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A method for coherent estimation of the traffic-to-pilot energy ratio is presented. A received preamble is decoded, and then re-encoded. The received preamble is then multiplied by the re-encoded preamble. The results are summed, squared, and then divided by a pilot energy value. In another method,

A method for coherent estimation of the traffic-to-pilot energy ratio is presented. A received preamble is decoded, and then re-encoded. The received preamble is then multiplied by the re-encoded preamble. The results are summed, squared, and then divided by a pilot energy value. In another method, a message carrying energy information can be inserted between a subpacket preamble and a subpacket.

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1. A method comprising: decoding first preamble symbols received at a base station to generate decoded first preamble symbols;encoding the decoded first preamble symbols to generate second preamble symbols;determining an energy value associated with a transmission between the base station and a remo

1. A method comprising: decoding first preamble symbols received at a base station to generate decoded first preamble symbols;encoding the decoded first preamble symbols to generate second preamble symbols;determining an energy value associated with a transmission between the base station and a remote station, wherein the energy value is determined based at least in part on a sequence of symbols generated by a multiplication of the first preamble symbols and the second preamble symbols;forming a message including an indicator associated with the energy value; andtransmitting the message in a channel to the remote station. 2. The method of claim 1, further comprising positioning the message in a preamble. 3. The method of claim 1, further comprising positioning the message in a particular subpacket of a channel frame. 4. The method of claim 1, further comprising positioning the message between a preamble of a channel frame and a particular subpacket of the channel frame. 5. The method of claim 1, further comprising receiving at the base station a packet that includes a data subpacket and the first preamble symbols, wherein the packet is received by the base station via a traffic channel. 6. An apparatus comprising: means for receiving first preamble symbols at a first station;means for decoding the first preamble symbols to generate decoded first preamble symbols;means for encoding the decoded first preamble symbols to generate second preamble symbols;means for determining an energy value associated with a transmission between the first station and a second station, wherein the energy value is determined based at least in part on a multiplication of the first preamble symbols and the second preamble symbols;means for forming a message including an indicator associated with the energy value; andmeans for transmitting the message in a channel to the second station. 7. A non-transitory computer-readable medium encoded with computer-readable instructions thereon that, when executed by a computer, cause the computer to: decode first preamble symbols received at a first station to generate decoded first preamble symbols;encode the decoded first preamble symbols to generate second preamble symbols;determine an energy value associated with a transmission between the first station and a second station, wherein the energy value is determined based at least in part on a multiplication of the first preamble symbols and the second preamble symbols;form a message including an indicator associated with the energy value; andtransmit the message in a channel to the second station. 8. A method comprising: decoding a first preamble received at a remote station to generate a decoded first preamble;encoding the decoded first preamble to generate a second preamble;generating a sequence of symbols based at least in part on a multiplication of the first preamble and the second preamble;calculating an energy value associated with a transmission between the remote station and a base station, wherein the energy value is calculated based at least in part on the sequence of symbols;forming a message including an indicator associated with the energy value; andtransmitting the message to the base station. 9. The method of claim 8, wherein the message is included in a third preamble of a channel frame. 10. The method of claim 8, wherein the message is included in a particular subpacket of a channel frame. 11. The method of claim 8, wherein the message is included between a third preamble of a channel frame and a particular subpacket of the channel frame. 12. The method of claim 8, wherein the message is transmitted in a reverse link channel to the base station. 13. The method of claim 8, further comprising receiving the first preamble and an unmodulated pilot signal at the remote station. 14. The method of claim 8, wherein the energy value is associated with a traffic-to-pilot ratio. 15. The method of claim 14, wherein the energy value is an estimation of the traffic-to-pilot ratio. 16. A base station comprising: a decoder configured to decode first preamble symbols to generate decoded first preamble symbols;an encoder configured to encode the decoded first preamble symbols to generate second preamble symbols;a transmission power control unit configured to: generate a sequence of symbols based at least in part on a multiplication of the first preamble symbols and the second preamble symbols; anddetermine an energy value associated with a transmission to a first station, wherein the energy value is determined based at least in part on the sequence of symbols;a channel element coupled to the transmission power control unit for forming a message including an indicator associated with the energy value; anda transmitter adapted to transmit the message to the first station. 17. The base station of claim 16, wherein the transmission power control unit includes a multiplier configured to multiply the second preamble symbols and the first preamble symbols to generate the sequence of symbols. 18. The base station of claim 16, wherein the transmission power control unit includes an adder configured to add together each symbol of the sequence of symbols to generate an added value and wherein the energy value is determined based at least in part on the added value. 19. The base station of claim 18, wherein the added value is squared to produce a squared value and wherein the energy value is determined based on the squared value. 20. The base station of claim 16, further comprising: a receiver configured to receive the first preamble symbols and a pilot signal;logic configured to determine a pilot energy value based on the received pilot signal; andlogic configured to divide the energy value by the pilot energy value to generate a traffic-to-pilot estimate. 21. The base station of claim 16, wherein the first preamble symbols and the second preamble symbols are provided to the transmission power control unit, wherein the transmission power control unit determines the sequence of symbols based on the provided first preamble symbols and the provided second preamble symbols. 22. The base station of claim 16, wherein the message further includes an identity of a target destination of a data payload, a transmission rate of a subpacket, a number of supackets to carry a full amount of the data payload, and timing information of an arrival of the subpackets. 23. The base station of claim 22, wherein the energy value includes a traffic-to-pilot ratio. 24. The base station of claim 23, wherein the transmission power control unit is further configured to locate the energy value in a look-up table and select an index value representing the energy value. 25. The base station of claim 24, wherein the indicator includes the index value. 26. A remote station comprising: a decoder configured to decode a first preamble to generate a decoded first preamble;an encoder configured to encode the decoded first preamble to generate a second preamble;a transmission power control unit for determining an energy value associated with a transmission to a base station, wherein the energy value is determined based at least in part on a multiplication of the first preamble and the second preamble;a channel element coupled to the transmission power control unit for forming a message including an indicator associated with the energy value; anda transmitter adapted to transmit the message to the base station. 27. The remote station of claim 26, wherein the transmission power control unit includes a multiplier configured to multiply the second preamble and the first preamble to generate a sequence of symbols. 28. The remote station of claim 27, further comprising an adder configured to add together each symbol of the sequence of symbols to generate an added value and wherein the energy value is determined based at least in part on the added value. 29. The remote station of claim 26, further comprising: a processor configured to receive an unmodulated pilot signal;logic configured to determine a pilot energy value based on the unmodulated pilot signal; andlogic configured to divide the energy value by the pilot energy value to generate a traffic-to-pilot estimate. 30. The remote station of claim 26, wherein the message is included in a third preamble of a channel frame.