Revisiting smart antenna array design with multiple interferers using basic adaptive beamforming algorithms: Comparative performance study with testbed results

Smart antennas are becoming popular in the area of cellular wireless communication for capacity enhancement and reduction of the multipath effect and interference. The demand for smart antennas is widely increasing as 5G cellular communication evolves to support the higher data rate and bandwidth. T...

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Published in	Engineering reports (Hoboken, N.J.) Vol. 3; no. 1
Main Authors	Imtiaj, SK, Misra, Iti Saha, Bhattacharya, Sandipan
Format	Journal Article
Language	English
Published	Hoboken, USA John Wiley & Sons, Inc 01.01.2021 Wiley
Subjects	Adaptive algorithms adaptive beamforming Algorithms Antenna arrays Antenna design Antennas Arrays Beamforming Cellular communication comparative study complexity analysis Digital signal processing Digital signal processors Eigenvalues Field programmable gate arrays Iterative methods LMS Model testing multiple interferers Music NLMS Noise Recursive methods RLS Sidelobes Smart antenna systems smart antennas SMI testbed results Wireless communications
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ISSN	2577-8196 2577-8196
DOI	10.1002/eng2.12295

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Abstract	Smart antennas are becoming popular in the area of cellular wireless communication for capacity enhancement and reduction of the multipath effect and interference. The demand for smart antennas is widely increasing as 5G cellular communication evolves to support the higher data rate and bandwidth. The basic principle of smart antenna design is adaptive beamforming using the best suited digital signal processing algorithms, such as least mean square (LMS), normalized least mean square (NLMS), sample matrix inversion (SMI), and recursive least square (RLS), each having its pros and cons. Among these, the LMS and NLMS are iterative approaches while SMI is a block adaptive method and RLS is a recursive method. The contribution of this article includes easy implementation of four adaptive beamforming algorithms, namely LMS, NLMS, SMI, and RLS. Furthermore, an exhaustive comparative performance analysis is carried out under five interferers and evaluated in terms of beamwidth, null depth, maximum sidelobe level, rate of convergence, error variation for the number of antenna elements, and spacing. Finally, a contrast table is presented to demonstrate the pros and cons of the listed algorithms. Time and dynamic space complexity are studied for RLS and SMI beamforming algorithms. Performance results from a designed reconfigurable testbed model for weight adaptation and smart beamforming are also presented for analysis and a better understanding of the real implementation of the smart algorithms through testbed design. The simulation and testbed results create the ground work for future exploration in the design of smart antenna beamforming. Smart antennas are becoming popular in cellular wireless communication. The basic principle of smart antenna design is adaptive beamforming using the best suited digital signal processing algorithms. This paper illustrates four adaptive beamforming algorithms, namely LMS, NLMS, SMI, RLS. An exhaustive comparative performance analysis is carried out under five interferers and evaluated in terms of beamwidth, null depth, maximum sidelobe level, rate of convergence, error variation for the number of antenna elements, and spacing. A contrast table is built to understand the pros and cons of the listed algorithms.
AbstractList	Abstract Smart antennas are becoming popular in the area of cellular wireless communication for capacity enhancement and reduction of the multipath effect and interference. The demand for smart antennas is widely increasing as 5G cellular communication evolves to support the higher data rate and bandwidth. The basic principle of smart antenna design is adaptive beamforming using the best suited digital signal processing algorithms, such as least mean square (LMS), normalized least mean square (NLMS), sample matrix inversion (SMI), and recursive least square (RLS), each having its pros and cons. Among these, the LMS and NLMS are iterative approaches while SMI is a block adaptive method and RLS is a recursive method. The contribution of this article includes easy implementation of four adaptive beamforming algorithms, namely LMS, NLMS, SMI, and RLS. Furthermore, an exhaustive comparative performance analysis is carried out under five interferers and evaluated in terms of beamwidth, null depth, maximum sidelobe level, rate of convergence, error variation for the number of antenna elements, and spacing. Finally, a contrast table is presented to demonstrate the pros and cons of the listed algorithms. Time and dynamic space complexity are studied for RLS and SMI beamforming algorithms. Performance results from a designed reconfigurable testbed model for weight adaptation and smart beamforming are also presented for analysis and a better understanding of the real implementation of the smart algorithms through testbed design. The simulation and testbed results create the ground work for future exploration in the design of smart antenna beamforming. Smart antennas are becoming popular in the area of cellular wireless communication for capacity enhancement and reduction of the multipath effect and interference. The demand for smart antennas is widely increasing as 5G cellular communication evolves to support the higher data rate and bandwidth. The basic principle of smart antenna design is adaptive beamforming using the best suited digital signal processing algorithms, such as least mean square (LMS), normalized least mean square (NLMS), sample matrix inversion (SMI), and recursive least square (RLS), each having its pros and cons. Among these, the LMS and NLMS are iterative approaches while SMI is a block adaptive method and RLS is a recursive method. The contribution of this article includes easy implementation of four adaptive beamforming algorithms, namely LMS, NLMS, SMI, and RLS. Furthermore, an exhaustive comparative performance analysis is carried out under five interferers and evaluated in terms of beamwidth, null depth, maximum sidelobe level, rate of convergence, error variation for the number of antenna elements, and spacing. Finally, a contrast table is presented to demonstrate the pros and cons of the listed algorithms. Time and dynamic space complexity are studied for RLS and SMI beamforming algorithms. Performance results from a designed reconfigurable testbed model for weight adaptation and smart beamforming are also presented for analysis and a better understanding of the real implementation of the smart algorithms through testbed design. The simulation and testbed results create the ground work for future exploration in the design of smart antenna beamforming. Smart antennas are becoming popular in cellular wireless communication. The basic principle of smart antenna design is adaptive beamforming using the best suited digital signal processing algorithms. This paper illustrates four adaptive beamforming algorithms, namely LMS, NLMS, SMI, RLS. An exhaustive comparative performance analysis is carried out under five interferers and evaluated in terms of beamwidth, null depth, maximum sidelobe level, rate of convergence, error variation for the number of antenna elements, and spacing. A contrast table is built to understand the pros and cons of the listed algorithms. Smart antennas are becoming popular in the area of cellular wireless communication for capacity enhancement and reduction of the multipath effect and interference. The demand for smart antennas is widely increasing as 5G cellular communication evolves to support the higher data rate and bandwidth. The basic principle of smart antenna design is adaptive beamforming using the best suited digital signal processing algorithms, such as least mean square (LMS), normalized least mean square (NLMS), sample matrix inversion (SMI), and recursive least square (RLS), each having its pros and cons. Among these, the LMS and NLMS are iterative approaches while SMI is a block adaptive method and RLS is a recursive method. The contribution of this article includes easy implementation of four adaptive beamforming algorithms, namely LMS, NLMS, SMI, and RLS. Furthermore, an exhaustive comparative performance analysis is carried out under five interferers and evaluated in terms of beamwidth, null depth, maximum sidelobe level, rate of convergence, error variation for the number of antenna elements, and spacing. Finally, a contrast table is presented to demonstrate the pros and cons of the listed algorithms. Time and dynamic space complexity are studied for RLS and SMI beamforming algorithms. Performance results from a designed reconfigurable testbed model for weight adaptation and smart beamforming are also presented for analysis and a better understanding of the real implementation of the smart algorithms through testbed design. The simulation and testbed results create the ground work for future exploration in the design of smart antenna beamforming.
Author	Bhattacharya, Sandipan Misra, Iti Saha Imtiaj, SK
Author_xml	– sequence: 1 givenname: SK orcidid: 0000-0002-6582-8381 surname: Imtiaj fullname: Imtiaj, SK email: skimtiaj@gmail.com organization: Jadavpur University – sequence: 2 givenname: Iti Saha surname: Misra fullname: Misra, Iti Saha organization: Jadavpur University – sequence: 3 givenname: Sandipan surname: Bhattacharya fullname: Bhattacharya, Sandipan organization: Jadavpur University
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Cites_doi	10.1109/CINE.2015.21 10.1109/MCOM.2014.6979962 10.1109/SOFTCOM.2016.7772173 10.1109/TGRS.2017.2682886 10.1109/LSP.2008.2001559 10.1109/ICCSP.2016.7754305 10.1016/j.procs.2018.04.030 10.1109/TAP.2017.2734243 10.1109/SOFTCOM.2016.7772134 10.1109/MSE.2007.91 10.1109/TAP.2016.2600700 10.1109/TMTT.2003.819770 10.1109/29.32276 10.1016/j.sigpro.2015.12.011 10.1201/9780203496770 10.1007/978-3-540-89985-3_32 10.1109/TAP.2017.2712819 10.1109/TAP.2017.2754400 10.1109/ACSSC.2014.7094817
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Snippet	Smart antennas are becoming popular in the area of cellular wireless communication for capacity enhancement and reduction of the multipath effect and... Abstract Smart antennas are becoming popular in the area of cellular wireless communication for capacity enhancement and reduction of the multipath effect and...
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SubjectTerms	Adaptive algorithms adaptive beamforming Algorithms Antenna arrays Antenna design Antennas Arrays Beamforming Cellular communication comparative study complexity analysis Digital signal processing Digital signal processors Eigenvalues Field programmable gate arrays Iterative methods LMS Model testing multiple interferers Music NLMS Noise Recursive methods RLS Sidelobes Smart antenna systems smart antennas SMI testbed results Wireless communications
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Title	Revisiting smart antenna array design with multiple interferers using basic adaptive beamforming algorithms: Comparative performance study with testbed results
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