Foreign object debris detection system and method

The invention claimed is: 1. A method for suppressing the Jet Engine Modulation (JEM) clutter signal returns from compressor blades in data sampled by a system for Foreign Object Debris (FOD) detection in the air intake of a turbine assembly, the method comprising the steps of: (a) identifying in the data, by a start-detection module comprising one or more processors, the start sample position and length in samples of a single complete shaft rotation; and (b) subtracting from a current rotation dataset, in a subtraction module comprising one or more processors, the samples from a comparison rotation dataset corresponding to another complete single shaft rotation. 2. The method according to claim 1 , wherein said subtracting step comprises subtracting from a current rotation dataset the samples from a comparison rotation dataset corresponding to a previous complete single shaft rotation. 3. The method according to claim 1 , wherein said identifying step uses a once per revolution pulse provided by an aircraft engine monitoring system as a reference to determine the position and length of a complete shaft rotation. 4. The method according to claim 1 , wherein in said identifying step, the length of the current shaft rotation is determined by: (a) selecting a reference section of data starting at the start of the current shaft rotation; (b) stepping the reference section forward through the sampled data and at each step determining a measure of similarity, optionally implemented as a correlation; and (c) identifying the start of the next rotation by finding the sample number corresponding to the maximum measure of similarity. 5. The method according to claim 4 , wherein, in said step of stepping the reference section forward, a once per revolution pulse provided by the aircraft engine monitoring system is used to reduce the range of samples over which to determine the measure of similarity. 6. The method according to claim 4 , wherein, in said step of stepping the reference section forward, a prediction based on the number of samples in previous rotations is used to reduce the range of samples over which to determine the measure of similarity. 7. The method according to claim 1 , wherein the length of the comparison rotation dataset is re-sampled to be substantially the same length as the current rotation before performing said subtracting step. 8. The method according to claim 1 , wherein both the current rotation dataset and the comparison rotation dataset are re-sampled to the same length, and optionally wherein the resulting JEM suppressed data is re-sampled to the original length. 9. The method according to claim 1 where the comparison rotation dataset comprises the average of data from multiple rotations, optionally where the multiple rotations are re-sampled to be substantially the same length before averaging. 10. The method according to claim 1 wherein, prior to said step of identifying in the data the start sample position and length in samples of a single complete shaft rotation, both the current rotation dataset and the comparison rotation dataset are converted to the frequency domain. 11. A method for suppressing the Jet Engine Modulation (JEM) clutter signal returns from compressor blades in data sampled by a system for Foreign Object Foreign Debris (FOD) detection in the air intake of a turbine assembly, the method comprising the steps of: (a) identifying in the data, by a start-detection module comprising one or more processors, the start sample position and length in samples of a single complete shaft rotation; (b) converting the data for the single complete shaft rotation or multiples of a single shaft rotation to the frequency domain in a frequency domain conversion module comprising one or more processors; and (c) setting dominant JEM harmonic lines to zero or a mean value in a harmonic line module comprising one or more processors. 12. The method according to claim 1 , wherein the number of samples in a complete rotation is determined by: (a) converting a section of the data to the frequency domain and taking the magnitude; (b) determining the frequency of the first large spectral line; and (c) calculating from the frequency the corresponding number of time samples for a complete rotation. 13. A method for suppressing the Jet Engine Modulation (JEM) clutter signal returns from compressor blades in data sampled by a radar designed to detect Foreign Object Foreign Debris (FOD) sucked into the engine air intake, method comprising the steps of: (a) determining, in the frequency domain, by a frequency domain frequency determination module comprising one or more processors, the frequency of the JEM lines which are at integer multiples of the shaft rotation frequency; (b) converting consecutive sections of the data to the frequency domain and taking their magnitude in a frequency domain magnitude module comprising one or more processors; and (c) providing a thresholding function and applying said thresholding function to said data by a thresholding function module comprising one or more processors, wherein said thresholding function is configured and/or said frequency spectrum is set so as to prevent said JEM frequencies from being detected by said thresholding function; and (d) the method optionally comprising the step of setting the frequency spectrum to zero or to a value which is the average over time at that frequency at the frequencies of the JEM spectral lines in a frequency spectrum setting module comprising one or more processors. 14. A method for suppressing the Jet Engine Modulation (JEM) clutter signal returns from compressor blades in data sampled by a radar designed to detect Foreign Object Debris (FOD) sucked into the engine air intake comprising the steps of: (a) determining, in the frequency domain, by a frequency-determination module comprising one or more processors, the frequency of the JEM lines which are at integer multiples of the shaft rotation frequency; (b) calculating based on the frequency of the JEM lines, a comb notch filter, in a comb notch filter module, where the notches in the frequency response of the filter are aligned with the JEM harmonic lines; and (c) applying the notch filter to the data, and the method optionally further comprising one or more of the steps of; (d) prior to the step of calculating the comb notch filter, resampling the data in a resampling module comprising one or more processors, so that each engine shaft rotation is represented in the same number of samples; (e) determining by measurement in the frequency domain of the data, in a frequency domain line frequency module comprising one or more processors, the frequency of the JEM lines, and (f) determining the length in samples of a single shaft rotation and thereby obtain the corresponding frequency in the frequency domain of the JEM lines in a rotation length module comprising one or more processors. 15. A clutter suppression module for suppressing the Jet Engine Modulation (JEM) clutter signal returns from compressor blades in data sampled by a system for Foreign Object Debris (FOD) detection in the air intake of a turbine assembly, the module comprising one or more processors configured, in use, to perform the method of claim 1 . 16. A system for Foreign Object Debris (FOD) detection in the air intake of a turbine assembly, comprising at least one antenna for obtaining data signals returned from the compressor blades of said turbine assembly, a sampling device for sampling said data signals to obtain sampled data, and the clutter suppression module for suppre