An automatic speed control system that provides desired watercraft velocity over land. The coupled algorithms correct engine speed and torque using inertia based measurements, GPS, and tachometer measurements, and the corrections are augmented and enhanced by velocity/speed and torque/speed relation
An automatic speed control system that provides desired watercraft velocity over land. The coupled algorithms correct engine speed and torque using inertia based measurements, GPS, and tachometer measurements, and the corrections are augmented and enhanced by velocity/speed and torque/speed relationships that are dynamically and adaptively programmed with real-time data collected during replicated operations of the watercraft in specified conditions.
대표청구항▼
1. A system for controlling the velocity of a watercraft having an engine for propulsion, said system comprising: a velocity measuring device capable of obtaining a first measurement of the velocity magnitude of said watercraft;an inertia measurement device capable of obtaining a measurement of the
1. A system for controlling the velocity of a watercraft having an engine for propulsion, said system comprising: a velocity measuring device capable of obtaining a first measurement of the velocity magnitude of said watercraft;an inertia measurement device capable of obtaining a measurement of the acceleration of said watercraft;a control input device capable of accepting an input of a predetermined desired velocity of said watercraft and a predetermined desired acceleration of said watercraft; anda control module comprising: a velocity algorithm capable of creating a second measurement of the velocity magnitude of said watercraft from said acceleration measurement;an observed velocity algorithm capable of creating an observed velocity measurement of the velocity of said watercraft from said first measurement of the velocity of said watercraft and said second measurement of the velocity of said watercraft; andan engine speed algorithm capable of creating a first engine speed output correction from said observed velocity measurement, said predetermined desired velocity, said predetermined desired acceleration, and said acceleration measurement; and said first engine speed output correction being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 2. A system for controlling the velocity of a watercraft having an engine for propulsion, said system comprising: a velocity measuring device capable of obtaining a first measurement of the velocity magnitude of said watercraft;an inertia measurement device capable of obtaining a measurement of the acceleration of said watercraft;a control input device capable of accepting an input of a predetermined desired velocity of said watercraft and a predetermined desired acceleration of said watercraft; anda control module comprising: a velocity algorithm capable of creating a second measurement of the velocity magnitude of said watercraft from said acceleration measurement;an observed velocity algorithm capable of creating an observed velocity measurement of the velocity of said watercraft from said first measurement of the velocity of said watercraft and said second measurement of the velocity of said watercraft;a velocity comparator capable of determining the velocity magnitude difference between said predetermined desired velocity of said watercraft and said observed velocity of said watercraft; andan engine speed algorithm capable of creating a first engine speed output correction from said velocity magnitude difference, said predetermined desired acceleration, and said acceleration measurement; and said first engine speed output correction being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 3. A system for controlling the velocity of a watercraft having an engine for propulsion, said system comprising: a velocity measuring device capable of obtaining a first measurement of the velocity magnitude of said watercraft;an inertia measurement device capable of obtaining a measurement of the acceleration of said watercraft;a control input device capable of accepting an input of a predetermined desired velocity of said watercraft and a predetermined desired acceleration of said watercraft; anda control module comprising: a velocity algorithm capable of creating a second measurement of the velocity magnitude of said watercraft from said acceleration measurement;an observed velocity algorithm capable of creating an observed velocity measurement of the velocity of said watercraft from said first measurement of the velocity of said watercraft and said second measurement of the velocity of said watercraft;a velocity comparator capable of determining the velocity magnitude difference between said predetermined desired velocity of said watercraft and said observed velocity of said watercraft;an acceleration comparator capable of determining the acceleration magnitude difference between said predetermined desired acceleration and said acceleration measurement; andan engine speed algorithm capable of creating a first engine speed output correction from said velocity magnitude difference and said acceleration magnitude difference; and said first engine speed output correction being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 4. The system as in claim 1, 2 or 3 further comprising: a tachometer device capable of measuring the speed of said engine propelling said watercraft;said control module further comprising an engine torque algorithm capable of creating a first engine torque output correction from said first engine speed output correction and said tachometer speed measurement; and said first engine torque output correction being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 5. The system as in claim 1, 2 or 3 further comprising: a tachometer device capable of measuring the revolutions per minute of a drive shaft of said engine propelling said watercraft;said control module further comprising an engine torque algorithm capable of creating a first engine torque output correction from said first engine speed output correction and said tachometer revolutions per minute measurement; and said first engine torque output correction being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 6. The system as in claim 1, 2, or 3 further comprising: a tachometer device capable of measuring the speed of said engine propelling said watercraft;said control module further comprising: an additional engine speed comparator capable of determining the engine speed error between said first engine speed output correction and said tachometer speed measurement; andan engine torque algorithm capable of creating a first engine torque output correction from said engine speed error; and said first engine torque output correction being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 7. The system as in claim 1, 2, or 3, wherein said control module further comprises: an additional engine speed algorithm capable of creating a second engine speed output correction corresponding to an input representative of said predetermined velocity, said second engine speed output correction representing a dynamic historical value of the speed of an engine propelling said watercraft at a velocity approximately equal to said predetermined velocity; andan engine speed comparator capable of summing said first engine speed output correction of said engine speed algorithm and said second engine speed output correction of said additional engine speed algorithm; and said sum capable of causing said watercraft to be propelled at approximately said predetermined velocity. 8. The system as in claim 1, 2, or 3 wherein said velocity measuring device is selected from the group consisting of a GPS device, a paddle wheel, and a pitot tube. 9. The system as in claim 4 wherein said control module further comprises: an additional engine torque algorithm capable of creating a second engine torque output correction corresponding to an input representative of said first engine speed output correction of said engine speed algorithm, said second engine torque output correction representing a dynamic historical value of the torque required to change the engine speed of an engine propelling said watercraft an amount approximately equal to said first engine speed output correction of said engine speed algorithm; anda torque comparator capable of summing said first engine torque output correction of said engine torque algorithm and said second engine torque output correction of said additional engine torque algorithm, said sum being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 10. The system as in claim 9 wherein said additional engine torque algorithm is capable of building a table of discrete data pairs of engine speed correction and torque required to produce said engine speed correction as said watercraft is repeatedly operated for calibration over a prevailing set of ambient conditions, said additional engine torque algorithm being capable of determining interpolated and extrapolated data points among and extending from said data pairs collected during said calibration operation of said watercraft. 11. The system as in claim 9 wherein said additional engine torque algorithm is capable of building a table of discrete data pairs of engine speed and torque required to produce said engine speed as said watercraft is repeatedly operated for calibration over a prevailing set of ambient conditions, said additional engine torque algorithm being capable of determining interpolated and extrapolated data points among and extending from said data pairs collected during said calibration operation of said watercraft. 12. The system as in claim 10 wherein said additional engine torque algorithm is capable of determining a condition of predetermined change in a predetermined parameter prior to updating said table. 13. The system as in claim 11 wherein said additional engine torque algorithm is capable of determining a condition of predetermined change in a predetermined parameter prior to updating said table. 14. The system as in claim 7 wherein said additional engine speed algorithm is capable of building a table of discrete data pairs of velocity magnitude and engine speed of said watercraft as said watercraft is repeatedly operated for calibration over a prevailing set of ambient conditions, said additional engine speed algorithm being capable of determining interpolated and extrapolated data points among and extending from said data pairs collected during said calibration operation of said watercraft. 15. The system as in claim 14 wherein said additional engine speed algorithm is capable of determining a condition of predetermined change in a predetermined parameter prior to updating said table. 16. A system for controlling the velocity of a watercraft having an engine for propulsion, said system comprising: a velocity measuring device capable of obtaining a first measurement of the velocity magnitude of said watercraft;an inertia measurement device capable of obtaining a measurement of the acceleration of said watercraft;a control input device capable of accepting an input of a predetermined velocity of said watercraft and a predetermined acceleration of said watercraft;a tachometer device capable of measuring the speed of said engine propelling said watercraft; anda control module, comprising: a velocity algorithm capable of creating a second measurement of the velocity magnitude of said watercraft from said acceleration measurement; andan algorithm capable of creating a first engine torque output correction from said tachometer speed measurement, said first velocity measurement, said second velocity measurement, said predetermined velocity, and said predetermined acceleration; and said first engine torque output correction being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 17. A system for controlling the velocity of a watercraft having an engine for propulsion, said system comprising: a velocity measuring device capable of obtaining a first measurement of the velocity magnitude of said watercraft;an inertia measurement device capable of obtaining a measurement of the acceleration of said watercraft;a control input device capable of accepting an input of a predetermined velocity of said watercraft and a predetermined acceleration of said watercraft;a tachometer device capable of measuring the speed of said engine propelling said watercraft; anda control module, comprising: a velocity algorithm capable of creating a second measurement of the velocity magnitude of said watercraft from said acceleration measurement;an observed velocity algorithm capable of creating an observed velocity measurement of the velocity of said watercraft from said first measurement of the velocity of said watercraft and said second measurement of the velocity of said watercraft; andan algorithm capable of creating a first engine torque output correction from said tachometer speed measurement, said observed velocity measurement, said predetermined velocity, and said predetermined acceleration; and said first engine torque output correction being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 18. The system as in claim 16 or 17 wherein said velocity measuring device is selected from the group consisting of a GPS device, a paddle wheel, and a pitot tube. 19. The system as in claim 4 wherein said velocity measuring device is selected from the group consisting of a GPS device, a paddle wheel, and a pitot tube. 20. The system as in claim 5 wherein said velocity measuring device is selected from the group consisting of a GPS device, a paddle wheel, and a pitot tube. 21. The system as in claim 6 wherein said velocity measuring device is selected from the group consisting of a GPS device, a paddle wheel, and a pitot tube. 22. The system as in claim 7 wherein said velocity measuring device is selected from the group consisting of a GPS device, a paddle wheel, and a pitot tube. 23. The system as in claim 5 wherein said control module further comprises: an additional engine torque algorithm capable of creating a second engine torque output correction corresponding to an input representative of said first engine speed output correction of said engine speed algorithm, said second engine torque output correction representing a dynamic historical value of the torque required to change the engine speed of an engine propelling said watercraft an amount approximately equal to said first engine speed output correction of said engine speed algorithm; anda torque comparator capable of summing said first engine torque output correction of said engine torque algorithm and said second engine torque output correction of said additional engine torque algorithm, said sum being capable of causing said watercraft to be propelled at substantially said predetermined velocity. 24. The system as in claim 6 wherein said control module further comprises: an additional engine torque algorithm capable of creating a second engine torque output correction corresponding to an input representative of said first engine speed output correction of said engine speed algorithm, said second engine torque output correction representing a dynamic historical value of the torque required to change the engine speed of an engine propelling said watercraft an amount approximately equal to said first engine speed output correction of said engine speed algorithm; anda torque comparator capable of summing said first engine torque output correction of said engine torque algorithm and said second engine torque output correction of said additional engine torque algorithm, said sum being capable of causing said watercraft to be propelled at substantially said predetermined velocity.
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