Upon successful decoding of a first set of slots of a first data packet, an Access Network (AN) can send an acknowledge message (ACK) to an Access Terminal (AT) to indicate that the AN has successfully decoded the data received in the first set of slots of the first data packet. Upon unsuccessful de
Upon successful decoding of a first set of slots of a first data packet, an Access Network (AN) can send an acknowledge message (ACK) to an Access Terminal (AT) to indicate that the AN has successfully decoded the data received in the first set of slots of the first data packet. Upon unsuccessful decoding of the first set of slots of the first data packet, the AN can send a negative acknowledge message (NAK) to the AT to indicate that the AN has not successfully decoded the data received in the first set of slots of a first data packet. Based upon receipt of the NAK, the AT can resend the data by sending a second set of slots of the first data packet containing redundant data. Based upon receipt of the ACK, the AT can send a first set of slots of another packet.
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1. A method of sending data on a reverse link of a wireless communication system, comprising: sending, by an Access Terminal, a first set of slots of a first packet to an Access Network, wherein the first packet includes the first set of slots and a second set of slots;sending, by the Access Termina
1. A method of sending data on a reverse link of a wireless communication system, comprising: sending, by an Access Terminal, a first set of slots of a first packet to an Access Network, wherein the first packet includes the first set of slots and a second set of slots;sending, by the Access Terminal, a first set of slots of a second packet to the Access Network immediately after the first set of slots of the first packet is sent;determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the first packet from the Access Network has been received by the Access Terminal, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet; andif the ACK has been received, sending, by the Access Terminal, a first set of slots of a third packet. 2. The method of claim 1 further comprising: if the NAK has been received, sending, by the Access Terminal, the second set of slots of the first packet. 3. The method of claim 1 further comprising: receiving, by the Access Network, the first set of slots of the first packet;attempting, by the Access Network, to decode the received first set of slots of the first packet;determining, by the Access Network, whether the received first set of slots of the first packet has been successfully decoded; andif the Access Network is successful in decoding the received first set of slots of the first packet, sending, by the Access Network, the ACK to the Access Terminal. 4. The method of claim 3 further comprising: if the Access Network is unsuccessful in decoding the received first set of slots of the first packet, sending, by the Access Network, the NAK to the Access Terminal. 5. The method of claim 1, further comprising determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet from the Access Network has been received by the Access Terminal. 6. A method of sending data on a reverse link of a wireless communication system, comprising: sending, by an Access Terminal, a first set of slots of a first packet to an Access Network, wherein the first packet includes the first set of slots and a second set of slots;sending, by the Access Terminal, a first set of slots of a second packet to the Access Network immediately after the first set of slots of the first packet is sent;determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the first packet from the Access Network has been received by the Access Terminal, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet; andif the NAK has been received, sending, by the Access Terminal, the second set of slots of the first packet. 7. The method of claim 6 further comprising: receiving, by the Access Network, the first set of slots of the first packet;attempting, by the Access Network, to decode the received first set of slots of the first packet;determining, by the Access Network, whether the received first set of slots of the first packet has been successfully decoded; andif the Access Network is unsuccessful in decoding the received first set of slots of the first packet, sending, by the Access Network, the NAK to the Access Terminal. 8. The method of claim 7 further comprising: if the Access Network is successful in decoding the received first set of slots of the first packet, sending, by the Access Network, the ACK to the Access Terminal. 9. The method of claim 6, further comprising determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet from the Access Network has been received by the Access Terminal. 10. A method of receiving data on a reverse link of a wireless communication system, comprising: receiving, by an Access Network, a first set of slots of a first packet from an Access Terminal, wherein the first packet includes the first set of slots and a second set of slots;receiving, by the Access Network, a first set of slots of a second packet from the Access Terminal immediately after the first set of slots of the first packet is received;attempting, by the Access Network, to decode the received first set of slots of the first packet;determining, by the Access Network, whether the received first set of slots of the first packet has been successfully decoded; andif the Access Network is successful in decoding the received first set of slots of the first packet, sending, by the Access Network, an ACK to the Access Terminal, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet. 11. The method of claim 10 further comprising: if the Access Network is unsuccessful in decoding the received first set of slots of the first packet, sending, by the Access Network, a NAK to the Access Terminal. 12. The method of claim 11 further comprising: receiving, by the Access Network, the second set of slots of the first packet from the Access Terminal; andattempting, by the Access Network, to decode a combination of the received first set of slots of the first packet and the received second set of slots of the first packet. 13. The method of claim 10, wherein the ACK is sent by the Access Network on a forward link ACK channel, wherein the ACK is sent in a phase orthogonal to the phase of a reverse link power control channel. 14. The method of claim 10, further comprising sending, by the Access Network, an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet from the Access Terminal. 15. An Access Terminal comprising: a radio frequency unit configured to, send a first set of slots of a first packet, wherein the first packet includes the first set of slots and a second set of slots;send a first set of slots of a second packet immediately after the first set of slots of the first packet is sent; andreceive an ACK or a NAK for the first set of slots of the first packet, wherein the first set of slots of the first packet is acknowledged independently by an Access Network from the first set of slots of the second packet; anda logic and processing unit configured to, determine whether the ACK or the NAK has been received;wherein the radio frequency unit is further configured to, send a first set of slots of a third packet if the ACK has been received, andsend the second set of slots of the first packet if the NAK has been received. 16. The Access Terminal of claim 15, wherein the received ACK or NAK corresponds to the first set of slots of the first packet; andsaid radio frequency unit is further configured to receive an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet. 17. The Access Terminal of claim 16, wherein said radio frequency unit is further configured to receive an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the third packet. 18. An Access Network comprising: a radio frequency unit configured to, receive a first set of slots of a first packet, wherein the first packet includes the first set of slots and a second set of slots;receive a first set of slots of a second packet immediately after the first set of slots of the first packet is received; anda logic and processing unit configured to, attempt to decode the received first set of slots of the first packet, anddetermine whether the received first set of slots of the first packet has been successfully decoded;wherein the radio frequency unit is further configured to, send an ACK if the logic and processing unit is successful in decoding the first packet, andsend a NAK if the logic and processing unit is unsuccessful in decoding the first Packet,wherein the first packet is acknowledged independently by the Access Network from the second packet. 19. The Access Network of claim 18, wherein: the radio frequency unit is further configured to, receive the second set of slots of the first packet; andthe logic and processing unit is further configured to, attempt to decode a combination of the received first set of slots of the first packet and the received second set of slots of the first packet. 20. The Access Network of claim 18, wherein the radio frequency unit is further configured to: send a reverse link power control bit on a reverse link power control channel; andsend the ACK or the NAK on a forward link ACK channel, wherein the ACK or NAK is sent in a phase orthogonal to the phase of the reverse link power control channel. 21. The Access Network of claim 18, wherein said radio frequency unit is further configured to send an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet. 22. An apparatus comprising: means for sending a first set of slots of a first packet to an Access Network, wherein the first packet includes the first set of slots and a second set of slots;means for sending a first set of slots of a second packet to the Access Network immediately after the first set of slots of the first packet is sent;means for determining whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the first packet from the Access Network has been received, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet; andmeans for sending a first set of slots of a third packet to the Access Network if the ACK has been received. 23. The apparatus of claim 22, further comprising means for determining whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet from the Access Network has been received. 24. The method of claim 23, further comprising means for determining whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the third packet from the Access Network has been received. 25. An apparatus comprising: means for sending a first set of slots of a first packet to an Access Network, wherein the first packet includes the first set of slots and a second set of slots;means for sending a first set of slots of a second packet to the Access Network immediately after the first set of slots of the first packet is sent;means for determining whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the first packet from the Access Network has been received, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet; andmeans for sending the second set of slots of the first packet if the NAK has been received. 26. The apparatus of claim 25, further comprising means for determining whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet from the Access Network has been received. 27. An apparatus comprising: means for receiving a first set of slots of a first packet from an Access Terminal, wherein the first packet includes the first set of slots and a second set of slots;means for receiving a first set of slots of a second packet from the Access Terminal immediately after the first set of slots of the first packet is received;means for attempting to decode the received first set of slots of the first packet;means for determining whether the received first set of slots of the first packet has been successfully decoded; andmeans for sending an ACK to the Access Terminal if the received first set of slots of the first packet is successfully decoded, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet. 28. The apparatus of claim 27, further comprising means for sending an ACK to the Access Terminal if the received first set of slots of the second packet is successfully decoded. 29. A processor-readable medium comprising processor-executable instructions for: sending, by an Access Terminal, a first set of slots of a first packet to an Access Network, wherein the first packet includes the first set of slots and a second set of slots;sending, by the Access Terminal, a first set of slots of a second packet to the Access Network immediately after the first set of slots of the first packet is sent;determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the first packet from the Access Network has been received by the Access Terminal, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet; andif the ACK has been received, sending, by the Access Terminal, a first set of slots of a third packet. 30. The processor-readable medium of claim 29, further comprising processor-executable instructions for determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet from the Access Network has been received by the Access Terminal. 31. The processor-readable medium of claim 30, further comprising processor-executable instructions for determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the third packet from the Access Network has been received by the Access Terminal. 32. A processor-readable medium comprising processor-executable instructions for: sending, by an Access Terminal, a first set of slots of a first packet to an Access Network, wherein the first packet includes the first set of slots and a second set of slots;sending, by the Access Terminal, a first set of slots of a second packet to the Access Network immediately after the first set of slots of the first packet is sent;determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the first packet from the Access Network has been received by the Access Terminal, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet; andif the NAK has been received, sending, by the Access Terminal, the second set of slots of the first packet. 33. The processor-readable medium of claim 32, further comprising processor-executable instructions for determining, by the Access Terminal, whether an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet from the Access Network has been received by the Access Terminal. 34. A processor-readable medium comprising processor-executable instructions for: receiving, by an Access Network, a first set of slots of a first packet from an Access Terminal, wherein the first packet includes the first set of slots and a second set of slots;receiving, by the Access Network, a first set of slots of a second packet from the Access Terminal immediately after the first set of slots of the first packet is received;attempting, by the Access Network, to decode the received first set of slots of the first packet;determining, by the Access Network, whether the received first set of slots of the first packet has been successfully decoded; andif the Access Network is successful in decoding the received first set of slots of the first packet, sending, by the Access Network, an ACK to an Access Terminal, wherein the first set of slots of the first packet is acknowledged independently by the Access Network from the first set of slots of the second packet. 35. The processor-readable medium of claim 34, further comprising processor-executable instructions for sending, by the Access Network, an ACK or a NAK corresponding to successful or unsuccessful decoding, respectively, of the first set of slots of the second packet from the Access Terminal.
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