Abstract:
In recent years orthogonal frequency division multiplexing (OFDM) and code
division multiple access (CDMA) systems have gained considerable attention due to
their use in high speed wireless communication. Both OFDM and CDMA have
distinguishing features, for example, the former is almost completely immune to
multipath fading effects, and the later has multi-user capability. Orthogonal frequency
division multiplexing-code division multiple access (OFDM-CDMA) attempts to
combine these features, so that we can achieve higher data rates for multiple users
simultaneously.
The OFDM technique is an interesting approach in mobile communications in order
to achieve a high spectral efficiency and to combat the frequency selectivity of the
channel. OFDM effectively squeezes multiple modulated carriers tightly together,
reducing the required bandwidth but keeping the modulated signals orthogonal so
they do not interfere with each other.
CDMA is different than traditional ways like FDMA, TDMA in that it does not
allocate frequency or time in user slots but gives the right to use both to all users
simultaneously. To do this, it uses a technique known as Spread Spectrum. In effect,
each user is assigned a code which spreads its signal bandwidth in such a way that
only the same code can recover it at the receiver end.
OFDM performs extremely well compared with CDMA, providing a very high
tolerance to multipath delay spread, peak power clipping, and channel noise.
In addition it provides a high spectral efficiency and resistance to multipath make it an
extremely suitable technology to meet the demands of wireless data traffic. This has
made it not only ideal for such new technology like WiMAX and Wi-Fi but also
currently one of the prime technologies being considered for use in future Next
Generation Networks (NGN).