Vaibhav Kumar scite author profile

Carry Select Adder (CSLA) is one of the fastest adders used in many data-processing processors to perform fast arithmetic functions. From the structure of the CSLA, it is clear that there is scope for reducing the area and power consumption in the CSLA. This work uses a simple and efficient gate-level modification to significantly reduce the area and power of the CSLA. Based on this modification 8-, 16-, 32-, and 64-b square-root CSLA (SQRT CSLA) architecture have been developed and compared with the regular SQRT CSLA architecture. The proposed design has reduced area and power as compared with the regular SQRT CSLA with only a slight increase in the delay. This work evaluates the performance of the proposed designs in terms of delay, area, power, and their products by hand with logical effort and through custom design and layout in CMOS process technology. The results analysis shows that the proposed CSLA structure takes only 30.385ns which is better than the regular SQRT CSLA.

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K-mean clustering based cooperative spectrum sensing in generalized к-μ fading channels

Kumar

Kandpal

Jain

et al. 2016

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Performance Analysis of NOMA-Based Cooperative Relaying in alpha-µ Fading Channels

Kumar

Cardiff

Flanagan

2019

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On the Performance of Downlink NOMA in Underlay Spectrum Sharing

Kumar

Ding

Flanagan

2021

IEEE Trans. Veh. Technol.

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Fundamental Limits of Spectrum Sharing for NOMA-Based Cooperative Relaying Under a Peak Interference Constraint

Kumar

Cardiff

Flanagan

2019

IEEE Trans. Commun.

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Non-orthogonal multiple access (NOMA) and spectrum sharing (SS) are two emerging multiple access technologies for efficient spectrum utilization in future wireless communications standards. In this paper, we present the performance analysis of a NOMA-based cooperative relaying system (CRS) in an underlay spectrum sharing scenario, considering a peak interference constraint (PIC), where the peak interference inflicted by the secondary (unlicensed) network on the primary-user (licensed) receiver (PU-Rx) should be less than a predetermined threshold. In the proposed system the relay and the secondary-user receiver (SU-Rx) are equipped with multiple receive antennas and apply selection combining (SC), where the antenna with highest instantaneous signal-to-noise ratio (SNR) is selected, and maximal-ratio combining (MRC), for signal reception. Closed-form expressions are derived for the average achievable rate and outage probabilities for SS-based CRS-NOMA. These results show that for large values of peak interference power, the SS-based CRS-NOMA outperforms the CRS with conventional orthogonal multiple access (OMA) in terms of spectral efficiency.The effect of the interference channel on the system performance is also discussed, and in particular, it is shown that the interference channel between the secondary-user transmitter (SU-Tx) and the PU-Rx has a more severe effect on the average achievable rate as comparedThe authors are with

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Transmit Antenna Selection for Physical-Layer Network Coding Based on Euclidean Distance

Kumar¹,

Cardiff²,

Flanagan³

2017

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Physical-layer network coding (PNC) is now well-known as a potential candidate for delay-sensitive and spectrally efficient communication applications, especially in two-way relay channels (TWRCs). In this paper, we present the error performance analysis of a multiple-input single-output (MISO) fixed network coding (FNC) system with two different transmit antenna selection (TAS) schemes. For the first scheme, where the antenna selection is performed based on the strongest channel, we derive a tight closed-form upper bound on the average symbol error rate (SER) with M -ary modulation and show that the system achieves a diversity order of 1 for M > 2. Next, we propose a Euclidean distance (ED) based antenna selection scheme which outperforms the first scheme in terms of error performance and is shown to achieve a diversity order lower bounded by the minimum of the number of antennas at the two users.

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Achievable Rate Maximization for Underlay Spectrum Sharing MIMO System With Intelligent Reflecting Surface

Kumar

Flanagan

Zhang

et al. 2022

IEEE Wireless Commun. Lett.

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Performance analysis of NOMA with generalised selection combining receivers

2019

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In this Letter, the authors present a comprehensive performance analysis of a non-orthogonal multiple access (NOMA) system with generalised selection combining (GSC), which bridges the gap between the performance of NOMA with selection combining (SC) and NOMA with maximal-ratio combining (MRC). In particular, the authors derive a closed-form expression for an upper bound on the average achievable sum rate and an exact closed-form expression for the outage probability. The analysis reveals a tradeoff between the number of implemented receiver radio-frequency (RF) chains and the achieved performance and can be used to determine the appropriate number of paths to combine into a practical receiver design. A demonstrated agreement between the analytical and simulation results confirms the correctness of the analysis.

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Vaibhav Kumar

Low Power and Area Efficient Carry Select Adder

K-mean clustering based cooperative spectrum sensing in generalized к-μ fading channels

Performance Analysis of NOMA-Based Cooperative Relaying in alpha-µ Fading Channels

On the Performance of Downlink NOMA in Underlay Spectrum Sharing

Fundamental Limits of Spectrum Sharing for NOMA-Based Cooperative Relaying Under a Peak Interference Constraint

Transmit Antenna Selection for Physical-Layer Network Coding Based on Euclidean Distance

Achievable Rate Maximization for Underlay Spectrum Sharing MIMO System With Intelligent Reflecting Surface

Performance analysis of NOMA with generalised selection combining receivers

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Vaibhav Kumar

Low Power and Area Efficient Carry Select Adder

K-mean clustering based cooperative spectrum sensing in generalized к-μ fading channels

Performance Analysis of NOMA-Based Cooperative Relaying in alpha-&#x00B5; Fading Channels

On the Performance of Downlink NOMA in Underlay Spectrum Sharing

Fundamental Limits of Spectrum Sharing for NOMA-Based Cooperative Relaying Under a Peak Interference Constraint

Transmit Antenna Selection for Physical-Layer Network Coding Based on Euclidean Distance

Achievable Rate Maximization for Underlay Spectrum Sharing MIMO System With Intelligent Reflecting Surface

Performance analysis of NOMA with generalised selection combining receivers

Contact Info

Product

Resources

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Performance Analysis of NOMA-Based Cooperative Relaying in alpha-µ Fading Channels