Guidance system with navigation point correction

1 . A system comprising: a mobile machine including a first portion and a second portion; a positioning receiver coupled with the first portion of the mobile machine; a sensor for determining a position of the first portion of the mobile machine relative to the second portion of the mobile machine; and one or more computing devices configured to use information from the positioning receiver to determine a geographic location of the positioning receiver, use information from the sensor to determine a position of the first portion of the mobile machine relative to the second portion of the mobile machine, and adjust a navigation point offset according to the position of the first portion of the mobile machine relative to the second portion of the mobile machine, the navigation point offset being a difference in location between the positioning receiver and a navigation point. 2 . The system as set forth in claim 1 , the one or more computing devices further configured to determine a geographic location of the navigation point by adjusting the geographic location of the positioning receiver according to the navigation point offset. 3 . The system as set forth in claim 1 , the one or more computing devices further configured to automatically guide the mobile machine using the navigation point. 4 . The system as set forth in claim 1 , the first portion of the machine being an operator cabin configured to shift relative to the second portion of the machine. 5 . The system as set forth in claim 1 , the second portion of the machine being a ground-engaging portion. 6 . The system as set forth in claim 1 , the second portion of the machine being an implement. 7 . The system as set forth in claim 1 , wherein the machine is a harvester, the first portion is an operator cabin and the second portion is a header. 8 . The system as set forth in claim 1 , wherein the machine is a harvester, the first portion is a machine chassis and the second portion is a header. 9 . The system as set forth in claim 1 , wherein the machine is a tractor, the first portion is an operator cabin and the second portion is a chassis. 10 . The system as set forth in claim 1 , the one or more computing devices further configured to adjust the navigation point offset to compensate for the effects of sloped terrain. 11 . A system comprising: a mobile machine including three or more portions, each of the portions configured to shift relative to each of the other portions; a positioning receiver coupled with one of the three or more portions of the mobile machine; one or more sensors for determining the relative positions of the three or more portions of the mobile machine; and one or more computing devices configured to use information from the positioning receiver to determine a geographic location of the positioning receiver, use information from the one or more sensors to determine the relative positions of the three or more portions of the mobile machine, and adjust a navigation point offset according to the relative positions of the three or more portions of the mobile machine, the navigation point offset being a difference in location between the positioning receiver and a navigation point. 12 . The system as set forth in claim 11 , the one or more computing devices further configured to determine a geographic location of the navigation point by adjusting the geographic location of the positioning receiver according to the navigation point offset. 13 . The system as set forth in claim 11 , the one or more computing devices further configured to automatically guide the mobile machine using the navigation point. 14 . The system as set forth in claim 11 , the first portion of the mobile machine including an operator cabin, the second portion of the mobile machine including a vehicle chassis, and the third portion of the mobile machine including a ground engaging element. 15 . The system as set forth in claim 11 , the first portion of the mobile machine including an operator cabin, the second portion of the mobile machine including a vehicle chassis, and the third portion of the mobile machine including an implement. 16 . A method comprising: automatically determining a geographic location of a positioning receiver, the positioning receiver being coupled with a first portion of a mobile machine; automatically determining a position of the first portion of the mobile machine relative to the second portion of the mobile machine; automatically adjusting a navigation point offset according to the position of the first portion of the mobile machine relative to the second portion of the mobile machine, the navigation point offset being a difference in location between the positioning receiver and a navigation point; and automatically guiding the mobile machine using the navigation point.