Apparatus and methods of reducing error in measurements

What is claimed is: 1. A method comprising: measuring a field with a first sensor at a first position to determine a first measurement and measuring the field with a second sensor at a second position to determine a second measurement, the first and second sensors on a sensor platform in a first well; interchanging the first sensor and the second sensor to move the first sensor to the second position and move the second sensor to the first position; measuring the field with the first sensor at the second position to determine a third measurement and measuring the field with the second sensor at the first position to determine a fourth measurement; and based on the measurements from the first sensor and the second sensor, generating compensated measurements by reducing sensor errors in measuring the field using a compensation scheme, wherein the sensor errors comprise at least one of a first sensor error corresponding with the first sensor and a second sensor error corresponding with the second sensor, and wherein the compensation scheme comprises generating a first difference from the first and second measurements, generating a second difference from the third and fourth measurements, and combining the first difference and the second difference; and determining a range between a target pipe in a target well and the sensor platform based on the compensated measurements. 2. The method of claim 1 , wherein the second position is at a 180 degree rotation from the first position; and combining the first difference and the second difference comprises generating a third difference between the first difference and the second difference. 3. The method of claim 2 , wherein the method comprises: generating, from the first and the second measurements, a first sum; generating, from the third and fourth measurements, a second sum; and generating a fourth difference between the first sum and the second sum. 4. The method of claim 3 , wherein determining the range comprises determining the range based on the third difference, a distance between the first sensor and the second sensor, and the fourth difference. 5. The method of claim 4 , a pipe is attached to the sensor platform in the first well. 6. The method of claim 1 , wherein the first sensor has a first polarity at the first position and has the first polarity at the second position, and wherein the second sensor has a second polarity at the first position and has the second polarity at the second position. 7. The method of claim 6 , wherein the first polarity is the same as the second polarity. 8. The method of claim 1 , wherein the first sensor has a first polarity at the first position and has a first reversed polarity at the second position, and wherein the first reversed polarity is the reverse of the first polarity, and wherein the second sensor has a second polarity at the second position and has a second reversed polarity at the first position, and wherein the second reversed polarity is the reverse of the second polarity. 9. The method of claim 8 , wherein the first polarity is reversed from the second polarity. 10. The method of claim 1 , wherein interchanging the first sensor and the second sensor comprises rotating a disk on which the first sensor and the second sensor are mounted. 11. The method of claim 1 , wherein interchanging the first sensor and the second sensor comprises: rotating a disk on which the first sensor and the second sensor are mounted; and reversing wire contact to the first sensor and the second sensor with rotation of the disk to rotate the first sensor to the second position and rotate the second sensor to the first position. 12. The method of claim 1 , wherein the field is a magnetic field. 13. The method of claim 1 , wherein the field is an electromagnetic field or an electric field. 14. A machine-readable storage device having instructions stored thereon, which, when performed by a machine, cause the machine to perform operations, the operations comprising operations to: measure a field with a first sensor at a first position to determine a first measurement and measure the field with a second sensor at a second position to determine a second measurement, the first and second sensors on a sensor platform in a first well; interchange the first sensor and the second sensor to move the first sensor to the second position and move the second sensor to the first position; measure the field with the first sensor at the second position to determine a third measurement and measure the field with the second sensor at the first position to determine a fourth measurement; and based on the measurements from the first sensor and the second sensor, generate compensated measurements by reducing sensor errors in measuring the field using a compensation scheme, wherein the sensor errors comprise at least one of a first sensor error corresponding with the first sensor and a second sensor error corresponding with the second sensor, and wherein the compensation scheme comprises generating a first difference from the first and second measurements, generating a second difference from the third and fourth measurements, and combining the first difference and the second difference; and determine a range between a target pipe in a target well and the sensor platform in the first well based on the compensated measurements. 15. The machine-readable storage device of claim 14 , wherein the second position is at a 180 degree rotation from the first position, and wherein operations to combine the first difference and the second difference comprise generating a third difference between the first difference and the second difference. 16. The machine-readable storage device of claim 15 , wherein the operations comprise operations to: generate, from the first and second measurements, a first sum; generate, from the third and fourth measurements, a second sum; and generate a fourth difference between the first sum and the second sum. 17. The machine-readable storage device of claim 16 , wherein the operations to determine the range comprise operations to determine the range based on the third difference, a distance between the first sensor and the second sensor, and the fourth difference. 18. The machine-readable storage device of claim 14 , wherein the instructions to operably interchange the first sensor and the second sensor comprises instructions to rotate a disk on which the first sensor and the second sensor are mounted. 19. A system comprising: a sensor platform in a first well; a first sensor mounted to the sensor platform at a first position, the first sensor operable to measure a field; a second sensor mounted to the sensor platform at a second position, the second sensor operable to measure the field; and a processor operable with the sensor platform to provide control of the sensor platform to, measure the field with the first sensor at the first position to determine a first measurement and measuring the field with the second sensor at the second position to determine a second measurement, operably interchange the first sensor with the second sensor to move the first sensor to the second position and move the second sensor to the first position, measure the field with the first sensor at the second position to determine a third measurement and measuring the field with the second sensor at the first position to determine a fourth measurement, and based on the measurements from the first sensor and the second sensor, generate compensated measurements by reduc