Static and dynamic pressure compensation for intake oxygen sensing

What is claimed is: 1. An oxygen sensor pressure compensation system, comprising a static pressure compensation module configured to (i) receive an oxygen sensor signal from an oxygen sensor and a pressure signal from a pressure sensor, (ii) retrieve a correction factor based on the pressure signal, and (iii) apply the correction factor to the oxygen sensor signal to generate a static pressure compensation signal, wherein the static pressure compensation signal corresponds to a static pressure as measured by the pressure sensor; a dynamic pressure compensation module configured to (i) receive the pressure signal, (ii) generate a dynamic pressure compensation signal based on the pressure signal, wherein the dynamic pressure compensation signal corresponds to a change in the pressure signal from a previously received pressure signal; and a summing module to configured to combine the static pressure compensation signal and the dynamic pressure compensation signal to generate a compensated oxygen signal. 2. The oxygen sensor pressure compensation system of claim 1 , further comprising a response rate matching module connected to the oxygen sensor, the pressure sensor, the static pressure compensation module and the dynamic pressure compensation module, wherein the rate matching modules is configured to match a response rate of the oxygen signal and the pressure signal. 3. The oxygen sensor pressure compensation system of claim 2 , wherein the response rate matching module includes a first filter to receive the oxygen signal and a second filter to receive the pressure signal. 4. The oxygen sensor pressure compensation system of claim 3 , wherein the first and second filters are first order filters with different constants. 5. The oxygen sensor pressure compensation system of claim 1 , wherein the static pressure compensation module includes: a first lookup table to convert the oxygen signal to an oxygen percentage signal; and a second lookup table to receive the pressure signal and to generate the correction factor. 6. The oxygen sensor pressure compensation system of claim 5 , wherein outputs of the first lookup table and the second lookup table are input to: a summer to generate the static pressure compensation signal; or a multiplier to generate the static pressure compensation signal. 7. The oxygen sensor pressure compensation system of claim 1 , wherein the dynamic pressure compensation module includes: a first lookup table to receive the pressure signal and to generate a derivative of the static pressure compensation signal; a delay circuit to receive the pressure signal; a difference circuit to receive an output of the delay circuit and the pressure signal and to generate the change in the pressure signal, wherein the output of the delay circuit corresponds to the previously received pressure signal; and a multiplier to receive a constant, an output of the difference circuit and an output of the first lookup table and to generate the dynamic pressure compensation signal. 8. The oxygen sensor pressure compensation system of claim 1 , further comprising a smoothing circuit to perform smoothing of the compensated oxygen signal. 9. A vehicle comprising: an intake manifold, wherein the oxygen sensor and the pressure sensor are arranged in the intake manifold; and the oxygen sensor pressure compensation system of claim 1 . 10. A vehicle comprising: an exhaust system, wherein the oxygen sensor and the pressure sensor are arranged in the exhaust system; and the oxygen sensor pressure compensation system of claim 1 . 11. A method compensating an oxygen sensor for pressure variations, comprising receiving an oxygen sensor signal from an oxygen sensor and a pressure signal from a pressure sensor; retrieving a correction factor based on the pressure signal; applying the correction factor to the oxygen sensor signal to generate a static pressure compensation signal, wherein the static pressure compensation signal corresponds to a static pressure as measured by the pressure sensor; generating a dynamic pressure compensation signal based on the pressure signal, wherein the dynamic pressure compensation signal corresponds to a change in the pressure signal from a previously received pressure signal; and combining the static pressure compensation signal and the dynamic pressure compensation signal to generate a compensated oxygen signal. 12. The method of claim 11 , further comprising matching a response rate of the oxygen signal and the pressure signal. 13. The method of claim 12 , further comprising using a first filter to receive the oxygen signal and a second filter to receive the pressure signal. 14. The method of claim 13 , wherein the first and second filters are first order filters with different constants. 15. The method of claim 11 , further comprising: using a first lookup table to convert the oxygen signal to an oxygen percentage signal; and using a second lookup table to receive the pressure signal and to generate the correction factor. 16. The method of claim 15 , wherein outputs of the first lookup table and the second lookup table are input to: a summer to generate the static pressure compensation signal; or a multiplier to generate the static pressure compensation signal. 17. The method of claim 11 , further comprising: generating a derivative of the static pressure compensation signal; delaying the pressure signal, wherein the delayed pressure signal corresponds to the previously received pressure signal; generating the change in the pressure signal based on the delayed pressure signal and the pressure signal; and generating the dynamic pressure compensation signal based on a constant, the change in the pressure signal, and the derivative of the state pressure compensation signal. 18. The method of claim 11 , further comprising performing smoothing of the compensated oxygen signal. 19. The method of claim 11 , further comprising arranging the oxygen sensor and the pressure sensor are arranged in an intake manifold of an engine. 20. The method of claim 11 , further comprising arranging the oxygen sensor and the pressure sensor are arranged in an exhaust system of an engine.