Abstract
This paper investigates radio resource scheduling for a sectorized cellular co-operative network. A method based on a scheduling matrix is proposed and
implemented to get the optimal solution for resource block scheduling in a cellular network and the resulting optimal cases show three types of transmission: full cooperation, non-cooperation and 2/3 reuse. According to the results of the optimal solution, a low-complex location-based algorithm which aims to maximize the total network bandwidth efficiency is then proposed. The results from the proposed algorithm show that it can achieve nearly 99% of the optimal bandwidth efficiency whilst reducing the complexity significantly.
implemented to get the optimal solution for resource block scheduling in a cellular network and the resulting optimal cases show three types of transmission: full cooperation, non-cooperation and 2/3 reuse. According to the results of the optimal solution, a low-complex location-based algorithm which aims to maximize the total network bandwidth efficiency is then proposed. The results from the proposed algorithm show that it can achieve nearly 99% of the optimal bandwidth efficiency whilst reducing the complexity significantly.
| Original language | English |
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| Title of host publication | 2nd International Conference on Wireless Communication Systems and Networks (MIC-Wireless 2015) |
| Place of Publication | Barcelona |
| Publisher | Moshakara |
| Number of pages | 6 |
| Publication status | Published - 7 Aug 2015 |