Data transmission method, network device, and terminal device

The invention claimed is: 1. A data transmission method performed by a communication apparatus, wherein the method comprises: determining a signal structure of an uplink signal is a first signal structure or a second signal structure when the communication apparatus is in an out-of-synchronization state and a first data is to be sent, wherein the first signal structure comprises a first random access preamble sequence, wherein the second signal structure comprises a second random access preamble sequence, a pilot sequence and the first data, and wherein a first time-frequency domain resource for transmitting the second random access preamble sequence and a second time-frequency domain resource for transmitting the first data are inconsecutive in a time domain; determining the signal structure of the uplink signal is a third signal structure when the communication apparatus is in a synchronization state and the first data is to be sent, wherein the third signal structure comprises the pilot sequence and the first data; and sending the uplink signal based on the signal structure of the uplink signal. 2. The method according to claim 1 , wherein the first data is a payload that can be demodulated and received by a network device after the network device performs channel estimation by using the pilot sequence. 3. The method according to claim 1 , wherein the synchronization state is determined based on whether a timer times out. 4. A communication apparatus for transmission of a first data, comprising: at least one processor configured with processor-executable instructions to perform operations comprising: determining a signal structure of an uplink signal is a first signal structure or a second signal structure when the communication apparatus is in an out-of-synchronization state and a first data is to be sent, wherein the first signal structure comprises a first random access preamble sequence, wherein the second signal structure comprises a second random access preamble sequence, a pilot sequence and the first data, and wherein a first time-frequency domain resource for transmitting the second random access preamble sequence and a second time-frequency domain resource for transmitting the first data are inconsecutive in a time domain; determining the signal structure of the uplink signal is a third signal structure when the communication apparatus is in a synchronization state and the first data is to be sent, wherein the third signal structure comprises the pilot sequence and the first data; and sending the uplink signal based on the signal structure of the uplink signal. 5. The communication apparatus according to claim 4 , wherein the first data is a payload that can be demodulated and received by a network device after the network device performs channel estimation by using the pilot sequence. 6. The communication apparatus according to claim 4 , wherein the synchronization state is determined based on whether a timer times out. 7. A non-transitory computer storage medium, storing computer instructions that, when executed by a communication apparatus, cause the communication apparatus to perform operations, comprising: determining a signal structure of an uplink signal is a first signal structure or a second signal structure when the communication apparatus is in an out-of-synchronization state and a first data is to be sent, wherein the first signal structure comprises a first random access preamble sequence, wherein the second signal structure comprises a second random access preamble sequence, a pilot sequence and the first data, and wherein a first time-frequency domain resource for transmitting the second random access preamble sequence and a second time-frequency domain resource for transmitting the first data are inconsecutive in a time domain; determining the signal structure of the uplink signal is a third signal structure when the communication apparatus is in a synchronization state and the first data is to be sent, wherein the third signal structure comprises the pilot sequence and the first data; and sending the uplink signal based on the signal structure of the uplink signal. 8. The medium according to claim 7 , wherein the first data is a payload that can be demodulated and received by a network device after the network device performs channel estimation by using the pilot sequence. 9. The medium according to claim 7 , wherein the synchronization state is determined based on whether a timer times out.