Title :
An Improved Vivaldi Antenna for Vehicular Wireless Communication Systems
Author :
Shan Hong He ; Wei Shan ; Chong Fan ; Zhi Chao Mo ; Fu Hui Yang ; Jun Hua Chen
Author_Institution :
Sch. of Electr. Eng. & Inf., Anhui Univ. of Technol., Ma´anshan, China
Abstract :
In order to improve the directivity of the antenna used in vehicular IEEE 802.11a (4900 ~ 5935 MHz) wireless local area networks (WLAN), and make the antenna be more likely installed in the same shark-fin-like radome that can be applied in various antennas of different vehicular wireless communication systems, an improved Vivaldi antenna with planar directors in front of the aperture of the tapered slot and transverse slots is proposed and fabricated. These measured and simulated results show that the improved Vivaldi antenna increases by 1.5 dB of gain compared to that of the normal one on average in IEEE 802.11a (5150 ~ 5935 MHz) WLAN. It also has high directivity in IEEE 802.11b (2400 ~ 2483 MHz) WLAN, IEEE 802.11y (3560 ~ 3700 MHz) WLAN, or other wireless communication systems (2400-4900 MHz). Moreover, the improved Vivaldi antenna can enhance the ability to resist the polarization distortion caused by the car roof, which acts as a big ground plane compared to the conventional one.
Keywords :
UHF antennas; aperture antennas; directive antennas; mobile antennas; planar antennas; radomes; slot antennas; vehicular ad hoc networks; wireless LAN; IEEE 802.11a; IEEE 802.11b; IEEE 802.11y; WLAN; antenna aperture; frequency 2400 MHz to 5935 MHz; high antenna directivity; improved Vivaldi antenna; planar directors; polarization distortion; shark-fin-like radome; tapered slot; transverse slot; vehicular wireless communication system; wireless local area networks; Antenna measurements; Antenna radiation patterns; Slot antennas; Vivaldi antennas; Wireless LAN; Broad-bandwidth; Vivaldi antenna; high directivity; polarization purity;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2014.2343215
