Abstract
Performance Enhancement of Low-Profile Wideband Multi-Element MIMO Arrays Backed by AMC Surface for Vehicular Wireless Communications
Highlights
Vehicular communication plays a major role in the development of transport systems by considering diverse daily problems, such as pollution, traffic jams, and accidents
GHz (34%) for C-band operation and investigation of their properties in the infinite condition. - Designing a novel broadband printed dipole antenna using E-shaped dipoles and suggested feeding network in C-band (5.5-6.96 GHz) for wireless local area network (WLAN)/WiMAX operation. - The combination of the low profile wideband printed antenna backed by the wideband planar AMC surface for broadband wireless and multiple-input multiple-output (MIMO) applications with improved radiation and impedance performance
The suggested printed dipole antenna (PDA) with E-shaped arms backed by AMC reflector introduces the low-profile broadband antenna for wireless communications systems
Summary
Vehicular communication plays a major role in the development of transport systems by considering diverse daily problems, such as pollution, traffic jams, and accidents. By increasing the development of wireless communication systems, wideband antennas have been considered for vehicular wireless networks [1]. Microstrip antennas can be nominated to provide high-quality signals for vehicular wireless networks due to the prominent features like low-profile, light weight, and ease of implementation [2] and [3]. In these structures, compact wideband microstrip antennas are applied for smart wireless devices and intelligent transport systems. Extensive efforts have been performed into the research on the applications, architectures, protocols and channel models of vehicular communications [4]-[6]
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