Browsing Τμήμα Πληροφορικής / Department of Computer Science by Author "Ioannidis, S."
Now showing items 1-9 of 9
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Conference Object
ABSense: Sensing Electromagnetic Waves on Metasurfaces via Ambient Compilation of Full Absorption
Liaskos, C.; Pirialakos, G.; Pitilakis, A.; Abadal, S.; Tsioliaridou, A.; Tasolamprou, A.; Tsilipakos, O.; Kantartzis, N.; Ioannidis, S.; Alarcon, E.; Cabellos, A.; Kafesaki, M.; Pitsillides, Andreas; Kossifos, K.; Georgiou, Julius; Akyildiz, I. F. (2019)Metasurfaces constitute effective media for manipulating and transforming impinging EM waves. Related studies have explored a series of impactful MS capabilities and applications in sectors such as wireless communications, ...
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Article
Computing and Communications for the Software-Defined Metamaterial Paradigm: A Context Analysis
Abadal, S.; Liaskos, Christos K.; Tsioliaridou, A.; Ioannidis, S.; Pitsillides, Andreas; Sole-Pareta, J.; Alarcon, E.; Cabellos-Aparicio, A. (2017)Metamaterials are artificial structures that have recently enabled the realization of novel electromagnetic components with engineered and even unnatural functionalities. Existing metamaterials are specifically designed ...
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Conference Object
CORONA: A coordinate and routing system for nanonetworks
Tsioliaridou, A.; Liaskos, Christos K.; Ioannidis, S.; Pitsillides, Andreas (Association for Computing Machinery, Inc, 2015)The present paper introduces a joint coordinate and routing system (CORONA) which can be deployed dynamically on a 2D ad-hoc nanonetwork. User-selected nodes are used as anchor-points at the setup phase. All nodes then ...
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Conference Object
A deployable routing system for nanonetworks
Liaskos, Christos K.; Tsioliaridou, A.; Ioannidis, S.; Kantartzis, N.; Pitsillides, Andreas (Institute of Electrical and Electronics Engineers Inc., 2016)Nanonetworks comprise numerous wireless nodes, assembled at micro-to-nano scale. The unique manufacturing challenges and cost considerations of these networks make for minimal complexity solutions at all network layers. ...
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Design and Development of Software Defined Metamaterials for Nanonetworks
Liaskos, Christos K.; Tsioliaridou, A.; Pitsillides, Andreas; Akyildiz, I. F.; Kantartzis, N. V.; Lalas, A. X.; Dimitropoulos, Xenofontas A.; Ioannidis, S.; Kafesaki, M.; Soukoulis, C. M. (2015)This paper introduces a class of programmable metamaterials, whose electromagnetic properties can be controlled via software. These software defined metamaterials (SDMs) stem from utilizing metamaterials in combination ...
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Lightweight, self-tuning data dissemination for dense nanonetworks
Tsioliaridou, A.; Liaskos, Christos K.; Ioannidis, S.; Pitsillides, Andreas (2015)A nanonetwork comprises a high number of autonomous nodes with wireless connectivity, assembled at micro-to-nanoscale. In general, manufacturing and cost considerations imply that nanonetworking approaches should have ...
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Conference Object
N3: Addressing and routing in 3D nanonetworks
Tsioliaridou, A.; Liaskos, Christos K.; Pachis, L.; Ioannidis, S.; Pitsillides, Andreas (Institute of Electrical and Electronics Engineers Inc., 2016)Wireless communication at nanoscale faces unique challenges stemming from low hardware capabilities, limited power supply and unreliable channel conditions. The present paper proposes a networking scheme that can operate ...
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Conference Object
Software-Defined Metasurface Paradigm: Concept, Challenges, Prospects
Pitilakis, A.; Tasolamprou, A.C.; Liaskos, C.; Liu, F.; Tsilipakos, O.; Wang, X.; Mirmoosa, M.S.; Kossifos, K.; Georgiou, Julius; Pitsilides, Andreas; Kantartzis, N.V.; Ioannidis, S.; Economou, E.N.; Kafesaki, M.; Tretyakov, S.A.; Soukoulis, C.M. (2018)HyperSurfaces (HSFs) are devices whose electromagnetic (EM) behavior is software- driven, i.e., it can be defined programmatically. The key components of this emerging technology are the metasurfaces, artificial layered ...
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Article
Using any surface to realize a new paradigm for wireless communications
Liaskos, C.; Tsioliaridou, A.; Pitsillides, Andreas; Ioannidis, S.; Akyildiz, I. (2018)Programmable wireless environments use unique customizable software processes rather than traditional rigid channel models.