Systems and methods for real-time angle-domain measurement of filtered cylinder pressure

What is claimed is: 1. A cylinder pressure measurement system, comprising: a first analog cylinder pressure sensor configured to generate a first analog cylinder pressure signal indicative of pressure in a first cylinder of an engine; an engine position sensor configured to generate an angular position signal indicative of an angular position of the engine; and a controller configured to: receive the first analog cylinder pressure signal and the angular position signal; convert the first analog cylinder pressure signal to obtain a first digital cylinder pressure signal by (i) windowing the first analog cylinder pressure signal in the angle-domain using the angular position signal and (ii) sampling the windowed first analog cylinder pressure signal in the time-domain; filter the digital cylinder pressure signal in the time-domain to obtain a first filtered digital cylinder pressure signal; obtain a measured pressure in the first cylinder of the engine in the angle domain by sampling the first filtered digital cylinder pressure signal using the angular position signal; and control operation of the engine using the measured cylinder pressure in the first cylinder of the engine. 2. The system of claim 1 , wherein the controller is further configured to: detect a first trigger condition when a value of the angular position signal equals one of a first set of values; and in response to detecting the first trigger condition, perform analog-to-digital conversion of the first analog cylinder pressure signal to obtain the first digital cylinder pressure signal. 3. The system of claim 2 , wherein the controller is further configured to: detect a second trigger condition when the value of the angular position signal equals one of a second set of values; and in response to detecting the second trigger condition, sample a value of the first filtered digital cylinder pressure signal to obtain the measured cylinder pressure in the first cylinder of the engine in the angle-domain. 4. The system of claim 3 , further comprising a second analog cylinder pressure sensor configured to generate a second analog cylinder pressure signal indicative of pressure in a second cylinder of the engine, wherein the controller is further configured to: receive the second analog cylinder pressure signal; convert the second analog cylinder pressure signal to a second digital cylinder pressure signal by (i) windowing the second analog cylinder pressure signal in the angle-domain using the angular position signal and (ii) sampling the windowed second analog cylinder pressure signal in the time-domain; filter the second digital cylinder pressure signal in the time-domain to obtain a second filtered digital cylinder pressure signal; obtain a measured pressure in the second cylinder of the engine in the angle-domain by sampling the second filtered digital cylinder pressure signal using the angular position signal; and control operation of the engine using the measured cylinder pressure in the second cylinder of the engine. 5. The system of claim 4 , wherein the controller is further configured to: detect a third trigger condition when a value of the angular position signal equals one of a third set of values that are different than the first set of values; and in response to detecting the third trigger condition, perform analog-to-digital conversion of the second analog cylinder pressure signal to obtain the second digital cylinder pressure signal. 6. The system of claim 5 , wherein the controller is further configured to: detect a fourth trigger condition when the value of the angular position signal equals one of a fourth set of values that are different than the second set of values; and in response to detecting the fourth trigger condition, sample a value of the second filtered digital cylinder pressure signal to obtain the measured cylinder pressure in the second cylinder of the engine in the angle-domain. 7. The system of claim 6 , wherein the first and second sets of values of the angular position signal correspond to a combustion event in the first cylinder and a pumping event in the second cylinder. 8. The system of claim 6 , wherein the third and fourth sets of values of the angular position signal correspond to a combustion event in the second cylinder and a pumping event in the first cylinder. 9. The system of claim 6 , wherein the controller is configured to utilize a single analog-to-digital converter, a single digital filter, and a single triggered copier to obtain the measured cylinder pressures for both the first and second cylinders during a single cycle of the engine. 10. A method for measuring pressure in cylinders of an engine, the method comprising: receiving, at a controller of the engine, a first analog cylinder pressure signal indicative of pressure in a first cylinder of the engine; receiving, at the controller, an angular position signal indicative of an angular position of the engine; converting, by the controller, the first analog cylinder pressure signal to a first digital cylinder pressure signal by (i) windowing the first analog cylinder pressure signal in the angle-domain using the angular position signal and (ii) sampling the windowed first analog cylinder pressure signal in the time-domain; filtering, by the controller, the digital cylinder pressure signal in the time-domain to obtain a first filtered digital cylinder pressure signal; obtaining, by the controller, a measured pressure in the first cylinder of the engine in the angle domain by sampling the first filtered digital cylinder pressure signal using the angular position signal; and controlling, by the controller, operation of the engine using the measured cylinder pressure in the first cylinder of the engine. 11. The method of claim 10 , further comprising: detecting, by the controller, a first trigger condition when a value of the angular position signal equals one of a first set of values; and in response to detecting the first trigger condition, performing, by the controller, analog-to-digital conversion of the first analog cylinder pressure signal to obtain the first digital cylinder pressure signal. 12. The method of claim 11 , further comprising: detecting, by the controller, a second trigger condition when the value of the angular position signal equals one of a second set of values; and in response to detecting the second trigger condition, sampling, by the controller, a value of the first filtered digital cylinder pressure signal to obtain the measured cylinder pressure in the first cylinder of the engine in the angle-domain. 13. The method of claim 12 , further comprising: receiving, at the controller, a second analog cylinder pressure signal indicative of pressure in a second cylinder of the engine; converting, by the controller, the second analog cylinder pressure signal to a second digital cylinder pressure signal by (i) windowing the second analog cylinder pressure signal in the angle-domain using the angular position signal and (ii) sampling the windowed second analog cylinder pressure signal in the time-domain; filtering, by the controller, the second digital cylinder pressure signal in the time-domain to obtain a second filtered digital cylinder pressure signal; obtaining, by the controller, a measured pressure in the second cylinder of the engine in the angle-domain by sampling the second filtered digital cylinder pressure signal using the angular position signal; and controlling, by the controller, operation of the engine using the measured cylinder pressure in the second cylinder of the engine. 14. The method of cla