Gülnur Selda Uyanık scite author profile

Gülnur Selda Uyanık

5Publications

50Citation Statements Received

19Citation Statements Given

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Affiliations

Maxim Integrated (United Kingdom), Istanbul Technical University

Publications

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Optimal guard-band-aware channel assignment with bonding and aggregation in multi-channel systems

Uyanık

Abdel-Rahman

Krunz

2013

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Abstract-Channel assignment mechanisms in multi-channel wireless networks are often designed without accounting for adjacent-channel interference (ACI). To prevent such interference between different users in a network, guard-bands (GBs) are needed. Introducing GBs has a significant impact on spectrum efficiency. In this paper, we present a channel assignment mechanism that aims at maximizing the spectrum efficiency. More specifically, this mechanism attempts to minimize the amount of additional GB-related spectrum that is needed to accommodate a new link. Furthermore, inline with the IEEE 802.11n and the upcoming IEEE 802.11ac standards, our assignment mechanism supports channel bonding, and more generally, channel aggregation. We formulate the optimal ACI-aware channel assignment that maximizes the spectrum efficiency, while supporting channel bonding and aggregation, as a subset-sum problem. An exact exponential-time dynamic programming (DP) algorithm, a polynomial-time greedy heuristic, and an -approximation are proposed and compared. Results reveal a considerable improvement in spectrum efficiency achieved by the proposed algorithms compared to the recent work in the literature.

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Cognitive channel selection and scheduling for multi-channel dynamic spectrum access networks considering QoS levels

Uyanık

Oktuğ

2017

Ad Hoc Networks

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Optimal channel assignment with aggregation in multi-channel systems: A resilient approach to adjacent-channel interference

2014

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Predictive spectrum decision mechanisms in Cognitive Radio Networks

Uyanık

Canberk

Oktuğ

2012

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A QoS based cooperative spectrum utilization in cognitive radio networks

Uyanık

Oktuğ

2012

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