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ORCIDArvind Chakrapani
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2020 – today
- 2024
[j12]Saranya Leelakrishnan, Arvind Chakrapani
:
Power Optimization in Wireless Sensor Network Using VLSI Technique on FPGA Platform. Neural Process. Lett. 56(2): 125 (2024)- 2023
- [j11]J. Divakaran, Arvind Chakrapani, Kannan Srihari:
Fuzzy Logic Based Handover Authentication in 5g Telecommunication Heterogeneous Networks. Comput. Syst. Sci. Eng. 46(1): 1141-1152 (2023) - 2022
- [j10]A. V. Mayakkannan, Selvakumar Rajendran, Srihari Kannan, Arvind Chakrapani, V. K. Shanmuganathan:
A Split-Input Driver-Enabled High-Speed and Energy-Efficient Level Shifter Using Hybrid Pull-Up Network. Circuits Syst. Signal Process. 41(4): 2308-2321 (2022) - [j9]Selvakumar Rajendran, Arvind Chakrapani:
Ultra-Low-Power and Fast Voltage Level Shifter Using Muller C-Cell for VLSI Systems. Circuits Syst. Signal Process. 41(11): 6530-6546 (2022) - [j8]J. Divakaran, Somashekhar Malipatil, Tareeq Zaid, M. Pushpalatha, Vilaskumar M. Patil, Arvind Chakrapani, T. Joby Titus, Kannan Srihari, M. Ragul Vignesh, Baswaraj Gadgay, Venkatesa Prabhu Sundramurthy:
Technical Study on 5G Using Soft Computing Methods. Sci. Program. 2022: 1570604:1-1570604:7 (2022) - 2021
- [j7]R. N. Devendra Kumar, Arvind Chakrapani, Kannan Srihari:
Extraction of the molecular level biomedical event trigger based on gene ontology using radial belief neural network techniques. Biosyst. 199: 104313 (2021) - [j6]Selvakumar Rajendran, Arvind Chakrapani:
A 16 ns, 28 fJ Wide-Range Subthreshold Level Converter Using Low-Voltage Current Mirror. Circuits Syst. Signal Process. 40(3): 1479-1495 (2021) - [j5]Thiruvengadam Rajagopal, Arvind Chakrapani:
A Novel High-Performance Hybrid Full Adder for VLSI Circuits. Circuits Syst. Signal Process. 40(11): 5718-5732 (2021) - [j4]R. N. Devendra Kumar, Arvind Chakrapani, Srihari Kannan:
Design and analysis on molecular level biomedical event trigger extraction using recurrent neural network-based particle swarm optimisation for COVID-19 research. Int. J. Comput. Appl. Technol. 66(3/4): 334-339 (2021) - 2020
- [j3]Arvind Chakrapani:
On the Design Details of SS/PBCH, Signal Generation and PRACH in 5G-NR. IEEE Access 8: 136617-136637 (2020) - [j2]Arvind Chakrapani:
NB-IoT Uplink Receiver Design and Performance Study. IEEE Internet Things J. 7(3): 2469-2482 (2020) - [j1]K. Kamaraj, Arvind Chakrapani, Kannan Srihari:
A weight optimized artificial neural network for automated software test oracle. Soft Comput. 24(17): 13501-13511 (2020)
2010 – 2019
- 2019
- [i2]Arvind Chakrapani:
NB-IoT Uplink Receiver Design and Performance Study. CoRR abs/1906.07096 (2019) - 2017
- [c6]Arvind Chakrapani:
Efficient resource scheduling for eMTC/NB-IoT communications in LTE Rel. 13. CSCN 2017: 66-71 - 2016
- [i1]Arvind Chakrapani, Robert A. Malaney, Jinhong Yuan:
Low Complexity Power Allocation Schemes in Regenerative Multi-user Relay Networks. CoRR abs/1608.07307 (2016) - 2014
- [c5]Arvind Chakrapani, Robert A. Malaney, Jinhong Yuan:
Low complexity power allocation scheme for regenerative multi-user relay networks. ICC 2014: 5419-5425 - [c4]Muyeen Nawaz, Arvind Chakrapani:
Spectral re-harvesting for 4G networks: Through low-complexity VAMOS receiver design. WTS 2014: 1-6 - 2013
- [c3]R. M. Karthik, Arvind Chakrapani:
Practical algorithm for power efficient DRX configuration in next generation mobiles. INFOCOM 2013: 1106-1114 - [c2]Arvind Chakrapani, Robert A. Malaney:
Green communication through optimal power allocation in 4G networks. RIVF 2013: 80-84 - 2010
- [c1]Arvind Chakrapani, Robert A. Malaney, Jinhong Yuan:
Energy Efficiency of Hybrid-ARQ Based Geographic Routing. RIVF 2010: 1-6
Coauthor Index
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