5G

Brief Description of Research


With the fourth generation (4G) wireless/mobile systems commercialized, new application scenarios such as the

Internet of Things, cloud computing, big data, and ultra-high-definition multimedia have become important parts

of our daily life. This implies that the number of wireless devices and the amount of data transmission are getting

higher and higher. To meet future more stringent requirements in terms of the data rate, system capacity, energy

consumption, latency, and so on, development/standardization of 5G wireless/mobile systems is now in full swing.

This research group focuses on development of potential baseband technologies for 5G or beyond 5G systems,

including

 

1. non-orthogonal multiple access (NOMA)

2. multicarrier transmission

3. massive multiple-input multiple-output (massive MIMO)

4. cooperative communications

5. interference cancellation/management

6. modulation/coding

7. channel estimation

8. synchronization

9. energy saving communications

 

 

 

Faculty members in the 5G group

*Prof. Chin-Liang WangProf. Chong-Yung ChiProf. Chi-chao ChaoProf. Yuh-Ren Tsai

  Prof. Kai-Ming FengProf. Jen-Ming WuProf. Hsi-Pin MaProf. Yuan-Hao Huang

  Prof. Yeong-Luh UengProf. Yao-Win (Peter) HongProf. Che Lin

*Coordinator)

 

Projects

1. Project NameDevelopment of Advanced Multiple Access Technologies for Wireless Communications

  Project MembersProf. Chin-Liang WangProf. Yuh-Ren TsaiProf. Jen-Ming Wu

                                  Prof. Yeong-Luh UengProf. Yao-Win (Peter) Hong

  Project PeriodNovember 2015July 2017

 

Publications

1. Chin-Liang Wang, Jyun-Yu Chen, and Yi-Hsuan Peng, “Relay precoder designs for two-way amplify-and-

    forward MIMO relay systems: An eigenmode-selection approach,” IEEE Transactions on Wireless 

    Communications, vol. 15, no. 7, pp. 5127-5137, July 2016.

2. Shi-Yong Lee, Chia-Yu Liu, Min-Kuan Chang, De-Nian Yang, and Y.-W. Peter Hong, “Cooperative

    multicasting in renewable energy enhanced relay networks ─ Expending more power to save energy,” IEEE

    Transactions on Wireless Communications, vol. 15, no. 1, pp. 753-768, Jan. 2016. 

3. Huang-Chang Lee and Yeong-Luh Ueng, “LDPC decoding scheduling for faster convergence and lower error

    floor,” IEEE Transactions on Communications, vol. 62, no.9, pp. 3104-3113, Sept. 2014.

4. Hsin-Jui Chou, Che-Chen Chou, Jen-Ming Wu, and Ronald Y. Chang, “On the achievable degrees of freedom

    of two-cell multiuser MIMO interference networks,” IEEE Transactions on Communications, vol. 62, no. 8 pp.

    2880-2893, Aug. 2014.

5. Yuh-Ren Tsai, Hao-Yun Huang, Yen-Chen Chen, and Kai-Jie Yang, “Simultaneous multiple carrier frequency

    offsets estimation for coordinated multi-point transmission in OFDM systems,” IEEE Transactions on Wireless

    Communications, vol. 12, no. 9, pp. 4558-4568, Sept. 2013.