SAC08 - Nanoscale, Molecular and Quantum Networking

Time	ICC Capital Hall Interactive 4	ICC Capital Suite 2
Tuesday, June 9
16:30-18:00		SAC08-NMQN-01: Nanoscale, molecular, and quantum networking: Communication- and information-theoretic aspects
Wednesday, June 10
16:30-18:00		SAC08-NMQN-02: Nanoscale, molecular, and quantum networking: Applications, implementations, and experiments
Thursday, June 11
14:30-15:15	SAC08-NMQN-I01: Nanoscale, molecular, and quantum networking: Models and algorithms

Tuesday, June 9

16:30 - 18:00

SAC08-NMQN-01: Nanoscale, molecular, and quantum networking: Communication- and information-theoretic aspects

Room: ICC Capital Suite 2

Chair: Andrew Eckford (York University, Canada)

A Fundamental Framework for Molecular Communication Channels: timing & payload: Christopher Rose (WINLAB at Rutgers University, USA); I. Saira Mian (LBNL, USA)

pp. 2655-2660
Self-Orthogonal Convolutional Codes (SOCCs) for Diffusion-Based Molecular Communication Systems: Yi Lu, Matthew D Higgins and Mark S Leeson (University of Warwick, United Kingdom)

pp. 2661-2665
A Universal Channel Model for Molecular Communication Systems with Metal-Oxide Detectors: Na-Rae Kim (Yonsei University, Korea); Nariman Farsad (York University, Canada); Chan-Byoung Chae (Yonsei University, Korea); Andrew Eckford (York University, Canada)

pp. 2666-2671
Capacity of LTI-Poisson Channel for Diffusion based Molecular Communication: Gholamali Aminian, Hamidreza Arjmandi, Amin Gohari and Masoumeh Nasiri-Kenari (Sharif University of Technology, Iran); Urbashi Mitra (University of Southern California, USA)

pp. 2672-2677
Adaptive Molecule Transmission Rate for Diffusion Based Molecular Communication: Mohammad Movahednasab, Mehdi Soleimanifar, Amin Gohari and Masoumeh Nasiri-Kenari (Sharif University of Technology, Iran); Urbashi Mitra (University of Southern California, USA)

pp. 2678-2683
Capacity of electron-based communication over bacterial cables: the full-CSI case with binary inputs: Nicolò Michelusi and Urbashi Mitra (University of Southern California, USA)

pp. 2684-2689

Wednesday, June 10

16:30 - 18:00

SAC08-NMQN-02: Nanoscale, molecular, and quantum networking: Applications, implementations, and experiments

Room: ICC Capital Suite 2

Chair: Weisi Guo (University of Warwick, United Kingdom)

Inbody Mobile Bionanosensor Networks Through Non-diffusion-based Molecular Communication: Takuya Obuchi, Yutaka Okaie, Tadashi Nakano, Takahiro Hara and Shojiro Nishio (Osaka University, Japan)

pp. 2690-2696
Under-Water Molecular Signalling: a Hidden Transmitter and Absent Receivers Problem: Song Qiu (University of Warwick, United Kingdom); Nariman Farsad (York University, Canada); Yin Yao Dong (University of Oxford, United Kingdom); Andrew Eckford (York University, Canada); Weisi Guo (University of Warwick, United Kingdom)

pp. 2697-2702
A Touchable Molecular Communication Model of Targeted Contrast Agent Delivery: Yifan Chen (South University of Science and Technology of China, P.R. China); Panagiotis Kosmas (King's College London, United Kingdom); Putri Anwar (South University of Science and Technology of China, USA); Limin Huang (South University of Science and Technology of China, P.R. China)

pp. 2703-2708
Molecular Barcodes: Information Transmission via Persistent Chemical Tags: Linchen Wang and Nariman Farsad (York University, Canada); Weisi Guo (University of Warwick, United Kingdom); Sebastian Magierowski and Andrew Eckford (York University, Canada)

pp. 2709-2714
Transmitting information with microfluidic systems: Andrea Biral, Davide Zordan and Andrea Zanella (University of Padova, Italy)

pp. 2715-2720
Multi-Scale Stochastic Simulation for Diffusive Molecular Communication: Adam Noel, Karen C Cheung and Robert Schober (University of British Columbia, Canada)

pp. 2721-2727

Thursday, June 11

14:30 - 15:15

SAC08-NMQN-I01: Nanoscale, molecular, and quantum networking: Models and algorithms

Room: ICC Capital Hall Interactive 4

Chair: Nariman Farsad (York University, Canada)

Communication Theory Aspects of Synaptic Transmission: Mladen Veletić (Norwegian University of Science & Technology, Norway); Fabio Mesiti (Norwegian University of Science and Technology, Norway); Pål Anders Floor (Oslo University Hospital, Norway); Ilangko Balasingham (Norwegian University of Science & Technology & Oslo University Hospital, Norway)

pp. 2728-2733
Detection Algorithms for Molecular MIMO: Bonhong Koo (Yonsei University, Korea); Huseyin Birkan Yilmaz (Yonsei University, Yonsei Institute of Convergence Technology & Bogazici University, Korea); Chan-Byoung Chae (Yonsei University, Korea); Andrew Eckford (York University, Canada)

pp. 2734-2739
Error Detection in Diffusion-based Molecular Communication: Arash Einolghozati (Georgia Tech, USA); Faramarz Fekri (Georgia Institute of Technology, USA)

pp. 2740-2745
An Algorithmic Distance Estimation Scheme for Diffusion Based Molecular Communication Systems: Xiayang Wang, Matthew D Higgins and Mark S Leeson (University of Warwick, United Kingdom)

pp. 2746-2751
Multiscale Modeling of Biological Communication: Navid Azizan Ruhi (University of Southern California, USA); Paul Bogdan (Univ of Southern California, USA)

pp. 2752-2757