TH2501001084A - High-strength steel plates and methods for manufacturing them, and components and methods for manufacturing them. - Google Patents

Claims (24)

1. The synchronization signal transmission method applied at the terminal side includes: transmitting or receiving sidelink synchronization signal blocks. These sidelink synchronization signal blocks comprise: the primary sidelink synchronization signal (PSSS) and the secondary sidelink synchronization signals (SSSS). PSSS and SSSS are distributed in multiplexed symbols by frequency division at orthogonal carrier level (OFDM) occupied by the sidelink synchronization signal blocks. 2. Method of signaling synchronization according to claim 1, where PSSS and SSSS are distributed in OFDM symbols that block sidelink synchronization signals occupied by pre-established rules. 3. Method of signaling synchronization according to claim 2, whereby when one slot comprises a position, the time domain option of at least two blocks of synchronization sidelink signals is established by a predefined rule. It consists of at least one of the following: One PSSS and SSSS are located in the second symbol of the sidelink synchronization signal block; another PSSS and SSSS are located in the first symbol of the sidelink synchronization signal block; one PSSS and SSSS are located in the second symbol of the sidelink synchronization signal block; another PSSS and SSSS are located in the sixth symbol of the sidelink synchronization signal block; one PSSS and ssss are located in the third symbol of the sidelink synchronization signal block; another PSSS and ssss are located in the sixth symbol of the sidelink synchronization signal block; one PSSS and SSSS are located in the fourth symbol of the sidelink synchronization signal block; another PSSS and SSSS are located in the sixth symbol of the sidelink synchronization signal block; and one PSSS and SSSS are located in the third symbol of the sidelink synchronization signal block; and another PSSS and SSSS are located in the fifth symbol of the sidelink synchronization signal block. 4. Method of signaling synchronization according to claim 3, where when one slot comprises the time domain option position of two sidelink synchronization signal blocks, the OFDM symbol index corresponding to the first symbol of each time domain option position of the two sidelink synchronization signal blocks is 14n or 7+14n, where 0 is less than or equal to n < m, m is the maximum number of slots occupied by the sidelink synchronization signal block, and n=0 corresponds to the first OFDM symbol of the first slot comprised of the time domain option position of the sidelink synchronization signal block. 5. Method of signaling synchronization according to claim 3, where when the number of OFDM symbols occupying the sidelink synchronization signal block is greater than or equal to 5, the predefined rule is: one PSSS and SSSS are located at the second symbol of the sidelink synchronization signal block, and the other PSSS and SSSS are located at the fifth symbol of the sidelink synchronization signal block. 6. Method of signaling synchronization according to claim 3, where when the number of OFDM symbols in the sidelink synchronization signal block occupied is greater than or equal to 6, at least one of the following predefined rules applies: one PSSS and SSSS are located in the second symbol of the sidelink synchronization signal block, and another PSSS and SSSS are located in the sixth symbol of the sidelink synchronization signal block; one PSSS and SSSS are located in the third symbol of the sidelink synchronization signal block, and another PSSS and SSSS are located in the sixth symbol of the sidelink synchronization signal block; and one PSSS and SSSS are located in the fourth symbol of the sidelink synchronization signal block, and another PSSS and SSSS are located in the sixth symbol of the sidelink synchronization signal block. 7. Method of signaling synchronization according to claim 3, where the subcarrier wave distance is the first distance and one slot comprises the time-domain option position of the two sidelink synchronization signal blocks, the OFDM symbol index corresponding to the first symbol of the time-domain option position of each of the two sidelink synchronization signal blocks is 14n or 7+14n, where 0 is less than or equal to n < m, m is the maximum number of slots occupied by the sidelink synchronization signal block, and n=0 corresponds to the first OFDM symbol of the first slot comprised of the time-domain option position of the sidelink synchronization signal block. 8. Method of transmitting synchronization signals according to claim 3, where when the subcarrier wave spacing is the first spacing and multiple OFDM symbols blocking the sidelink synchronization signal occupy greater than or equal to 5, the predefined rule is: one of the PSSS and SSSS is located in the second symbol of the sidelink synchronization signal block, and the other of the PSSS and SSSS is located in the fifth symbol of the sidelink synchronization signal block. 9. Method of transmitting synchronization signals according to claim 3, where when the subcarrier wave spacing is the first spacing and multiple OFDM symbols blocking the synchronization signal occupy greater than or equal to 6, the pre-established rule is at least one of the following: One of the PSSS and SSSS are located in the second symbol of the sidelink synchronization signal block, and others of the PSSS and SSSS are located in the sixth symbol of the sidelink synchronization signal block; One of the PSSS and SSSS are located in the third symbol of the sidelink synchronization signal block, and others of the PSSS and SSSS are located in the sixth symbol of the sidelink synchronization signal block; One of the PSSS and SSSS are located in the fourth symbol of the sidelink synchronization signal block, and others of the PSSS and SSSS are located in the sixth symbol of the sidelink synchronization signal block. 10. Method of transmitting synchronization signals according to claim 3, where the subcarrier wave distance is the second distance and the first slot comprises the time domain option position of the two sidelink synchronization signal blocks, the OFDM symbol index corresponding to the first symbol of the time domain option position of each block of the two sidelink synchronization signal blocks is x+14n or y+14n, where 0 is less than or equal to n and n=0 corresponds to the first OFDM symbol of the first slot comprised of the time domain option position of the sidelink synchronization signal block. The value of x is set to 0, and the value of x is set to 6 or 7. 11. Method of transmitting synchronization signals according to claim 3, where when the subcarrier wave spacing is the second spacing and multiple OFDM symbols blocking the synchronization signal occupy 6 or more, the pre-established rule is at least one of the following: one of the PSSS and SSSS is located in the third symbol of the sidelink synchronization signal block, and the other of the PSSS and SSSS is located in the sixth symbol of the sidelink synchronization signal block; one of the PSSS and SSSS is located in the fourth symbol of the sidelink synchronization signal block, and the other of the PSSS and SSSS is located in the sixth symbol of the sidelink synchronization signal block. 12. The method of transmitting synchronization signals according to claim 3, where the subcarrier wave distance is 120 kHz and the number of OFDM symbols blocking the synchronization signal occupied by 5 or more, the predefined rules are as follows: one of the PSSS and SSSS is located in the third symbol of the sidelink synchronization signal block, and the other of the PSSS and SSSS is located in the fifth symbol of the sidelink synchronization signal block. 13. Method of signaling synchronization according to claim 2, where the predefined rules consist of: one PSSS and SSSS are located in the third symbol of the sidelink synchronization signal block, and the other PSSS and SSSS are located in the first symbol of the sidelink synchronization signal block. 14. Method of signaling synchronization according to claim 2, whereby one slot comprises the following time domain position options of the sidelink synchronization signal block: The pre-defined rule consists of at least one of the following: One of PSSS and SSSS are located at the third and fourth symbols of the sidelink synchronization signal block; others of PSSS and SSSS are located at the eleventh and twelfth symbols of the sidelink synchronization signal block; one of PSSS and SSSS are located at the second and third symbols of the sidelink synchronization signal block; others of PSSS and SSSS are located at the twelfth and thirteenth symbols of the sidelink synchronization signal block; one of PSSS and SSSS are located at the fifth and seventh symbols of the sidelink synchronization signal block; others of PSSS and SSSS are located at the tenth and twelfth symbols of the sidelink synchronization signal block; one of PSSS and SSSS are located at the third and sixth symbols of the sidelink synchronization signal block; others of PSSS and SSSS are located at the ninth and twelfth symbols of the sidelink synchronization signal block. The sidelink synchronization signals, one of PSSS and SSSS, are located at the second and ninth symbols of the sidelink synchronization signal block. Other PSSS and SSSS sidelink signals are located at the fifth and twelfth symbols of the block. The sidelink synchronization signals, one of PSSS and SSSS, are located at the second and ninth symbols of the sidelink synchronization signal block. Other PSSS and SSSS sidelink signals are located at the sixth and third symbols of the block. The sidelink synchronization signals, one of PSSS and SSSS, are located at the third and tenth symbols of the sidelink synchronization signal block. Other PSSS and SSSS sidelink signals are located at the sixth and third symbols of the block. The sidelink synchronization signals, one of PSSS and SSSS, are located at the fourth and eleventh symbols of the sidelink synchronization signal block. Other PSSS and SSSS sidelink signals are located at the sixth and third symbols of the block. The sidelink synchronization signals, one of PSSS and SSSS, are located at the third and ninth symbols of the sidelink synchronization signal block. Other PSSS and SSSS signals are located at the sixth and twelfth symbols of the block. One of PSSS and SSSS signals is located at the fourth and tenth symbols of the sidelink synchronization signal block. Other PSSS and SSSS signals are located at the sixth and twelfth symbols of the sidelink synchronization signal block. And one of PSSS and SSSS signals is located at the third and tenth symbols of the sidelink synchronization signal block. Other PSSS and SSSS signals are located at the fifth and twelfth symbols of the sidelink synchronization signal block. 15. Method of synchronization signal transmission according to claim 14 when the predefined rule is: one of PSSS and SSSS are located in the third and fourth OFDM symbols of one slot, and the other of PSSS and SSSS are located in the eleventh and twelfth OFDM symbols of one slot; or when one of PSSS and SSSS are located in the second and third OFDM symbols of one slot, and the other of PSSS and SSSS are located in the twelfth and thirteenth OFDM symbols of one slot. The sixth and ninth OFDM symbols of one slot are used for transmitting or receiving reference signals for demodulation. 16. Method of transmitting synchronization signals according to claim 14, where the subcarrier distance is the third distance. The predetermined rule is that at least one of the following occurs: One PSSS and SSSS are located in the third and sixth OFDM symbols of a slot, and another PSSS and SSSS are located in the ninth and twelfth OFDM symbols of a slot; One PSSS and SSSS are located in the second and ninth OFDM symbols of a slot, and another PSSS and SSSS are located in the fifth and twelfth OFDM symbols of a slot; One PSSS and SSSS are located in the second and ninth OFDM symbols of a slot, and another PSSS and SSSS are located in the sixth and thirteenth OFDM symbols of a slot; One PSSS and SSSS are located in the third and tenth OFDM symbols of a slot, and another PSSS and SSSS are located in the sixth and thirteenth OFDM symbols of a slot; and One PSSS and SSSS are located in the fourth and eleventh OFDM symbols of a slot, and another PSSS and SSSS are located in the sixth and thirteenth OFDM symbols of a slot. 17. Method of synchronization signaling according to claim 14, where when the subcarrier wave spacing is the fourth spacing, the predetermined rule is at least one of the following: One of the PSSS and SSSS are located in the third and fourth OFDM symbols of one slot; another of the PSSS and SSSS are located in the eleventh and twelfth OFDM symbols of one slot; one of the PSSS and SSSS are located in the third and ninth OFDM symbols of one slot; another of the PSSS and SSSS are located in the sixth and twelfth OFDM symbols of one slot; one of the PSSS and SSSS are located in the fourth and tenth OFDM symbols of one slot; another of the PSSS and SSSS are located in the sixth and twelfth OFDM symbols of one slot; and one of the PSSS and SSSS are located in the third and fifth OFDM symbols of one slot; and another of the PSSS and SSSS are located in the fifth and twelfth OFDM symbols of one slot. 18. Method for transmitting synchronization signals according to claim 1, where PSSS uses a series M and series M is composed of: The series is formed by the equation: where series M is the index of series M and is the index of series and is the group ID of the IDs. The synchronization sidelink is a cyclic transition and is obtained using the equation. 19. Method of signaling synchronization according to claim 1, where at least two time domain positions of the sidelink synchronization signal block options are contiguous in the time domain, and the sidelink synchronization signal blocks send or receive signals on at least one time domain position of the sidelink synchronization signal block, the signaling direction of the sidelink synchronization signal blocks on the time domain positions of at least two sidelink synchronization signal blocks is the same. 20. Method of transmitting synchronization signals according to claim 1, whereby the sidelink synchronization signal block is sent or received within one time window. 21. Method of transmitting synchronization signals under claim 1, whereby the sidelink synchronization signal block is sent or received within a predetermined time window. 22. Terminal device, comprising a transmission module tuned to send or receive sidelink synchronization signal blocks. These sidelink synchronization signal blocks consist of: the primary sidelink synchronization signal (PSSS) and the secondary sidelink synchronization signals (SSSS). PSSS and SSSS are distributed in multiplexed symbols by frequency division (OFDM) where the carrier signals are orthogonal to each other, which is occupied by the sidelink synchronization signal block. 23. A terminal consisting of memory, a processor, and computer programs stored in memory and executable on the processor; when the computer program is called by the processor, the steps of the synchronization signaling method according to one of clauses 1 through 21 are applied. 24. A computer-readable storage medium stores computer programs, and when the computer program is executed by the processor, the steps of the synchronization signaling method according to one of the claims 1 through 21 are applied.