Review of Microstrip Patch Antenna using Fractal Techniques for Wireless Applications
Citation
Lovepreet Singh, Mandeep Kaur "Review of Microstrip Patch Antenna using Fractal Techniques for Wireless Applications", International Journal of Engineering Trends and Technology (IJETT), V49(7),409-414 July 2017. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
In the modern world, there is different kind of antennas available for wireless communication. With the advancement in the antenna technology some system like military and commercial telecommunication system requires miniaturization, ultra wideband, multiband and cost effective antennas. Fractal antenna has attractive kind of properties that are distinct from other antennas. In order to achieve desired properties like miniaturization, multiband different shapes fractals are used. Microstrip antenna has limitation of narrow bandwidth that can be overcome using fractal slot. In this paper we will discuss various kinds of fractal geometries that make it more attractive for different type of applications.
Reference
[1] D.H.Werner, R.L.Haup and P. L. Werner, Fractal antenna engineering, “the theory and design of fractal antenna arrays,” IEEE Antennas and Propagation Magazine, pp. 37-58, 1999
[2] V.N Lakshmana Kumar, M. Satyanarayanana, P.V Sridevi, M.S. Parakash, “Microstrip fractal linear array for multiband applications,” IEEE International Conference On Advanced Communication and Computing Technologies, pp.1818-1822, 2014
[3] Sinha, S. N., and M.Jain, “A self-affine fractal multiband antenna,” IEEE Antenna and Wireless Propagation Letters, vol. 6, pp. 110-112, 2007.
[4] N.L Cohen, “Fractal antenna part 1,” Communication Quarterly, summer, pp.5-23, 1995
[5] J. M. Baker and M. F. Iskander, “Electrically small fractal antennas,” IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting, pp. 1242-1243, 2015
[6] Basil K Jeemon, K Shambavi, Zachariah C Alex, “A Multi-fractal Antenna for WLAN and WiMAX application,” Proceedings of 2013 IEEE Conference on Information and Communication Technologies (ICT 2013)
[7] Sachin Chauhan, Jitendra Kr. Deegwal, Rachna Gera, “A Design of Triangular Sierpinski Gasket Fractal Antenna,” IJECT, vol. 4, Issue no-4, April - June 2013.
[8] Ananth Sundaram, Madhurima Maddela, and Ramesh Ramadoss, “Koch-Fractal Folded-Slot Antenna Characteristics,” IEEE Antenna and Wireless Propagation letters, vol.6, 2007
[9] Ankita Tiwari, Dr. Munish Rattan, Isha Gupta, “ Review On: Fractal Antenna Design Geometries and Its Applications,” International Journal of Engineering and Computer Science, vol.3, issue-9, pp.8270-8275, September 2014
[10] Syamala Killi, K.T.P.S Kumar, D.Naresh Kumar, Sahithi Parasurampuram, “Design and Analysis of Pentagonal Patch Antenna with H-Tree Fractal Slots for S-Band and WI-Max Applications,” International Journal of Engineering Science and Computing, vol.6, issue no. 4, pp.4537-4540, April 2016
[11] Jaspreet Singh, Narinder Sharma, “ A Design of Quad-Band Hexagonal Antenna with Fractal Slots using Inset Feeding Technique,” International Journal of Computer Applications, vol. 8, pp.43-46
[12] Navreet Kaur, Jagtar Singh Sivia, Manpreet Kaur, “Design of Modified Sierpinski Gasket Fractal Antenna for C and X-Band Applications,” 2015 IEEE 3rd International Conference on MOOCs, Innovation and Technology in Education (MITE), pp.248-250, 2015
[13] N.Kaur, Sunita Rani, “Analysis and design of rectangular patch Antenna with Triangular Fractal Techniques,” International Journal of Applied Science & Technology, vol.6, Issue.2, March 2016
[14] S.Kaur, J.S.Sivia, “Analysis and design rectangular patch with half rectangular fractal techniques,” Elsevier International Conference on Computational Modeling and Security, pp.386-392, 2016
[15] Homayoon Oraizi, Shahram Hedayati, “Microstrip multiband dipole antennas using the combination of sierpinski, Hilbert and Giuseppe peano fractals,” Microwave Symposium, 2014 14th Mediterranean, pp.1-4, Dec 2014
Keywords
Fractal, Sierpinski, Iteration, Koch, Hilbert, Co-axial probe, triangular fractal.