Curvilinear encoder system for position determination

What is claimed is: 1. An industrial control system for moving objects, comprising: a track having curved and linear sections; a stator disposed along the track, the stator having a plurality of teeth; a cart for moving objects along the track, the cart having a mover portion having a plurality of teeth, wherein the teeth of the mover portion are arranged to face the teeth of the stator across a gap; first and second excitation coils surrounding teeth of the stator or the mover portion, the first and second excitation coils being in adjacent layers disposed along each tooth; and first and second pick-up coils surrounding teeth of the stator or the mover portion, the first and second pick-up coils being in adjacent layers disposed along each tooth, wherein first and second excitation signals provided to the first and second excitation coils are operable to produce first and second electromagnetic (EM) fields, respectively, and wherein the first and second EM fields induces a-first and second pick-up signals in the first and second pick-up coils, respectively, for determining a coarse and fine position of the mover portion with respect to the stator. 2. The system of claim 1 , wherein the excitation and pick-up coils surround teeth of only the stator without any coils surrounding teeth of the mover portion. 3. The system of claim 2 , wherein the teeth of the mover portion have a sinusoidal profile. 4. The system of claim 1 , wherein the teeth of the stator and the teeth of the mover portion both have rectangular profiles. 5. The system of claim 1 , wherein the mover portion or the stator include a magnet, and the stator or the mover portion include a plurality of magnetic sensors arranged to oppose the magnet across the gap. 6. The system of claim 1 , wherein the first and second pick-up signals provide sine and cosine measurements, respectively. 7. The system of claim 1 , wherein the pick-up coils surrounds teeth of the stator in a plurality of sections disposed along the track. 8. The system of claim 7 , wherein each section provides an output to a controller for determining the position and direction of the mover portion with respect to the stator. 9. The system of claim 1 , wherein the first and second pick-up coils are offset by a phase angle. 10. The system of claim 1 , further comprising third and fourth pick-up coils surrounding teeth of the stator or the mover portion in adjacent layers to the first and second pick-up coils. 11. An industrial control system for moving objects, comprising: a track having curved and linear sections; a stator disposed along the track, the stator having a plurality of teeth; a cart for moving objects along the track, the cart having a mover portion having a plurality of teeth, wherein the teeth of the mover portion are arranged to face the teeth of the stator across a gap; an excitation coil surrounding teeth of the stator or the mover portion; and a pick-up coil surrounding teeth of the stator or the mover portion, wherein an excitation signal provided to the excitation coil is operable to produce an electromagnetic (EM) field, wherein the EM field induces a pick-up signal in the pick-up coil for determining a position of the mover portion with respect to the stator, and wherein the excitation coil is a first excitation coil, the excitation signal is a first excitation signal, and the EM field is a first EM field, and further comprising a second excitation coil surrounding teeth of the stator or the mover portion, wherein a second excitation signal provided to the second excitation coil is operable to produce a second EM field, wherein the pick-up coil is a first pick-up coil and the pick-up signal is a first pick-up signal, and further comprising second, third and fourth pick-up coils surrounding teeth of the stator or the mover portion, wherein the first EM field induces a second pick-up signal in the second pick-up coil, and the second EM field induces third and fourth pick-up signals in the third and fourth pick-up coils, respectively, for determining the position of the mover portion, wherein the first and second pick-up coils are configured to provide a first number of magnetic poles and the third and fourth pick-up coils are configured to provide a second number of magnetic poles, wherein the second number of magnetic poles is greater than the first number of magnetic poles. 12. The system of claim 11 , wherein the first and second pick-up signals provide a first set of sine and cosine measurements, respectively, and the third and fourth pick-up signals provide a second set of sine and cosine measurements, respectively. 13. The system of claim 11 , wherein the first and second excitation coils surround teeth of the mover portion, and the first, second, third and fourth pick-up coils surround teeth of the stator. 14. The system of claim 11 , wherein the first and second excitation coils surround teeth of the stator, and the first, second, third and fourth pick-up coils surround teeth of the mover portion.