Haichuan Ding
University of Michigan
66 Papers
180 Citations
Haichuan Ding is an academic researcher from University of Michigan. The author has contributed to research in topics: Computer science & Cognitive radio. The author has an hindex of 12, co-authored 52 publications. Previous affiliations of Haichuan Ding include University of Florida & University of Macau.
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Papers
Beef Up the Edge: Spectrum-Aware Placement of Edge Computing Services for the Internet of Things
TL;DR: This paper introduces a network entity called point of connection (PoC), which is equipped with customized powerful communication, computing, and storage (CCS) capabilities, and designs a data transportation network (DART) of interconnected PoCs to facilitate the provision of Internet of Things (IoT) services.
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Users First: Service-Oriented Spectrum Auction With a Two-Tier Framework Support
TL;DR: This paper proposes a novel multi-round service-oriented combinatorial spectrum auction with two-tier framework support, and formulate the bidding process at the SSP as an optimization problem by considering interference management, spectrum uncertainty, flow routing, and budget allowance.
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Augmenting Transmission Environments for Better Communications: Tunable Reflector Assisted MmWave WLANs
TL;DR: This paper proposes an innovative idea to proactively manipulate, reconfigure, and augment wireless transmission environments to better support end-to-end services, and devise a novel adaptive mechanism, mmRef, to enable the implementation of tunable reflectors in mmWave WLANs.
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Feasible D2D communication distance in D2D-enabled cellular networks
Haichuan Ding,Shaodan Ma,Chengwen Xing +2 more
- 01 Nov 2014
TL;DR: The analytical result theoretically justifies the traffic offloading function of D2D communications and shows that D1D communications is applicable especially for modern cellular communication networks where base stations are densely deployed.
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Analysis of HARQ-IR Over Time-Correlated Rayleigh Fading Channels
TL;DR: It is proved that full diversity can be achieved by HARQ-IR, i.e., the diversity order is equal to the number of transmissions, even under time-correlated fading channels, and significant LTAT improvement is demonstrated.
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