Mitigation Techniques for Severe Narrowband Interference
Mitigation Techniques for Severe Narrowband Interference

Author: Arun Batra

Publisher:

Published: 2009

Total Pages: 139

ISBN-13: 9781109161861

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This dissertation examines the effect of severe narrowband interference on wireless communication systems. In single-carrier systems, the interference causes the adaptive equalizer to have an extended convergence time, where convergence is considered in terms of the bit error rate (BER). Two techniques are proposed to improve the convergence. The first method, data-aided initialization (DAI), initializes the Wiener weights from estimates derived directly from the received data and training sequences. This technique is shown to substantially reduce the number of training symbols needed for convergence. Further, two methods for obtaining the DAI weights are investigated. The use of multistage Wiener filters (MSWF) is preferable to a parametric approach to direct matrix inversion in terms of BER performance and number of training symbols needed. The second method is a two-stage system that utilizes a prediction error filter (PEF) as a pre-filter to the equalizer. It is shown that the two-stage system reduces the number of training symbols required to reach a BER of 10̄−2 by approximately two orders of magnitude without substantially degrading the steady-state BER performance as compared to the DFE-only case. In block-modulated multi-carrier systems the presence of a severe narrowband interference causes the degradation of a large number of subcarriers due to spectral leakage of the interference power after demodulation. Multi-carrier code division multiple access (MC-CDMA) obtains frequency diversity by spreading the data into every subcarrier, thus mitigating the effects of narrowband interference. On the other hand, orthogonal frequency division multiplexing (OFDM) requires the addition of coding and interleaving to obtain frequency diversity. The use of genie inserted erasures provides little to no improvement in BER performance, thus the PEF is proposed as an erasure insertion mechanism that notches out the tones located close to the interference, while leaving the remaining tones unaffected. This technique provides excellent results as compared to the case of no interference. This work was done at UCSD's Center for Wireless Communication, under the "Bandwidth Efficient Communications" project (CoRe research grant 06-10216) and supported by the Office of Naval Research, Code 313.

Fading and Interference Mitigation in Wireless Communications
Fading and Interference Mitigation in Wireless Communications

Author: Stefan Panic

Publisher: CRC Press

Published: 2013-12-11

Total Pages: 263

ISBN-13: 1466508426

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Fading and Interference Mitigation in Wireless Communications will help readers stay up to date with recent developments in the performance analysis of space diversity reception over fading channels in the presence of cochannel interference. It presents a unified method for computing the performance of digital communication systems characterized by a variety of modulation and detection types and channel models. The book includes coverage of multichannel reception in various fading environments, influence of cochannel interference, and macrodiversity reception when channels are simultaneously affected by various types of fading and shadowing.

Interference Rejection and Management
Interference Rejection and Management

Author:

Publisher:

Published: 2009

Total Pages: 35

ISBN-13:

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We consider interference suppression in several wireless communication systems. The first topic treated is self-interference encountered among cooperating systems, for example, the self-interference that is encountered in cognitive radio systems and ultra-wideband (UWB) communication systems. Both single-carrier, direct sequence signals and multicarrier signals are considered, and the effects of the interference on the performance of a direct sequence UWB system that employs channel state estimation in the presence of the interference is evaluated. The second topic that is treated is the mitigation of narrowband interference in block-modulated multicarrier systems. Two schemes, multicarrier code-division multiple access (MC-CDMA) and orthogonal frequency division multiplexing (OFDM), are investigated. The inherent frequency diversity of MC-CDMA through the use of spreading codes allows for robustness against interference. Conversely, OFDM must employ a signal processing technique to suppress the interference due to its lack of frequency diversity. The performance of OFDM is improved with the addition of forward error correction (FEC) coding in the frequency domain, thereby providing the system with frequency diversity. The third topic is the suppression of interference in multiple input, multiple output (MIMO) wireless communication systems that employ multiple-transmit and multiple-receive antennas to increase the data rate and achieve signal diversity in fading multipath channels. Interference in MIMO wireless communication systems usually consists of intersymbol interference (ISI) due to channel multipath dispersion and cross-talk, or interchannel interference, due to the simultaneous transmissions from the multiple-transmit antennas. The focus of the section is on point-to-multipoint (broadcast) MIMO systems in which the channel characteristics are assumed to be known at the transmitter, so that interference mitigation can be performed at the transmitter.

Diversity Combining for Frequency-hop Spread-spectrum Communications with Partial-band Interference and Fading
Diversity Combining for Frequency-hop Spread-spectrum Communications with Partial-band Interference and Fading

Author: Catherine Marie Keller

Publisher:

Published: 1985

Total Pages: 218

ISBN-13:

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This report presents results on the evaluation of several diversity combining techniques that are suggested for frequency-hop (FH) communications with partial-band interference and fading. The analysis covers systems with M-ary orthogonal signaling and noncoherent demodulation. The partial-band interference is modeled as a Gaussian process, although some of the results also apply to general (non-Gaussian) partial-band interference. The performance measures we use to evaluate the diversity combining techniques are the narrowband interference rejection capability and the signal to noise ratio requirement over the entire range of interference duty factors. We evaluate the exact probability of error for each of the diversity combining techniques studied. The performance of the optimum combining technique for receivers with perfect side information is established. It is shown that for receivers with perfect side information, the system performance does not change significantly with the choice of the diversity combining technique. However, the same schemes that work well in receivers with perfect side information perform poorly in receivers without side information. Keywords include: Diversity combining; Frequency-hop; Spread-spectrum; Partial band interference and Fading.

Interference Mitigation Techniques for Ultra-wideband Systems
Interference Mitigation Techniques for Ultra-wideband Systems

Author: Joe Izu Jamp

Publisher:

Published: 2007

Total Pages: 149

ISBN-13: 9781109926842

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For UWB OFDM based systems, LABI is again applied to code the data in the vicinity of a notch created by nulling out subcarriers. In-band notches of -28dB can be created, and is an improvement of 20dB over an uncoded spectrum.

Transmitter and Receiver Design for Inherent Interference Cancellation in MIMO Filter-bank Based Multicarrier Systems
Transmitter and Receiver Design for Inherent Interference Cancellation in MIMO Filter-bank Based Multicarrier Systems

Author: Rostom Zakaria

Publisher:

Published: 2012

Total Pages: 0

ISBN-13:

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Multicarrier (MC) Modulation attracts a lot of attention for high speed wireless transmissions because of its capability to cope with frequency selective fading channels turning the wideband transmission link into several narrowband subchannels whose equalization, in some situations, can be performed independently and in a simple manner. Nowadays, orthogonal frequency division multiplexing (OFDM) with the cyclic prefix (CP) insertion is the most widespread modulation among all MC modulations, and this thanks to its simplicity and its robustness against multipath fading using the cyclic prefix. Systems or standards such as ADSL or IEEE802.11a have already implemented the CP-OFDM modulation. Other standards like IEEE802.11n combine CP-OFDM and multiple-input multiple-output (MIMO) in order to increase the bit rate and to provide a better use of the channel spatial diversity. Nevertheless, CP-OFDM technique causes a loss of spectral efficiency due to the CP as it contains redundant information. Moreover, the rectangular prototype filter used in CP-OFDM has a poor frequency localization. This poor frequency localization makes it difficult for CP-OFDM systems to respect stringent specifications of spectrum masks.To overcome these drawbacks, filter-bank multicarrier (FBMC) was proposed as an alternative approach to CP-OFDM. Indeed, FBMC does not need any CP, and it furthermore offers the possibility to use different time-frequency well-localized prototype filters which allow much better control of the out-of-band emission. In the literature we find several FBMC systems based on different structures. In this thesis, we focus on the Saltzberg's scheme called OFDM/OQAM (or FBMC/OQAM). The orthogonality constraint for FBMC/OQAM is relaxed being limited only to the real field while for OFDM it has to be satisfied in the complex field. Consequently, one of the characteristics of FBMC/OQAM is that the demodulated transmitted symbols are accompanied by interference terms caused by the neighboring transmitted data in time-frequency domain. The presence of this interference is an issue for some MIMO schemes and until today their combination with FBMC remains an open problem.The aim of this thesis is to study the combination between FBMC and MIMO techniques, namely spatial multiplexing with ML detection. In the first part, we propose to analyze different intersymbol interference (ISI) cancellation techniques that we adapt to the FBMC/OQAM with MIMO context. We show that, in some cases, we can cope with the presence of the inherent FBMC interference and overcome the difficulties of performing ML detection in spatial multiplexing with FBMC/OQAM. After that, we propose a modification in the conventional FBMC/OQAM modulation by transmitting complex QAM symbols instead of OQAM ones. This proposal allows to reduce considerably the inherent interference but at the expense of the orthogonality condition. Indeed, in the proposed FBMC/QAM,the data symbol and the inherent interference term are both complex. Finally, we introduce a novel FBMC scheme and a transmission strategy in order to avoid the inherent interference terms. This proposed scheme (that we call FFT-FBMC) transforms the FBMC system into an equivalent system formulated as OFDM regardless of some residual interference. Thus, any OFDM transmission technique can be performed straightforwardly to the proposed FBMC scheme with a corresponding complexity growth. We develop the FFT-FBMC in the case of single-input single-output (SISO) configuration. Then, we extend its application to SM-MIMO configuration with ML detection and Alamouti coding scheme.