| 2 | -- | 0 | Mohsen Guizani. Editor's Note |
| 4 | -- | 5 | Xiaohua Tian. Scanning the Literature |
| 6 | -- | 7 | David Soldani, Y. Jay Guo, Bernard Barani, Preben Mogensen, Chih-Lin I, Sajal K. Das. 5G for Ultra-Reliable Low-Latency Communications |
| 8 | -- | 15 | Guillermo Pocovi, Hamidreza Shariatmadari, Gilberto Berardinelli, Klaus I. Pedersen, Jens Steiner, Zexian Li. Achieving Ultra-Reliable Low-Latency Communications: Challenges and Envisioned System Enhancements |
| 16 | -- | 23 | Petar Popovski, Jimmy Jessen Nielsen, Cedomir Stefanovic, Elisabeth de Carvalho, Erik G. Ström, Kasper F. Trillingsgaard, Alexandru-Sabin Bana, Dong-Min Kim, Radoslaw Kotaba, Jihong Park, René B. Sørensen. Wireless Access for Ultra-Reliable Low-Latency Communication: Principles and Building Blocks |
| 24 | -- | 31 | Joachim Sachs, Gustav Wikstrom, Torsten Dudda, Robert Baldemair, Kittipong Kittichokechai. 5G Radio Network Design for Ultra-Reliable Low-Latency Communication |
| 32 | -- | 40 | Jaya Rao, Sophie Vrzic. Packet Duplication for URLLC in 5G: Architectural Enhancements and Performance Analysis |
| 41 | -- | 47 | Hyun-Seo Park, Yuro Lee, Tae Joong Kim, Byung-Chul Kim, Jae-Yong Lee. Handover Mechanism in NR for Ultra-Reliable Low-Latency Communications |
| 48 | -- | 54 | Ingo Viering, Henrik Martikainen, Andreas Lobinger, Bernhard Wegmann. Zero-Zero Mobility: Intra-Frequency Handovers with Zero Interruption and Zero Failures |
| 55 | -- | 61 | Amitav Mukherjee. Energy Efficiency and Delay in 5G Ultra-Reliable Low-Latency Communications System Architectures |
| 62 | -- | 68 | Yulin Hu, Mustafa Cenk Gursoy, Anke Schmeink. Relaying-Enabled Ultra-Reliable Low-Latency Communications in 5G |
| 70 | -- | 77 | Gordon J. Sutton, Jie Zeng, Ren Ping Liu, Wei Ni, Diep N. Nguyen, Beeshanga Abewardana Jayawickrama, Xiaojing Huang, Mehran Abolhasan, Zhang Zhang. Enabling Ultra-Reliable and Low-Latency Communications through Unlicensed Spectrum |
| 78 | -- | 84 | Mohammed Saad ElBamby, Cristina Perfecto, Mehdi Bennis, Klaus Doppler. Toward Low-Latency and Ultra-Reliable Virtual Reality |
| 85 | -- | 91 | Jens Pilz, Bernd Holfeld, Axel Schmidt 0004, Konstantin Septinus. Professional Live Audio Production: A Highly Synchronized Use Case for 5G URLLC Systems |
| 92 | -- | 99 | Mowei Wang, Yong Cui 0001, Xin Wang 0001, Shihan Xiao, Junchen Jiang. Machine Learning for Networking: Workflow, Advances and Opportunities |
| 100 | -- | 106 | Shuai Han, Sai Xu, Weixiao Meng, Cheng Li 0005. Dense-Device-Enabled Cooperative Networks for Efficient and Secure Transmission |
| 107 | -- | 113 | Yan Huang, Yongce Chen, Y. Thomas Hou, Wenjing Lou, Jeffrey H. Reed. Recent Advances of LTE/WiFi Coexistence in Unlicensed Spectrum |
| 114 | -- | 119 | Kaoru Ota, Mianxiong Dong, Jinsong Gui, Anfeng Liu. QUOIN: Incentive Mechanisms for Crowd Sensing Networks |
| 120 | -- | 125 | Chih-Min Yu, En-Li Lin. Reliable Formation Protocol for Bluetooth Hybrid Single-hop and Multi-hop Networks |
| 126 | -- | 131 | Kaigui Bian, Gaoxiang Zhang, Lingyang Song. Toward Secure Crowd Sensing in Vehicle-to-Everything Networks |
| 132 | -- | 137 | Jie Wang 0003, Qinhua Gao, Miao Pan, Yuguang Fang. Device-Free Wireless Sensing: Challenges, Opportunities, and Applications |
| 138 | -- | 143 | Yuchao Zhang, Ke Xu 0002, Haiyang Wang, Qi Li, Tong Li 0014, Xuan Cao. Going Fast and Fair: Latency Optimization for Cloud-Based Service Chains |
| 144 | -- | 151 | Jun-Bo Wang, Junyuan Wang, Yongpeng Wu, Jin-Yuan Wang, Huiling Zhu, Min Lin, Jiangzhou Wang. A Machine Learning Framework for Resource Allocation Assisted by Cloud Computing |
| 152 | -- | 160 | Fuhui Zhou, Yongpeng Wu, Rose Qingyang Hu, Yuhao Wang, Kat Kit Wong. Energy-Efficient NOMA Enabled Heterogeneous Cloud Radio Access Networks |