Energy-efficient resource allocation for ultra-dense licensed and unlicensed dual-access small cell networks
In this study, an energy-efficient self-organized framework for sub-channel allocation and
power allocation is presented for ultra-dense small cell networks, which can operate in both …
power allocation is presented for ultra-dense small cell networks, which can operate in both …
Energy-Efficient Resource Allocation for Ultra-Dense Licensed and Unlicensed Dual-Access Small Cell Networks
A Shahid, V Maglogiannis, I Ahmed… - IEEE Transactions …, 2021 - nchr.elsevierpure.com
In this study, an energy-efficient self-organized framework for sub-channel allocation and
power allocation is presented for ultra-dense small cell networks, which can operate in both …
power allocation is presented for ultra-dense small cell networks, which can operate in both …
Energy-efficient resource allocation for ultra-dense licensed and unlicensed dual-access small cell networks
A Shahid, V Maglogiannis, I Ahmed, KS Kim… - IEEE …, 2021 - biblio.ugent.be
In this study, an energy-efficient self-organized framework for sub-channel allocation and
power allocation is presented for ultra-dense small cell networks, which can operate in both …
power allocation is presented for ultra-dense small cell networks, which can operate in both …
Energy-Efficient Resource Allocation for Ultra-Dense Licensed and Unlicensed Dual-Access Small Cell Networks
A Shahid, V Maglogiannis, I Ahmed… - IEEE Transactions …, 2021 - yonsei.elsevierpure.com
In this study, an energy-efficient self-organized framework for sub-channel allocation and
power allocation is presented for ultra-dense small cell networks, which can operate in both …
power allocation is presented for ultra-dense small cell networks, which can operate in both …
[引用][C] Energy-Efficient Resource Allocation for Ultra-Dense Licensed and Unlicensed Dual-Access Small Cell Networks
A Shahid, V Maglogiannis, I Ahmed, KS Kim… - 2021 - imec-publications.be
In this study, an energy-efficient self-organized framework for sub-channel allocation and
power allocation is presented for ultra-dense small cell networks, which can operate in both …
power allocation is presented for ultra-dense small cell networks, which can operate in both …
Energy-Efficient Resource Allocation for Ultra-Dense Licensed and Unlicensed Dual-Access Small Cell Networks
A Shahid, V Maglogiannis, I Ahmed, KS Kim… - IEEE Transactions on …, 2021 - computer.org
In this study, an energy-efficient self-organized framework for sub-channel allocation and
power allocation is presented for ultra-dense small cell networks, which can operate in both …
power allocation is presented for ultra-dense small cell networks, which can operate in both …