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Table Of Integrals Series And Products

A fast-Fourier-transform method of topography and interferometry is proposed. By computer processing of a noncontour type of fringe pattern, automatic discrimination is achieved between elevation and depression of the object or wave-front form, which has not been possible by the fringe-contour-generation techniques. The method has advantages over moire topography and conventional fringe-contour interferometry in both accuracy and sensitivity. Unlike fringe-scanning techniques, the method is easy to apply because it uses no moving components.

Fourier-transform method of fringe-pattern analysis for computer-based topography and interferometry

Matrix Differential Calculus with Applications in Statistics and Econometrics

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The World Bank Group

Radio access technologies for cellular mobile communications are typically characterized by multiple access schemes, e.g., frequency division multiple access (FDMA), time division multiple access (TDMA), code division multiple access (CDMA), and OFDMA. In the 4th generation (4G) mobile communication systems such as Long-Term Evolution (LTE) (Au et al., Uplink contention based SCMA for 5G radio access. Globecom Workshops (GC Wkshps), 2014. doi:10.1109/GLOCOMW.2014.7063547) and LTE-Advanced (Baracca et al., IEEE Trans. Commun., 2011. doi:10.1109/TCOMM.2011.121410.090252; Barry et al., Digital Communication, Kluwer, Dordrecht, 2004), standardized by the 3rd Generation Partnership Project (3GPP), orthogonal multiple access based on OFDMA or single carrier (SC)-FDMA is adopted. Orthogonal multiple access was a reasonable choice for achieving good system-level throughput performance with simple single-user detection. However, considering the trend in 5G, achieving significant gains in capacity and system throughput performance is a high priority requirement in view of the recent exponential increase in the volume of mobile traffic. In addition the proposed system should be able to support enhanced delay-sensitive high-volume services such as video streaming and cloud computing. Another high-level target of 5G is reduced cost, higher energy efficiency and robustness against emergencies.

Non-Orthogonal Multiple Access (NOMA) for cellular future radio access

In this paper, we analyze the performance of a wireless-powered full-duplex (FD) relaying network over generalized Nakagami-m fading channels for 5G and beyond wireless communication systems. We employ a power beacon that provides a stable and reliable radio-frequency energy and resolves the energy-constraint problem. We also employ a time-switching (TS) receiver for simultaneous energy harvesting and information transmission. We consider the impact of residual self-interference (RSI) because of the imperfect self-interference cancellation. Further, we consider the impact of transceiver hardware impairments (HIs). For the performance analysis, we derive the closed-form expressions of outage probability, system throughput, and energy efficiency over Nakagami-m fading channels. We highlight the impact of RSI, HIs, TS factor, overall system ceiling effect, and other system parameters on the performance of the considered network. An optimal value of the TS factor is obtained for which the considered network exhibits optimum outage performance. In last, we perform the Monte-Carlo simulations to verify the derived closed-form expressions.

On Performance of Wireless-Powered FD Relaying Network with Imperfect SIC and Hardware Impairments

In this work, performance of a simultaneous wireless information and power transfer (SWIPT) enabled cooperative cognitive radio sensor network (CRSN) is explored over generalized Nakagami-m faded channels. A time switching (TS) protocol for SWIPT is used and the impact of TS factor on energy harvesting and information transmission phases, and information processing and broadcasting phases are considered. The cooperative CRSN consists of a pair of primary nodes (PNs) and sensor nodes (SNs), where one of the SWIPT enabled SN provides cooperative relaying for PNs communication by utilizing amplify-and-forward protocol. The overlay spectrum sharing protocol is used at the SN, which supports PNs communication along with its own transmission and resolves the spectrum scarcity issue. The impact of a non-linear power amplifier (NLPA) is also considered on the network performance. The analytical expressions of outage probability (OP), asymptotic OP, system throughput, and energy efficiency are obtained over Nakagami-m faded channels for arbitrary m. Further, the analytical expressions of ergodic capacity (EC) and asymptotic EC are obtained. The impact of NLPA and other system parameters on the performance of the considered network are highlighted. Finally, the obtained analytical expressions are validated through Monte-Carlo simulations. 

SWIPT Enabled Cooperative Cognitive Radio Sensor Network with Non-Linear Power Amplifier

This article proposes a novel method and apparatus to determine phase-reversal in a tone corrupted by additive white Gaussian noise. The technique presented here uses time-domain as well as frequency-domain based algorithms for proper estimation of phase change in disabling-tone signal. In this technique, instance of the phase-reversal is detected by a time domain algorithm. This is followed by estimation of the phase by a frequency-domain algorithm using bispectrum and DFT-based approaches. The proposed technique is tested for robustness after optimization of various parameters governing performance of the designs. Both, the bispectrum and DFT-based designs are able to detect successfully the presence of phase-reversed tone signal under noise.

http://ieeexplore.ieee.org/iel5/8405/26504/01180047.pdf

A robust phase-reversed tone detection using bispectrum and DFT-based algorithms

With the advent of 5G and the need for energy-efficient massively connected wireless networks, in this work, we consider an energy harvesting (EH) based multi-relay downlink cooperative non-orthogonal multiple access (NOMA) system with practical constraints. The base station serves NOMA users with the help of decode-and-forward based multiple EH relays, where relays harvest the energy from the base station's radio frequency. A relay is selected from the multiple K-relay by using a partial relay selection protocol. The system is considered to operate in half-duplex mode over a generalized independent and identical Nakagami$-m$ fading channel. The closed-form expression of outage probability and ergodic rate are derived for users, under the assumption of imperfect channel state information (CSI) and imperfect successive interference cancellation (SIC) at the receiver node. Expression of outage probability and ergodic rate for both users under the assumption of perfect CSI and perfect SIC are also presented. Further, the asymptotic expression for the outage probability is also shown. The derived analytical expressions are verified through Monte-Carlo simulations.

On Performance of Energy Harvested Cooperative NOMA Under Imperfect CSI and Imperfect SIC

In many applications, ultra-wide band (UWB) system experiences impulse noise due to surrounding physical noise sources. Therefore, a conventional receiver (correlator or matched filter) designed for additive Gaussian noise system is not optimum for an impulse noise affected communication channel. In this paper, we propose a new robust receiver design that utilizes the received UWB signal cluster sparsity to mitigate impulse noise. Further, multipath channel diversity enhances the signal-to-noise ratio, as compared to the single path after impulse noise removal in the proposed receiver design. The proposed receiver is analyzed in time hopping binary phase shift keying UWB system and is compared with popular blanking non-linearity based receiver in Bernoulli-Gaussian impulse noise over both single and multipath IEEE 802.15.4a channels. Unlike existing designs, the proposed receiver does not require any training sequence. The proposed receiver is observed to be robust with improved bit error rate performance as compared to a blanking receiver in the presence of impulse noise.

Vimal Bhatia

Papers

On Performance of Wireless-Powered FD Relaying Network with Imperfect SIC and Hardware Impairments

SWIPT Enabled Cooperative Cognitive Radio Sensor Network with Non-Linear Power Amplifier

A robust phase-reversed tone detection using bispectrum and DFT-based algorithms

On Performance of Energy Harvested Cooperative NOMA Under Imperfect CSI and Imperfect SIC

Sparse Impulse Noise Minimization in UWB Communication using Signal Characteristics