Electronic alerting device and associated method
First Claim
1. An electronic alerting device adapted to be worn on an ear of a driver for ensuring that the driver remains alert while operating a vehicle, said electronic alerting device comprising:
- an earpiece adapted to be worn at the driver ear, said earpiece including a microchip housed therein;
a sensor located at an outer surface of said earpiece and being capable of detecting when a driver eyelid closes and opens, said sensor generating and transmitting first and second eyelid detection signals to said microchip when the driver eyelid closes and opens respectively;
a transducer attached to said earpiece and adapted to be placed in the driver ear;
wherein said earpiece comprises a hook-shaped member comprisingan arcuate-shaped proximal end portion adapted to be positioned about the driver ear;
a linear distal end portion adapted to terminate at a corner of the driver eyelid;
wherein said sensor is located on said linear distal end portion substantially orthogonal to said arcuate-shaped proximal end portion and configured to remain on said linear distal end portion on a side of the driver'"'"'s face;
a flange member outwardly extended from said hook-shaped member and adapted to be inserted into the driver ear;
wherein said transducer is attached to a tip of said flange member;
a communication interface enabling said microchip to communicate with said transducer;
wherein said microchip determines a number of continuous occurrences of said first and second eyelid detection signals per a unit of time, said microchip generating and transmitting true and false control signals to said transducer when said number of continuous occurrences of said first and second eyelid detection signals is above and below a threshold number of continuous occurrences within the unit of time respectively;
wherein said microchip comprises;
a processor; and
a memory communicatively coupled to said processor, said memory including software instructions, when executed by said processor, said processor causing said transducer to selectively emit an alert signal; and
,wherein said software instructions comprise;
a control logic algorithm including the chronological steps ofupon receiving an initial signal of said first and second eyelid detection signals, determining whether said initial signal is said first eyelid detection signal;
if yes, initiating a time count;
if no, repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals;
upon receiving a subsequent signal of said first and second eyelid detection signals, determining whether said initial signal is unique to said subsequent signal;
if said initial signal is unique to said subsequent signal, ending said time count and repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals;
if said initial signal is the same as said subsequent signal, ending said time count and counting said number of continuous occurrences of said first eyelid detection signals;
if said number of continuous occurrences of said first eyelid detection signal is above said threshold number of continuous occurrences within said unit of time, generating and transmitting said true control signal to said transducer; and
if said number of continuous occurrences of said first eyelid detection signal is below said threshold number of continuous occurrences within said unit of time, generating and transmitting said false control signal to said transducer.
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Accused Products
Abstract
An electronic alerting device may include an earpiece adapted to be worn at the driver ear. The earpiece may include a microchip and a sensor located at an outer surface of the earpiece. The sensor may be capable of detecting when the driver eyelid closes and opens by generating and transmitting eyelid detection signals to the microchip when the driver eyelid closes and opens respectively. A transducer may be attached to the earpiece and adapted to be placed in the driver ear. A communication interface may be used to enable the microchip to communicate with the transducer. The microchip may determine a number of continuous occurrences of the eyelid detection signals and thereby generates and transmits control signals to the transducer when the number of continuous occurrences of the eyelid detection signals is above and below a threshold number of continuous occurrences within a unit of time.
19 Citations
11 Claims
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1. An electronic alerting device adapted to be worn on an ear of a driver for ensuring that the driver remains alert while operating a vehicle, said electronic alerting device comprising:
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an earpiece adapted to be worn at the driver ear, said earpiece including a microchip housed therein; a sensor located at an outer surface of said earpiece and being capable of detecting when a driver eyelid closes and opens, said sensor generating and transmitting first and second eyelid detection signals to said microchip when the driver eyelid closes and opens respectively; a transducer attached to said earpiece and adapted to be placed in the driver ear; wherein said earpiece comprises a hook-shaped member comprising an arcuate-shaped proximal end portion adapted to be positioned about the driver ear; a linear distal end portion adapted to terminate at a corner of the driver eyelid; wherein said sensor is located on said linear distal end portion substantially orthogonal to said arcuate-shaped proximal end portion and configured to remain on said linear distal end portion on a side of the driver'"'"'s face; a flange member outwardly extended from said hook-shaped member and adapted to be inserted into the driver ear; wherein said transducer is attached to a tip of said flange member; a communication interface enabling said microchip to communicate with said transducer; wherein said microchip determines a number of continuous occurrences of said first and second eyelid detection signals per a unit of time, said microchip generating and transmitting true and false control signals to said transducer when said number of continuous occurrences of said first and second eyelid detection signals is above and below a threshold number of continuous occurrences within the unit of time respectively; wherein said microchip comprises; a processor; and a memory communicatively coupled to said processor, said memory including software instructions, when executed by said processor, said processor causing said transducer to selectively emit an alert signal; and
,wherein said software instructions comprise;
a control logic algorithm including the chronological steps ofupon receiving an initial signal of said first and second eyelid detection signals, determining whether said initial signal is said first eyelid detection signal; if yes, initiating a time count; if no, repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals; upon receiving a subsequent signal of said first and second eyelid detection signals, determining whether said initial signal is unique to said subsequent signal; if said initial signal is unique to said subsequent signal, ending said time count and repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals; if said initial signal is the same as said subsequent signal, ending said time count and counting said number of continuous occurrences of said first eyelid detection signals; if said number of continuous occurrences of said first eyelid detection signal is above said threshold number of continuous occurrences within said unit of time, generating and transmitting said true control signal to said transducer; and if said number of continuous occurrences of said first eyelid detection signal is below said threshold number of continuous occurrences within said unit of time, generating and transmitting said false control signal to said transducer. - View Dependent Claims (2, 6, 8)
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3. An electronic alerting device adapted to be worn on an ear of a driver for ensuring that the driver remains alert while operating a vehicle, said electronic alerting device comprising:
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an earpiece adapted to be worn at the driver ear, said earpiece including a microchip housed therein; a sensor located at an outer surface of said earpiece and being capable of detecting when a driver eyelid closes and opens, said sensor generating and transmitting first and second eyelid detection signals to said microchip when the driver eyelid closes and opens respectively; a transducer attached to said earpiece and adapted to be placed in the driver ear; wherein said earpiece comprises a hook-shaped member comprising an arcuate-shaped proximal end portion adapted to be positioned about the driver ear; a linear distal end portion adapted to terminate at a corner of the driver eyelid; wherein said sensor is located on said linear distal end portion substantially orthogonal to said arcuate-shaped proximal end portion and configured to remain on said linear distal end portion on a side of the driver'"'"'s face; a flange member outwardly extended from said hook-shaped member and adapted to be inserted into the driver ear; wherein said transducer is attached to a tip of said flange member; a communication interface enabling said microchip to communicate with said transducer; wherein said microchip determines a number of continuous occurrences of said first and second eyelid detection signals per a unit of time, said microchip generating and transmitting true and false control signals to said transducer when said number of continuous occurrences of said first and second eyelid detection signals is above and below a threshold number of continuous occurrences within the unit of time respectively; wherein said microchip comprises; a processor; and a memory communicatively coupled to said processor, said memory including software instructions, when executed by said processor, said processor causing said transducer to selectively emit an alert signal; wherein said software instructions comprise;
a control logic algorithm including the chronological steps ofupon receiving an initial signal of said first and second eyelid detection signals, determining whether said initial signal is said first eyelid detection signal; if yes, initiating a time count; if no, repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals; upon receiving a subsequent signal of said first and second eyelid detection signals, determining whether said initial signal is unique to said subsequent signal; if said initial signal is unique to said subsequent signal, ending said time count and repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals; if said initial signal is the same as said subsequent signal, ending said time count and counting said number of continuous occurrences of said first eyelid detection signals; if said number of continuous occurrences of said first eyelid detection signal is above said threshold number of continuous occurrences within said unit of time, generating and transmitting said true control signal to said transducer; and if said number of continuous occurrences of said first eyelid detection signal is below said threshold number of continuous occurrences within said unit of time, generating and transmitting said false control signal to said transducer; and
,wherein said sensor is a passive sensor. - View Dependent Claims (4)
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5. A method of utilizing an electronic alerting device adapted to be worn on an ear of a driver for ensuring that the driver remains alert while operating a vehicle, said method comprising the chronological steps of:
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providing an earpiece including a microchip housed therein; providing and locating a sensor at an outer surface of said earpiece; wherein said earpiece comprises a hook-shaped member comprising an arcuate-shaped proximal end portion adapted to be positioned about the driver ear; a linear distal end portion adapted to terminate at a corner of the driver eyelid; wherein said sensor is located on said linear distal end portion substantially orthogonal to said arcuate-shaped proximal end portion and configured to remain on said linear distal end portion on a side of the driver'"'"'s face; a flange member outwardly extended from said hook-shaped member and adapted to be inserted into the driver ear; providing and attaching a transducer to said earpiece; wherein said transducer is attached to a tip of said flange member; providing a communication interface for enabling said microchip to communicate with said transducer; upon detecting when a driver eyelid closes and opens, said sensor generating and transmitting first and second eyelid detection signals to said microchip respectively; said microchip determining a number of continuous occurrences of said first and second eyelid detection signals per a unit of time; said microchip generating and transmitting true and false control signals to said transducer when said number of continuous occurrences of said first and second eyelid detection signals is above and below a threshold number of continuous occurrences within the unit of time respectively; wherein said microchip comprises; a processor; and a memory communicatively coupled to said processor, said memory including software instructions, when executed by said processor, said processor causing said transducer to selectively emit an alert signal; and
,wherein said software instructions comprise;
a control logic algorithm including the chronological steps ofupon receiving an initial signal of said first and second eyelid detection signals, determining whether said initial signal is said first eyelid detection signal; if yes, initiating a time count; if no, repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals; upon receiving a subsequent signal of said first and second eyelid detection signals, determining whether said initial signal is unique to said subsequent signal; if said initial signal is unique to said subsequent signal, ending said time count and repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals; if said initial signal is the same as said subsequent signal, ending said time count and counting said number of continuous occurrences of said first eyelid detection signals; if said number of continuous occurrences of said first eyelid detection signal is above said threshold number of continuous occurrences within said unit of time, generating and transmitting said true control signal to said transducer; and if said number of continuous occurrences of said first eyelid detection signal is below said threshold number of continuous occurrences within said unit of time, generating and transmitting said false control signal to said transducer. - View Dependent Claims (7, 9)
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10. An electronic alerting device adapted to be worn on an ear of a driver for ensuring that the driver remains alert while operating a vehicle, said electronic alerting device comprising:
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an earpiece adapted to be worn at the driver ear, said earpiece including a microchip housed therein; a sensor located at an outer surface of said earpiece and being capable of detecting when a driver eyelid closes and opens, said sensor generating and transmitting first and second eyelid detection signals to said microchip when the driver eyelid closes and opens respectively; a transducer attached to said earpiece and adapted to be placed in the driver ear; wherein said earpiece comprises a hook-shaped member comprising an arcuate-shaped proximal end portion adapted to be positioned about the driver ear; a linear distal end portion adapted to terminate at a corner of the driver eyelid; wherein said sensor is located on said linear distal end portion substantially orthogonal to said arcuate-shaped proximal end portion and configured to remain on said linear distal end portion on a side of the driver'"'"'s face; a flange member outwardly extended from said hook-shaped member and adapted to be inserted into the driver ear; wherein said transducer is attached to a tip of said flange member; a communication interface enabling said microchip to communicate with said transducer; wherein said microchip determines a number of continuous occurrences of said first and second eyelid detection signals per a unit of time, said microchip generating and transmitting true and false control signals to said transducer when said number of continuous occurrences of said first and second eyelid detection signals is above and below a threshold number of continuous occurrences within the unit of time respectively; wherein said microchip comprises; a processor; and a memory communicatively coupled to said processor, said memory including software instructions, when executed by said processor, said processor causing said transducer to selectively emit an alert signal; wherein said software instructions comprise;
a control logic algorithm including the chronological steps ofupon receiving an initial signal of said first and second eyelid detection signals, determining whether said initial signal is said first eyelid detection signal; if yes, initiating a time count; if no, repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals; upon receiving a subsequent signal of said first and second eyelid detection signals, determining whether said initial signal is unique to said subsequent signal; if said initial signal is unique to said subsequent signal, ending said time count and repeating said determining whether said initial signal is said first eyelid detection signal upon receiving an initial signal of said first and second eyelid detection signals; if said initial signal is the same as said subsequent signal, ending said time count and counting said number of continuous occurrences of said first eyelid detection signals; if said number of continuous occurrences of said first eyelid detection signal is above said threshold number of continuous occurrences within said unit of time, generating and transmitting said true control signal to said transducer; and if said number of continuous occurrences of said first eyelid detection signal is below said threshold number of continuous occurrences within said unit of time, generating and transmitting said false control signal to said transducer; and
,wherein said sensor is a motion sensor. - View Dependent Claims (11)
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Specification