Abstract
In the mobile radio environment, signals are usually impaired by fading and multipath delay phenomenon. This work modeled and simulates OFDM in a wireless environment, it also illustrates adaptive modulation and coding over a dispersive multipath fading channel whereby simulation varies the result dynamically. Dynamic approach entails adopting probabilistic approach to determining channel allocation; First an OFDM network environment is modeled to get a clear picture of the OFDM concept. Next disturbances such as noise are deliberately introduced into systems that are both OFDM modulated and non-OFDM modulated to see how the system reacts. This enables comparison of the effect of noise on OFDM signals and non-OFDM modulated signals. Finally efforts are made using digital encoding schemes such as QAM and DPSK to reduce the effects of such disturbances on the transmitted signals. In the mobile radio environment, signals are usually impaired by fading and multipath delay phenomenon. In such channels, severe fading of the signal amplitude and inter-symbol-interference (ISI) due to the frequency electivity of the channel cause an unacceptable degradation of error performance. Orthogonal frequency division multiplexing (OFDM) is an efficient scheme to mitigate the effect of multipath channel.
Highlights
Mobile radio communication systems are increasingly demanded to provide a variety of high- quality services to mobile users
Orthogonal frequency division multiplexing (OFDM) is an efficient scheme to mitigate the effect of multipath channel
OFDM has been chosen for several broadband WLAN standards like IEEE802.11a, IEEE802.11g, and European HIPERLAN/2, and terrestrial digital audio broadcasting (DAB) and digital video broadcasting (DVB) was proposed for broadband wireless multiple access systems such as IEEE802.16 wireless MAN standard and interactive DVB-T [3], In OFDM systems, the pilot signal averaging channel estimation is generally used to identify the channel state information (CSI) [5]
Summary
Mobile radio communication systems are increasingly demanded to provide a variety of high- quality services to mobile users. OFDM has been chosen for several broadband WLAN standards like IEEE802.11a, IEEE802.11g, and European HIPERLAN/2, and terrestrial digital audio broadcasting (DAB) and digital video broadcasting (DVB) was proposed for broadband wireless multiple access systems such as IEEE802.16 wireless MAN standard and interactive DVB-T [3], In OFDM systems, the pilot signal averaging channel estimation is generally used to identify the channel state information (CSI) [5]. The pilot signal averaging process is necessary for improving the accuracy of CSI [7] To reduce this problem, time, frequency interferometry (TFI) for OFDM has been proposed. This is achieved by transmitting many narrowband overlapping digital signals in parallel, inside one wide band. [5]
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