Patent ID: 8867587
Filing Date: 2014-10-21
Classification: H04L

Abstract:
1. A double-layer multi-carrier ultra-wideband wireless communication method comprising: dividing the frequency band for ultra-wideband communication into a plurality of sub-frequency bands, one or more sub-frequency bands being used for data transmission, and the Orthogonal Frequency Division Multiplex (OFDM) multi-carrier transmission technology is adopted in each sub-frequency band; at a transmitting end, allocating data symbols to be transmitted on M branches, wherein M is integer≧1, corresponding to M sub-frequency bands, and OFDM modulation is performed for the data symbols on each branch to obtain M branches of parallel data; performing digital baseband multi-carrier modulation for the M branches of parallel data, such that frequency spectrums of data on each branch are moved to digital sub-frequency bands which are in one-to-one correspondence to radio-frequency sub-frequency bands, so that digital baseband signals of radio-frequency signals to be transmitted are obtained; and converting the digital signals into analog signals through digital-to-analog (D/A) conversion and up-conversion, signal frequency spectrums are moved to the used radio-frequency ranges, and the analog signals are amplified, filtered and transmitted via an antenna, thereby completing the task of modulating the M branches of parallel data onto the M sub-frequency bands; at a receiving end, down-converting and analog-to-digital converting the signals so as to generate digital baseband signals which are synthesized through the data on the M sub-frequency bands; performing multi-carrier demodulation for the baseband signals, so that frequency spectrums of each sub-frequency band data are moved onto respective basebands to obtain the M branches of parallel data; and conducting OFDM demodulation, equalization and detection for each branch of data, and all branches of data are combined into one branch of data, such that the data symbols corresponding to the transmitting end are recovered, wherein the transmitting end comprises a channel encoder, a modulator, a serial-to-parallel converter, sub-band framing devices, OFDM modulators, a digital baseband multi-carrier modulator, a digital-to-analog converter, an up-converter, and a transmitting antenna, which are connected in sequence; and the receiving end comprises a receiving antenna, a down-converter, an analog-to-digital converter, a digital baseband multi-carrier demodulator, OFDM demodulators, detectors, a parallel-to-serial converter, a demodulator, a channel decoder, which are connected in sequence, and wherein the double-layer multi-carrier ultra-wideband wireless communication method is characterized in that the digital baseband multi-carrier modulator is realized by adopting a synthesis filter bank which comprises M up-samplers, M digital bandpass filters and summator, wherein M is the number of sub-frequency bands, and the divisions of frequency ranges occupied by pass bands and transition bands of the digital bandpass filters are in one-to-one correspondence to the divisions of the sub-frequency bands in radio-frequency bands; and the digital baseband multi-carrier modulation comprises the following steps: performing up-sampling for each branch of data which have been subjected to OFDM modulation by inserting a plurality of zeros between two adjacent data symbols, thereby compressing frequency spectrums of the original signals and generating a series of mirror image frequency spectrums; passing the up-sampled data through the digital bandpass filters of the respective branches, and reserving frequency spectrums positioned in the digital sub-frequency bands corresponding to the respective branches; and summarizing the M branches of data and synthesizing into digital baseband signals of the radio-frequency signals to be transmitted.