Prof. Aruna Ranaweera

Tagline
Inspiring design innovations and augmenting human capital for the wellbeing of mankind
Biography
Aruna Ranaweera was born in Attanagalla, Sri Lanka in 1979. He received the BSc. degrees in Physics from the University of Kelaniya, Sri Lanka, in 2006. In 2008, he joined the Department of Physics, University of Kelaniya as a Lecturer. In 2010, he received Korean Government Scholarship for postgraduate studies. In February, 2017, he received Doctor of Philosophy in Electronics and Radio Engineering from Kyung Hee University, Republic of Korea. His current research interests include wireless power transfer, metamaterials, EM wave propagation control and supercapacitor assisted power electronivs. He is a member of IEEE since 2009.
Interests
Biomagnetics
Biomedical engineering
Conductors
Wireless power transmission
EMC
Electromagnetic metamaterials
Electromagnetic wave propagation
Experience
Dean/Professor/Instructor
Univ Of Kelaniya
Publications
Thanh Son Pham, Aruna Kumara RanaweeraVu Dinh Lam, and Jong-Wook Lee, "Experiments on localized wireless power transmission using a magneto-inductive wave two-dimensional metamaterial cavity," Applied Physics Express, vol. 9, no. 4, pp. 044101, 2016.
Thanh Son Pham, Aruna Kumara RanaweeraVu Dinh Lam, and Jong-Wook Lee, "Experiments on localized wireless power transmission using a magneto-inductive wave two-dimensional metamaterial cavity," Applied Physics Express, vol. 9, no. 4, pp. 044101, 2016.
A.L.A.K.Ranaweera, Thanh Son Pham Viet Ngo, and Jong-Wook Lee, "Active metamaterial designs for dynamically controllable wireless power transfer applications," in Proceedings of URSI Asia-Pacific Radio Science Conference, 2016, pp. 850 - 853.
Thanh Son Pham, Aruna Kumara RanaweeraVu Dinh Lam, and Jong-Wook Lee, "Experiments on localized wireless power transmission using a magneto-inductive wave two-dimensional metamaterial cavity," Applied Physics Express, vol. 9, no. 4, pp. 044101, 2016.
A L A K Ranaweera, Carlos Arriola Moscoso, and Jong-Wook Lee, "Anisotropic metamaterial for efficiency enhancement of mid-range wireless power transfer under coil misalignment," Journal of Physics D: Applied Physics, vol. 48, no. 45, pp. 455104, 2015.