherein said interface is configured to receive user input for programming the ball ejector to launch a series of basketballs to various positions on a basketball playing area corresponding to the individually selectable locations selected by the basketball player by way of physical touch; a ball sensor comprising a microphone positioned within a hollow, tubular protrusion, an electronic storage device comprising pre-recorded sample audio signals generated when basketballs passing through the hoop contact said hollow, tubular protrusion, and a processor configured to filter audio signals received from the microphone and compare the filtered audio signals to the pre-recorded sample audio signals stored on the electronic storage device and determine that a given basketball shot was successfully made where the filtered audio signal is within a predetermined margin of error of any of the pre-recorded sample audio signals; and a controller in electrical communication with said ball sensor and configured to separately record the number of made shots or missed shots for each location selected by the basketball player at the interface. - View Dependent Claims (7, 8)
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9. A system for detecting basketballs passing through a basketball hoop comprising:
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a launcher; an interface configured to program the launcher to eject a series of basketballs to various locations on a basketball playing area; a hollow, rubber tube configured to extend through at least a portion of the net of the basketball hoop when mounted to said basketball hoop; a microphone positioned at least partially within the hollow, rubber tube so as to detect sounds generated when said hollow, rubber tube is contacted by a basketball; a processor electrically connected to said microphone and configured to monitor audio signals detected by said microphone for the sound of a basketball contacting said hollow, rubber tube when passing through the net of the basketball hoop and determine that a basketball shot was successfully made when the detected sound is within a predetermined margin of at least one of a number of pre-recorded samples, wherein each of said number of pre-recorded samples comprise data from the microphone generated when a basketball passing through the net contacted the hollow, rubber tube; and a controller electrically connected to said processor and the interface, wherein said controller is configured to count the number of made shots or missed shots for each location the basketballs were launched to.
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Specification