Double-sideband continuous wave test (CWT) tone signals for data over cable service interface specification (DOCSIS) full duplex (FDX) interference group discovery

What is claimed is: 1. A cable modem, comprising: a memory storing computer-readable instructions; and a processor configured to execute the computer-readable instructions to: receive, from a Cable Modem Termination System (CMTS), fractional Orthogonal Frequency Division Multiplexing (OFDM) offset frequency spacing parameters and locations of continuous wave test (CWT) tone signals relative to locations of scattered pilot signals across an OFDM channel; determine a group of scattered pilot signals for inserting, for interference group discovery, a plurality of CWT tone signals at the locations of the CWT tone signals relative to the locations of the scattered pilot signals in the determined group of scattered pilot signals, the plurality of CWT tone signals offset from each of the scattered pilot signals by at least one predetermined positive offset frequency and at least one predetermined negative offset frequency based on the fractional OFDM offset frequency spacing parameters; and transmit, in an upstream full duplex (FDX) subband, the plurality of CWT tone signals offset from the locations of the scattered pilot signals in the determined group of scattered pilot signals by the at least one predetermined positive offset frequency and the at least one predetermined negative offset frequency. 2. The cable modem of claim 1 , wherein the determined group of scattered pilot signals are selected from one of: a group of consecutive scattered pilot signals; and a group of non-consecutive, periodic scattered pilot signals. 3. The cable modem of claim 1 , wherein the plurality of CWT tone signals comprise first CWT lower-sideband tone signals offset from the scattered pilot signals by a first predetermined negative offset frequency based on a first of the fractional OFDM offset frequency spacing parameters, and first CWT upper-sideband tone signals offset from the scattered pilot signals by a first predetermined positive offset frequency based on the first of the fractional OFDM offset frequency spacing parameters. 4. The cable modem of claim 3 , wherein the plurality of CWT tone signals further comprise second CWT lower-sideband tone signals offset from the scattered pilot signals by a second predetermined negative offset frequency based on a second of the fractional OFDM offset frequency spacing parameters, and a second CWT upper-sideband tone signals offset from the scattered pilot signals by a second predetermined positive offset frequency based on the second of the fractional OFDM offset frequency spacing parameters. 5. The cable modem of claim 1 , wherein the fractional OFDM offset frequency spacing parameters comprises N fractional OFDM offset frequency spacing parameters, and wherein the plurality of CWT tone signals comprise N CWT tone signals offset from one of the scattered pilot signals based on a different one of the N fractional OFDM offset frequency spacing parameters wherein N is an integer. 6. The cable modem of claim 5 , wherein the N CWT tone signals comprises a lower-sideband tone signal and an upper-sideband tone signal, wherein the lower-sideband tone signal is offset from one of the scattered pilot signals by the predetermined negative offset frequency based on one of the N fractional OFDM offset frequency spacing parameters and the upper-sideband tone signal is offset from the one of the scattered pilot signals by the predetermined positive offset frequency based on the one of the N fractional OFDM offset frequency spacing parameters. 7. The cable modem of claim 6 , wherein a first lower-sideband tone signal of the N CWT tone signals has a first phase difference of 180 degrees from a subsequent lower-sideband tone signal of the N CWT tone signals, and wherein a first upper-sideband tone signal of the N CWT tone signals has a second phase difference of 180 degrees from a subsequent upper-sideband tone signal of the N CWT tone signals. 8. A cable modem configured to measure receive modulation error from received signals, comprising a memory storing computer-readable instructions; and a processor configured to execute the computer-readable instructions to: receive, in a downstream direction in a full duplex (FDX) subband transmitting upstream continuous wave test (CWT) tone signals, a plurality of CWT tone signals offset from a group of scattered pilot signals by at least one predetermined positive offset frequency and at least one predetermined negative offset frequency based on fractional Orthogonal Frequency Division Multiplexing (OFDM) offset frequency spacing parameters; process the plurality of CWT tone signals to determine an average value of a Receive Modulation Error Ratio (RxMER) over a period of time; compare the average value of the RxMER over the period of time to a threshold of an interference group (IG) to measure receive modulation error; determine if the average value of the RxMER over the period of time is above a predetermined threshold; and assign the processor transmitting upstream CWT tone signals to the IG when the average value of the RxMER over the period of time is above the predetermined threshold, otherwise assign the processor upstream CWT tone signals to a different IG that provides Radio Frequency (RF) isolation to allow simultaneous upstream and downstream transmissions at a same frequency without interference. 9. The cable modem of claim 8 , wherein the group of scattered pilot signals are selected from one of: a group of consecutive scattered pilot signals; and a group of non-consecutive, periodic scattered pilot signals. 10. The cable modem of claim 8 , wherein the processor transmitting upstream CWT tone signals is not included in a same IG and is allowed to simultaneously transmit in opposite directions in a same FDX subband when the average value of the RxMER over the period of time is not above the predetermined threshold. 11. The cable modem of claim 8 , wherein the processor reports to a Cable Modem Termination System (CMTS) the average value of the RxMER and assignment of an IG to the processor transmitting upstream CWT tone signals. 12. The cable modem of claim 8 , wherein the plurality of CWT tone signals comprise first CWT lower-sideband tone signals offset from the scattered pilot signals by a first predetermined negative offset frequency based on a first of the fractional OFDM offset frequency spacing parameters, and a first CWT upper-sideband tone signals offset from the scattered pilot signals by a first predetermined positive offset frequency based on the first of the fractional OFDM offset frequency spacing parameters. 13. The cable modem of claim 12 , wherein the plurality of CWT tone signals further comprise second CWT lower-sideband tone signals offset from the scattered pilot signals by a second predetermined negative offset frequency based on a second of the fractional OFDM offset frequency spacing parameters, and second CWT upper-sideband tone signals offset from the scattered pilot signals by a second predetermined positive offset frequency based on the second of the fractional OFDM offset frequency spacing parameters. 14. The cable modem of claim 8 , wherein the fractional OFDM offset frequency spacing parameters comprises N fractional OFDM offset frequency spacing parameters, and wherein the plurality of CWT tone signals comprise N CWT tone signals offset from one of the scattered pilot signals based on a different one of the N fractional OFDM offset frequency spacing parameters wherein N is an integer. 15. The cable modem of claim 14 , wherein the N CWT tone signals comprises a lower-sideband tone signal and an upper-sideband tone signa