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ORCIDVolkan Rodoplu
Person information
- affiliation: Yasar University, Department of Electrical and Electronics Engineering, Izmir, Turkey
- affiliation: University of California, Santa Barbara, USA
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2020 – today
- 2024
[j16]Erdem Çakan
, Volkan Rodoplu, Cüneyt Güzelis:
Data fusion integrated network forecasting scheme classifier (DFI-NFSC) via multi-layer perceptron decomposition architecture. Internet Things 28: 101341 (2024)- 2023
- [c29]Alp Erel, Emre Molla, Volkan Rodoplu:
A Machine Learning Based Energy-Efficient Indoor Multiple IoT Device Tracking Algorithm Based on Correlated Group Determination. WF-IoT 2023: 1-6 - [c28]Berke Kilinç, Berkay Habib, Volkan Rodoplu:
Machine Learning Based Multipath Processing Architecture for Mobile IoT Indoor Positioning. WF-IoT 2023: 1-6 - [c27]Alper Saylam, Cüneyt Güzelis, Volkan Rodoplu:
Machine Learning Enabled Sleep Time Estimation (MLE-STE) Architecture for Indoor Positioning in Energy-Efficient Mobile Internet of Things. WF-IoT 2023: 1-6 - 2022
- [j15]Mert Nakip, Baran Can Gül, Volkan Rodoplu, Cüneyt Güzelis:
Predictability of Internet of Things Traffic at the Medium Access Control Layer Against Information-Theoretic Bounds. IEEE Access 10: 55602-55615 (2022) - [j14]Mert Nakip, Erdem Çakan, Volkan Rodoplu, Cüneyt Güzelis:
Dynamic Automatic Forecaster Selection via Artificial Neural Network Based Emulation to Enable Massive Access for the Internet of Things. J. Netw. Comput. Appl. 201: 103360 (2022) - [j13]Arif Kerem Dayi, Volkan Rodoplu, Mert Nakip, Buse Pehlivan, Cüneyt Güzelis:
Multi-Channel Subset Iteration with Minimal Loss in Available Capacity (MC-SIMLAC) Algorithm for Joint Forecasting-Scheduling in the Internet of Things. J. Wirel. Mob. Networks Ubiquitous Comput. Dependable Appl. 13(2): 68-95 (2022) - [c26]Rifat Orhan Çikmazel, Alper Saylam, Volkan Rodoplu, Cüneyt Güzelis:
Multi-Resolution Inter-Level Refinement (MR-ILR) Architecture for Anomaly Prediction in IoT Data. INISTA 2022: 1-6 - [c25]Ata Saygin Odabasi, Onur Isçi, Volkan Rodoplu:
Machine Learning Based Seamless Vertical Handoff Mechanism for Hybrid Li-Fi/Wi-Fi Networks. INISTA 2022: 1-6 - 2021
- [j12]Mert Nakip, Kubilay Karakayali, Cüneyt Güzelis, Volkan Rodoplu:
An End-to-End Trainable Feature Selection-Forecasting Architecture Targeted at the Internet of Things. IEEE Access 9: 104011-104028 (2021) - [c24]Alper Saylam, Nur Kelesoglu, Rifat Orhan Çikmazel, Mert Nakip, Volkan Rodoplu:
Dynamic Positioning Interval Based On Reciprocal Forecasting Error (DPI-RFE) Algorithm for Energy-Efficient Mobile IoT Indoor Positioning. CITS 2021: 1-5 - [c23]Mert Nakip, Alperen Helva, Cüneyt Güzelis, Volkan Rodoplu:
Subspace-Based Emulation of the Relationship Between Forecasting Error and Network Performance in Joint Forecasting-Scheduling for the Internet of Things. WF-IoT 2021: 247-252 - [c22]Erdem Çakan, Aral Sahin, Mert Nakip, Volkan Rodoplu:
Multi-Layer Perceptron Decomposition Architecture for Mobile IoT Indoor Positioning. WF-IoT 2021: 253-257 - 2020
- [j11]Volkan Rodoplu, Kemal Hocaoglu, Anil Adar, Rifat Orhan Çikmazel, Alper Saylam:
Characterization of Line-of-Sight Link Availability in Indoor Visible Light Communication Networks Based on the Behavior of Human Users. IEEE Access 8: 39336-39348 (2020) - [j10]Volkan Rodoplu, Mert Nakip, Roozbeh Qorbanian, Deniz Türsel Eliiyi:
Multi-Channel Joint Forecasting-Scheduling for the Internet of Things. IEEE Access 8: 217324-217354 (2020) - [j9]Volkan Rodoplu, Mert Nakip, Deniz Türsel Eliiyi, Cüneyt Güzelis:
A Multiscale Algorithm for Joint Forecasting-Scheduling to Solve the Massive Access Problem of IoT. IEEE Internet Things J. 7(9): 8572-8589 (2020)
2010 – 2019
- 2019
- [c21]Mert Nakip, Baran Can Gül, Volkan Rodoplu, Cüneyt Güzelis:
Comparative Study of Forecasting Schemes for IoT Device Traffic in Machine-to-Machine Communication. CCIOT 2019: 102-109 - 2013
- [j8]Amir Aminzadeh Gohari, Volkan Rodoplu:
Congestion-Aware Spatial Routing in Hybrid High-Mobility Wireless Multihop Networks. IEEE Trans. Mob. Comput. 12(11): 2247-2260 (2013) - [c20]Jian Zhen, Volkan Rodoplu:
Automated MAC protocol generation under dynamic traffic conditions. GLOBECOM 2013: 152-157 - [c19]Diana L. Delibaltov, Pratim Ghosh, Volkan Rodoplu, Michael Veeman, William Smith, B. S. Manjunath:
A Linear Program Formulation for the Segmentation of Ciona Membrane Volumes. MICCAI (1) 2013: 444-451 - 2012
- [c18]Jian Zhen, Volkan Rodoplu:
Automated MAC protocol generation for dynamic topologies. GLOBECOM 2012: 439-444 - 2011
- [j7]Amir Aminzadeh Gohari, Ryan Pakbaz, P. Michael Melliar-Smith, Louise E. Moser, Volkan Rodoplu:
RMR: Reliability Map Routing for Tactical Mobile Ad Hoc Networks. IEEE J. Sel. Areas Commun. 29(10): 1935-1947 (2011) - [c17]Jian Zhen, Forrest Brewer, Volkan Rodoplu:
Automated MAC Protocol Generation with Multiple Neighborhoods and Acknowledgments Based on Symbolic Monte Carlo Simulation. GLOBECOM 2011: 1-6 - [c16]Amir Aminzadeh Gohari, Volkan Rodoplu:
Reliability-aware geocast for mobile ad hoc networks. GLOBECOM Workshops 2011: 491-496 - [c15]Ryan Pakbaz, Amir Aminzadeh Gohari, Volkan Rodoplu:
TraJECT-3D: Generating realistic mobility traces for tactical network simulation. MILCOM 2011: 967-972 - 2010
- [c14]Volkan Rodoplu, Snehal S. Vadvalkar, Amir Aminzadeh Gohari, John J. Shynk:
Empirical Modeling and Estimation of End-to-End VoIP Delay over Mobile Multi-Hop Wireless Networks. GLOBECOM 2010: 1-6 - [c13]Jian Zhen, Forrest Brewer, Volkan Rodoplu:
A Methodology for Optimal MAC Protocol Generation: Case Study of a Synchronous MAC Channel. GLOBECOM 2010: 1-6
2000 – 2009
- 2009
- [j6]Min Kyoung Park, Volkan Rodoplu:
Energy Maps for Mobile Wireless Networks: Coherence Time versus Spreading Period. IEEE Trans. Mob. Comput. 8(6): 778-791 (2009) - 2008
- [c12]Volkan Rodoplu, Amir Aminzadeh Gohari, Wei Tang:
Towards automated design of MAC protocols for underwater wireless networks. Underwater Networks 2008: 67-74 - [c11]Volkan Rodoplu, Amir Aminzadeh Gohari:
Challenges: automated design of networking protocols. MobiCom 2008: 271-278 - 2007
- [j5]Volkan Rodoplu, Teresa H. Meng:
Bits-per-Joule Capacity of Energy-Limited Wireless Networks. IEEE Trans. Wirel. Commun. 6(3): 857-865 (2007) - [j4]Taehyuk Kang, Volkan Rodoplu:
Algorithms for the MIMO Single Relay Channel. IEEE Trans. Wirel. Commun. 6(5): 1596-1600 (2007) - [j3]Volkan Rodoplu, Teresa H. Meng:
Core Capacity Region of Energy-Limited, Delay-Tolerant Wireless Networks. IEEE Trans. Wirel. Commun. 6(5): 1844-1853 (2007) - [j2]Min Kyoung Park, Volkan Rodoplu:
Core Capacity Region of Portable Wireless Networks. IEEE Trans. Wirel. Commun. 6(11): 3897-3901 (2007) - [c10]Min Kyoung Park, Volkan Rodoplu:
Energy Maps for Large-scale, Mobile Wireless Networks. ICC 2007: 3136-3141 - [c9]Volkan Rodoplu, Balakrishnan Srinivasan:
Folding: a method for semantic encoding of error-tolerant data. Underwater Networks 2007: 81-84 - [c8]Volkan Rodoplu, Snehal S. Vadvalkar:
Challenges and Directions for Semantic Communication. ICSC 2007: 290-294 - 2005
- [c7]Taehyuk Kang, Volkan Rodoplu:
Algorithms for the spatial single relay channel. ICC 2005: 2667-2673 - 2004
- [c6]Min Kyoung Park, Volkan Rodoplu:
Core capacity region of portable wireless networks. GLOBECOM 2004: 3783-3787 - 2003
- [c5]Volkan Rodoplu, Teresa H. Meng:
Growth of wireless ad hoc networks. GLOBECOM 2003: 2819-2823 - 2002
- [c4]Volkan Rodoplu, Teresa H. Meng:
Bits-per-joule capacity of energy-limited wireless ad hoc networks. GLOBECOM 2002: 16-20 - [c3]Volkan Rodoplu, Teresa H. Meng:
Core capacity region of energy-limited wireless ad hoc networks. ITW 2002: 207 - 2001
- [c2]Ozge H. Koymen, Volkan Rodoplu, Teresa H. Meng:
Throughput characteristics of a minimum energy wireless network. ICC 2001: 2568-2572
1990 – 1999
- 1999
- [j1]Volkan Rodoplu, Teresa H. Meng:
Minimum energy mobile wireless networks. IEEE J. Sel. Areas Commun. 17(8): 1333-1344 (1999) - 1998
- [c1]Volkan Rodoplu, Teresa H. Meng:
Minimum energy mobile wireless networks. ICC 1998: 1633-1639
Coauthor Index
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