초록 ▼

Method for reducing the chip rate of Code Division Multiple Access (CDMA) codes uniformly spread over a frequency bandwidth by converting these codes to 2-scale codes which perform uniform spreading within the subbands of a filter bank over the bandwidth, and over the subbands, and with controllable

Method for reducing the chip rate of Code Division Multiple Access (CDMA) codes uniformly spread over a frequency bandwidth by converting these codes to 2-scale codes which perform uniform spreading within the subbands of a filter bank over the bandwidth, and over the subbands, and with controllable subband power levels. This is a 2-scale code example of Multi-Scale Code Division Multiple Access (MS-CDMA) and assigns algebraic fields of indices for the first scale "0" which spread within each subband and algebraic fields of indices for the second scale "1" which spread over the subbands. These algebraic fields are scaled and combined to form the algebraic fields of code and chip indices for the 2-scale code. These 2-scale codes perform a Wavelet dilation type of operation to stretch the CDMA chips while maintaining the spreading over the full frequency band.

대표청구항 ▼

What is claimed is: 1. A method for reducing a CDMA chip rate, said method comprising the steps of: partitioning a CDMA frequency band into a set of equal size frequency subbands; generating two orthogonal CDMA codes with a first CDMA code having first CDMA code indices for encoding data symbols wi

What is claimed is: 1. A method for reducing a CDMA chip rate, said method comprising the steps of: partitioning a CDMA frequency band into a set of equal size frequency subbands; generating two orthogonal CDMA codes with a first CDMA code having first CDMA code indices for encoding data symbols within each subband, and a second CDMA code having second CDMA code indices for encoding data symbols over the entire set of subbands, wherein the first CDMA code provides a first scale of CDMA encoding and the second CDMA code provides a second scale of CDMA encoding; generating a 2-scale CDMA code using a tensor product of the second CDMA code with the first CDMA code to generate the 2-scale CDMA code; wherein the steps of generating further include encoding data symbols with said 2-scale CDMA code to generate encoded chips; assigning each of the encoded chips to a subband in accordance with the second CDMA code indices, and assigning each encoded chip to a chip position within its assigned subband in accordance with the first CDMA code indices; and encoding said encoded chips with pseudonoise (PN) encoding. 2. A method for reducing a CDMA chip rate, said method comprising the steps of: partitioning a CDMA frequency band into a set of equal size frequency subbands; generating a CDMA code with a code length equal to a product of a number of chips for a first scale CDMA encoding having first code and chip indices used to encode data symbols within each subband and a number of chips for a second scale CDMA encoding having second code and chip indices used to encode data symbols over the entire set of subbands; forming a 2-scale CDMA code by assigning code and chip indices such that the 2-scale CDMA code and chip indices are the algebraic addition of the first code and chip indices plus scaled second code and chip indices wherein said scaled second code and chip indices are generated using a scale factor that comprises the number of indices in the first scale CDMA code; wherein the steps of generating and forming further include encoding data symbols with the 2-scale CDMA code to generate encoded chips; assigning each of the encoded chips to a subband in accordance with the second CDMA code indices, and assigning each encoded chip to a chip position within its assigned subband in accordance with the first CDMA code indices; and encoding said chips with pseudonoise (PN) encoding. 3. The method of claims 1 or 2 further including an encoding implementation, comprising the steps of: waveform modulating the encoded chips in each subband to generate subband signals; frequency translating each signal to occupy its respective frequency subband; and combining these frequency translated subband signals to form a 2-scale CDMA encoded chip signal at baseband for up-conversion and transmission. 4. The method of claim 3 further including an encoding implementation, comprising the steps of: using a fast CDMA chip encoding algorithm to generate the 2-scale CDMA encoded chip signal; transforming the 2-scale CDMA-encoded chip signal with a fast inverse Fourier transform (FFT-1); and after said transforming step, post-summing the 2-scale CDMA chip signal to yield a baseband multi-scale CDMA signal. 5. The method of claims 1 or 2 further including a decoding implementation, comprising the steps of: decoding signal processing starts with a received 2-scale CDMA encoded chip signal at baseband; symbol detecting signals in each subband to recover the 2-scale CDMA encoded chips in each subband; removing the pseudonoise (PN) chip encoding; and performing an inverse 2-scale CDMA decoding to recover the data symbols. 6. The method of claim 5 further including a decoding implementation, comprising the steps of: pre-summing the received 2-scale CDMA encoded chip signal at baseband; transforming the pre-summed signal with a fast Fourier transform (FFT) of the pre-summed signal; and after said transforming step, fast CDMA decoding of the chip encoded data symbols including removal of the pseudonoise (PN) chip encoding to yield the transmitted data symbols.