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A forward link design is provided employing CDMA (code division multiple access) technologies in which time division multiplexing is employed between data and control information on the forward link to service multiple users per slot. Another forward link design employing CDMA (code division multipl

A forward link design is provided employing CDMA (code division multiple access) technologies in which time division multiplexing is employed between data and control information on the forward link to service multiple users per slot. Another forward link design employing CDMA (code division multiple access) technologies is provided in which code division multiplexing between data and control information is employed on the forward link to service multiple users per slot, which is preferably backwards compatible with legacy standards such as IS2000A. A reverse link design is also provided.

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1. A wireless terminal adapted to function in a CDMA communications system, the terminal comprising: a receiver adapted to receive frames having a slot structure in which there is a user identification channel and a shared channel, each slot of the shared channel having been transmitted using a plur

1. A wireless terminal adapted to function in a CDMA communications system, the terminal comprising: a receiver adapted to receive frames having a slot structure in which there is a user identification channel and a shared channel, each slot of the shared channel having been transmitted using a plurality of Walsh codes and containing content for either a plurality of voice users, a plurality of voice users and one high-rate data user, or only one high-rate data user, wherein a slot of the shared channel contains content for a plurality of users which was transmitted in parallel using different Walsh code spaces for different users, wherein the user identification channel is received in parallel with the shared channel using different Walsh code spaces;the wireless terminal being adapted to decode the user identification channel to determine if a current slot of the shared channel contains voice and/or high-rate data content for the wireless terminal. 2. The wireless terminal according to claim 1 wherein in the event the wireless terminal determines the current slot contains voice content for the wireless terminal, the receiver is adapted to blindly distinguish between a plurality of different coding and modulation types which may have been used to transmit the voice content based on getting a correct CRC. 3. The wireless terminal according to claim 1 adapted to decode the user identification channel using an assigned user identifier Walsh and sub-identifier. 4. The wireless terminal according to claim 1 adapted to be assigned at least one group ID as a voice user and adapted to be assigned a group ID as a data user; wherein a single group ID is transmitted on a preamble of each slot, so as to inform the wireless terminal whether the slot has content for the user. 5. The wireless terminal according to claim 4 wherein each voice user has three Group IDs, one GID1 for use when its voice is transmitted using one 16-ary Walsh cover, one GID2 for use when its voice is transmitted using two 16-ary Walsh covers, and one GID4 for use when its voice is transmitted using four 16-ary Walsh covers; wherein the each voice user has Walsh covers assigned to it for each of the its three Group IDs such that when a given group ID is transmitted, all voice users having been assigned the given group ID will know the slot contains their content, will know how many Walsh codes recover and which Walsh codes to recover. 6. The wireless terminal according to claim 1 further adapted to perform fast ARQ for voice. 7. The wireless terminal according to claim 1 adapted to perform fast ARQ for voice by: determining a correlation result based on the correlation between the user identification channel and an assigned user identifier;if the correlation result is greater than a first threshold and less than a second threshold, the wireless terminal decoding further channels, and if these channels pass an integrity check, sending an ACK to the base station, and otherwise, the wireless terminal discarding the current packet;if the correlation result is greater than the second threshold, the wireless terminal decoding further channels, and if these channels pass an integrity check, sending a ACK signal to the base station, and if these channels do not pass the integrity check sending an NAK to the base station. 8. The wireless terminal according to claim 7 further adapted to save current packet raw data samples for soft combining or incremental redundancy with a future received data packet. 9. The wireless terminal according to claim 1 further adapted to look for a single user identifier if the wireless terminal is expecting voice only, and if the wireless terminal is expecting voice and data, to look for two user identifiers, one for voice and one for data. 10. The wireless terminal according to claim 9 further comprising: in the event the current slot contains data for the wireless terminal as determined by the user identification channel, decoding another forward link channel to determine parameters used in transmitting the data, and then using a data rate determined from the other forward link channel to demodulate the data on the shared channel. 11. The wireless terminal according to claim 1 further adapted to perform voice ARQ. 12. The wireless terminal according to claim 11 adapted to perform the voice ARQ using a modified 1xRTT pilot channel. 13. The wireless terminal according to claim 12 wherein the modified 1xRTT pilot channel is further used to transmit a reverse rate indicator. 14. The wireless terminal according to claim 13 adapted to perform the voice ARQ by transmitting VARQ bits subject to: when functioning with a voice service only, positions of the VARQ bits are in slots 3,4,7,8,9,11,12,13 and 15 of a current frame and slots 0 and 1 of a next frame, with slots 2, 6, 10 and 14 being reserved for the reverse rate indicator;when functioning with both data and voice services, positions for the VARQ bits are fixed within a frame at slots 9 and 10, with remaining slots used for the reverse rate indicator. 15. The wireless terminal according to claim 11 adapted to: when functioning as a wireless terminal of a mixed data and voice user, map each reverse rate indicator symbol of a reverse rate indicator to a simplex code with length of 7 repeated twice and mapped to slots 0-8 and 11-15, with the voice ARQ being one bit mapped into slot 9 and 10, the reverse rate indicator being used to indicate whether a Reverse Dedicated Control Channel or a Reverse Supplemental Channel or neither is active for a current frame;when functioning as a wireless terminal of a voice only user, map a RRI bit to slots 2, 6, 10 and 12, with the voice ARQ being one bit mapped into any two consecutive slots that are not reserved for the reverse rate indicator. 16. The wireless terminal according to claim 11 further adapted to transmit a Reverse Channel Estimate and Sector Selector (R-CHESS) channel having a slot for each forward slot, with some slots containing channel estimates and other slots containing sector select values. 17. The wireless terminal according to claim 16 wherein the R-CHESS channel is adapted to allow sector selection for data users which precludes the changing from a sector value directly to another sector value, only allowing a change from a sector value to a null value and then to another sector value. 18. The wireless terminal according to claim 17 wherein if a sector select value changes from a first sector value to a null value, the wireless terminal is adapted to continue to report channel estimates for the first sector value for a number of subsequent slots; when the sector select value changes to a different sector value, the wireless terminal starts to report channel estimates for the different sector value. 19. The wireless terminal according to claim 16 wherein each channel estimate comprises a three bit value representative of an absolute channel estimate. 20. The wireless terminal according to claim 16 wherein the channel estimates comprise three bit values alternating between being representative of an absolute channel estimate and a change in channel estimate. 21. The wireless terminal according to claim 16 wherein: the sector select values are sent during a first and ninth of sixteen available R-CHESS channel slots, and channel estimates are sent during the remaining of the slots. 22. The wireless terminal according to claim 1 adapted to process packets sent on the shared channel providing systematic predetermined incremental redundancy symbol selection for voice and data in which an even second timing referenced to Universal Coordinated Time has been used to select a portion of turbo coded data symbols to be sent in a given slot, a count value k is used which starts on each even second which counts from k=0 to Kmax incrementing every (even second interval)/K; starting (i1) and ending (i2) symbol positions are calculated of a actual Turbo transmitted packet are from i1=1+mod(kL,M), i2=i1+L−1, a Turbo coded packet being viewed as a periodic signal with period M, where N is a user payload packet size in number of symbols, M is a coded packet size, which is a packed size in number of symbols after Turbo coding, and L is an actual Turbo transmitted packet size in number of symbols resulting in an effective coding rate would be N/L, the wireless terminal being adapted to process the packets by:deriving packet size information, and using the count value, determining which portion of the turbo coded packet the received packet belongs to. 23. The wireless terminal according to claim 22 further adapted to decode a packet and perform a quality check on a decoded packet; if the decoded packet does not pass the quality check, check if a previous received packet was decoded correctly or not;if the previous received packet is wrong, the packet will be used for soft combining and/or incremental redundancy with the previous received packet;if the previous received packet is correct or a joint decoded packet is wrong, a NAK signal is sent to a base station, and the packet will be stored and may be used for soft combining and/or incremental redundancy with a future received packet. 24. The wireless terminal according to claim 1 adapted to transmit supplementary channel(s) according to parameters in any row of the tables in FIG. 22 and FIG. 23. 25. A wireless terminal for a CDMA communications system, comprising: a receiver adapted to receive frames having a slot structure in which there is a user identification channel and a shared channel, the shared channel having been transmitted using a plurality of Walsh codes, and containing in some slots content for a single high-rate data user and content for a voice user, the user identification channel being transmitted in parallel with the shared channel using a different code space, the wireless terminal being adapted to decode the user identification channel to determine if a current slot of the shared channel contains voice and/or high-rate data content for the wireless terminal. 26. A wireless terminal adapted to function in a CDMA communications system, the terminal comprising: a receiver adapted to receive frames having a slot structure in which there is a user identification channel and a shared channel, the shared channel and the user identification channel having been transmitted in parallel using different Walsh code spaces, each slot of the shared channel containing content for either a plurality of voice users, a plurality of voice users and one high-rate data user, or only one high-rate data user;the wireless terminal being adapted to decode the user identification channel to determine if a current slot of the shared channel contains voice and/or high-rate data content for the wireless terminal.