A. M. Bhavikatti scite author profile

A. M. Bhavikatti

5Publications

8Citation Statements Received

97Citation Statements Given

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Dr. M.G.R. Educational and Research Institute

Publications

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A performance enhancement of physical layer at Wi-MAX system with RLDPC code

Bawage¹,

Manjula²,

Bhavikatti³

2021

IJEECS

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In present wireless communication network, the error correction codes plays the major role for efficient data transmission in noisy environments. To get minimum BER and PAPR has been the main aim towards the field in forward error control coding. Majority of the researchers has considered turbo codes at specific SNR over AWGN channel but have complexity issues with the iterative output decoder and causes degradation in the Wi-Max network system. In this paper, the author presents and evaluates WiMAX physical layer performance with using MIMO technologies, where a Robust-LDPC technique of coding and decoding in OFDM based WiMAX system is consider. The decoding method of RLDPC has processed by Belief Propagation at the logarithmic domain in an iterative manner, the proposed methodology shows good decoding outcome for RLDPC codes at Rician and Rayleigh channel. Moreover, the applicability of our proposed model channel codes is defined under IEEE Wi-MAX standard and the results analysis is done under different code-rate and modulation schemes.

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Heterogeneous network optimization using robust power-and-resource based algorithm

Patil¹,

Bhavikatti²

2019

IJECE

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In order to meet the increasing mobile data-traffic, spatial densification of network with several low-power nodes, the high-power macro BS and HetNet are the major key enabling solution. However, the HetNet is unplanned in nature, causes irregularities and interferences that without any user association rules. The appropriate deployment of the femto-cell in HetNet can provide effective traffic offloading, where the alleviate mobbing in the macro-cells can decrease the power consumption therefore it optimizes the user experience. Moreover, the protection is also important for the macro and femto cell users in a network through maintaining the min-max level of interferences. In this paper, we proposed RPRA that comprises two robust approach such as robust power-controller and the robust channel-allocation approach, which can improve the spectral efficiency and user experiences at lower network coverage areas via eliminating the week coverage zones. Also provide high user rate connection by effective interference in an efficient spectrum, lowering in transmission power and cost-effectiveness via less time delay. To show the effectiveness of our proposed model we have compared with several existing techniques and we got significant improvement in throughput, also reduction in time delay and transmission power.

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Analysis and Design of Novel Secured NoC for High Speed Communications

Rekha¹,

Bhavikatti²

2017

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Channel Capacity Maximization using NQHN Approach at Heterogeneous Network

Patil¹,

Bhavikatti²

2019

IJECE

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In present scenario, the high speed data transmission services has pushed limits for wireless communication network capacity, at same time multimedia transmission in real-time needs provision of QoS, therefore the network capacity and small cell coverage has comes with lots of challenges. Improving the channel capacity and coverage area within the available bandwidth is necessary to provide better QoS to users, and improved channel capacity for the FCUs and MCUs in network. In this paper, we are proposing an NQHN approach that incorporate with efficient power allocation, improving the channel capacity by optimized traffic scheduling process in a small cell HetNets scenario. This work efficiently handle the interference with maintaining the user QoS and the implemented power controller uses HeNB power as per the real time based approach for macro-cell and femto-cell. Moreover, we consider the real traffic scenario to check the performance of our proposed approach with respect to existing algorithm

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VHDL Modeling of Wi-Fi MAC Layer for Transmitter

Bhavikatti

Kulkarni²

2009

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A. M. Bhavikatti

A performance enhancement of physical layer at Wi-MAX system with RLDPC code

Heterogeneous network optimization using robust power-and-resource based algorithm

Analysis and Design of Novel Secured NoC for High Speed Communications

Channel Capacity Maximization using NQHN Approach at Heterogeneous Network

VHDL Modeling of Wi-Fi MAC Layer for Transmitter

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