DocumentCode
672481
Title
Interference-adapted scheduling weight for small-cell in heterogeneous network
Author
Inage, Kei ; Fujii, Teruya
Author_Institution
AWCC, Univ. of Electro-Commun., Chofu, Japan
fYear
2013
fDate
8-9 Sept. 2013
Firstpage
184
Lastpage
188
Abstract
A Heterogeneous Network (HetNet) is the mixture network consisted of pico cell, femto cell and relay network in addition to macro cell. A home eNodeB (HeNB) overlays smaller coverage to the macro cell coverage in order to support the local high traffic of Macro eNodeB (MeNB) by off-loading the traffic to the HeNB. In the view point of the spectral efficiency, the frequency band of the HeNB is designed using the same band of the MeNB. However, the inter-cell interference between the MeNB and the HeNB gives harmful effects to both communication qualities of two cells. The performance degradation of the MeNB communication can be avoided by the transmit power control of the HeNB under the interference constraint at Macro User Equipments (MUEs). On the other hand, it is difficult to improve the communication quality of the Home User Equipment (HUE) by the transmit power control or the power allocation, since the transmit power of the HeNB is restricted according to the interference constraint. In addition, the HeNB and the HUE should communicate in the interference environment. Hence, HeNB has to achieve the efficient spectrum access by scheduling without the transmit power control. Therefore, we propose an adaptive interference scheduling for small cell in the HetNet without increasing the feedback information compared with the Proportional Fair Scheduling. Through the computer simulation, we show the effectiveness of the proposed scheduling.
Keywords
cellular radio; radiofrequency interference; telecommunication traffic; HUE; HeNB; HetNet; MUE; MeNB; communication qualities; communication quality; computer simulation; feedback information; femto cell; heterogeneous network; home eNodeB; home user equipment; intercell interference; interference constraint; interference-adapted scheduling weight; local high traffic; macro cell; macro eNodeB; macro user equipments; pico cell; power allocation; power control; proportional fair scheduling; relay network; small-cell; spectral efficiency; spectrum access; traffic offloading; Equations; Interference; Mathematical model; Measurement; Power control; Signal to noise ratio; Throughput;
fLanguage
English
Publisher
ieee
Conference_Titel
Personal, Indoor and Mobile Radio Communications (PIMRC Workshops), 2013 IEEE 24th International Symposium on
Conference_Location
London
Type
conf
DOI
10.1109/PIMRCW.2013.6707861
Filename
6707861
Link To Document