초록 ▼

An improved position determination system that is resistant to interference caused by glint, such as from the Sun. The position determination system for determining positional parameters of an object has a target device comprising a base configured for attaching to the object, first and second targe

An improved position determination system that is resistant to interference caused by glint, such as from the Sun. The position determination system for determining positional parameters of an object has a target device comprising a base configured for attaching to the object, first and second target surfaces connected to the base; wherein the planes on which the first target surface and the second target surface are located are non-parallel to each other. The position determination system further comprises an image sensing device configured for forming a viewing path intersecting the target device and generating image information indicative of the geometric characteristics of the target device, and a data processing device configured to couple to the image sensing device for determining the orientation of the object based on the image information. If one of the target surfaces becomes obscured as a result of glint, the image of the other target surface alone is sufficient to determine object orientation.

대표청구항 ▼

1. A glint-resistant position determination system for measuring position parameters of an object, comprising: a glint-resistant target device including: a base configured for attaching to the object, a first target surface connected to the base; and a second target surface connected to the b

1. A glint-resistant position determination system for measuring position parameters of an object, comprising: a glint-resistant target device including: a base configured for attaching to the object, a first target surface connected to the base; and a second target surface connected to the base; wherein the planes on which the first target surface and the second target surface locate are non-parallel to each other, wherein one of said target surfaces produces pattern images unaffected by glint, even if glint exists; an image sensing device configured for forming a viewing path intersecting the target device and generating image information indicative of the geometric characteristics of the target device; and a data processing device configured to couple to the image sensing device for determining the orientation of the object based on the image unaffected by the glint. 2. The system of claim 1, wherein the data processing device comprises: a data processing unit; a data storage device; a display; and a bus coupled to the data processing unit, the display and the data storage device. 3. A method for determining positional parameters of an object using a glint-resistant target device that is capable of producing pattern images unaffected by glint even if glint exists, the glint-resistant target device comprising a base configured to attached to the object, and a first and second target surface attached to the base, wherein the planes on which the first target surface and the second target surface located are non-parallel to each other, the method comprising: forming a viewing path intersecting the target device, wherein the target device includes the first target surface and the second target surface attached to the base and wherein the planes on the first target surface and the second target surface located are non-parallel to each other; capturing images of the target device; determining the existence of glint on the target device; and calculating positional parameters of the object based on images unaffected by the glint. 4. A glint-resistant wheel alignment system for determining positional parameters of a wheel of a vehicle, comprising: a glint-resistant target device including: a base configured for attaching to the vehicle; a first target surface connected to the base; and a second target surface connected to the base; wherein the planes on which the first target surface and the second target surface locate are non-parallel to each other, wherein one of said target surfaces produces pattern images unaffected by glint, even if glint exists; an image sensing device configured for forming a viewing path intersecting the target device and generating image information indicative of the geometric characteristics of the target device; and a data processing device configured to couple to the image sensing device for determining the orientation parameters of the wheels of the vehicle based on the images unaffected by the glint. 5. The system of claim 4, wherein the target device is attached to the wheels of the vehicle.