Data recording method for a marine propulsion device
First Claim
1. A data recording method for a marine propulsion device, comprising the steps of:
- providing first and second groups of data logs;
monitoring an operating status of said marine propulsion device;
measuring a magnitude of a first parameter;
measuring elapsed time;
selecting one of said first and second groups of data logs as a function of a change in said operating status of said marine propulsion device and the identity of a previously selected one of said first and second groups; and
storing said magnitude of said first parameter as a record in said selected one of said first and second groups of data logs in response to said elapsed time being generally equal to an integral multiple of a preselected time increment.
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Abstract
A data storing method for a marine propulsion system uses two groups of three data logs each in which each data log comprises a plurality of data records. The information on preselected parameters are stored into the data records of the three data logs at different time increments. This allows the three data logs to cover a relatively long period of time at a lesser resolution, a shortest period of time at a highest resolution, and an intermediate period of time at an intermediate resolution. This allows an analyst to carefully review the various parameter magnitudes during the periods of time immediately preceding a catastrophic event, such as an accident or an engine failure, either of which resulting in an engine shut down.
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Citations
20 Claims
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1. A data recording method for a marine propulsion device, comprising the steps of:
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providing first and second groups of data logs;
monitoring an operating status of said marine propulsion device;
measuring a magnitude of a first parameter;
measuring elapsed time;
selecting one of said first and second groups of data logs as a function of a change in said operating status of said marine propulsion device and the identity of a previously selected one of said first and second groups; and
storing said magnitude of said first parameter as a record in said selected one of said first and second groups of data logs in response to said elapsed time being generally equal to an integral multiple of a preselected time increment. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
each of said first and second groups of data logs comprises three data logs.
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3. The method of claim 2, wherein:
said integral multiple of a preselected time increment is different for each of said three data logs within each of said first and second groups.
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4. The method of claim 1, further comprising:
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measuring the elapsed running time since a most recent change of said operating status of said marine propulsion device; and
disabling said storing step until said elapsed running time equals or exceeds a predefined magnitude.
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5. The method of claim 1, further comprising:
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measuring an operating characteristic of said marine propulsion device; and
disabling said storing step until said operating characteristic equals or exceeds a predefined magnitude.
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6. The method of claim 1, further comprising:
erasing said selected one of said first and second groups of data logs in response to said change in said operating status of said marine propulsion device.
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7. The method of claim 1, wherein:
said first parameter is selected from a group consisting of engine speed, engine running time, boat speed, steering angle, trim position, throttle position, and gear selection.
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8. The method of claim 1, wherein:
said operating status of said marine propulsion device is determined by monitoring the condition of an ignition switch.
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9. The method of claim 1, wherein:
said selecting step comprises the step of the one of said first and second groups of data logs not currently selected at the time of said change in said operating status of said marine propulsion device.
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10. The method of claim 1, wherein:
said integral multiple of a preselected time increment is selected from a group consisting of 0.5 second, 1.0 second, and 5.0 seconds.
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11. A data recording method for a marine propulsion device, comprising the steps of:
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providing first and second groups of data logs;
monitoring an operating status of said marine propulsion device;
measuring a magnitude of a first parameter, said first parameter being selected from a group consisting of engine speed, engine running time, boat speed, steering angle, trim position, throttle position, and gear selection;
measuring elapsed time;
selecting one of said first and second groups of data logs as a function of a change in said operating status of said marine propulsion device and the identity of a previously selected one of said first and second groups;
storing said magnitude of said first parameter as a record in said selected one of said first and second groups of data logs in response to said elapsed time being generally equal to an integral multiple of a preselected time increment;
measuring the elapsed running time since a most recent change of said operating status of said marine propulsion device; and
disabling said storing step until said elapsed running time equals or exceeds a predefined magnitude. - View Dependent Claims (12, 13, 14, 15, 16, 17)
measuring an operating characteristic of said marine propulsion device; and
disabling said storing step until said operating characteristic equals or exceeds a predefined magnitude.
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13. The method of claim 12, wherein:
each of said first and second groups of data logs comprises three data logs.
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14. The method of claim 13, wherein:
said integral multiple of a preselected time increment is different for each of said three data logs within each of said first and second groups.
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15. The method of claim 14, further comprising:
erasing said selected one of said first and second groups of data logs in response to said change in said operating status of said marine propulsion device.
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16. The method of claim 15, wherein:
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said operating status of said marine propulsion device is determined by monitoring the condition of an ignition switch; and
said selecting step comprises the step of the one of said first and second groups of data logs not currently selected at the time of said change in said operating status of said marine propulsion device.
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17. The method of claim 16, wherein:
said integral multiple of a preselected time increment is selected from a group consisting of 0.5 second, 1.0 second, and 5.0 seconds.
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18. A data recording method for a marine propulsion device, comprising the steps of:
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obtaining a current magnitude of a first parameter, said first parameter being selected from a group consisting of engine speed, engine running time, boat speed, steering angle, trim position, throttle position, and gear selection;
measuring elapsed time;
storing said current magnitude of said first parameter in a first log if said elapsed time satisfies a first frequency criterion;
storing said current magnitude of said first parameter in a second log if said elapsed time satisfies a second frequency criterion;
monitoring an operating characteristic of said marine propulsion device;
inhibiting said storing step if said operating characteristic unless said operating characteristic meets a preselected criterion; and
clearing said first and second logs of previously stored data upon the initial occurrence of said operating characteristic meeting said preselected criterion. - View Dependent Claims (19, 20)
monitoring a predefined change in an operating status of said marine propulsion device;
providing a third log and a fourth log;
storing said current magnitude of said first parameter in said third log if said elapsed time satisfies said first frequency criterion and said change in said operating status satisfies a predefined sequence in combination with an immediately preceding data storage procedure; and
storing said current magnitude of said first parameter in said fourth log if said elapsed time satisfies said second frequency criterion and said change in said operating status satisfies said predefined sequence in combination with said immediately preceding data storage procedure.
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20. The method of claim 19, wherein:
said first frequency criterion is a multiple of 0.1 second.
Specification