Mimo Ofdm Matlab Code Pdf

Orthogonal frequency division multiplexing Wikipedia. Orthogonal frequency division multiplexing OFDM is a method of encoding digital data on multiple carrier frequencies. OFDM has developed into a popular scheme for widebanddigital communication, used in applications such as digital television and audio broadcasting, DSLInternet access, wireless networks, powerline networks, and 4. G mobile communications. COFDM stands for Coded orthogonal frequency division multiplexing. It differs from OFDM because in COFDM, forward error correction is applied to the signal before transmission. Describes a 2x2 MIMO system using Minimum Mean Square Error MMSE equalizer for BPSK modulation in Rayleigh channel. MatlabOctave simulation model provided. Issuu is a digital publishing platform that makes it simple to publish magazines, catalogs, newspapers, books, and more online. Easily share your publications and get. This is done to overcome errors. COFDM and OFDM are sometimes used as synonyms. OFDM is a frequency division multiplexing FDM scheme used as a digital multi carrier modulation method. A large number of closely spaced orthogonalsub carrier signals are used to carry data2 on several parallel data streams or channels. Each sub carrier is modulated with a conventional modulation scheme such as quadrature amplitude modulation or phase shift keying at a low symbol rate, maintaining total data rates similar to conventional single carrier modulation schemes in the same bandwidth. The primary advantage of OFDM over single carrier schemes is its ability to cope with severe channel conditions for example, attenuation of high frequencies in a long copper wire, narrowband interference and frequency selective fading due to multipath without complex equalization filters. Channel equalization is simplified because OFDM may be viewed as using many slowly modulated narrowband signals rather than one rapidly modulated wideband signal. The low symbol rate makes the use of a guard interval between symbols affordable, making it possible to eliminate intersymbol interference ISI and utilize echoes and time spreading on analogue TV these are visible as ghosting and blurring, respectively to achieve a diversity gain, i. This mechanism also facilitates the design of single frequency networks SFNs, where several adjacent transmitters send the same signal simultaneously at the same frequency, as the signals from multiple distant transmitters may be combined constructively, rather than interfering as would typically occur in a traditional single carrier system. Example of applicationseditThe following list is a summary of existing OFDM based standards and products. For further details, see the Usage section at the end of the article. Cadillacs And Dinosaurs Rom Mame Bios. Wired version mostly known as Discrete Multi tone Transmission DMTeditWirelesseditThe wireless LAN WLAN radio interfaces IEEE 8. HIPERLAN2. The digital radio systems DABEUREKA 1. DAB, Digital Radio Mondiale, HD Radio, T DMB and ISDB TSBThe terrestrial digital TV systems DVB T and ISDB TThe terrestrial mobile TV systems DVB H, T DMB, ISDB T and Media. FLO forward link. The wireless personal area network PAN ultra wideband UWB IEEE 8. Mimo Ofdm Matlab Code Pdf' title='Mimo Ofdm Matlab Code Pdf' />Wi. Media Alliance. The OFDM based multiple access technology OFDMA is also used in several 4. G and pre 4. G cellular networks and mobile broadband standards Key featureseditThe advantages and disadvantages listed below are further discussed in the Characteristics and principles of operation section below. Summary of advantageseditHigh spectral efficiency as compared to other double sideband modulation schemes, spread spectrum, etc. Can easily adapt to severe channel conditions without complex time domain equalization. Robust against narrow band co channel interference. Robust against intersymbol interference ISI and fading caused by multipath propagation. Efficient implementation using fast Fourier transform. Banking Law And Practice P N Varshney'>Banking Law And Practice P N Varshney. Low sensitivity to time synchronization errors. Tuned sub channel receiver filters are not required unlike conventional FDMFacilitates single frequency networks SFNs i. Summary of disadvantageseditCharacteristics and principles of operationeditOrthogonalityeditConceptually, OFDM is a specialized FDM, the additional constraint being that all carrier signals are orthogonal to one another. In OFDM, the sub carrier frequencies are chosen so that the sub carriers are orthogonal to each other, meaning that cross talk between the sub channels is eliminated and inter carrier guard bands are not required. This greatly simplifies the design of both the transmitter and the receiver unlike conventional FDM, a separate filter for each sub channel is not required. The orthogonality requires that the sub carrier spacing is fk. TUdisplaystyle scriptstyle Delta f,frac kTUHertz, where TUseconds is the useful symbol duration the receiver side window size, and k is a positive integer, typically equal to 1. Therefore, with N sub carriers, the total passband bandwidth will be B Nf Hz. The orthogonality also allows high spectral efficiency, with a total symbol rate near the Nyquist rate for the equivalent baseband signal i. Nyquist rate for the double side band physical passband signal. Almost the whole available frequency band can be utilized. OFDM generally has a nearly white spectrum, giving it benign electromagnetic interference properties with respect to other co channel users. A simple example A useful symbol duration TU 1 ms would require a sub carrier spacing of f1. Hzdisplaystyle scriptstyle Delta f,frac 11,mathrm ms ,1,mathrm k. Hz or an integer multiple of that for orthogonality. N 1,0. 00 sub carriers would result in a total passband bandwidth of Nf 1 MHz. For this symbol time, the required bandwidth in theory according to Nyquist is BWR2NTU20. MHzdisplaystyle scriptstyle mathrm BW R2NTU20. MHz half of the achieved bandwidth required by our scheme, where R is the bit rate and where N 1,0. FFT. If a guard interval is applied see below, Nyquist bandwidth requirement would be even lower. The FFT would result in N 1,0. If no guard interval was applied, this would result in a base band complex valued signal with a sample rate of 1 MHz, which would require a baseband bandwidth of 0. MHz according to Nyquist. However, the passband RF signal is produced by multiplying the baseband signal with a carrier waveform i. MHz. A single side band SSB or vestigial sideband VSB modulation scheme would achieve almost half that bandwidth for the same symbol rate i. It is however more sensitive to multipath interference. OFDM requires very accurate frequency synchronization between the receiver and the transmitter with frequency deviation the sub carriers will no longer be orthogonal, causing inter carrier interference ICI i. Frequency offsets are typically caused by mismatched transmitter and receiver oscillators, or by Doppler shift due to movement. While Doppler shift alone may be compensated for by the receiver, the situation is worsened when combined with multipath, as reflections will appear at various frequency offsets, which is much harder to correct. This effect typically worsens as speed increases,4 and is an important factor limiting the use of OFDM in high speed vehicles.