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NANOCOM 2020: Virtual Event, USA
- William E. Bentley, Gregory F. Payne, Valeria Loscrì:
NANOCOM '20: The Seventh Annual ACM International Conference on Nanoscale Computing and Communication, Virtual Event, USA, September 23-25, 2020. ACM 2020, ISBN 978-1-4503-8083-6 - Jan Peter Drees, Lukas Stratmann, Fabian Bronner, Max Bartunik, Jens Kirchner, Harald Unterweger, Falko Dressler:
Efficient simulation of macroscopic molecular communication: the pogona simulator. 1:1-1:6 - Sunasheer Bhattacharjee, Martin Damrath, Fabian Bronner, Lukas Stratmann, Jan Peter Drees, Falko Dressler, Peter A. Hoeher:
A testbed and simulation framework for air-based molecular communication using fluorescein. 2:1-2:6 - Shinya Ishiyama, Tadashi Nakano, Yutaka Okaie, Takahiro Hara, Kaname Harumoto:
Cooperative signaling and directed migration of bio-nanomachines in mobile molecular communication. 3:1-3:7 - Regine Wendt, Chris Deter, Stefan Fischer:
BVS-Vis: a web-based visualizer for BloodVoyagerS. 4:1-4:2 - Maurizio Magarini, Richard J. Morris, Francesca Ratti, Maximilian Schäfer, George W. Bassel, Hamdan Awan, Werner Haselmayr:
A molecular communications framework for understanding the floral transition. 5:1-5:2 - Hongyu An, Dong Sam Ha, Yang Cindy Yi:
Powering next-generation industry 4.0 by a self-learning and low-power neuromorphic system. 6:1-6:6 - Sunasheer Bhattacharjee, Martin Damrath, Peter A. Hoeher:
Design of macroscopic air-based molecular communication concept using fluorescein. 7:1-7:2 - Max Bartunik, Marco Fleischer, Werner Haselmayr, Jens Kirchner:
Colour-specific microfluidic droplet detection for molecular communication. 8:1-8:6 - Regine Wendt, Stefan Fischer:
MEHLISSA: a medical holistic simulation architecture for nanonetworks in humans. 9:1-9:6 - Dadi Bi, Yansha Deng:
Microfluidic AND gate design for molecular communication. 10:1-10:7 - Bhuvana Krishnaswamy, Megan N. McClean:
Shining light on molecular communication. 11:1-11:7 - Anke Kuestner, Lukas Stratmann, Regine Wendt, Stefan Fischer, Falko Dressler:
A simulation framework for connecting in-body nano communication with out-of-body devices. 12:1-12:2 - Liuyi Jin, Zhipei Yan, Lihua Zuo, Radu Stoleru:
NanoCommunication-based flow path mapping for NanoSensors in underground oil reservoirs. 13:1-13:7 - Eric Regonesi, Mariangela Rapisarda, Maurizio Magarini, Marco Ferrari:
Relative angle estimation of an interferer in a diffusion-based molecular communication system. 14:1-14:7 - Francesca Ratti, Maurizio Magarini, Domitilla Del Vecchio:
The impact of retroactivity on information exchange in molecular communications. 15:1-15:2 - Sasmita Dash, Christos Liaskos, Ian F. Akyildiz, Andreas Pitsillides:
Nanoantennas design for THz communication: material selection and performance enhancement. 16:1-16:6 - Sinem Nimet Solak, Menguc Oner:
RNN based abnormality detection with nanoscale sensor networks using molecular communications. 17:1-17:6 - Yesenia Cevallos, Luis Tello-Oquendo, Deysi Inca, Nicolay Samaniego, Ivone Santillán, Amin Zadeh Shirazi, Guillermo A. Gomez:
On the efficient digital code representation in DNA-based data storage. 18:1-18:7 - Filip Lemic, Sergi Abadal, Jeroen Famaey:
Toward localization in terahertz-operating energy harvesting software-defined metamaterials: context analysis. 19:1-19:6 - Tom Ruvio, Connor Grady, Alexander Bricco, Assaf A. Gilad:
AI assisted encryption into DNA sequence of a functional protein. 20:1-20:5 - Rohit Singh, Douglas C. Sicker:
Ultra-dense low data rate (UDLD) communication in the THz. 21:1-21:7 - Bayram Cevdet Akdeniz, Malcolm Egan:
Multi-level equilibrium signaling for molecular communication. 22:1-22:6 - Kaushik Sengupta, Xuyang Lu, Suresh Venkatesh, Xue Wu:
Terahertz to bits and bits to terahertz: universally programmable chip-scale terahertz systems. 23:1-23:8 - Qiang Fan, Jianan Bai, Hao-Hsuan Chang, Lianjun Li, Shiya Liu, Joe Huang, John Burgess, Allan Berlinsky, Alex Pidwerbetsky, Jonathan D. Ashdown, Kurt A. Turck, Lingjia Liu:
Intelligent DSA-assisted clustered IoT networks: neuromorphic computing meets genetic algorithm. 24:1-24:6
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