Robotic vehicle that tracks the path of a lead vehicle
First Claim
1. An articulated steerable mobile machine, comprising:
- first, second, and third machine sections, each machine section having an axle, said first machine section being independently steerable, said second machine section being non-steerable and being pivotally connected to said first machine section, and said third machine section being steerable and being pivotally connected to said second machine section;
a first sensor to sense information about the relative or absolute orientation or the rate of change of said relative or absolute orientation in a roughly horizontal plane of the first one of said machine sections or any subsection of the first one of said machine sections or to sense information about the relative or absolute position or the rate of change of said relative or absolute position in a roughly horizontal plane or from which the relative or absolute position in a roughly horizontal plane can be derived of the first one of said machine sections or any subsection of the first one of said machine;
a second sensor to sense information about the relative or absolute orientation or the rate of change of said relative or absolute orientation in a roughly horizontal plane of a second of said machine sections or any subsection of a second of said machine sections or to sense information about the relative or absolute position or the rate of change of said relative or absolute position in a roughly horizontal plane or from which the relative or absolute position can be derived of a second of said machine sections or any subsection of a second of said machine sections;
a control system receiving input from said first sensor and said second sensor measuring information about the relative or absolute orientation or the rate of change of said relative or absolute orientation in a roughly horizontal plane of at least two of said machine sections or of subsections of said machine sections, or receiving input from said first sensor and said second sensor measuring information about the relative or absolute position or the rate of change of said relative or absolute position in a roughly horizontal plane, or from which the relative or absolute position in a roughly horizontal plane can be derived of at least two of said machine sections or of subsections of said machine sections;
said control system using mathematical algorithms of various types to process the data acquired from said first sensor and said second sensor and to generate an output signal to control the orientation of said steerable axle mounted on said third machine section;
said control system, by the way it handles the input data in order to generate output control signals, causing the path of the third machine section to be characterized by a degree of similarity to the path of the first machine section; and
wherein said first sensor comprises a means to deliver a corresponding first orientation angle signal or a first position signal to the control system; and
said second sensor comprises a means to deliver a corresponding second orientation angle signal or a second position signal to the control system.
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Accused Products
Abstract
A method and apparatus for controlling the steering of a trailing section of a multi-sectioned vehicle is described. The trailing section follows the path of the first section. Data is acquired by a controller from sensors on the various sections. The controller then processes this data, generating a configuration needed for the controller-steered wheels to follow a path approximately equivalent to the path taken by the first steered section. Power is then applied by some means to steer these controller-steered wheels, forcing them into the desired configuration. The complexity of the control system can be varied with different algorithms providing alternative steering patterns as desired. This system can be extended with more trailing sections without necessitating more than minor changes to the control algorithms.
132 Citations
21 Claims
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1. An articulated steerable mobile machine, comprising:
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first, second, and third machine sections, each machine section having an axle, said first machine section being independently steerable, said second machine section being non-steerable and being pivotally connected to said first machine section, and said third machine section being steerable and being pivotally connected to said second machine section;
a first sensor to sense information about the relative or absolute orientation or the rate of change of said relative or absolute orientation in a roughly horizontal plane of the first one of said machine sections or any subsection of the first one of said machine sections or to sense information about the relative or absolute position or the rate of change of said relative or absolute position in a roughly horizontal plane or from which the relative or absolute position in a roughly horizontal plane can be derived of the first one of said machine sections or any subsection of the first one of said machine;
a second sensor to sense information about the relative or absolute orientation or the rate of change of said relative or absolute orientation in a roughly horizontal plane of a second of said machine sections or any subsection of a second of said machine sections or to sense information about the relative or absolute position or the rate of change of said relative or absolute position in a roughly horizontal plane or from which the relative or absolute position can be derived of a second of said machine sections or any subsection of a second of said machine sections;
a control system receiving input from said first sensor and said second sensor measuring information about the relative or absolute orientation or the rate of change of said relative or absolute orientation in a roughly horizontal plane of at least two of said machine sections or of subsections of said machine sections, or receiving input from said first sensor and said second sensor measuring information about the relative or absolute position or the rate of change of said relative or absolute position in a roughly horizontal plane, or from which the relative or absolute position in a roughly horizontal plane can be derived of at least two of said machine sections or of subsections of said machine sections;
said control system using mathematical algorithms of various types to process the data acquired from said first sensor and said second sensor and to generate an output signal to control the orientation of said steerable axle mounted on said third machine section;
said control system, by the way it handles the input data in order to generate output control signals, causing the path of the third machine section to be characterized by a degree of similarity to the path of the first machine section; and
whereinsaid first sensor comprises a means to deliver a corresponding first orientation angle signal or a first position signal to the control system; and
said second sensor comprises a means to deliver a corresponding second orientation angle signal or a second position signal to the control system. - View Dependent Claims (2, 3)
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4. An articulated mobile machine, comprising:
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a first machine section, wherein said first machine section further comprises a steerable subsection having at least one axle;
a second machine section pivotally connected to said first machine section, wherein said second machine section further comprises at least one non-steered axle;
a third machine section being steerable and being pivotally connected to said second machine section, wherein said third machine section further comprises a steerable subsection having at least one axle;
a first machine section orientation data input sensor, wherein said first machine section orientation data input sensor senses reference steering information regarding the orientation of said first machine section;
a third machine section orientation data input sensor, wherein said third machine section orientation data input sensor senses comparison steering information regarding the orientation of said third machine section; and
a control system receiving data from said first machine section orientation data input sensor and said third machine section orientation data input sensor, wherein said control system processes data acquired from said first machine section orientation data input sensor and from said third machine section orientation data input sensor to generate an overall steering output to control the orientation of said steerable subsection of said third machine section in order to steer said third machine section in a desired path. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13)
a linear motion sensor, wherein said linear motion sensor measures information from which the linear motion of a designated one of said machine sections along a linear path can be derived and transmits said information from which the linear motion of a designated one of said machine sections along a linear path can be derived to said control system.
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6. The articulated mobile machine of claim 4, further comprising
a fourth machine section pivotally connected to said third machine section; - wherein
said first machine section orientation data input sensor senses an orientation substantially equivalent to the relative orientation of said first machine section with respect to said second machine section; and
said third machine section orientation data input sensor senses an orientation substantially equivalent to the relative orientation of said steerable subsection of said third machine section with respect to said fourth machine section.
- wherein
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7. The articulated mobile machine of claim 4, further comprising
a θ -
D1 sensor to sense an orientation substantially equivalent to the relative orientation of said second machine section with respect to said third machine section;
whereinsaid θ
D1 sensor generates an input to said control system;
said first machine section orientation data input sensor senses an orientation substantially equivalent to the relative orientation of said steerable subsection of said first machine section with respect to said first machine section;
said third machine section orientation data input sensor senses an orientation substantially equivalent to the relative orientation of said steerable subsection of said third machine section with respect to said third machine section; and
said control system further receives and utilizes the θ
D1 sensor input.
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D1 sensor to sense an orientation substantially equivalent to the relative orientation of said second machine section with respect to said third machine section;
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8. The articulated mobile machine of claim 7 wherein said first machine section further comprises at least one non-steered axle.
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9. The articulated mobile machine of claim 4, wherein
said first machine section comprises a tractor; -
said second machine section comprises a semi-trailer;
said third machine section comprises a dolly-type robotic vehicle;
said steerable subsection of said first machine section comprises a front axle of said tractor; and
said steerable subsection of said third machine section comprises at least one steering axle of said dolly-type robotic vehicle.
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10. The articulated mobile machine of claim 4, further comprising:
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a fourth machine section pivotally connected to said third machine section;
whereinsaid first machine section comprises a tractor;
said second machine section comprises a semi-trailer;
said third machine section comprises a dolly-type robotic vehicle;
said fourth machine section comprises a trailer;
said steerable subsection of said first machine section comprises a front axle of said tractor; and
said steerable subsection of said third machine section comprises at least one steering axle of said dolly-type robotic vehicle.
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11. The articulated mobile machine of claim 4, further comprising:
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a fourth machine section pivotally connected to said third machine section;
whereinsaid first machine section comprises a double-axled vehicle;
said second machine section comprises a forward single-axled trailer;
said third machine section comprises the tongue and front wheels of a double-axled wagon-type robotic vehicle;
said fourth machine section comprises the frame and rear wheels of said double-axled wagon-type robotic vehicle;
said steerable subsection of said first machine section comprises a front axle of said double-axled vehicle; and
said steerable subsection of said third machine section is said front wheels of said double-axled wagon-type robotic vehicle.
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12. The articulated mobile machine of claim 5, wherein said linear motion sensor measures the distance traveled by one of said machine sections along a linear path.
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13. The articulated mobile machine of claim 5, wherein said linear motion sensor measures the speed of one of said machine sections along a linear path.
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14. A method for steering a trailing section of a pivotally connected articulated mobile machine, having a first machine section being independently steered with a steerable subsection, a second machine section having at least one non-steered axle, and a third machine section with a steerable subsection, said method comprising the following steps:
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determining the orientation parameter of said first machine section;
determining the orientation parameter of said third machine section;
processing said orientation parameter of said first machine section and said orientation parameter of said third machine section to calculate the overall steering output needed to steer said third machine section; and
applying the overall steering output to control the orientation of said steerable subsection of said third machine section in such a way that the path of said third machine section is characterized by a degree of similarity to the path of said first machine section. - View Dependent Claims (15, 16)
the orientation parameter of said first machine section is determined by measuring the orientation of said steerable subsection of said first machine section with respect to said first machine section; the step of determining an orientation parameter of said third machine section further includes the steps of;
determining the orientation of said steerable subsection of said third machine section with respect to said third machine section; and
determining the orientation of said second machine section with respect to said third machine section; and
whereinthe overall steering output is calculated utilizing said orientation of said steerable subsection of said first machine section with respect to said first machine section and said orientation of said steerable subsection of said third machine section with respect to said third machine section and said orientation of said second machine section with respect to said third machine section.
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16. The steering method of claim 15, further comprising the step of
measuring information from which the linear motion of a designated one of said machine sections along a linear path can be derived; - and
wherein the processing involved in the generation of the overall steering output utilizes the measured information from which the linear motion of a designated one of said machine sections along a linear path can be derived.
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17. A method for steering a trailing section of an articulated mobile machine, having a first machine section, a second machine section, a third machine section, and a fourth machine section, wherein said second machine section is further comprised of at least one non-steered axle, and said third machine section is further comprised of a steerable subsection, said method comprising the following steps:
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determining the orientation of said first machine section with respect to said second machine section;
determining the orientation of said steerable subsection of said third machine section with respect to said fourth machine section;
processing said orientation of said first machine section with respect to said second machine section and said orientation of said steerable subsection of said third machine section with respect to said fourth machine sectio to calculate an overall steering output needed to steer said third machine section; and
applying the overall steering output to control the orientation of said steerable subsection of said third machine section in such a way that the path of said third machine section is characterized by a degree of similarity to the path of said first machine section.
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18. An articulated mobile machine, comprising:
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a first machine section;
a second machine section pivotally connected to said first machine section;
a third machine section being steerable and being pivotally connected to said second machine section;
a means for determining reference steering information regarding the orientation of said first machine section;
a means for determining comparison steering information regarding the orientation said third machine section;
a means for processing said reference steering information and said comparison steering information to determine a desired steering angle for the third machine section; and
whereinsaid first machine section further comprises a steerable subsection; and
said second machine section further comprises at least one non-steered axle.
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19. The articulated mobile machine of 18 wherein
said third machine section further comprises a steerable subsection having at least one axle; - and said articulated mobile machine further comprises;
a means for steering said steerable subsection of said third machine section in order to steer said third machine section in said desired steering angle;
a means for determining a distance traveled by a designated one of said machine sections along a linear path; and
a means for utilizing said distance traveled in the generation of said desired steering angle. - View Dependent Claims (20, 21)
a fourth machine section pivotally connected to said third machine section;
whereinsaid reference steering information is substantially equivalent to the relative orientation of said first machine section with respect to said second machine section; and
said comparison steering information is substantially equivalent to the relative orientation of said steerable subsection of said third machine section with respect to said fourth machine section.
- and said articulated mobile machine further comprises;
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21. The articulated mobile machine of claim 19 further comprising:
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a means for determining the relative orientation of said second machine section with respect to said third machine section; and
a means for processing said relative orientation of said second machine section with respect to said third machine section in the generation of said desired steering angle;
whereinsaid reference steering information is substantially equivalent to the relative orientation of said steerable subsection of said first machine section with respect to said first machine section; and
said comparison steering information is substantially equivalent to the relative orientation of said steerable subsection of said third machine section with respect to said third machine section.
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Specification