A number of alternative possibilities exist as to how this frequency domain spreading can take place, such as by using a long PN code and multiplying each data symbol, di, on a subcarrier by a chip from the PN code, ci, or by using short PN codes and spreading each data symbol by an individual PN code — i.e. di is multiplied by each ci and the resulting vector is placed on Nfreq subcarriers, where Nfreq is the PN code length. Once frequency domain spreading has taken place and the
OFDM subcarriers have all been allocated values,
OFDM modulation then takes place using the
IFFT to produce an
OFDM symbol; the
OFDM guard interval is then added; and if transmission is in the downlink direction each of these resulting symbols are added together prior to transmission. An alternative form of multi-carrier
CDMA, called MC-DS-CDMA or MC/DS-CDMA, performs spreading in the time domain, rather than in the frequency domain in the case of MC-CDMA — for the special case where there is only one carrier, this reverts to standard
DS-CDMA. For the case of MC-DS-CDMA where
OFDM is used as the modulation scheme, the data symbols on the individual subcarriers are spread in time by multiplying the chips on a PN code by the data symbol on the subcarrier. For example, assume the PN code chips consist of {1, −1} and the data symbol on the subcarrier is −
j. The symbol being modulated onto that carrier, for symbols 0 and 1, will be −
j for symbol 0 and +
j for symbol 1. 2-dimensional spreading in both the frequency and time domains is also possible, and a scheme that uses 2-D spreading is
VSF-OFCDM (which stands for variable spreading factor orthogonal frequency code-division multiplexing), which
NTT DoCoMo is using for its
4G prototype system. As an example of how the 2D spreading on
VSF-OFCDM works, if you take the first data symbol,
d0, and a spreading factor in the time domain,
SFtime, of length 4, and a spreading factor in the frequency domain,
SFfrequency of 2, then the data symbol,
d0, will be multiplied by the length-2 frequency-domain PN codes and placed on subcarriers 0 and 1, and these values on subcarriers 0 and 1 will then be multiplied by the length-4 time-domain PN code and transmitted on
OFDM symbols 0, 1, 2 and 3.
NTT DoCoMo has already achieved 5Gbit/s transmissions to receivers travelling at 10 km/h using its
4G prototype system in a 100 MHz-wide channel. This
4G prototype system also uses a 12×12 antenna
MIMO configuration, and
turbo coding for error correction coding. Summary •
OFDMA with frequency spreading (MC-CDMA) •
OFDMA with time spreading (
MC-DS-CDMA and
MT-CDMA) •
OFDMA with both time and frequency spreading (Orthogonal Frequency Code Division Multiple Access(
OFCDMA)) ==See also==