Design and Performance Evaluation Of Modulation Techniques Suitable For ADSL modem
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This document discusses modulation techniques for ADSL modems. It begins with an abstract that introduces ADSL and the goal of evaluating modulation techniques to achieve high bandwidth. The body of the document is divided into two main sections. The first section provides background on ADSL technology, including defining an ADSL modem and explaining how transmission rates vary based on distance from the local exchange. The second section discusses modulation schemes used in ADSL modems, including phase-shift keying (PSK), quadrature amplitude modulation (QAM), and their basic receiver block diagrams. It provides equations to describe these modulation techniques.
![World Academy of Science, Engineering and Technology 62 2012
Design and Performance Evaluation
Of Modulation Techniques Suitable
For ADSL modem.
Mr. Ashraf S M Touba Prof. Ivan Bagaric
technologies. Each of the DSL technologies mixes
Abstract — One of the significant problems in ADSL modem different. Asymmetrical digital subscriber line (ADSL) is a
design is the demand for bandwidth for high speed data communication system that transfers both analog and
communications and interactive media transmission which digital information on a copper wire pair. The analog
has been growing explosively. The objective of this paper , is information can be a standard POTS or ISDN signal. The
to achieve the high bit rate in demand of bandwidth which
maximum downstream digital transmission rate (data rate
depends on design and evaluating the Modulation /
Demodulation – Regardless of the including any types of
to the end user) can vary from 1.5 Mbps to 9 Mbps
coding techniques and Filters - and simulated reaching to the downstream and the maximum upstream digital
appropriated technique which will has been considered to transmission rate (from the customer to the network) varies
design requirements of ADSL Up/Down stream specifications from 16 kbps to approximately 800 kbps. The data
using Matlab coding . transmission rate varies depending on distance, line
Keywords — ADSL ,Up /Down stream, Mathlab, Bit rate. distortion and settings from the ADSL service provider.
I. INTRODUCTION II. ADSL TECHNOLOGY.
Digital subscriber line is the transmission of digital A. What does meaning of ADSL Modem?
information, usually on a copper wire pair. Although the The idea behind the Asymmetrically that In ADSL, the
transmitted information is in digital form, the transmission data throughput in the upstream direction, (the direction to
medium is usually an analog carrier signal (or the the service provider) is lower, hence the designation
combination of many an analogue carrier signals) that is of asymmetric service, Figure 1 shown the means of
modulated by the digital information signal. Digital Asymmetrically ;the digital data sent over analogy media
subscriber line (DSL) was first used in the 1960s to that enables faster data transmission over copper telephony
describe the T-1 circuits that were extended to the line than a conventional voice band modem can provide. It
customer premises. Later the same term was used to does this by utilizing frequencies that are not used by a
describe ISDN basic rate interface (BRI) (2B+D, 144 voice telephone call that will being the subscriber line
Kbps) and primary rates interface (PRI) (23B+D, 1.544 same to on the lines. In general; the speed factors depend
Mbps). There are several different digital subscriber line type and thickness of copper wire ,situation of carrying
technologies. Each of these DSL technologies usually has a wire (external noises and interfaces)and depends on the
prefix to indicate the specific variant of DSL technology. distance from the local exchange , maximum range of
Hence, the “x” in xDSL indicates that there are many
ADSL without a repeater is 5.5Km,as a distance decreases
forms of xDSL technology. DSL transmission allows high-
toward the telephone company office the data rate
speed data transmission over existing twisted pair
telephone wires. This has the potential providing high- increases .
speed data services without the burden of installing new In July 2002, the ITU completed G.992.3 and G.992.4,
transmission lines (e.g., for Internet access). DSL service two new standards for ADSL technology collectively
dramatically evolved in the mid 1990s due to the called “ADSL2”. In January 2003, as users of ADSL
availability of new modulation technology and low cost chipsets based on the first generation of ADSL standards
electronic circuits that can do advanced signal processing passed the 30-million mark, G.992.5 officially joined the
(e.g., echo canceling and multiple channel demodulation). ADSL2 family as ADSL2plus, (or ADSL2+ as it is
This has increased the data transmission capability of commonly known).Several other features and
twisted pair copper wire to over 50 Mbps. improvements were also incorporated in the form of new
The data transmission capability of a DSL system varies Annexes. Carriers, service providers,[6] and subscribers
based on the distance of the cable, type of cable used, and have played a key role in the completion of ADSL2,
modulation technology. There are several different DSL having provided valuable feedback from the field that the
ITU in turn incorporated into the standards in the form of
Ashraf Touba PhD student, University of Singidunum ,Belgrade ,Serbia new features and performance improvements.
(E-mail: asmg28@gmail.com).
Ivan Bagaric ,Full professor ,University of Singidunum ,Belgrade,Serbia
(E-mail: ibagaric@singidunum.ac.rs).
1956](https://image.slidesharecdn.com/v62-329-120918104050-phpapp01/85/Design-and-Performance-Evaluation-Of-Modulation-Techniques-Suitable-For-ADSL-modem-1-320.jpg)
![World Academy of Science, Engineering and Technology 62 2012
The modem has been designed and the parameters
calculated to introducing the simulated frequency spectrum
which measured from null to null approach as upstream
part of 512 QAM ,Downstream of 1024QAM The
practical frequency spectrum shown in (Figure .10) is
clearly demonstrated the availability of high order
modulation as feature to have high data rate in amount of
channel bandwidth.
IV. CONCLUSION
Fig.8 The theoretical and practical BER of M-QAM
The needs of the broadband come to involves of digital
The consideration parameters and result of simulation of modulation techniques, which most have been worked out
specifically ADSL2 Modem shown in (table.2). the range to get acquainted which best modem could be considered
of down/up streams will have bandwidth channels (960 to leads to have the appropriate bandwidth efficiency as
kHz , 116 kHz) respectively; ITU G.992.4 ADSL2 increasing of order of M-ary. The aim of these paper to
Modem theoretically spectrum shown in (Figure.9). introduce the main process of efficient design that could
uses as base which easily implemented with any filters
Table .2 the design parameters and results. ,error correction parts to enhancing data rate and less
complexity .
ADSL Data Channel Ratio of M-ray
Parameters Rate(Rb) Bandwidth(B (2Rb/2) technique REFERENCES
)
[1] T. Starr, J. M. Cioffi, and P. Silverman,
Upstream 520Kb/s 116kHz 9 512QAM Understanding Digital Subscriber Line Technology,
Prentice-Hall PTR, USA, 1999.
Downstream [2] J. M. Cioffi, “A multicarrier primer”, White Paper,
4.5Mbps 960kHz 10 1024QAM
Amati Communications Corporation and Stanford
University, Nov 1999.
[3] Nextep Broadband Networks Group, “XDSL
modulation technique ,May 2001.
[4] R. Laroia, S. Trenter, and N. Farvardin, “A Simple
and Effective Preceding Scheme for Noise Whitening
on Inter symbol Interference.
[5] IEEE Spectrum , Always on - Living in a networked
World, Vol 38, No. 1, January 2001.
[6] The Jamaica Gleaner, Centennial to invest $millions
in Jamaica June 26, 2001.
[7] Cable and Wireless Jamaica, Reference Interconnect
Fig .9. The theoretical frequency spectrum considered Offer (RIO).
[8] Jianhau Lu, K. B. Letaif, Justin C-I Chuang, Ming L.
Liou, “MPSK and M-QAM BER Computation
Using Signal-Space Concepts”, IEEE Trans. Com.,
Vol. 47, No. 2 (1999).
[9] ITU-T g.992.2 Standard, “Digital Transmission
System for ADSL Transmission on Metallic Local
Loops with Provisioning to Facilitate Installation and
Operation in Conjunction with Other Services.”
[10] O. Sallent, J. Perez-Romero, R. Agusti, and F.
Casadevall, RRM strategies for 3G W-CDMA,” IEEE
Commun.Mag. vol. 41,no. 2, pp. 100–106, 2003.
[11] Karim JABER, Ahmed FAKHFAKH and Nouri
MASMOUDI” VHDL-AMS Behavioral Modeling
and Simulation of M-QAM transceiver system” IEEE
Fig .10 ITU G.992.4 ADSL2, simulated spectrum Conference March 25-29, 2007 TUNISIA.
1959](https://image.slidesharecdn.com/v62-329-120918104050-phpapp01/85/Design-and-Performance-Evaluation-Of-Modulation-Techniques-Suitable-For-ADSL-modem-4-320.jpg)
Design and Performance Evaluation Of Modulation Techniques Suitable For ADSL modem
- 1. World Academy of Science, Engineering and Technology 62 2012 Design and Performance Evaluation Of Modulation Techniques Suitable For ADSL modem. Mr. Ashraf S M Touba Prof. Ivan Bagaric technologies. Each of the DSL technologies mixes Abstract — One of the significant problems in ADSL modem different. Asymmetrical digital subscriber line (ADSL) is a design is the demand for bandwidth for high speed data communication system that transfers both analog and communications and interactive media transmission which digital information on a copper wire pair. The analog has been growing explosively. The objective of this paper , is information can be a standard POTS or ISDN signal. The to achieve the high bit rate in demand of bandwidth which maximum downstream digital transmission rate (data rate depends on design and evaluating the Modulation / Demodulation – Regardless of the including any types of to the end user) can vary from 1.5 Mbps to 9 Mbps coding techniques and Filters - and simulated reaching to the downstream and the maximum upstream digital appropriated technique which will has been considered to transmission rate (from the customer to the network) varies design requirements of ADSL Up/Down stream specifications from 16 kbps to approximately 800 kbps. The data using Matlab coding . transmission rate varies depending on distance, line Keywords — ADSL ,Up /Down stream, Mathlab, Bit rate. distortion and settings from the ADSL service provider. I. INTRODUCTION II. ADSL TECHNOLOGY. Digital subscriber line is the transmission of digital A. What does meaning of ADSL Modem? information, usually on a copper wire pair. Although the The idea behind the Asymmetrically that In ADSL, the transmitted information is in digital form, the transmission data throughput in the upstream direction, (the direction to medium is usually an analog carrier signal (or the the service provider) is lower, hence the designation combination of many an analogue carrier signals) that is of asymmetric service, Figure 1 shown the means of modulated by the digital information signal. Digital Asymmetrically ;the digital data sent over analogy media subscriber line (DSL) was first used in the 1960s to that enables faster data transmission over copper telephony describe the T-1 circuits that were extended to the line than a conventional voice band modem can provide. It customer premises. Later the same term was used to does this by utilizing frequencies that are not used by a describe ISDN basic rate interface (BRI) (2B+D, 144 voice telephone call that will being the subscriber line Kbps) and primary rates interface (PRI) (23B+D, 1.544 same to on the lines. In general; the speed factors depend Mbps). There are several different digital subscriber line type and thickness of copper wire ,situation of carrying technologies. Each of these DSL technologies usually has a wire (external noises and interfaces)and depends on the prefix to indicate the specific variant of DSL technology. distance from the local exchange , maximum range of Hence, the “x” in xDSL indicates that there are many ADSL without a repeater is 5.5Km,as a distance decreases forms of xDSL technology. DSL transmission allows high- toward the telephone company office the data rate speed data transmission over existing twisted pair telephone wires. This has the potential providing high- increases . speed data services without the burden of installing new In July 2002, the ITU completed G.992.3 and G.992.4, transmission lines (e.g., for Internet access). DSL service two new standards for ADSL technology collectively dramatically evolved in the mid 1990s due to the called “ADSL2”. In January 2003, as users of ADSL availability of new modulation technology and low cost chipsets based on the first generation of ADSL standards electronic circuits that can do advanced signal processing passed the 30-million mark, G.992.5 officially joined the (e.g., echo canceling and multiple channel demodulation). ADSL2 family as ADSL2plus, (or ADSL2+ as it is This has increased the data transmission capability of commonly known).Several other features and twisted pair copper wire to over 50 Mbps. improvements were also incorporated in the form of new The data transmission capability of a DSL system varies Annexes. Carriers, service providers,[6] and subscribers based on the distance of the cable, type of cable used, and have played a key role in the completion of ADSL2, modulation technology. There are several different DSL having provided valuable feedback from the field that the ITU in turn incorporated into the standards in the form of Ashraf Touba PhD student, University of Singidunum ,Belgrade ,Serbia new features and performance improvements. (E-mail: asmg28@gmail.com). Ivan Bagaric ,Full professor ,University of Singidunum ,Belgrade,Serbia (E-mail: ibagaric@singidunum.ac.rs). 1956
- 2. World Academy of Science, Engineering and Technology 62 2012 Fig.2. Constellation diagram for MPSK (Illustrated for M=8). Fig.1. The Downstream/Up stream of ADSL Modem Each message point is spaced (2π/M) distance from its adjacent message point. The receiver block diagram of B. The Modulation schemes are used in ADSL MPSK is given below: Modem. Digital modulation schemes are classified into two large categories: constant envelope and non-constant envelope. Under constant envelope class, there are three subclasses: FSK, PSK, and CPM. Under non-constant envelope class, there are three subclasses: ASK, QAM, and other non- constant envelope modulations. In M-ary phase shift keying systems, the phase of the carrier is allowed to take Fig.3. Receiver Block diagram for MPSK. on one of the (M) possible values; Since the in-phase and quadrature components of M-ary (1) QAM are independent, the Pc(1-Pe)2 where the Pe is the probability of error of either component. The constellation Thus (M) possible signals that would be transmitted during for the in-phase (or) quadrature component has geometry each has signaling interval of similar to (PAM) with corresponding number of amplitude (T) is: levels. Consider a quaternary signaling scheme in which the (2) received signal is defined by x(t) =ai+w(t);0≤ t ≤T Where the amplitude ai = ± a/2 ± 3a/2 and w(t)is the sample function of a white Gaussian noise process of zero mean E =energy per symbol and usually M is taken as power of 2 and power spectral density N0/2. The signal space, i.e. M =2k . representing the signal component of x(t) has two Recognizing that each Sk(t) may be written in terms of a characteristic features. It is one-dimensional in that the sinusoid and co-sinusoid , which are orthogonal and then signal component is scaled of time function; suitably scaling to fulfill the conditions of (3) (8) The appropriate form for the orthogonal waveforms φi(t) and φj(t) is given by : There are four message points, (9) (4) (5) The signal space diagram is as depicted below: The coordinates of the message points can be calculated by (6) (7) A constellation diagram is a representation of a signal modulated by a digital modulation scheme. It displays the signal as a two-dimensional scatter diagram in the complex Fig.4 Signal Space diagram for M -ary QAM. plane at symbol sampling instants thus will given as : 1957
- 3. World Academy of Science, Engineering and Technology 62 2012 C. Spectrum (Bandwidth) Requirements. meet the (ITU G.992.4) as standard for splitter less The signal bandwidth for the communications channel ADSL2 with data rate mandatory capability reduced to needed depends on the symbol rate, not on the bit rate. 1.536 Mb/s downstream , 512Kb/s Up stream. That An example of how symbol rate influences spectrum modem considered the 512-QAM Modulation in Upstream requirements can be seen in eight-state Phase Shift Keying and 1024-QAM downstream in AWGN channel without (8PSK). It is a variation of PSK. The phase of the signal any types of filters, Error correction code and can take any of eight values at any symbol time. Since 23= decode…etc. 8, there are three bits per symbol. This means the symbol rate is one third of the bit rate. This is relatively easy to decode. Bandwidth efficiency describes how efficiently the allocated bandwidth is utilized or the ability of a modulation scheme to accommodate data, within a limited bandwidth, as shown in ( table 1) below the theoretical bandwidth efficiency limits for the main modulation types; as we have more number of bits per symbol means the modulation will increasing in the order and the following bandwidth efficiency of power spectrum density has Fig.6. Modem design of M-QAM reduced powerfully as shown in (Figure 5) Table 1. Bandwidth efficiency corresponding to the symbol rate . Modulation Theoretical Bandwidth Format Efficiency limits BPSK 1 bit/sec/Hz QPSK 2 bit/sec/Hz 8 PSK 3 bit/sec/Hz 16 PSK 4 bit/sec/Hz 32 PSK 5 bit/sec/Hz Fig.7(a) Time domain waveforms of 16QAM Fig.5 Power Spectrum of Selected M-ary Modulation Schemes. III. DESIGN AND IMPLEMENTATION Clearly have been identified that to producing an ADSL modem which has a efficient bandwidth meeting a higher bit data rate should design the proper digital modulation .In this paper that examined each type of M-ray Mod/Dem practically .The different types of M-ray Modem start by BPSK to 256 QAM ; that has been designed separately in terms of Modem design as shown in (Figure .6) ,Time/Frequency domain waveforms as shown in Fig.7(b)Frequency domain waveforms of (Figure.7), Bit error rate (BER) in theoretically and 16QAM practically as shown in (Figure .8) the bit error rate for M- QAM starting with BPSK to 1024 QAM ; theoretical and simulation. The proper modem which has been chosen to 1958
- 4. World Academy of Science, Engineering and Technology 62 2012 The modem has been designed and the parameters calculated to introducing the simulated frequency spectrum which measured from null to null approach as upstream part of 512 QAM ,Downstream of 1024QAM The practical frequency spectrum shown in (Figure .10) is clearly demonstrated the availability of high order modulation as feature to have high data rate in amount of channel bandwidth. IV. CONCLUSION Fig.8 The theoretical and practical BER of M-QAM The needs of the broadband come to involves of digital The consideration parameters and result of simulation of modulation techniques, which most have been worked out specifically ADSL2 Modem shown in (table.2). the range to get acquainted which best modem could be considered of down/up streams will have bandwidth channels (960 to leads to have the appropriate bandwidth efficiency as kHz , 116 kHz) respectively; ITU G.992.4 ADSL2 increasing of order of M-ary. The aim of these paper to Modem theoretically spectrum shown in (Figure.9). introduce the main process of efficient design that could uses as base which easily implemented with any filters Table .2 the design parameters and results. ,error correction parts to enhancing data rate and less complexity . ADSL Data Channel Ratio of M-ray Parameters Rate(Rb) Bandwidth(B (2Rb/2) technique REFERENCES ) [1] T. Starr, J. M. Cioffi, and P. Silverman, Upstream 520Kb/s 116kHz 9 512QAM Understanding Digital Subscriber Line Technology, Prentice-Hall PTR, USA, 1999. Downstream [2] J. M. Cioffi, “A multicarrier primer”, White Paper, 4.5Mbps 960kHz 10 1024QAM Amati Communications Corporation and Stanford University, Nov 1999. [3] Nextep Broadband Networks Group, “XDSL modulation technique ,May 2001. [4] R. Laroia, S. Trenter, and N. Farvardin, “A Simple and Effective Preceding Scheme for Noise Whitening on Inter symbol Interference. [5] IEEE Spectrum , Always on - Living in a networked World, Vol 38, No. 1, January 2001. [6] The Jamaica Gleaner, Centennial to invest $millions in Jamaica June 26, 2001. [7] Cable and Wireless Jamaica, Reference Interconnect Fig .9. The theoretical frequency spectrum considered Offer (RIO). [8] Jianhau Lu, K. B. Letaif, Justin C-I Chuang, Ming L. Liou, “MPSK and M-QAM BER Computation Using Signal-Space Concepts”, IEEE Trans. Com., Vol. 47, No. 2 (1999). [9] ITU-T g.992.2 Standard, “Digital Transmission System for ADSL Transmission on Metallic Local Loops with Provisioning to Facilitate Installation and Operation in Conjunction with Other Services.” [10] O. Sallent, J. Perez-Romero, R. Agusti, and F. Casadevall, RRM strategies for 3G W-CDMA,” IEEE Commun.Mag. vol. 41,no. 2, pp. 100–106, 2003. [11] Karim JABER, Ahmed FAKHFAKH and Nouri MASMOUDI” VHDL-AMS Behavioral Modeling and Simulation of M-QAM transceiver system” IEEE Fig .10 ITU G.992.4 ADSL2, simulated spectrum Conference March 25-29, 2007 TUNISIA. 1959