Ignition system with driver identification
First Claim
1. A system for biometrically identifying a potential motorized vehicle operator for use with vehicle having a vehicle ignition circuit and a plurality of vehicle function devices comprising:
- a device that biometrically recognizes an individual for identification purposes; and
, a sequencing mechanism within a microcontroller that is operable to receive logic inputs from each of a plurality of vehicle function devices when the vehicle function device is energized, the microcontroller being operable to generate a predetermined “
go”
logic condition only if each of the plurality of vehicle function devices are energized according to a predetermined sequence; and
, a timing mechanism within a microcontroller that is operable to selectively provide a timing output in a predetermined “
go”
logic condition for a predetermined time period; and
, a gate mechanism within a microcontroller that is operable to generate an ignition output responsive to each of the generated function outputs and the timing output, wherein the ignition output is in a predetermined logic “
go”
condition only if each of the plurality of function outputs and the timing output are in the predetermined logic “
go”
condition, wherein the ignition output is operable to selectively complete the vehicle ignition circuit when the ignition output is in the logic “
go”
condition; and
, a delay mechanism in electrical communication with the vehicle ignition, the delay mechanism being operable to cause a predetermined delay in an electrical signal generated when the vehicle ignition is placed in a “
run/start”
position; and
, a buffer mechanism in electrical communication with a vehicle electrical source, the buffer mechanism being operable to convert an initial voltage of the vehicle electrical source to a predetermined voltage useable by the system; and
, a reset mechanism operable to initialize a plurality of system mechanisms, wherein the reset mechanism is operable to respond to the electrical signal generated when the vehicle ignition in a “
run/start”
position.
1 Assignment
0 Petitions
Accused Products
Abstract
System and method for positively identifying an operator through biometric means which shall prevent unauthorized or impaired operation of a motor vehicle by requiring the potential operator to sequentially energize several vehicle devices, within a set time period, prior to placing the vehicle ignition into a start position. The system includes a device for measuring an operator'"'"'s biometric identification, and a microcontroller. Logic outputs from the sequencing mechanism and the timer mechanism are contained within the microcontroller operating as a logic decoder that is used to control the vehicle ignition circuit. The microcontroller monitors the sequence in which the vehicle'"'"'s devices are energized, and if they are energized within the correct order and within the predetermined amount of time then the microcontroller will output a signal to allow the ignition circuit to close. A sensory indicator may alert the potential operator as to the condition of the microcontroller output. An unauthorized user is inhibited from operating the motor vehicle because their identification could not be biometrically established and/or the performance sequence is unknown to him/her. Slower reflex times or impaired motor skills may also prevent an impaired operator from performing the proper sequence within the predetermined time period.
19 Citations
8 Claims
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1. A system for biometrically identifying a potential motorized vehicle operator for use with vehicle having a vehicle ignition circuit and a plurality of vehicle function devices comprising:
- a device that biometrically recognizes an individual for identification purposes; and
, a sequencing mechanism within a microcontroller that is operable to receive logic inputs from each of a plurality of vehicle function devices when the vehicle function device is energized, the microcontroller being operable to generate a predetermined “
go”
logic condition only if each of the plurality of vehicle function devices are energized according to a predetermined sequence; and
, a timing mechanism within a microcontroller that is operable to selectively provide a timing output in a predetermined “
go”
logic condition for a predetermined time period; and
, a gate mechanism within a microcontroller that is operable to generate an ignition output responsive to each of the generated function outputs and the timing output, wherein the ignition output is in a predetermined logic “
go”
condition only if each of the plurality of function outputs and the timing output are in the predetermined logic “
go”
condition, wherein the ignition output is operable to selectively complete the vehicle ignition circuit when the ignition output is in the logic “
go”
condition; and
, a delay mechanism in electrical communication with the vehicle ignition, the delay mechanism being operable to cause a predetermined delay in an electrical signal generated when the vehicle ignition is placed in a “
run/start”
position; and
, a buffer mechanism in electrical communication with a vehicle electrical source, the buffer mechanism being operable to convert an initial voltage of the vehicle electrical source to a predetermined voltage useable by the system; and
, a reset mechanism operable to initialize a plurality of system mechanisms, wherein the reset mechanism is operable to respond to the electrical signal generated when the vehicle ignition in a “
run/start”
position. - View Dependent Claims (2, 3, 4, 5, 6, 7)
- a device that biometrically recognizes an individual for identification purposes; and
-
8. A method of inhibiting an unauthorized potential operator from causing a vehicle ignition circuit to close, the method comprising the steps of:
- providing a system to biometrically recognize an individual and then providing a system in electrical communication with a plurality of vehicle function devices and a vehicle ignition circuit, the system being operable to prevent the vehicle ignition circuit from closing unless a potential operator causes each of the plurality of vehicle function devices to be energized, in a predetermined sequence, within a predetermined time period, wherein the time period is controlled by a microcontroller based upon the average of previous successful starts by the individual.
Specification