MC Mobile Networking - chenyang03/Reading GitHub Wiki

Mobility and Networking

  • {Dovrolis08} Constantine Dovrolis. What would Darwin think about clean-slate architectures? SIGCOMM Comput. Commun., 2008, 38(1):29–34.
  • {Jacobson09} Van Jacobson, Diana K. Smetters, James D. Thornton, Michael F. Plass, Nicholas H. Briggs, and Rebecca L. Braynard. Networking Named Content. Proc. of ACM CoNEXT, 2009.
  • {Zhang11} Xin Zhang, Hsu-Chun Hsiao, Geoffrey Hasker, Haowen Chan, Adrian Perrig, David G. Andersen. SCION: Scalability, Control, and Isolation on Next-Generation Networks. IEEE S&P, 2011.
  • {Raychaudhuri12} Dipankar Raychaudhuri, Kiran Nagaraja, Arun Venkataramani. MobilityFirst: A Robust and Trustworthy MobilityCentric Architecture for the Future Internet. ACM SIGMobile Mobile Computing and Communication Review (MC2R), 2012, 16(3):2–13.
  • {Han12} Dongsu Han, Ashok Anand, Fahad Dogar, Boyan Li, Hyeontaek Lim, Michel Machado, Arvind Mukundan, Wenfei Wu, Aditya Akella, David G. Andersen, John W. Byers, Srinivasan Seshan and Peter Steenkiste. XIA: Efficient Support for Evolvable Internetworking. Proc. of NSDI, 2012.
  • {Wang12} Zhen Wang, Felix Xiaozhu Lin, Lin Zhong, Mansoor Chishtie. How far can client-only solutions go for mobile browser speed? Proc. of WWW, 2012.
  • {Kim12} Hyojun Kim, Moonkyung Ryu, and Umakishore Ramachandran. What is a good buffer cache replacement scheme for mobile flash storage? Proc. of ACM SIGMETRICS, 2012.
  • {Erman13} Jeffrey Erman, Vijay Gopalakrishnan, Rittwik Jana, and K. K. Ramakrishnan. Towards a SPDY'ier mobile web? Proc. of ACM CoNEXT, 2013.
  • {Chen13} Yung-Chih Chen, Yeon-sup Lim, Richard J. Gibbens, Erich M. Nahum, Ramin Khalili, and Don Towsley. A Measurement-based Study of MultiPath TCP Performance over Wireless Networks. Proc. of ACM IMC, 2013.
  • {El-khatib14} Yehia El-khatib, Gareth Tyson, Michael Welzl. Can SPDY really make the web faster? Proc. of IFIP Networking, 2014.
  • {Sharma14} Abhigyan Sharma, Xiaozheng Tie, Hardeep Uppal, Arun Venkataramani, David Westbrook, Aditya Yadav. A Global Name Service For A Highly Mobile Internet. Proc. of ACM SIGCOMM, 2014.
  • {Nikravesh15} Ashkan Nikravesh, Hongyi Yao, Shichang Xu, David Choffnes, Z. Morley Mao. Mobilyzer: An Open Platform for Controllable Mobile Network Measurements. Proc. of ACM MobiSys, 2015.
  • {Jun19} Byungjin Jun, Fabián E. Bustamante, Sung Yoon Whang, Zachary S. Bischof. AMP up your Mobile Web Experience: Characterizing the Impact of Google's Accelerated Mobile Project. Proc. of ACM MobiCom, 2019.
  • {Balanuta20} Artur Balanuta, Nuno Pereira, Swarun Kumar, Swarun Kumar. A Cloud-Optimized Link Layer for Low-Power Wide-Area Networks. Proc. of ACM MobiSys, 2020. present an approach called Opportunistic Packet Recovery (OPR) that targets the most likely corrupt bits across a set of packets that suffered failed CRCs at multiple LoRa LP-WAN base-stations
  • {Galisteo20} Ander Galisteo, Ambuj Varshney, Domenico Giustiniano. Two to Tango: Hybrid Light and Backscatter Networks for Next Billion Devices. Proc. of ACM MobiSys, 2020. a novel LiFi-RF communication system that addresses some of the fundamental roadblocks that impede the vision of battery-free communication
  • {Zhu20} Xiao Zhu, Xiao Zhu, Xumiao Zhang, Y. Ethan Guo, Feng Qian, Z. Morley Mao. MPBond: Efficient Network-level Collaboration Among Personal Mobile Devices. Proc. of ACM MobiSys, 2020. MPBond applies the concept of distributed multipath transport where multiple subflows can traverse different devices
  • {Chen22} Tuochao Chen, Justin Chan and Shyamnath Gollako. Underwater Messaging Using Mobile Devices. Proc. of ACM SIGCOMM, 2022. we design a communication system that in real-time adapts to differences in frequency responses across mobile devices, changes in multipath and noise levels at different locations and dynamic channel changes due to mobility
  • {Kosek22} Mike Kosek, Hendrik Cech, Vaibhav Bajpai, Jörg Ott. Exploring Proxying QUIC and HTTP/3 for Satellite Communication. Proc. of IFIP Networking, 2022.
  • {Yuan22} Xinjie Yuan, Mingzhou Wu, Zhi Wang, Yifei Zhu, Ming Ma, Junjian Guo, Zhi-Li Zhang, and Wenwu Zhu. Understanding 5G Performance for Real-world Services: a Content Provider’s Perspective. Proc. of ACM SIGCOMM, 2022.
  • {Yang22} Xinlei Yang, Hao Lin, Zhenhua Li, Feng Qian, Xingyao Li, Zhiming He, Xudong Wu, Xianlong Wang, Yunhao Liu, Zhi Liao, Daqiang Hu, Tianyin Xu. Mobile Access Bandwidth in Practice: Measurement, Analysis, and Implications. Proc. of ACM SIGCOMM, 2022.
  • {Zanella23} André Felipe Zanella, Antonio Bazco-Nogueras, Cezary Ziemlicki, and Marco Fiore. Characterizing and Modeling Session-Level Mobile Traffic Demands from Large-Scale Measurements. Proc. of ACM IMC, 2023.
  • {Zhang23} Zhibo Zhang, Huiqiang Wang, Hongwu Lv, Jiayu Sun, Guodong Li, Xin Han. CHAT: Accurate Network Latency Measurement for 5G E2E Networks. IEEE/ACM Transactions on Networking, 2023, 31(6):2854 - 2869.
  • {Ye24} Wei Ye, Xinyue Hu, Steven Sleder, Anlan Zhang, Udhaya Kumar Dayalan, Ahmad Hassan, Rostand A. K. Fezeu, Akshay Jajoo, Myungjin Lee, Eman Ramadan, Feng Qian, Zhi-Li Zhang. Dissecting Carrier Aggregation in 5G Networks: Measurement, QoE Implications and Prediction. Proc. of ACM SIGCOMM, 2024.