V. N. Lakshmana Kumar scite author profile

V. N. Lakshmana Kumar

5Publications

4Citation Statements Received

56Citation Statements Given

How they've been cited

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Affiliations

Maharaj Vijayaram Gajapathi Raj College of Engineering

Publications

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Deep Neural Networks for Optimal Selection of Features Related to Flu

Rao¹,

Kumar

Padmapriya³

et al. 2022

Evidence-Based Complementary and Alternative Medicine

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In recent times, humans who have been exposed to influenza A viruses (IAV) may not become hostile. Despite the fact that KLRD1 has been discovered as an influenza susceptibility biomarker, it remains to be seen if pre-exposure host gene expression can predict flu symptoms. In this paper, we enable the examination of flu using deep neural networks from input human gene expression datasets with various subtype viruses. This study enables the utilization of these datasets to forecast the spread of flu and can provide the necessary steps to eradicate the flu. The simulation is conducted to test the efficiency of the model in predicting the spread against various input datasets. The results of the simulation show that the proposed method offers a better prediction ability of 2.98% more than other existing methods in finding the spread of flu.

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Micro strip fractal linear array for multiband applications

Kumar

Satyanarayana

Sridevi

et al. 2014

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In this paper the design of the 8 element linear patch array using the power divider concept and its characteristics are studied. The linear array of 8 elements has shown a gain of 6.6 dB with beam width of 0.68 and multiband characteristics. The second iteration of the fractals concept is applied to the 8 elements linear array and the variations in the characteristics are observed.On the application of fractals, the linear array beam width is decreased from 0.68 to 0.54 with increase in gain from 6.6dB to 7.7dB. The simulated and the practical results are compared.Ktrywords-Iinear array, fractal array, beam width, return loss, multiband characteristics.I.

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Performance Study of Rectangular Microstrip Patch Antennas with Split Ring Resonator Structure

Kumar

Satyanarayana

Singh³

2018

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A Novel Back Lobe Reduction Technique for Microstrip Antenna Array Using Partial Ground and DGS

Kumar¹,

Satyanarayana²,

Singh³

2019

IJIES

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In this communication, back lobe reduction in microstrip antenna array using partial ground and defected ground structure (DGS) is presented. An eight element rectangular microstrip patch antenna array is designed for Xband frequency of 9.1GHz, with a peak gain of 12.04dBi and back lobe level of -13.75dB. Using partial ground plane technique; the back lobe level is reduced to -18.28dB. Then, by placing defected ground structure (DGS) slots on the ground plane, the S 11 is further reduced by 7.65dB and back lobe level is reduced to -18.82dB. This microstrip antenna array with partial ground plane and DGS technique has a peak gain of 12.41dBi. By using this novel technique, the front to back ratio has improved from 19dB to 24.23dB. The Simulations are carried using High frequency structured simulator (HFSS) software and compared with measured results. A difference of 0.96dB is observed between simulated and measured back lobe level.

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A Novel Compact Frequency and Polarization Reconfigurable Slot Antenna Using PIN Diodes for Cognitive Radio Applications

Kumar

Satyanarayana

Singh³

et al. 2022

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