J
John Kimionis
Researcher at Georgia Institute of Technology
Publications - 49
Citations - 1553
John Kimionis is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Radio frequency & Energy harvesting. The author has an hindex of 18, co-authored 49 publications receiving 1140 citations. Previous affiliations of John Kimionis include Bell Labs & University of Crete.
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Increased Range Bistatic Scatter Radio
TL;DR: This work redesigns scatter radio systems and maximizes range through non-classic bistatic architectures: the carrier emitter is detached from the reader, and impact of important parameters such as the antenna structural mode are presented through bit error rate (BER) results.
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3D-Printed Origami Packaging With Inkjet-Printed Antennas for RF Harvesting Sensors
TL;DR: In this article, a 3D-printed compact package for enclosing radio frequency (RF) electronics is built, that features on-package antennas for RF signal reception (for harvesting or communication) at orthogonal orientations.
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Wireless Environmental Sensor Networking With Analog Scatter Radio and Timer Principles
Eleftherios Kampianakis,John Kimionis,Konstantinos Tountas,Christos Konstantopoulos,Eftichios Koutroulis,Aggelos Bletsas +5 more
TL;DR: In this article, a novel analog scatter-radio WSN is presented, that employs semipassive sensor/tags in bistatic topology (i.e., carrier emitter placed in a different location from the reader), consuming <;1 mW of power, with communication range exceeding 100 m.
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Additively Manufactured Nanotechnology and Origami-Enabled Flexible Microwave Electronics
Jimmy Hester,Sangkil Kim,Jo Bito,Taoran Le,John Kimionis,Daniel Lee Revier,Christy D. Saintsing,Wenjing Su,Bijan Tehrani,Anya Traille,Benjamin Stassen Cook,Manos M. Tentzeris +11 more
TL;DR: Examples of state-of-the-art integrated wireless sensor modules on paper or flexible polymers are covered and numerous inkjet-printed passives, sensors, origami, and microfluidics topologies are shown.
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Octave and Decade Printed UWB Rectifiers Based on Nonuniform Transmission Lines for Energy Harvesting
TL;DR: Design examples of novel ultra-wideband energy harvesters are demonstrated with octave and decade bandwidths in the UHF and low microwave spectrum and the design challenges in terms of impedance matching based on the Bode-Fano theoretical limit, losses and miniaturization are highlighted.