Systems and methods for wireless communication of packets having a plurality of formats

The invention claimed is: 1. An apparatus for wireless communication, comprising: a receiver configured to receive a wireless communication comprising a physical layer preamble and a payload, the preamble including a first field indicating whether the preamble includes an extension field, the first field comprising a first signal field, and a rotation of a modulation of the first signal field being an indicator that the extension field is included in the wireless communication, the first field further including a first sub-field including a length indicator of the wireless communication; and a processor in connection with a memory, the processor being configured to: process the payload based on coding parameters included in the first field when the rotation of the modulation of the first signal field indicates that the preamble does not include the extension field; process the payload based on coding parameters included in the extension field when the rotation of the modulation of the first signal field indicates that the preamble includes the extension field; and interpret the first sub-field as an indicator of a number of bytes or interpret the first sub-field as an indicator of a number of symbols, the interpreting being based on a value of the extension field. 2. The apparatus of claim 1 , wherein the processor is further configured to decode the payload for single user data when the rotation of the modulation of the first signal field indicates that the preamble does not include the extension field, and to decode the payload for multi-user data when the rotation of the modulation of the first signal field indicates that the preamble includes the extension field. 3. The apparatus of claim 1 , wherein the wireless communication comprises a first type, wherein the first field comprises a training field having a sequence, wherein the receiver is further configured to receive wireless communications having a second type, the wireless communications of the second type comprising a training field having the sequence, wherein the sequence is repeated a greater number of times in the training field of the second type than in the training field of the first type. 4. The apparatus of claim 1 , wherein the extension field comprises a second signal field. 5. The apparatus of claim 1 , wherein the first signal field includes a first symbol and a second symbol, wherein a rotation status of the first symbol indicates a first type of the wireless communication, and wherein a rotation status of the second symbol indicates a second type of the wireless communication. 6. The apparatus of claim 5 , wherein the first and second types of the wireless communication have different lengths. 7. The apparatus of claim 1 , the first field further including a second sub-field including an aggregation indicator of the wireless communication. 8. The apparatus of claim 7 , wherein the length indicator of the first sub-field is based in part on the aggregation indicator of the second sub-field. 9. A method of wireless communication, comprising: receiving a wireless communication comprising a physical layer preamble and a payload, the preamble including a first field indicating whether the preamble includes an extension field, the first field comprising a first signal field, and a rotation of a modulation of the first signal field being an indicator that the extension field is included in the wireless communication, the first field further including a first sub-field including a length indicator of the wireless communication; processing the payload based on coding parameters included in the first field when the rotation of the modulation of the first signal field indicates that the preamble does not include the extension field; processing the payload based on coding parameters included in the extension field when the rotation of the modulation of the first signal field indicates that the preamble includes the extension field; and interpreting the first sub-field as an indicator of a number of bytes or interpret the first sub-field as an indicator of a number of symbols, the interpreting being based on a value of the extension field. 10. The method of claim 9 , wherein the processing further comprises decoding the payload for single user data when the rotation of the modulation of the first signal field indicates that the preamble does not include the extension field, and wherein the processing further comprises decoding the payload for multi-user data when the rotation of the modulation of the first signal field indicates that the preamble includes the extension field. 11. The method of claim 9 , wherein the wireless communication comprises a first type, wherein the first field comprises a training field having a sequence, wherein the receiver is further configured to receive wireless communications having a second type, the wireless communications of the second type comprising a training field having the sequence, wherein the sequence is repeated a greater number of times in the training field of the second type than in the training field of the first type. 12. The method of claim 9 , wherein the extension field comprises a second signal field. 13. The method of claim 9 , wherein the first signal field includes a first symbol and a second symbol, wherein a rotation status of the first symbol indicates a first type of the wireless communication, and wherein a rotation status of the second symbol indicates a second type of the wireless communication. 14. The method of claim 13 , wherein the first and second types of the wireless communication have different lengths. 15. The method of claim 9 , the first field further including a second sub-field including an aggregation indicator of the wireless communication. 16. The method of claim 15 , wherein the length indicator of the first sub-field is based in part on the aggregation indicator of the second sub-field. 17. An apparatus for wireless communication, comprising a processor in connection with a memory, the processor being configured to: generate a wireless communication comprising a physical layer preamble and a payload and to determine whether to include an extension field in the preamble, the preamble including a first field indicating whether the preamble includes the extension field, the first field comprising a first signal field, and a rotation of a modulation of the first signal field being an indicator that the extension field is included in the wireless communication, the first field further including a first sub-field including a length indicator of the wireless communication, the first sub-field further being an indicator of a number of bytes or an indicator of a number of symbols, and the indicator of a number of bytes or a number of symbols being based on a value of the extension field; include coding parameters for the payload in the first field when the rotation of the modulation of the first signal field indicates that the preamble does not include the extension field; include coding parameters for the payload in the extension field when the rotation of the modulation of the first signal field indicates that the preamble includes the extension field; and interpret the first sub-field as an indicator of a number of bytes or interpret the first sub-field as an indicator of a number of symbols, the interpreting being based on a value of the extension field. 18. The apparatus of claim 17 , wherein the processor is further configured to decode the payload for single user data when the rotation of the modulation of the first