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Device-to-Device Communication in Cellular Networks Speaker: Tsung-Han Chiang Date: Feb. 24, 2011 1.

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Presentation on theme: "Device-to-Device Communication in Cellular Networks Speaker: Tsung-Han Chiang Date: Feb. 24, 2011 1."— Presentation transcript:

1 Device-to-Device Communication in Cellular Networks Speaker: Tsung-Han Chiang Date: Feb. 24, 2011 1

2 Papers Resource Sharing Optimization for Device-to-Device Communication Underlaying Cellular Networks IEEE Transactions on Wireless Communication, Vol. 10, No. 8, August 2011 Resource Allocation Optimization for Device-to-Device Communication Underlaying Cellular Networks IEEE 73 rd Vehicular Technology Conference Spring 2011 Device-to-Device Communication in Cellular Networks Using Fractional Frequency Reuse 2011 17 th Asia-Pacific Conference on Communications (APCC) 2

3 Papers Resource Sharing Optimization for Device-to-Device Communication Underlaying Cellular Networks IEEE Transactions on Wireless Communication, Vol. 10, No. 8, August 2011 Resource Allocation Optimization for Device-to-Device Communication Underlaying Cellular Networks IEEE 73 rd Vehicular Technology Conference Spring 2011 Device-to-Device Communication in Cellular Networks Using Fractional Frequency Reuse 2011 17 th Asia-Pacific Conference on Communications (APCC) 3

4 Introduction There is an increasing requirement for local communication, such as games between mobile phones, video sharing, and information broadcast in hot spot area like market. The D2D communication reduces the transmit power of terminal, which increases the working time of terminal and improves the energy efficiency. The D2D communication can decrease the load of base station via direct transportation. The D2D communication has the advantage that licensed spectrum is allocated to local communication. 4

5 Introduction The BS is capable of coordinating the interference between cellular communication and D2D communication by proper power control and resource allocation with the channel state information (CSI) of all involved links. In prior studies, one D2D pair reused the resource of only one cellular user whenever there was one or more cellular user in the system. In actual networks, cellular users are more than D2D pairs generally, so the spectrum is not used efficiently when one D2D pair reuses the resource of only one cellular user. 5

6 The authors assume that the BS has the CSI of all involved links. The available resources are allocated to the cellular users and the D2D pair based on the CSI. 6 System Model

7 7

8 Resource Allocation Algorithm By applying the Shannon capacity formula, the sum throughput of cellular communication and D2D communication of the four methods can be expressed as: 8

9 Numerical Simulation 9

10 10

11 Numerical Simulation 11

12 Papers Resource Sharing Optimization for Device-to-Device Communication Underlaying Cellular Networks IEEE Transactions on Wireless Communication, Vol. 10, No. 8, August 2011 Resource Allocation Optimization for Device-to-Device Communication Underlaying Cellular Networks IEEE 73 rd Vehicular Technology Conference Spring 2011 Device-to-Device Communication in Cellular Networks Using Fractional Frequency Reuse 2011 17 th Asia-Pacific Conference on Communications (APCC) 12

13 Introduction In order to accommodate huge multimedia traffic, capacity of cellular networks should be enhanced by extending available frequency band or deploying new eNBs. In pre-existing cellular networks, eNB should relay UE’s data even though users located in same cell coverage communicate with each other. Pre-existing communication increases communication delay and offered load to eNB because of densely crowded user. 13

14 Introduction However, D2D UEs may generate high interference to eNB relaying UEs located in their communication areas if they use the same spectrum with the eNB relaying UEs for data transmission. 14

15 Preliminaries Performance of the cellular network, such as channel quality of UEs in cell outer region, is primarily affected by inter-cell interference (ICI). In frequency reuse factor (FRF) of one, since every cell uses same frequency band for data transmission, serious interference to UEs in cell outer region can be generated from neighboring cell. The simplest way to alleviate ICI is to use FRF greater than one. However, it may decrease spatial spectrum efficiency of the cellular network. 15

16 Preliminaries Inter-cell interference coordination (ICIC) can be classified into dynamic ICIC scheme and static ICIC scheme. The dynamic ICIC scheme coordinates interference between adjacent cells by dynamically allocating radio resource and adjusting transmission power of eNB. The static ICIC scheme such as fractional frequency reuse (FFR) statically determines the radio resources used for cell inner and cell outer regions to avoid interference between neighboring cells. 16

17 Proposed Scheme 17

18 Performance Evaluation 18

19 Performance Evaluation 19

20 Performance Evaluation 20

21 Conclusion Mobility Scalable Interference between D2D links Broadcast and multicast 21


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