Data input glove with instantaneous chord detection
First Claim
1. A data input device comprising:
- One or two gloves,A microprocessor attached to one of the gloves,A plurality of charged conductive elements each connected to an I/O pin of the said microprocessor.A subset of the said conductive elements is positively charged and the remaining subset of the said conductive elements is negatively charged.A chord is formed when two or more conductive elements of the same polarity touch one another.A signal is generated when said chord or a single conductive element comes in contact or breaks contact with another single conductive element or chord of opposite polarity. The microprocessor processes this signal and generates a corresponding output from a data table.
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Abstract
The invention describes a data glove input device that relies on a novel chording mechanism. The device is comprised of one or two gloves with conductive elements covering the finger tips and additional conductive elements on the palm and the thumb. The conductive elements are divided into two groups of opposite polarity. A chord is formed by when two or more conductive elements of the same polarity are held in contact with each other. The device generates an output when a conductive element or a chord of one polarity makes or breaks contact with a conductive element or chord of the opposite polarity. The innovation lies with the large number of key combinations supported using this chording mechanism in an easily accessible manner.
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Citations
3 Claims
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1. A data input device comprising:
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One or two gloves, A microprocessor attached to one of the gloves, A plurality of charged conductive elements each connected to an I/O pin of the said microprocessor. A subset of the said conductive elements is positively charged and the remaining subset of the said conductive elements is negatively charged. A chord is formed when two or more conductive elements of the same polarity touch one another. A signal is generated when said chord or a single conductive element comes in contact or breaks contact with another single conductive element or chord of opposite polarity. The microprocessor processes this signal and generates a corresponding output from a data table. - View Dependent Claims (2)
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3. A method for entering data using a chording mechanism, comprising the steps of:
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Using an apparatus having one or two gloves, the apparatus having a microprocessor attached to one of the gloves, a plurality of charged conductive elements each connected to an I/O pin of the said microprocessor and mounted on the fingers, thumb and palm regions of the glove, the said conductive elements on the fingertips shaped in the form of a thimble, a subset of the said conductive elements positively charged and the remaining subset of the said conductive elements negatively charged. Moving two or more conductive elements of the same charge to touch one another and create a chord; and Moving said chord or a single conductive element to make or break electrical contact with another single conductive element or chord of opposite polarity; and
generating a signal that is processed by said microprocessor to generate an output.
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Specification