The International Workshop on Antenna Technology (iWAT) is an annual forum for the exchange of information on the progress of research and development in innovative antenna technology. It especially focuses on small antennas and applications of advanced and artificial materials to the antenna design. At iWAT, all the oral presentations are delivered by invited prominent researchers and professors. iWAT has a particular focus on posters by which authors have the opportunity to interact with leading researchers in their fields. iWAT is a series of annual international antenna workshops which has been held in Singapore (2005), White Plaines, USA (2006), Cambridge, UK (2007), Chiba, Japan (2008), Santa Monica, USA (2009), Lisbon, Portugal (2010), Hong Kong, China (2011), Tucson, USA (2012), Karlsruhe, Germany (2013), Sydney, Australia (2014), South Korea (2015), Orlando, USA (2016), Athens, Greece (2017), Nanjing, China (2018).
Small Antennas
• Adaptive (smart) arrays
• Antennas for 5G communications
• Antenna measurements
• Antennas on/in IC packages
• Body-Centric Antennas
• Broadband antennas
• Conformal antennas
• Magnetic Nanoparticles, Graphene or Carbon-nanotubes in Antennas
• Measurements for SAR of handheld devices
• MEMS/nano technology for antennas
• Millimeter-wave/Terahertz antennas
• Modeling and simulations
• Non-Foster/active elements
• On-chip antennas
• Reconfigurable antennas
• Reflectarrays
• Ultra-wideband (UWB) antennas
• Wearable antennas
• 3D printed antennas and structures
INNOVATIVE STRUCTURES
• Analysis and design of EM materials
• Artificial magnetic conductors (AMC)
• Electromagnetic anisotropy
• Electromagnetic bandgap (EBG) structures
• Frequency selective surfaces (FSS)
• Fractal Structures
• Single and double negative metamaterials
• Electromagnetic Skins: Epidermal, Flexible and Stretchable Antennas, Sensing Substrates
• Automotive systems
• Biomedical and Healthcare applications
• Bluetooth/WLAN (PDAs, laptops)
• Energy harvesting
• Hyperthermia and RF Ablation
• GPS systems
• Medical Diagnostic and Therapeutic Applications.
• Millimeter-wave/terahertz communications and imaging
• MIMO systems
Applications
• RFID antennas and Wireless Sensing systems
• Software-defined / cognitive radio
• Satellite communications
• UWB communications
• WBAN systems
• Wireless communication systems (handheld devices, base stations)
• Wireless power transmission and harvesting for implanted systems
• 5G communication systems
• Simultaneous transmit and receive systems
03月03日
2019
03月06日
2019
初稿截稿日期
注册截止日期
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