Signal sending method, signal receiving method, and apparatuses

What is claimed is: 1. A signal sending method comprising: generating a preamble sequence comprising a high-efficiency short training field sequence, wherein the high-efficiency short training field sequence comprises five cycles, wherein the length of each cycle of the five cycles is 1600 ns; and sending the preamble sequence. 2. The signal sending method according to claim 1 , wherein the preamble sequence corresponds to a current bandwidth, and the high-efficiency short training field sequence includes a segment of a high-efficiency short training field sequence in a preamble sequence corresponding to a reference bandwidth, and the high-efficiency short training field sequence in the preamble sequence corresponding to the current bandwidth comprises five cycles, wherein the length of each cycle of the five cycles is 1600 ns; and the method further comprising: sending the preamble sequence corresponding to the current bandwidth. 3. The signal sending method according to claim 2 , wherein a sampling rate of the segment of the high-efficiency short training field sequence in the preamble sequence corresponding to the reference bandwidth corresponds to the current bandwidth. 4. The signal sending method according to claim 2 , wherein the current bandwidth is 40 MHz, and the high-efficiency short training field sequence corresponding to 40 MHz is [1*L-STF, j*L-STF], wherein the L-STF is [0,0,0,0,0,0,0,0,1+1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0,−1−1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0, . . . 0,0,0,−1−1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,0,0,0,0]. 5. A signal receiving method comprising: receiving a preamble sequence comprising a high-efficiency short training field sequence, wherein the high-efficiency short training field sequence comprises five cycles, wherein the length of each cycle of the five cycles is 1600 ns; and processing signals based on the high-efficiency short training field sequence. 6. The signal receiving method according to claim 5 , wherein the preamble sequence corresponds to a current bandwidth, and the high-efficiency short training field sequence includes a segment of a high-efficiency short training field sequence in a preamble sequence corresponding to a reference bandwidth, and the high-efficiency short training field sequence in the preamble sequence corresponding to the current bandwidth comprises five cycles, wherein the length of each cycle of the five cycles is 1600 ns; and the method further comprising: processing signals based on the high-efficiency short training field sequence in the preamble sequence corresponding to the current bandwidth. 7. The signal receiving method according to claim 6 , wherein a sampling rate of the segment of the high-efficiency short training field sequence in the preamble sequence corresponding to the reference bandwidth corresponds to the current bandwidth. 8. The signal receiving method according to claim 6 , the current bandwidth is 40 MHz, and the high-efficiency short training field sequence corresponding to 40 MHz is [1*L-STF, j*L-STF], wherein the L-STF is [0,0,0,0,0,0,0,0,1+1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0,−1−1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0, . . . 0,0,0,−1−1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,0,0,0,0]. 9. A signal sending device comprising: a processor configured to generate a preamble sequence comprising a high-efficiency short training field sequence, wherein the high-efficiency short training field sequence comprises five cycles, wherein the length of each cycle of the five cycles is 1600 ns; and a transmitter configured to cooperate with the processor to send the preamble sequence. 10. The signal sending device according to claim 9 , wherein the preamble sequence corresponds to a current bandwidth, wherein the high-efficiency short training field sequence includes a segment of a high-efficiency short training field sequence in a preamble sequence corresponding to a reference bandwidth, and the high-efficiency short training field sequence in the preamble sequence corresponding to the current bandwidth comprises five cycles, wherein the length of each cycle of the five cycles is 1600 ns; and wherein the transmitter is configured to cooperate with the processor to send the preamble sequence corresponding to the current bandwidth. 11. The signal sending device according to claim 10 , wherein a sampling rate of the segment of the high-efficiency short training field sequence in the preamble sequence corresponding to the reference bandwidth corresponds to the current bandwidth. 12. The signal sending device according to claim 10 , the current bandwidth is 40 MHz, and the high-efficiency short training field sequence corresponding to 40 MHz is [1*L-STF, j*L-STF], wherein the L-STF is [0,0,0,0,0,0,0,0,1+1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0,−1−1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0, . . . 0,0,0,−1−1i,0,0,0,−1−1i,0,0,0, 1+1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,0,0,0,0]. 13. A signal receiving device comprising: a processor; and a receiver configured to cooperate with the processor to receive a preamble sequence comprising a high-efficiency short training field sequence, wherein the high-efficiency short training field sequence comprises five cycles, wherein the length of each cycle of the five cycles is 1600 ns; wherein the processor is configured to process signals based on the high-efficiency short training field sequence. 14. The signal receiving device according to claim 13 , wherein the preamble sequence corresponds to a current bandwidth, wherein the high-efficiency short training field sequence includes a segment of a high-efficiency short training field sequence in a preamble sequence corresponding to a reference bandwidth, and the high-efficiency short training field sequence in a preamble sequence corresponding to the current bandwidth comprises five cycles, wherein the length of each cycle of the five cycles is 1600 ns; and wherein the processor is further configured to process signals based on the high-efficiency short training field sequence in the preamble sequence corresponding to the current bandwidth. 15. The signal receiving device according to claim 14 , wherein a sampling rate of the segment of the high-efficiency short training field sequence in the preamble sequence corresponding to the reference bandwidth corresponds to the current bandwidth. 16. The signal receiving device according to claim 14 , the current bandwidth is 40 MHz, and the high-efficiency short training field sequence corresponding to 40 MHz is [1*L-STF, j*L-STF], wherein the L-STF is [0,0,0,0,0,0,0,0,1+1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0,−1−1i,0,0,0,−1−1i,0,0,0,1+1i,0,0,0, . . . 0,0,0,−1−1i,0,0,0,−1−1i,0,0,0, 1+1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,1+1i,0,0,0,0,0,0,0].