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2020 – today
- 2024
[i47]Minttu Alakuijala, Reginald McLean, Isaac Woungang, Nariman Farsad, Samuel Kaski, Pekka Marttinen, Kai Yuan:
Video-Language Critic: Transferable Reward Functions for Language-Conditioned Robotics. CoRR abs/2405.19988 (2024)- 2023
- [j29]Bahareh Salafian
, Eyal Fishel Ben-Knaan, Nir Shlezinger, Sandrine de Ribaupierre, Nariman Farsad:
MICAL: Mutual Information-Based CNN-Aided Learned Factor Graphs for Seizure Detection From EEG Signals. IEEE Access 11: 23085-23096 (2023) - [j28]Farhad Mirkarimi, Stefano Rini, Nariman Farsad:
Benchmarking Neural Capacity Estimation: Viability and Reliability. IEEE Trans. Commun. 71(5): 2654-2669 (2023) - 2022
- [j27]Baris Atakan, Sebastià Galmés, Werner Haselmayr, Nariman Farsad, Tadashi Nakano:
Guest editorial for signal processing aspects of molecular communications. Digit. Signal Process. 124: 103544 (2022) - [j26]Nir Shlezinger, Nariman Farsad, Yonina C. Eldar, Andrea J. Goldsmith:
Learned Factor Graphs for Inference From Stationary Time Sequences. IEEE Trans. Signal Process. 70: 366-380 (2022) - [c46]Bar Rubinstein, Yoav Filin, Nir Shlezinger, Nariman Farsad:
Personalized Sleep State Classification via Learned Factor Graphs. EUSIPCO 2022: 1427-1431 - [c45]Bahareh Salafian, Eyal Fishel Ben-Knaan, Nir Shlezinger, Sandrine de Ribaupierre, Nariman Farsad:
CNN-Aided Factor Graphs with Estimated Mutual Information Features for Seizure Detection. ICASSP 2022: 8677-8681 - [c44]Farhad Mirkarimi, Stefano Rini, Nariman Farsad:
Neural Capacity Estimators: How Reliable Are They? ICC 2022: 3868-3873 - [c43]Zeshan Fayyaz, Daniel Platnick, Hannan Fayyaz, Nariman Farsad:
Deep Unfolding for Iterative Stripe Noise Removal. IJCNN 2022: 1-7 - [i46]Zeshan Fayyaz, Daniel Platnick, Hannan Fayyaz, Nariman Farsad:
Deep Unfolding for Iterative Stripe Noise Removal. CoRR abs/2209.14973 (2022) - 2021
- [j25]Mehmet Sükrü Kuran, H. Birkan Yilmaz, Ilker Demirkol, Nariman Farsad, Andrea Goldsmith:
A Survey on Modulation Techniques in Molecular Communication via Diffusion. IEEE Commun. Surv. Tutorials 23(1): 7-28 (2021) - [c42]Bahareh Salafian, Eyal Fishel Ben, Nir Shlezinger, Sandrine de Ribaupierre, Nariman Farsad:
Efficient Epileptic Seizure Detection Using CNN-Aided Factor Graphs. EMBC 2021: 424-429 - [c41]Dorsa Fathollahi, Nariman Farsad, Seyyed Ali Hashemi, Marco Mondelli:
Sparse Multi-Decoder Recursive Projection Aggregation for Reed-Muller Codes. ISIT 2021: 1082-1087 - [c40]Farhad Mirkarimi, Nariman Farsad:
Neural Computation of Capacity Region of Memoryless Multiple Access Channels. ISIT 2021: 2066-2071 - [c39]Nariman Farsad, Nir Shlezinger, Andrea J. Goldsmith, Yonina C. Eldar:
Data-Driven Symbol Detection Via Model-Based Machine Learning. SSP 2021: 571-575 - [i45]Nir Shlezinger, Nariman Farsad, Yonina C. Eldar, Andrea J. Goldsmith:
Model-Based Machine Learning for Communications. CoRR abs/2101.04726 (2021) - [i44]Farhad Mirkarimi, Nariman Farsad:
Neural Computation of Capacity Region of Memoryless Multiple Access Channels. CoRR abs/2105.04453 (2021) - [i43]Farhad Mirkarimi, Stefano Rini, Nariman Farsad:
Neural Capacity Estimators: How Reliable Are They? CoRR abs/2111.07401 (2021) - 2020
- [j24]Nariman Farsad, Nir Shlezinger, Andrea J. Goldsmith, Yonina C. Eldar:
Data-driven symbol detection via model-based machine learning. Commun. Inf. Syst. 20(3): 283-317 (2020) - [j23]Jong Woo Kwak, H. Birkan Yilmaz, Nariman Farsad, Chan-Byoung Chae, Andrea J. Goldsmith:
Two-Way Molecular Communications. IEEE Trans. Commun. 68(6): 3550-3563 (2020) - [j22]Nariman Farsad, Will Chuang, Andrea Goldsmith, Christos Komninakis, Muriel Médard, Christopher Rose, Lieven Vandenberghe, Emily E. Wesel, Richard D. Wesel:
Capacities and Optimal Input Distributions for Particle-Intensity Channels. IEEE Trans. Mol. Biol. Multi Scale Commun. 6(3): 220-232 (2020) - [j21]Nir Shlezinger, Nariman Farsad, Yonina C. Eldar, Andrea J. Goldsmith:
ViterbiNet: A Deep Learning Based Viterbi Algorithm for Symbol Detection. IEEE Trans. Wirel. Commun. 19(5): 3319-3331 (2020) - [c38]Nir Shlezinger, Nariman Farsad, Yonina C. Eldar, Andrea J. Goldsmith:
Data-Driven Factor Graphs for Deep Symbol Detection. ISIT 2020: 2682-2687 - [i42]Nir Shlezinger, Nariman Farsad, Yonina C. Eldar, Andrea J. Goldsmith:
Data-Driven Factor Graphs for Deep Symbol Detection. CoRR abs/2002.00758 (2020) - [i41]Nariman Farsad, Nir Shlezinger, Andrea J. Goldsmith, Yonina C. Eldar:
Data-Driven Symbol Detection via Model-Based Machine Learning. CoRR abs/2002.07806 (2020) - [i40]Nariman Farsad, Will Chuang, Andrea Goldsmith, Christos Komninakis, Muriel Médard, Christopher Rose, Lieven Vandenberghe, Emily E. Wesel, Richard D. Wesel:
Capacities and Optimal Input Distributions for Particle-Intensity Channels. CoRR abs/2005.10682 (2020) - [i39]Nir Shlezinger, Nariman Farsad, Yonina C. Eldar, Andrea J. Goldsmith:
Inference from Stationary Time Sequences via Learned Factor Graphs. CoRR abs/2006.03258 (2020) - [i38]Dorsa Fathollahi, Nariman Farsad, Seyyed Ali Hashemi, Marco Mondelli:
Sparse Multi-Decoder Recursive Projection Aggregation for Reed-Muller Codes. CoRR abs/2011.12882 (2020) - [i37]Mehmet Sükrü Kuran, H. Birkan Yilmaz, Ilker Demirkol, Nariman Farsad, Andrea Goldsmith:
A Survey on Modulation Techniques in Molecular Communication via Diffusion. CoRR abs/2011.13056 (2020)
2010 – 2019
- 2019
- [j20]Na-Rae Kim, Nariman Farsad, Changmin Lee, Andrew W. Eckford, Chan-Byoung Chae:
An Experimentally Validated Channel Model for Molecular Communication Systems. IEEE Access 7: 81849-81858 (2019) - [c37]Yun Liao, Nariman Farsad, Nir Shlezinger, Yonina C. Eldar, Andrea J. Goldsmith:
Deep Neural Network Symbol Detection for Millimeter Wave Communications. GLOBECOM 2019: 1-6 - [c36]Nir Shlezinger, Yonina C. Eldar, Nariman Farsad, Andrea J. Goldsmith:
ViterbiNet: Symbol Detection Using a Deep Learning Based Viterbi Algorithm. SPAWC 2019: 1-5 - [i36]Vahid Jamali, Nariman Farsad, Robert Schober, Andrea Goldsmith:
Diffusive Molecular Communications with Reactive Molecules: Channel Modeling and Signal Design. CoRR abs/1902.11152 (2019) - [i35]Jong Woo Kwack, H. Birkan Yilmaz, Nariman Farsad, Chan-Byoung Chae, Andrea Goldsmith:
Two-Way Molecular Communications. CoRR abs/1903.07865 (2019) - [i34]Etsushi Yamazaki, Nariman Farsad, Andrea Goldsmith:
Low Noise Non-Linear Equalization Using Neural Networks and Belief Propagation. CoRR abs/1905.04893 (2019) - [i33]Nir Shlezinger, Nariman Farsad, Yonina C. Eldar, Andrea J. Goldsmith:
ViterbiNet: A Deep Learning Based Viterbi Algorithm for Symbol Detection. CoRR abs/1905.10750 (2019) - [i32]Yun Liao, Nariman Farsad, Nir Shlezinger, Yonina C. Eldar, Andrea J. Goldsmith:
Deep Neural Network Symbol Detection for Millimeter Wave Communications. CoRR abs/1907.11294 (2019) - 2018
- [j19]Nariman Farsad:
Molecular Communication: Interconnecting Tiny NanoBio Devices. GetMobile Mob. Comput. Commun. 22(2): 5-10 (2018) - [j18]Vahid Jamali, Arman Ahmadzadeh, Nariman Farsad, Robert Schober:
Constant-Composition Codes for Maximum Likelihood Detection Without CSI in Diffusive Molecular Communications. IEEE Trans. Commun. 66(5): 1981-1995 (2018) - [j17]Vahid Jamali, Nariman Farsad, Robert Schober, Andrea Goldsmith:
Non-Coherent Detection for Diffusive Molecular Communication Systems. IEEE Trans. Commun. 66(6): 2515-2531 (2018) - [j16]Yonathan Murin, Nariman Farsad, Mainak Chowdhury, Andrea Goldsmith:
Exploiting Diversity in One-Shot Molecular Timing Channels via Order Statistics. IEEE Trans. Mol. Biol. Multi Scale Commun. 4(1): 14-26 (2018) - [j15]Yonathan Murin, Nariman Farsad, Mainak Chowdhury, Andrea Goldsmith:
Optimal Detection for One-Shot Transmission Over Diffusion-Based Molecular Timing Channels. IEEE Trans. Mol. Biol. Multi Scale Commun. 4(2): 43-60 (2018) - [j14]Nariman Farsad, Yonathan Murin, Andrew W. Eckford, Andrea Goldsmith:
Capacity Limits of Diffusion-Based Molecular Timing Channels With Finite Particle Lifetime. IEEE Trans. Mol. Biol. Multi Scale Commun. 4(2): 88-106 (2018) - [j13]Vahid Jamali, Nariman Farsad, Robert Schober, Andrea Goldsmith:
Diffusive Molecular Communications With Reactive Molecules: Channel Modeling and Signal Design. IEEE Trans. Mol. Biol. Multi Scale Commun. 4(3): 171-188 (2018) - [j12]Nariman Farsad, Andrea Goldsmith:
Neural Network Detection of Data Sequences in Communication Systems. IEEE Trans. Signal Process. 66(21): 5663-5678 (2018) - [j11]Weisi Guo, Yansha Deng, H. Birkan Yilmaz, Nariman Farsad, Maged Elkashlan, Andrew W. Eckford, Arumugam Nallanathan, Chan-Byoung Chae:
SMIET: Simultaneous Molecular Information and Energy Transfer. IEEE Wirel. Commun. 25(1): 106-113 (2018) - [c35]Nariman Farsad, Andrea Goldsmith:
Detection Over Rapidly Changing Communication Channels Using Deep Learning. ACSSC 2018: 604-608 - [c34]Nariman Farsad, Milind Rao, Andrea Goldsmith:
Deep Learning for Joint Source-Channel Coding of Text. ICASSP 2018: 2326-2330 - [c33]Nariman Farsad, Andrea Goldsmith:
Sliding Bidirectional Recurrent Neural Networks for Sequence Detection in Communication Systems. ICASSP 2018: 2331-2335 - [c32]Vahid Jamali, Nariman Farsad, Robert Schober, Andrea Goldsmith:
Diffusive Molecular Communications with Reactive Signaling. ICC 2018: 1-7 - [c31]Jong Woo Kwack, H. Birkan Yilmaz, Nariman Farsad, Chan-Byoung Chae, Andrea Goldsmith:
Two way molecular communications. NANOCOM 2018: 15:1-15:5 - [c30]Nariman Farsad, Andrea Goldsmith:
Neural Network Detectors for Molecular Communication Systems. SPAWC 2018: 1-5 - [c29]Milind Rao, Nariman Farsad, Andrea Goldsmith:
Variable Length Joint Source-Channel Coding of Text Using Deep Neural Networks. SPAWC 2018: 1-5 - [i31]Yonathan Murin, Nariman Farsad, Mainak Chowdhury, Andrea Goldsmith:
Exploiting Diversity in Molecular Timing Channels via Order Statistics. CoRR abs/1801.05567 (2018) - [i30]Nariman Farsad, Andrea Goldsmith:
Neural Network Detection of Data Sequences in Communication Systems. CoRR abs/1802.02046 (2018) - [i29]Nariman Farsad, Milind Rao, Andrea Goldsmith:
Deep Learning for Joint Source-Channel Coding of Text. CoRR abs/1802.06832 (2018) - [i28]Nariman Farsad, Andrea Goldsmith:
Sliding Bidirectional Recurrent Neural Networks for Sequence Detection in Communication Systems. CoRR abs/1802.08154 (2018) - [i27]Nariman Farsad, Yonathan Murin, Weisi Guo, Chan-Byoung Chae, Andrew W. Eckford, Andrea Goldsmith:
Communication System Design and Analysis for Asynchronous Molecular Timing Channels. CoRR abs/1812.04476 (2018) - 2017
- [j10]Yonathan Murin, Nariman Farsad, Mainak Chowdhury, Andrea Goldsmith:
Time-slotted transmission over molecular timing channels. Nano Commun. Networks 12: 12-24 (2017) - [j9]Nariman Farsad, Yonathan Murin, Weisi Guo, Chan-Byoung Chae, Andrew W. Eckford, Andrea Goldsmith:
Communication System Design and Analysis for Asynchronous Molecular Timing Channels. IEEE Trans. Mol. Biol. Multi Scale Commun. 3(4): 239-253 (2017) - [c28]Nariman Farsad, David Pan, Andrea Goldsmith:
A Novel Experimental Platform for In-Vessel Multi-Chemical Molecular Communications. GLOBECOM 2017: 1-6 - [c27]Yonathan Murin, Mainak Chowdhury, Nariman Farsad, Andrea Goldsmith:
Diversity Gain of One-Shot Communication over Molecular Timing Channels. GLOBECOM 2017: 1-6 - [c26]Nariman Farsad, Christopher Rose, Muriel Médard, Andrea Goldsmith:
Capacity of molecular channels with imperfect particle-intensity modulation and detection. ISIT 2017: 2468-2472 - [c25]Vahid Jamali, Arman Ahmadzadeh, Nariman Farsad, Robert Schober:
SCW codes for optimal CSI-free detection in diffusive molecular communications. ISIT 2017: 3190-3194 - [c24]Changmin Lee, H. Birkan Yilmaz, Chan-Byoung Chae, Nariman Farsad, Andrea Goldsmith:
Machine learning based channel modeling for molecular MIMO communications. SPAWC 2017: 1-5 - [i26]Vahid Jamali, Arman Ahmadzadeh, Nariman Farsad, Robert Schober, Andrea J. Goldsmith:
SCW Codes for Optimal CSI-Free Detection in Diffusive Molecular Communications. CoRR abs/1701.06338 (2017) - [i25]Changmin Lee, H. Birkan Yilmaz, Chan-Byoung Chae, Nariman Farsad, Andrea J. Goldsmith:
Machine Learning based Channel Modeling for Molecular MIMO Communications. CoRR abs/1704.00870 (2017) - [i24]Nariman Farsad, David Pan, Andrea J. Goldsmith:
A Novel Experimental Platform for In-Vessel Multi-Chemical Molecular Communications. CoRR abs/1704.04810 (2017) - [i23]Nariman Farsad, Christopher Rose, Muriel Médard, Andrea J. Goldsmith:
Capacity of Molecular Channels with Imperfect Particle-Intensity Modulation and Detection. CoRR abs/1705.08040 (2017) - [i22]Nariman Farsad, Andrea J. Goldsmith:
Detection Algorithms for Communication Systems Using Deep Learning. CoRR abs/1705.08044 (2017) - [i21]Vahid Jamali, Arman Ahmadzadeh, Nariman Farsad, Robert Schober:
SCW Codes for Maximum Likelihood Detection in Diffusive Molecular Communications without Channel State Information. CoRR abs/1706.02171 (2017) - [i20]Vahid Jamali, Nariman Farsad, Robert Schober, Andrea Goldsmith:
Non-Coherent Detection for Diffusive Molecular Communications. CoRR abs/1707.08926 (2017) - [i19]Yonathan Murin, Nariman Farsad, Mainak Chowdhury, Andrea Goldsmith:
Optimal Detection for Diffusion-Based Molecular Timing Channels. CoRR abs/1709.02977 (2017) - [i18]Yonathan Murin, Mainak Chowdhury, Nariman Farsad, Andrea Goldsmith:
Diversity gain of one-shot communication over molecular timing channels. CoRR abs/1709.07976 (2017) - [i17]Vahid Jamali, Nariman Farsad, Robert Schober, Andrea Goldsmith:
Diffusive Molecular Communications with Reactive Signaling. CoRR abs/1711.00131 (2017) - 2016
- [j8]Nariman Farsad, H. Birkan Yilmaz, Andrew W. Eckford, Chan-Byoung Chae, Weisi Guo:
A Comprehensive Survey of Recent Advancements in Molecular Communication. IEEE Commun. Surv. Tutorials 18(3): 1887-1919 (2016) - [j7]Bonhong Koo, Changmin Lee, H. Birkan Yilmaz, Nariman Farsad, Andrew W. Eckford, Chan-Byoung Chae:
Molecular MIMO: From Theory to Prototype. IEEE J. Sel. Areas Commun. 34(3): 600-614 (2016) - [j6]Weisi Guo, A. Taufiq Asyhari, Nariman Farsad, H. Birkan Yilmaz, Bin Li, Andrew W. Eckford, Chan-Byoung Chae:
Molecular communications: channel model and physical layer techniques. IEEE Wirel. Commun. 23(4): 120-127 (2016) - [c23]Nariman Farsad, Yonathan Murin, Milind Rao, Andrea J. Goldsmith:
On the capacity of diffusion-based molecular timing channels with diversity. ACSSC 2016: 1117-1121 - [c22]Nariman Farsad, Yonathan Murin, Weisi Guo, Chan-Byoung Chae, Andrew W. Eckford, Andrea Goldsmith:
On the Impact of Time-Synchronization in Molecular Timing Channels. GLOBECOM 2016: 1-6 - [c21]Yonathan Murin, Nariman Farsad, Mainak Chowdhury, Andrea J. Goldsmith:
Communication over Diffusion-Based Molecular Timing Channels. GLOBECOM 2016: 1-6 - [c20]Nariman Farsad, H. Birkan Yilmaz, Chan-Byoung Chae, Andrea J. Goldsmith:
Energy model for vesicle-based active transport molecular communication. ICC 2016: 1-6 - [c19]Nariman Farsad, Yonathan Murin, Andrew W. Eckford, Andrea J. Goldsmith:
On the capacity of diffusion-based molecular timing channels. ISIT 2016: 1023-1027 - [c18]Vahid Jamali, Nariman Farsad, Robert Schober, Andrea J. Goldsmith:
Non-Coherent Multiple-Symbol Detection for Diffusive Molecular Communications. NANOCOM 2016: 7:1-7:7 - [c17]Yonathan Murin, Nariman Farsad, Mainak Chowdhury, Andrea J. Goldsmith:
On Time-Slotted Communication over Molecular Timing Channels. NANOCOM 2016: 9:1-9:6 - [c16]Nariman Farsad, Andrea Goldsmith:
A molecular communication system using acids, bases and hydrogen ions. SPAWC 2016: 1-6 - [i16]Nariman Farsad, Yonathan Murin, Andrew W. Eckford, Andrea Goldsmith:
Capacity Limits of Diffusion-Based Molecular Timing Channels. CoRR abs/1602.07757 (2016) - [i15]Bonhong Koo, Changmin Lee, H. Birkan Yilmaz, Nariman Farsad, Andrew W. Eckford, Chan-Byoung Chae:
Molecular MIMO: From Theory to Prototype. CoRR abs/1603.03921 (2016) - [i14]Nariman Farsad, Yonathan Murin, Andrew W. Eckford, Andrea Goldsmith:
On the Capacity of Diffusion-Based Molecular Timing Channels. CoRR abs/1604.06409 (2016) - [i13]Weisi Guo, Yansha Deng, H. Birkan Yilmaz, Nariman Farsad, Maged Elkashlan, Chan-Byoung Chae, Andrew W. Eckford, Arumugam Nallanathan:
SMIET: Simultaneous Molecular Information and Energy Transfer. CoRR abs/1605.09474 (2016) - [i12]Nariman Farsad, Yonathan Murin, Weisi Guo, Chan-Byoung Chae, Andrew W. Eckford, Andrea J. Goldsmith:
On the Impact of Time-Synchronization in Molecular Timing Channels. CoRR abs/1609.02109 (2016) - 2015
- [j5]Weisi Guo, Christos Mias, Nariman Farsad, Jiang-Lun Wu:
Molecular Versus Electromagnetic Wave Propagation Loss in Macro-Scale Environments. IEEE Trans. Mol. Biol. Multi Scale Commun. 1(1): 18-25 (2015) - [c15]Nariman Farsad, Weisi Guo, Chan-Byoung Chae, Andrew W. Eckford:
Stable Distributions as Noise Models for Molecular Communication. GLOBECOM 2015: 1-6 - [c14]Na-Rae Kim, Nariman Farsad, Chan-Byoung Chae, Andrew W. Eckford:
A universal channel model for molecular communication systems with metal-oxide detectors. ICC 2015: 1054-1059 - [c13]Song Qiu, Nariman Farsad, Yin Dong, Andrew W. Eckford, Weisi Guo:
Under-water molecular signalling: A hidden transmitter and absent receivers problem. ICC 2015: 1085-1090 - [c12]Linchen Wang, Nariman Farsad, Weisi Guo, Sebastian Magierowski, Andrew W. Eckford:
Molecular barcodes: Information transmission via persistent chemical tags. ICC 2015: 1097-1102 - [c11]Changmin Lee, Bonhong Koo, Na-Rae Kim, H. Birkan Yilmaz, Nariman Farsad, Andrew W. Eckford, Chan-Byoung Chae:
Molecular MIMO communication link. INFOCOM Workshops 2015: 13-14 - [c10]Changmin Lee, Bonhong Koo, Na-Rae Kim, H. Birkan Yilmaz, Nariman Farsad, Andrew W. Eckford, Chan-Byoung Chae:
Demo: Molecular MIMO with Drift. MobiCom 2015: 201-203 - [i11]Na-Rae Kim, Nariman Farsad, Chan-Byoung Chae, Andrew W. Eckford:
A Universal Channel Model for Molecular Communication Systems with Metal-Oxide Detectors. CoRR abs/1503.02809 (2015) - [i10]Changmin Lee, Bonhong Koo, Na-Rae Kim, H. Birkan Yilmaz, Nariman Farsad, Andrew W. Eckford, Chan-Byoung Chae:
Molecular MIMO Communication Link. CoRR abs/1503.04921 (2015) - [i9]Nariman Farsad, Andrew W. Eckford, Satoshi Hiyama:
Design and Optimizing of On-Chip Kinesin Substrates for Molecular Communication. CoRR abs/1505.02202 (2015) - [i8]Weisi Guo, A. Taufiq Asyhari, Nariman Farsad, H. Birkan Yilmaz, Bin Li, Andrew W. Eckford, Chan-Byoung Chae:
Molecular Communications: Channel Model and Physical Layer Techniques. CoRR abs/1507.07292 (2015) - [i7]Nariman Farsad, H. Birkan Yilmaz, Chan-Byoung Chae, Andrea Goldsmith:
Energy Model for Vesicle-Based Active Transport Molecular Communication. CoRR abs/1510.05075 (2015) - [i6]Nariman Farsad, Andrea Goldsmith:
A Novel Molecular Communication System Using Acids, Bases and Hydrogen Ions. CoRR abs/1511.08957 (2015) - [i5]Nariman Farsad, Weisi Guo, Chan-Byoung Chae, Andrew W. Eckford:
Stable Distributions as Noise Models for Molecular Communication. CoRR abs/1512.01921 (2015) - 2014
- [j4]Nariman Farsad, Na-Rae Kim, Andrew W. Eckford, Chan-Byoung Chae:
Channel and Noise Models for Nonlinear Molecular Communication Systems. IEEE J. Sel. Areas Commun. 32(12): 2392-2401 (2014) - [j3]Nariman Farsad, Andrew W. Eckford, Satoshi Hiyama:
A Markov Chain Channel Model for Active Transport Molecular Communication. IEEE Trans. Signal Process. 62(9): 2424-2436 (2014) - [c9]Song Qiu, Weisi Guo, Siyi Wang, Nariman Farsad, Andrew W. Eckford:
A molecular communication link for monitoring in confined environments. ICC Workshops 2014: 718-723 - [c8]Na-Rae Kim, Nariman Farsad, Chan-Byoung Chae, Andrew W. Eckford:
A realistic channel model for molecular communication with imperfect receivers. ICC 2014: 3987-3992 - [c7]Nariman Farsad, Weisi Guo, Andrew W. Eckford:
Molecular communication link. INFOCOM Workshops 2014: 107-108 - [i4]Song Qiu, Weisi Guo, Siyi Wang, Nariman Farsad, Andrew W. Eckford:
A Molecular Communication Link for Monitoring in Confined Environments. CoRR abs/1403.6924 (2014) - [i3]Nariman Farsad, H. Birkan Yilmaz, Andrew W. Eckford, Chan-Byoung Chae, Weisi Guo:
A Comprehensive Survey of Recent Advancements in Molecular Communication. CoRR abs/1410.4258 (2014) - 2013
- [i2]Nariman Farsad, Weisi Guo, Andrew W. Eckford:
Table-Top Molecular Communication: Text Messages Through Chemical Signals. CoRR abs/1310.0070 (2013) - [i1]Nariman Farsad, Na-Rae Kim, Andrew W. Eckford, Chan-Byoung Chae:
Channel and Noise Models for Nonlinear Molecular Communication Systems. CoRR abs/1311.6208 (2013) - 2012
- [j2]Nariman Farsad, Andrew W. Eckford:
Resource Allocation via Linear Programming for Fractional Cooperation. IEEE Trans. Wirel. Commun. 11(5): 1633-1637 (2012) - [c6]Nariman Farsad, Andrew W. Eckford, Satoshi Hiyama:
A mathematical channel optimization formula for active transport molecular communication. ICC 2012: 6137-6141 - 2011
- [j1]Nariman Farsad, Andrew W. Eckford, Satoshi Hiyama, Yuki Moritani:
Quick system design of vesicle-based active transport molecular communication by using a simple transport model. Nano Commun. Networks 2(4): 175-188 (2011) - [c5]Nariman Farsad, Andrew W. Eckford, Satoshi Hiyama:
Channel Design and Optimization of Active Transport Molecular Communication. BIONETICS 2011: 213-223 - [c4]Anthony Calce, Nariman Farsad, Andrew W. Eckford:
An experimental study of fractional cooperation in wireless mesh networks. PIMRC 2011: 985-989 - 2010
- [c3]Nariman Farsad, Andrew W. Eckford, Satoshi Hiyama, Yuki Moritani:
Information Rates of Active Propagation in Microchannel Molecular Communication. BIONETICS 2010: 16-21 - [c2]Nariman Farsad, Andrew W. Eckford:
Resource Allocation via Linear Programming for Multi-Source, Multi-Relay Wireless Networks. ICC 2010: 1-5
2000 – 2009
- 2009
- [c1]Nariman Farsad, Andrew W. Eckford:
Low-complexity cooperation with correlated sources: Diversity order analysis. CISS 2009: 663-668
Coauthor Index
Andrea J. Goldsmith
aka: Andrea Goldsmith
aka: Andrea Goldsmith
[j26] [j25] [c39] [i45] [j24] [j23] [j22] [j21] [c38] [i42] [i41] [i40] [i39] [i37] [c37] [c36] [i36] [i35] [i34] [i33] [i32] [j17] [j16] [j15] [j14] [j13] [j12] [c35] [c34] [c33] [c32] [c31] [c30] [c29] [i31] [i30] [i29] [i28] [i27] [j10] [j9] [c28] [c27] [c26] [c24] [i26] [i25] [i24] [i23] [i22] [i20] [i19] [i18] [i17] [c23] [c22] [c21] [c20] [c19] [c18] [c17] [c16] [i16] [i14] [i12] [i7] [i6]
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OpenAlex data
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last updated on 2025-01-20 23:01 CET by the dblp team
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