scope_d2d2.pdf

LAN 2 1. 5G 1. 5G 2. 1000 3. 4. mmwave 2. Bluetooth 1. Bluetooth 2. Bluetooth 3. 4. 3. MTC 1. MTC 2. MTC 3. MTC 4. MTC 5. MTC

1.1 5G 4G 5G [1] 1) a. 4G 1000 b. 5% 100Mbps 4G 100 a. 10Gbps 1.1 5G 2) 4G 15ms 5G 1ms 3) 5G M2M[] 1 10000

1.1 5G 4) 4G 100 bit 100 1 mmwavespectrum 10-100 10-100 5) 5G 4G BS 1.2 1000 a. [2] b. mmwave WiFi 5GHz c. MIMO

1.3 1980 km km BS 1.3 [3] LTE WiFi 100

1.4 mmwave 30GHz 300GHz 10mm 30GHz 1mm 300GHz 1.7GHz 2GHz LAN 1Gbps 2.1 Bluetooth [4] m 30 Bluetooth

2.1 Bluetooth Bluetooth IoT M2M[5] D2D[6][7] M2M Bluetooth M2M IoT Bluetoth Special Interest Group(SIG) Buletooth4.0 4.1 Bletooth 2.2 Bluetooth [4] [4] KUOR-HSIN CHANG and CHANG CONSULTING, BLUETOOTH: A VIABLE SOLUTION FOR IOT?, IEEE Communications Surveys & Tutorials, pp.61-76, Dec. 2014.

2.3 advertising channel 2 data channel [4] [4] KUOR-HSIN CHANG and CHANG CONSULTING, BLUETOOTH: A VIABLE SOLUTION FOR IOT?, IEEE Communications Surveys & Tutorials, pp.61-76, Dec. 2014. 2.4 IP [4] [4] KUOR-HSIN CHANG and CHANG CONSULTING, BLUETOOTH: A VIABLE SOLUTION FOR IOT?, IEEE Communications Surveys & Tutorials, pp.61-76, Dec. 2014.

3.1 MTC [8] MTC - 3.2 MTC MTC MTC human-to-human(h2h) MTC MTC MTC 3GPP 5G 3GPP MTC LTE

3.3 MTC MTC IoT IEEE802.11ah WiFi MTC LTE MTC 3.4 MTC 4G 5G MTCG(MTC gateways) 4G MTCG 5G [8] [8] Hamidreza Shariatmadari, Rapeepat Ratasuk, Sassan Iraji, Andrés Laya, Tarik Taleb, Riku Jäntti, and Amitava Ghosh, MACHINE-TYPE COMMUNICATIONS: CURRENT STATUS AND FUTURE PERSPECTIVES TOWARD 5G SYSTEMS, IEEE Communications Magazine, pp.10-17, Sep. 2015.

3.5 MTC MTC 5 [8] [8] Hamidreza Shariatmadari, Rapeepat Ratasuk, Sassan Iraji, Andrés Laya, Tarik Taleb, Riku Jäntti, and Amitava Ghosh, MACHINE-TYPE COMMUNICATIONS: CURRENT STATUS AND FUTURE PERSPECTIVES TOWARD 5G SYSTEMS, IEEE Communications Magazine, pp.10-17, Sep. 2015. 3.5 MTC Meteing control and monitoring service tracking payment Security and public safety

[1] J. G. Andrews, S. BuZZi, W. Choi, S. V. Hanly, A. Lozano, A. C. K. Soong and J. C. Zhang, What Will 5G Be?, IEEE Journal on Selected Areas in Communications, pp.1065-1082, June. 2014. [2] Lin Gao, Iosifidis, G. Jianwei Huang, Tassiulas and L. Duozhe Li, Bargaining-Based Mobile Data Offloading, IEEE Journal on Selected Areas in Communications, pp.1114-1125, June. 2014. [3] Galinina, O. Pyattaev, A. Andreev, S. Dohler and M. Koucheryavy, 5G Multi-RAT LTE-WiFi Ultra- Dense Small Cells:Performance Dynamics, Architecture, and Trends, IEEE Journal on Selected Areas in Communications, pp.1224-1240, June. 2015. [4] KUOR-HSIN CHANG and CHANG CONSULTING, BLUETOOTH: A VIABLE SOLUTION FOR IOT?, IEEE Communications Surveys & Tutorials, pp.61-76, Dec. 2014. [5] Jaewoo Kim, Jaiyong Lee, Jaeho Kim and Jaeseok Yun, M2M Service Platforms: Survey, Issues, and Enabling Technologies, IEEE Wireless Communications, pp.6-7, Oct. 2013. [6] Yue Wu, Wuling Liu, Siyi Wang, Weisi Guo and Xiaoli Chu, Network Coding in Device-to-device (D2D) Communications Underlaying Cellular Networks, IEEE International Conference on ICC, pp.2072-2077, June. 2015. [7] Daquan Feng, Lu Lu, Yi Yuan-Wu, Geoffrey Ye Li, Gang Feng, and Shaoqian Li, Device-to-Device Communications Underlaying Cellular Networks, IEEE TRANSACTIONS ON COMMUNICATIONS, pp.3541-3550, Aug. 2013. [8] Hamidreza Shariatmadari, Rapeepat Ratasuk, Sassan Iraji, Andrés Laya, Tarik Taleb, Riku Jäntti, and Amitava Ghosh, MACHINE-TYPE COMMUNICATIONS: CURRENT STATUS AND FUTURE PERSPECTIVES TOWARD 5G SYSTEMS, IEEE Communications Magazine, pp.10-17, Sep. 2015.