Broadband Communication Networks PDF

Summary

This document presents an overview of broadband communication networks, focusing on OFDM (Orthogonal Frequency-Division Multiplexing) and OFDMA (Orthogonal Frequency-Division Multiple Access). It covers various aspects, including block-based transmissions and their components like subcarrier allocation. The lecture notes were prepared by Assoc.Prof.Dr.ibrahim khider in September 2021.

Full Transcript

Broadband Communication Networks

Assoc.Prof.Dr.ibrahim khider
September 2021
Outline
1 -Block-Based Transmissions
Denition
Cyclic Prex
Types
2 OFDM Systems
Introduction
System Model
Uses of OFDM
Advantages
3- OFDMA
Subcarrier Allocation
 Block-Based Transmissions
Denition
In a block-based transmission, the entire sequence of modulated
symbols is rst divided into multiple blocks, each is
preprocessed further using linear transforms, and guard
symbols are inserted between two consecutive blocks.
To reduce the computational complexity of equalization,
block-based transmissions have been proposed
Two types of guard symbols are applicable in block-based
transmissions.
Zero padding inserts zeros between two consecutive
blocks
Cyclic prex (CP) which is the copy of the last portion of
the signal block
 Block-Based Transmissions
The Cyclic Prefix
Instead of transmitting block x directly, a new block
is generated and transmitted through the channel.
The new block is formed by appending the last P
symbols of x to the head of itself.
The portion of the first P symbols in the new block is
the cyclic prefix (CP).
To transmit multiple blocks consecutively, the figure
in next slide shows the structure of continuous
transmission with CP.
Block-Based Transmissions
 Block-Based Transmissions
The Cyclic Prefix

some signals received at the beginning of a block can be affected by symbols
transmitted from the previous block. This phenomenon is called interblock
interference (IBI).
 Block-Based Transmissions
Overview of Block-Based Transmissions
Various block-based transmission schemes can be
developed, including but not limited to the following
Orthogonal frequency-division multiplexing (OFDM)
Orthogonal frequency-division multiple access (OFDMA)
Single-carrier cyclic prefix (SCCP) system
Interleaved frequency-division multiple access (IFDMA)
Cyclic prefix based code-division multiple access (CP-
CDMA)
Multicarrier code-division multiple access (MC-CDMA)
 Block-Based Transmissions
Overview of Block-Based Transmissions
OFDM and SCCP systems, however, are designed to
support single-user communication only
Therefore, to support multiple users in sharing the same
radio resource, they have to be used in conjunction with
other multiple-access schemes, such as TDMA or FDMA.
OFDMA, IFDMA, SC-FDMA, CP-CDMA, and MC-
CDMA are designed to support multiple users to share the
same radio resource simultaneously
 OFDM Systems
Introduction
Orthogonal frequency-division multiplexing (OFDM) is a
discrete Fourier transform (DFT)-based multicarrier
modulation (MCM) scheme
The OFDM concept is based on spreading the high speed
data to be transmitted over a large number of low rate
carriers.
The carriers are orthogonal to each other and frequency
spacing between them are created by using the Fast
Fourier transform (FFT)
OFDM Systems
Introduction
OFDM Systems
System Model
 OFDM Systems
System Model
A sequence of data is first serial-to-parallel (S/P)-
converted to form a single data block of bits
Next, each bits group is used to form to form a complex
number using PSK or QAM modulation with N
subcarriers, in order to be transmitted
Next, each modulated symbol is converted using the
inverse fast Fourier transform (IFFT) Next, parallel-to-
serial, then the CP is added in the guard period between
successive blocks and constructed OFDM symbols
 OFDM Systems
OFDM
At the receiver side, after filtering, the receiver first
discards the received signal samples associated with the
CP portion.
The received signal samples associated with the data
block are then fed to the FFT operation.
The output of the FFT is passed through the equalizer to
recover the data symbols
Next, each modulated symbol is demodulated, and
parallel-to-serial conversion is applied to recover the
original data stream
OFDM Systems
OFDM
 OFDM Systems
Uses of OFDM
OFDM has been widely adopted in various
communications systems, including the
digital audio broadcast (DAB)
digital terrestrial video broadcast (DVB-T) standards
in Europe and Japan,
the IEEE 802.11a/11n wireless local area network
(WLAN) and the asymmetric digital subscriber loop
(ADSL)
 OFDM Systems
Advantages
The basic idea of OFDM is to transform a
frequency-selective fading channel into
several parallel frequency at fading
subchannels on which modulated symbols are
transmitted.
Orthogonal Frequency-Division Multiple Access

Orthogonal frequency-division multiple access
(OFDMA), is a combination of OFDM and
FDMA
Orthogonal Frequency-Division Multiple Access
Subcarrier Allocation
Each user is assigned to a set of subcarriers called a
subchannel.
suppose that there are N subcarriers and U users in the
system.
– N subcarriers are divided into S subchannels, in which one subchannel
consists of P = N=S subcarriers.
– It is obvious that the system can, at maximum, support only U S users
simultaneously.
In a subcarrier assignment scheme, each users subchannel
occupies a group of P adjacent subcarriers. This scheme is
called localized subcarrier allocation.