Filtering of RSS pad noise in mud pulse telemetry systems and detection of RSS pad leaks

What is claimed is: 1. A computer-implemented telemetry method, comprising: generating a first data-carrying signal which propagates along a wellbore having a drill string therein, wherein the drill string comprises a rotary steerable system (“RSS”) having RSS pads that generate an RSS pad noise signal which also propagates along the wellbore; identifying a rotational speed of the RSS; identifying a frequency of the RSS pad noise signal from the rotational speed of the RSS pads; detecting a second data-carrying signal at a surface computer, the second data-carrying signal being comprised of the first data-carrying signal and the RSS pad noise signal; and applying an adaptive filter to the second data-carrying signal at the surface computer after the RSS pad noise signal contributes in forming the second data-carrying signal, wherein the adaptive filter is applied in order to: filter the RSS pad noise signal from the second data-carrying signal, and generate a third data-carrying signal having a reduced RSS pad noise content. 2. The computer-implemented method as defined in claim 1 , wherein the application of the adaptive filter includes: performing a frequency analysis of the second data-carrying signal; and identifying frequency peaks of the RSS pad noise signal present within the second data-carrying signal based on the frequency analysis. 3. The computer-implemented method as defined in claim 1 , wherein the application of the adaptive filter includes: obtaining a reference signal which does not include the RSS pad noise signal; comparing the second data-carrying signal to the reference signal; and identifying the RSS pad noise signal in the second data-carrying signal based on the comparison. 4. The computer-implemented method as defined in claim 1 , wherein the application of the adaptive filter includes: obtaining a reference signal when the RSS is running; comparing the second data-carrying signal to the reference signal; identifying the RSS pad noise signal in the second data-carrying signal based on the comparison. 5. The computer-implemented method as defined in claim 4 , wherein the reference signal is obtained when the RSS is running at a speed of up to 10 RPM or neutral. 6. The computer-implemented method as defined in claim 1 , wherein: the first data-carrying signal is generated by a mud pulser positioned along the drill string; and application of the adaptive filter includes: obtaining a reference signal while the mud pulser is not running; comparing the second data-carrying signal to the reference signal; identifying the RSS pad noise signal in the second data-carrying signal based on the comparison. 7. The computer-implemented method as defined in claim 1 , further comprising: decoding data from the third data-carrying signal; and initiating an adjustment to at least one of a wellbore operation or a drilling operation is performed in response to the decoded data. 8. A telemetry system, comprising: a drill string comprising a rotary steerable system (“RSS”) having RSS pads that generate an RSS pad noise signal which propagates along a wellbore; a telemetry unit which generates a first data-carrying signal that propagates along the wellbore; and a surface computer that: identifies a rotational speed of the RSS, identifies a frequency of the RSS pad noise signal from the rotational speed of the RSS pads; detects a second data-carrying signal, the second data-carrying signal being comprised of the first data-carrying signal and the RSS pad noise signal; and applies an adaptive filter to the second data-carrying signal, at the surface computer after the RSS pad noise signal contributes in forming the second data-carrying signal, wherein the adaptive filter is applied in order to: filter the RSS pad noise signal, and generate a third data-carrying signal having a reduced RSS pad noise content. 9. The system as defined in claim 8 , wherein the application of the digital filter also includes: performing frequency analysis of the second data-carrying signal; identifying frequency peaks of the RSS pad noise signal present within the second data-carrying signal based on the frequency analysis. 10. The system as defined in claim 8 , wherein the application of the digital filter also includes: obtaining a reference signal which does not include the RSS pad noise signal; comparing the second data-carrying signal to the reference signal; based upon the comparison, identifying the RSS pad noise signal in the second data-carrying signal, based on the comparison. 11. The system as defined in claim 8 , wherein the application of the adaptive filter includes: obtaining a reference signal when the RSS is running; comparing the second data-carrying signal to the reference signal; identifying the RSS pad noise signal in the second data-carrying signal based on the comparison. 12. The system as defined in claim 11 , wherein the reference signal is obtained when the RSS is running at a speed of up to 10 RPM or neutral. 13. The system as defined in claim 8 , wherein: the telemetry unit is a mud pulser positioned along the drill string; and the application of the adaptive filter also includes: obtaining a reference signal while the mud pulser is not running; comparing the second data-carrying signal to the reference signal; identifying the RSS pad noise signal in the second data-carrying signal based on the comparison. 14. The system as defined in claim 8 , wherein data is decoded from third data-carrying signal and an adjustment to al lest one of a wellbore operation a drilling operation is performed in response to the decoded data.