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NANOCOM 2022: Barcelona, Catalunya, Spain
- Josep Miquel Jornet, Massimiliano Pierobon:
NANOCOM '22: The Ninth Annual ACM International Conference on Nanoscale Computing and Communication, Barcelona, Catalunya, Spain, October 5 - 7, 2022. ACM 2022, ISBN 978-1-4503-9867-1 - Filip Lemic
, Sergi Abadal, Aleksandar Stevanovic, Eduard Alarcón, Jeroen Famaey:
Toward location-aware in-body terahertz nanonetworks with energy harvesting. 1:1-1:6 - Florian-Lennert Adrian Lau, Tanya Braun, Ralf Möller, Stefan Fischer:
Using decPOMDPcoms to holistically model and program nanodevices and emergent nanonetworks. 2:1-2:7 - Yu Li, Lin Lin:
A multiplexing scheme for engineered neural communication systems. 3:1-3:7 - Jorge Torres Gómez
Nanosensor location in the human circulatory system based on electric circuit representation of vessels. 4:1-4:7 - Milica Lekic, Mohammad Zoofaghari, Mladen Veletic, Ilangko Balasingham:
Extracellular vesicle propagation in acidic tumor microenvironment. 5:1-5:6 - Max Bartunik, Samira Faghih-Naini, Timo Maiwald, Jens Kirchner:
Planar coils for detection of magnetic nanoparticles in a testbed for molecular communication. 6:1-6:6 - M. Serkan Kopuzlu, M. Okan Araz, Ahmet Rasim Emirdagi, Murat Kuscu:
Capacity analysis of molecular communications with ratio shift keying modulation. 7:1-7:6 - Santiago Rodrigo, Domenico Spanò, Medina Bandic, Sergi Abadal, Hans van Someren, Anabel Ovide, Sebastian Feld, Carmen G. Almudéver, Eduard Alarcón:
Characterizing the spatio-temporal qubit traffic of a quantum intranet aiming at modular quantum computer architectures. 8:1-8:7 - Alfio Lombardo, Giacomo Morabito, Carla Panarello, Fabrizio Pappalardo
Modeling biological receivers: the case of extracellular vesicle fusion to the plasma membrane of the target cell. 9:1-9:6 - Mohammad Zoofaghari, Martin Damrath
Reaction rates estimation for the endocytic reception in extracellular vesicles-mediated communications. 10:1-10:6 - Farah Hoteit, Dominique Dhoutaut, Winston K. G. Seah, Eugen Dedu:
Dynamic ring-based forwarder selection to improve packet delivery in ultra-dense nanonetworks. 11:1-11:7 - Xin-Wei Yao, Kai Zhao, Yi Wu, Lang Lin, Yiwei Chen:
An opportunistic routing strategy for circulation flow-guided nano-networks. 12:1-12:7 - Maximilian Schäfer
Controlled signaling and transmitter replenishment for MC with functionalized nanoparticles. 13:1-13:7 - Arunava Das, Bharat Runwal, O. Tansel Baydas, Oktay Cetinkaya
Received signal modeling and BER analysis for molecular SISO communications. 14:1-14:6 - Antonio Coviello, Federica Porta
Neural network-based classification of ENG recordings in response to naturally evoked stimulation. 15:1-15:7 - Caglar Koca, Meltem Civas, Özgür B. Akan:
Narrow escape problem in synaptic molecular communications. 16:1-16:7 - Rinrada Jadsadaphongphaibool
Binary concentration shift keying realization for molecular communication via genetic circuits. 17:1-17:6 - Lokendra Chouhan
On the transport of molecular information in sub-diffusion media with reflecting boundary. 18:1-18:7 - Fardad Vakilipoor
Hybrid deep learning-based feature-augmented detection for molecular communication systems. 19:1-19:6 - Angela Sara Cacciapuoti, Jessica Illiano, Michele Viscardi, Marcello Caleffi:
Quantum internet: the dawn of the quantum paths. 20:1-20:2 - Fátima Rodríguez-Galán, Elana Pereira de Santana, Peter Haring Bolívar, Sergi Abadal, Eduard Alarcón:
Towards spatial multiplexing in wireless networks within computing packages. 21:1-21:6 - Theodoros Grammenos
Two-way chemotaxis-based communication for biological nanonetworks. 22:1-22:2 - Florian-Lennert Adrian Lau, Bennet Gerlach, Regine Wendt, Stefan Fischer:
Towards personalized precision medicine using DNA-based molecular communication networks. 23:1-23:2 - Andrea-Claudia Beiu, Roxana-Mariana Beiu, Valeriu Beiu:
Optimal design of linear consecutive systems. 24:1-24:2 - Caio Fonseca, Michael Taynnan Barros
Quasi-spherical absorbing receiver model of glioblastoma cells for exosome-based molecular communications. 25:1-25:2 - Hao Du, Qiang Liu, Kun Yang:
Multi-hop relay directional communication based on attractants in molecular communication. 26:1-26:3 - Stefan Angerbauer, Medina Hamidovic, Andreas Springer, Werner Haselmayr:
Salinity-based information transmission in microfluidic channels. 27:1-27:2 - Nadezhda Briantceva
Evanescence reaction in subdiffusion molecular communication channel. 28:1-28:2 - Anna Vizziello, Pietro Savazzi, Fabio Dell'Acqua:
Data driven channel characterization of human body communication. 29:1-29:2 - Konstantinos F. Kantelis, Petros Nicopolitidis, Georgios Papadimitriou:
Ligand-receptor-based wireless biological nanonetworks. 30:1-30:2 - Ian Petersen, Amy Cao, Anna Goforth, Anna Vena, Megan N. McClean, Benjamin Walker, Bhuvana Krishnaswamy:
Microfluidic chip for biosensing yeast cells. 31:1-31:2 - Sunasheer Bhattacharjee, Martin Damrath
Channel coding techniques in macroscopic air-based molecular communication. 32:1-32:2 - José L. Marzo
Modeling nanonetworks connectivity in the blood flow. 33:1-33:2 - Carlos Danilo M. Regis, Felipe R. G. Ribeiro, Rafael D. de Sousa, Smith L. da Silva:
Astrocyte tissue modeling and the impact of ischemic stroke. 34:1-34:2
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