Methods and apparatus for overlaid modulation

What is claimed is: 1. A method comprising: communicating, in a wireless communication network, signaling that is indicative of multiple modulation domains for overlaid modulation of data and is indicative of multiple modulation switching intervals, the multiple modulation domains being different from each other, the multiple modulation switching intervals comprising a respective modulation switching interval at which modulation elements associated with each of the multiple modulation domains may be switched, each respective modulation switching interval being different from other modulation switching intervals in the multiple modulation switching intervals; communicating data, that is modulated using the overlaid modulation, in the wireless communication network, the communicating comprising communicating data that is modulated using a first modulation domain of the multiple modulation domains and a second modulation domain of the multiple modulation domains, wherein communicating signaling comprises communicating first signaling that is indicative of the first modulation domain and is indicative of a first modulation switching interval at which modulation elements associated with the first modulation domain may be switched; the method further comprises communicating data that is modulated using the first modulation domain; communicating signaling further comprises communicating second signaling that is indicative of the second modulation domain and is indicative of a second modulation switching interval at which modulation elements associated with the second modulation domain may be switched; communicating data that is modulated using the overlaid modulation comprises, subsequent to communicating the second signaling, communicating data that is modulated using the first modulation domain and the second modulation domain. 2. The method of claim 1 , wherein communicating data comprises communicating a data transmission at a time-frequency location, wherein the multiple modulation switching intervals comprise a modulation switching interval that is independent of the time-frequency location of the data transmission. 3. The method of claim 1 , wherein communicating data comprises communicating a data transmission at a time-frequency location, wherein the multiple modulation switching intervals comprise a modulation switching interval that is defined with respect to the time- frequency location of the data transmission. 4. The method of claim 1 , wherein the multiple modulation switching intervals comprise aligned modulation switching intervals that are aligned with each other. 5. The method of claim 1 , wherein the multiple modulation switching intervals comprise unaligned modulation switching intervals that are unaligned with each other. 6. The method of claim 1 , wherein the multiple modulation switching intervals comprise modulation switching intervals that include one or more switching units, wherein the switching units are: the same for the modulation switching intervals that include one or more switching units; specific to each modulation domain for each of the modulation switching intervals that include one or more switching units; or specific to a numerology associated with communicating the data. 7. The method of claim 1 , wherein the overlaid modulation comprises modulation of respective blocks of data according to the multiple modulation domains, wherein the respective blocks of data comprise data blocks that include common bits modulated according to more than one of the multiple modulation domains. 8. The method of claim 1 , wherein the overlaid modulation comprises modulation of each of a plurality non-overlapping blocks of data according to a respective one of the multiple modulation domains. 9. An apparatus comprising: a communication interface; a processor, coupled to the communication interface; a non-transitory computer readable storage medium, coupled to the processor, storing programming for execution by the processor, the programming including instructions to: communicate, in a wireless communication network, signaling that is indicative of multiple modulation domains for overlaid modulation of data and is indicative of multiple modulation switching intervals, the multiple modulation domains being different from each other, the multiple modulation switching intervals comprising a respective modulation switching interval at which modulation elements associated with each of the multiple modulation domains may be switched, each respective modulation switching interval being different from other modulation switching intervals in the multiple modulation switching intervals; communicate data, that is modulated using the overlaid modulation, in the wireless communication network, by communicating data that is modulated using a first modulation domain of the multiple modulation domains and a second modulation domain of the multiple modulation domains, wherein the instructions comprise instructions to communicate signaling by communicating first signaling that is indicative of the first modulation domain and is indicative of a first modulation switching interval at which modulation elements associated with the first modulation domain may be switched; the instructions further comprise instructions to communicate data that is modulated using the first modulation domain; the instructions further comprise instructions to communicate signaling by communicating second signaling that is indicative of the second modulation domain and is indicative of a second modulation switching interval at which modulation elements associated with the second modulation domain may be switched; the instructions comprise instructions to communicate data that is modulated using the overlaid modulation by communicating, subsequent to communicating the second signaling, data that is modulated using the first modulation domain and the second modulation domain. 10. The apparatus of claim 9 , wherein the instructions comprise instructions to communicate data by communicating a data transmission at a time-frequency location, wherein the multiple modulation switching intervals comprise a modulation switching interval that is independent of the time-frequency location of the data transmission. 11. The apparatus of claim 9 , wherein the instructions comprise instructions to communicate data by communicating a data transmission at a time-frequency location, wherein the multiple modulation switching intervals comprise a modulation switching interval that is defined with respect to the time-frequency location of the data transmission. 12. The apparatus of claim 9 , wherein the multiple modulation switching intervals comprise aligned modulation switching intervals that are aligned with each other. 13. The apparatus of claim 9 , wherein the multiple modulation switching intervals comprise unaligned modulation switching intervals that are unaligned with each other. 14. The apparatus of claim 9 , wherein the multiple modulation switching intervals comprise modulation switching intervals that include one or more switching units, wherein the switching units are: the same for the modulation switching intervals that include one or more switching units; specific to each modulation domain for each of the modulation switching intervals that include one or more switching units; or specific to a numerology associated with communicating the data. 15. The apparatus of claim 9 , wherein the overlaid modulation comprises modulation of respective blocks of data according to the multiple modulation domains, wherein the respective bloc