Erdem Bala scite author profile

The 3rd Generation Partnership Project (3GPP) recently started standardizing the "Licensed-Assisted Access using LTE" for small cells, referred to as Dual Band Femtocell (DBF) in this paper, which uses LTE air interface in both licensed and unlicensed bands based on the Long Term Evolution (LTE) carrier aggregation feature. Alternatively, the Small Cell Forum introduced the Integrated Femto-WiFi (IFW) small cell which simultaneously accesses both the licensed band (via cellular interface) and the unlicensed band (via WiFi interface). In this paper, a practical algorithm for IFW and DBF to automatically balance their traffic in licensed and unlicensed bands, based on the realtime channel, interference and traffic conditions of both bands is described. The algorithm considers the fact that some "smart" devices (sDevices) have both cellular and WiFi radios while some WiFi-only devices (wDevices) may only have WiFi radio. In addition, the algorithm considers a realistic scenario where a single small cell user may simultaneously use multiple sDevices and wDevices via either the IFW, or the DBF in conjunction with a Wireless Local Area Network (WLAN). The goal is to maximize the total user satisfaction/utility of the small cell user, while keeping the interference from small cell to macrocell below predefined thresholds. The algorithm can be implemented at the Radio Link Control (RLC) or the network layer of the IFW and DBF small cell base stations. Results demonstrate that the proposed traffic-balancing algorithm applied to either IFW or DBF significantly increases sum utility of all macrocell and small cell users, compared with the current practices. Finally, various implementation issues of IFW and DBF are addressed.

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Improving small cell capacity with common-carrier full duplex radios

Goyal

Liu

Panwar

et al. 2014

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Abstract-Recent progress in establishing the capability of radios to operate in full duplex mode on a single channel has been attracting growing attention from many researchers. We extend this work by considering the application to small cells, in particular resource-managed cellular systems similar to the TDD variant of LTE. We derive conditions where full duplex operation provides improved throughput compared to half duplex for a single cell scenario. We present a hybrid scheduler that defaults to half duplex operation but can assign full duplex timeslots when it is advantageous to do so. We compare the performance of such a scheduler with a traditional half duplex scheduler in terms of throughput and energy efficiency. Our simulation results show that we achieve as much as 81% of the capacity doubling promised by full duplex, with limitations deriving from interference effects specific to full duplex operation.

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Flexible DFT-S-OFDM: Solutions and Challenges

et al. 2016

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Shaping Spectral Leakage: A Novel Low-Complexity Transceiver Architecture for Cognitive Radio

Bala

Yang

2013

IEEE Veh. Technol. Mag.

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Erdem Bala

Full duplex cellular systems: will doubling interference prevent doubling capacity?

Small-Cell Traffic Balancing Over Licensed and Unlicensed Bands

Improving small cell capacity with common-carrier full duplex radios

Flexible DFT-S-OFDM: Solutions and Challenges

Shaping Spectral Leakage: A Novel Low-Complexity Transceiver Architecture for Cognitive Radio

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