References
- Asaadi, M. and Sebak, A.. 2017. Gain and bandwidth enhancement of 2 × 2 square dense dielectric patch antenna array using a holey superstrate. IEEE Antennas and Wireless Propagation Letters 16: 1808–1811.
- Balanis, C. A.. 2012. ‘Microstrip antennas,’ antenna theory: analysis and design, 3rd ed., Wiley, India: 811–872.
- Cao, W. and Hong, W.. 2016. Bandwidth and gain enhancement for single-fed compact microstrip antenna by loading with parasitical patches. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT) Beijing: 650–652.
- da Costa, K. Q., Dmitriev, V. A. and Kawakatsu, M. N.. 2009. Enlarging the impedance matching bandwidth of wire and planar antennas using loop parasitic elements. IEEE International Workshop. Antenna Technology, Santa Monica, CA, pp. 1–4.
- Dash, J. C., Mishra, G. P. and Mangaraj, B. B.. 2016. Design of dual band patch antenna with bandwidth enhancement using complementary defected ground structure. 2nd International Conference on Contemporary Computing and Informatics (IC3I) Noida: 271–274.
- John, M., Ayyappan, M., Manoj, B. and Rodrigues, S.. 2016. Bandwidth enhancement of microstrip patch antenna for 5.8GHz by optimized feed offset. International Conference on Communication and Signal Processing (ICCSP) Melmaruvathur: 2186–2189.
- Koutinos, A. G., Ioannopoulos, G. A., Chryssomallis, M. T., Kyriacou, G. A. and Caratelli, D.. 2017. Bandwidth enhancement of a supershape patch antenna using multiple feeding technique. International Workshop, Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT), Athens, pp. 211–214.
- Kovitz, J. M. and Rahmat-Samii, Y.. 2014. Using thick substrates and capacitive probe compensation to enhance the bandwidth of traditional CP patch antennas. IEEE Transactions on Antennas and Propagation 62 No. 10: 4970–4979.
- Liu, N. W., Zhu, L. and Choi, W. W.. 2017. A differential-fed microstrip patch antenna with bandwidth enhancement under operation of TM10 and TM30 modes. IEEE Transactions on Antennas and Propagation 65 No. 4: 1607–1614.
- Liu, Y., Shafai, L. and Shafai, C.. 2016. Gain and bandwidth enhancement of stacked H-shaped patch-open ring antenna. International Symposium on Antenna Technology and Applied Electromagnetics (ANTEM) Montreal, QC: 1–2.
- Pandey, R. K. and Shanmuganantham, T.. 2016. Miniaturization and bandwidth enhancement of a wideband slotted microstrip patch antenna. International Conference on Circuit, Power and Computing Technologies (ICCPCT) Nagercoil, TN: 1–4.
- Przesmycki, R., Wnuk, M., Nowosielski, L., Piwowarczyk, K. and Bugaj, M.. 2012. Antenna gain measurement by comparative method using an anechoic chamber. PIERS proceedings Moscow, Russia: 1424–1428.
- Pues, H. F. and Van de Capelle, A. R.. 1989. An impedance-matching technique for increasing the bandwidth of microstrip antennas. IEEE Trans. Antennas and Propagation 37 No. 11: 1345–1354.
- Tahir, N. and Brooker, G., “A novel approach of feeding, impedance matching and frequency tuning of microstrip patch antenna by single microstrip line. IEEE Symposium on Industrial Electronics and Applications Langkawi.
- Van Wyk, M. D. and Palmer, K. D.. 2001. Bandwidth enhancement of microstrip patch antennas using coupled lines. Electronics Letters 37 No. 13: 806–807.
- Walraven, D.. 2006), American Radio Relay League, Newington, CT, available at: www.arrl.org/files/file/Technology/tis/info/pdf/q1106037.pdf
- Wang, J., Liu, Q. and Zhu, L.. 2017. Bandwidth enhancement of a differential-fed equilateral triangular patch antenna via loading of shorting posts. IEEE Transaction on Antennas and Propagation 65 No. 1: 36–43.