References
- Rajesh K, Venkat B. Efficient and optimized six- port MIMO antenna system for 5G smartphones. Frequenz. 2021;75(11-12):501–512.
- Rocca P, et al. Unconventional phased array architectures and design methodologies—A review. Proc IEEE. 2016;104(3):544–560.
- Eli B. Advances and breakthroughs in radars and phased-arrays. IEEE International Symposium on Phased Array Systems and Technology (PAST); 2016 Oct 18–21; Waltham MA (USA): IEEE; 2016. (CIE International Conference on Radar (RADAR). IEEE; 2016).
- Qian-Qian L, et al. Circularly polarized antenna array with sequential-phase feed network. J Electromag Waves Applic. 2021: 1–13.
- Choi S, Lim S. Foldable thin electro-textile antenna array for 4×4 multiple-input multiple-output mobile router applications. J Electromag Waves Applic. 2015;29(3):375–385.
- Moosazadeh M, et al. Antipodal Vivaldi antenna with improved radiation characteristics for civil engineering applications. IET Microw Antennas Propag. 2017;11(6):796–803.
- Moosazadeh M, et al. Improved radiation characteristics of small antipodal Vivaldi antenna for microwave and millimeter-wave imaging applications. IEEE Antennas Wireless Propag Lett. 2017;16:1961–1964.
- Dai C, Gan L. A dual-polarized wide-angle scanning antenna with high isolation for Van atta applications. Progre Electromag Res Lett. 2022;103:81–88.
- Kaur B, Marwaha A, Rani S. Characterization of 4 element compact microstrip patch antenna array for efficient null steering. Appl. Comput. Electromag. Soc. 2018;32(12):1105–1112.
- Mohamed I, Abdalla M, Mitkees AEA. Perfect isolation performance among two-element MIMO antennas. AEU-Int J Electron Commun. 2019;107:21–31.
- Balanis CA. Antenna theory: analysis and design. antennas & propagation. 4th ed. Hoboken: Wiley; 1997.
- Muhammad B, et al. High-Isolation MIMO antenna for 5G millimeter-wave communication systems. Electronics. 2022;11(6):962–978.
- Xu Z, et al. Analysis of scan blindness in a linearly polarized tapered-slot phased array in triangular lattice performance improvement with parasitic notches. IEEE Trans Antennas Propag. 2014;62(8):4057–4066.
- Kedar A, et al. Wide beam tapered slot antenna for wide angle scanning phased array antenna. Progr Electromagn Res B Pier. 2011;B (27):235–251.
- Yang G, et al. Study on wide-angle scanning linear phased array antenna. IEEE Trans Antennas Propag. 2018;66(1):450–455.
- Skolnik MI. Radar handbook. 3rd ed. New York (NY): McGraw-Hill; 1970.
- Hansen RC. Phased array antennas. Hoboken (NJ): John Wiley & Sons; 2009.
- Prasad S, et al. Multibeam phased array antenna for 5G applications. J Electromag Waves Applic. 2021;35(13):1802–1814.
- Vidya PK, et al. Design of beam steering-switching array for 5G S-band adaptive antenna applications – part-I and part-II. IETE J Res. 2020: 1–13.
- Kothapudi V K, Kumar V. A single layer s/x-band series-fed shared aperture antenna for SAR applications. Progr Electromag Res C Pier C. 2017;76:207–219.
- Hall PS, James JR. Design of microstrip antenna feeds. part 2: design and performance limitations of triplate corporate feeds. IEEE Proc Part H Microw Optics Antennas. 1981;128(1):26–34.
- https://athena.ecs.csus.edu/~milica/EEE212/HAND/HFSSintro.pdf [Internet]. India: [cited 2018 Feb 07]. Available from: https://athena.ecs.csus.edu/.
- Pozar DM, Targonski S. D: A shared-aperture dual-band dual-polarized microstrip array. IEEE Trans. Antenn. Propag. 2001;49(2):150–157.
- Chu S, et al. Tri-band 2×2 5G MIMO antenna array. The Proceedings of Asia pacific Microwave conference. (APMC), 2018; Japan: 1543–1545.
- Chiou WT, Wong L. A compact dual-band dual-polarized patch antenna for 900/1800-MHz cellular systems. IEEE Trans Antennas Propag. 2003;51(8):1936–1940.
- Vetharatnam G, Kuan CB, Teik H. Combined feed network for a shared-aperture dual-band dual-polarized array. IEEE Antenn Wirel Propag Lett. 2005;4:297–299.
- Ehyaie D, Mortazawi A. A new approach to design low cost, low complexity phased arrays. IEEE MTT-S International Microwave Symposium: 1270–1273; 2010.