Space-Time Line Code (STLC)
STLC is a new spatial diversity technique that is fully symmetric to a space-time block code (STBC)
Basic configuration is 1x2 (full-rate & full-diversity gain), which can be directly extended to Mx2 (full-rate & full-diversity gain). Also, there exist Mx3 and Mx4 STLC codes
Full CSI is required at Tx, whereas partial/no CSI is required at Rx
Wiki: space time code
Citation: files download from STLC_ref.tex ; STLC.bib
STLC_ref.tex
\documentclass[draftjournal,twoside,10pt,final]{IEEEtran}
\usepackage{cite}
\begin{document}
\title{References of STLC} \maketitle
\cite{Jo18a}, \cite{Jo18b}, \cite{Jo18c}, \cite{JoJe18}, \cite{JoCh18}, \cite{JoChJuYu21}, \cite{JoCh19}, \cite{JoJu19}, \cite{JoJuCh19}, \cite{JoChJu20}, \cite{Jo20}, \cite{SeJiJoJu20}, \cite{JoCh20}, \cite{LiJo21}, \cite{YuJo21}, \cite{JoYuZh21}, \cite{JoFa21}, \cite{ChJoJu21}, \cite{KiJoLi22}, \cite{LiJo22a}, \cite{ChJoCh22}, \cite{LeYeJoJu22}, \cite{ChJo22a}, \cite{LeJoJu22}, \cite{ChJo22b}, \cite{LiJo22b}, \cite{KiChJoLi22}, \cite{JoFa22}, \cite{KiYuKaJo22}, \cite{JoJeOh23}, \cite{YoYeJoJu23}, \cite{KiLeLeKiJoKi23}, \cite{JoYu23}
\bibliographystyle{IEEEtran}
\bibliography{STLC}
\end{document}
STLC.bib
@ARTICLE{Jo18a,
author={Joung, Jingon},
journal={IEEE Access},
title={Space–Time Line Code},
year={2018},
month=feb,
volume={6},
number={},
pages={1023-1041},
doi={10.1109/ACCESS.2017.2777528}}
@ARTICLE{Jo18b,
author={Joung, Jingon},
journal={IEEE Access},
title={Space–Time Line Code for Massive {MIMO} and Multiuser Systems With Antenna Allocation},
year={2018},
month=feb,
volume={6},
number={},
pages={962-979},
doi={10.1109/ACCESS.2017.2777102}}
@ARTICLE{Jo18c,
author={Joung, Jingon},
journal={IEEE Access},
title={Energy Efficient Space–Time Line Coded Regenerative Two-Way Relay Under Per-Antenna Power Constraints},
year={2018},
month=sep,
volume={6},
number={},
pages={47026-47035},
doi={10.1109/ACCESS.2018.2866925}}
@ARTICLE{JoJe18,
author={Joung, Jingon and Jeong, Eui-Rim},
journal={IEEE Access},
title={Multiuser Space–Time Line Code With Optimal and Suboptimal Power Allocation Methods},
year={2018},
month=oct,
volume={6},
number={},
pages={51766-51775},
doi={10.1109/ACCESS.2018.2869940}}
@ARTICLE{JoCh18,
author={Joung, Jingon and Choi, Jihoon},
journal={IEEE Access},
title={Uneven Power Amplifier Shuffling for Space-Time Line Code Systems},
year={2018},
month=oct,
volume={6},
number={},
pages={58491-58500},
doi={10.1109/ACCESS.2018.2875146}}
@ARTICLE{JoChJuYu21,
AUTHOR = {J. Joung and J. Choi and B. C. Jung and S. Yu},
TITLE = {Artificial noise injection and its power loading methods for secure space--time line coded systems},
JOURNAL = {Entropy},
VOLUME = {21},
YEAR = {2019},
month = may,
NUMBER = {5},
pages = "1-12",
doi = {doi: 10.3390/e21050515}}
@ARTICLE{JoCh19,
author={Joung, Jingon and Choi, Jihoon},
journal={IEEE Transactions on Vehicular Technology},
title={Space–Time Line Codes With Power Allocation for Regenerative Two-Way Relay Systems},
year={2019},
month=may,
volume={68},
number={5},
pages={4884-4893},
doi={10.1109/TVT.2019.2905992}}
@ARTICLE{JoJu19,
author={Joung, Jingon and Jung, Bang Chul},
journal={IEEE Transactions on Vehicular Technology},
title={Machine Learning Based Blind Decoding for Space–Time Line Code {(STLC)} Systems},
year={2019},
month=may,
volume={68},
number={5},
pages={5154-5158},
doi={10.1109/TVT.2019.2905622}}
@ARTICLE{JoJuCh19,
author={J. {Joung} and B. C. {Jung} and J. {Choi}},
journal={IET Electronics Letters},
title={Space--time line coded regenerative two-way relay systems with power control},
year={2019},
month=jun,
volume={55},
number={12},
pages={694-696},
doi ={10.1049/el.2019.0541}}
@ARTICLE{JoChJu20,
author={Joung, Jingon and Choi, Jihoon and Jung, Bang Chul},
journal={IEEE Transactions on Vehicular Technology},
title={Double Space–Time Line Codes},
year={2020},
month=feb,
volume={69},
number={2},
pages={2316-2321},
doi={10.1109/TVT.2019.2958666}}
@ARTICLE{Jo20,
author={Joung, Jingon},
journal={IEEE Access},
title={Random Space–Time Line Code With Proportional Fairness Scheduling},
year={2020},
month=feb,
volume={8},
number={},
pages={35253-35262},
doi={10.1109/ACCESS.2020.2975133}}
@ARTICLE{SeJiJoJu20,
author={Seo, Jun-Bae and Jin, Hu and Joung, Jingon and Jung, Bang Chul},
journal={IEEE Transactions on Vehicular Technology},
title={Uplink {NOMA} Random Access Systems With Space–Time Line Code},
year={2020},
month=apr,
volume={69},
number={4},
pages={4522-4526},
doi={10.1109/TVT.2020.2974460}}
@ARTICLE{JoCh20,
author={Joung, Jingon and Choi, Jihoon},
journal={IEEE Access},
title={Multiuser Space–Time Line Code With Transmit Antenna Selection},
year={2020},
month=apr,
volume={8},
number={},
pages={71930-71939},
doi={10.1109/ACCESS.2020.2987068}}
@ARTICLE{LiJo21,
author={Lim, Seung-Chan and Joung, Jingon},
journal={IEEE Transactions on Communications},
title={Transmit Antenna Selection for Space–Time Line Code Systems},
year={2021},
month=feb,
volume={69},
number={2},
pages={786-798},
doi={10.1109/TCOMM.2020.3036655}}
@ARTICLE{YuJo21,
author={Yu, Heejung and Joung, Jingon},
journal={IEEE Systems Journal},
title={Frame Structure Design for Vehicular-to-Roadside Unit Communications Using Space–Time Line Code Under Time-Varying Channels},
year={2021},
month=jun,
volume={15},
number={2},
pages={3150-3153},
doi={10.1109/JSYST.2020.3011027}}
@ARTICLE{JoYuZh21,
author={Joung, Jingon and Yu, Heejung and Zhao, Jian},
journal={IEEE Systems Journal},
title={Bandwidth Design for Energy-Efficient Unmanned Aerial Vehicle Using Space–Time Line Code},
year={2021},
month=jun,
volume={15},
number={2},
pages={3154-3157},
doi={10.1109/JSYST.2020.3012281}}
@ARTICLE{JoFa21,
author={Joung, Jingon and Fan, Jiancun},
journal={IEEE Access},
title={Over-the-Air Computation Strategy Using Space–Time Line Code for Data Collection by Multiple Unmanned Aerial Vehicles},
year={2021},
month=jul,
volume={9},
number={},
pages={105230-105241},
doi={10.1109/ACCESS.2021.3099906}}
@ARTICLE{ChJoJu21,
author={Choi, Jihoon and Joung, Jingon and Jung, Bang Chul},
journal={IEEE Systems Journal},
title={Space–Time Line Code for Enhancing Physical Layer Security of Multiuser {MIMO} Uplink Transmission},
year={2021},
month=sep,
volume={15},
number={3},
pages={3336-3347},
doi={10.1109/JSYST.2020.3001068}}
@ARTICLE{KiJoLi22,
author={Kim, Jaehong and Joung, Jingon and Lim, Kiho},
journal={IEEE Wireless Communications Letters},
title={Intelligent Reflecting Surface-Aided Space–Time Line Coded Systems},
year={2022},
month=feb,
volume={11},
number={2},
pages={245-249},
doi={10.1109/LWC.2021.3124916}}
@ARTICLE{LiJo22a,
author={Lim, Seung-Chan and Joung, Jingon},
journal={IEEE Wireless Communications Letters},
title={Full-Rate Space–Time Line Code for Four Receive Antennas},
year={2022},
month=mar,
volume={11},
number={3},
pages={602-606},
doi={10.1109/LWC.2021.3137796}}
@ARTICLE{ChJoCh22,
author={Choi, Jihoon and Joung, Jingon and Cho, Yong-Soo},
journal={IEEE Systems Journal},
title={Artificial-Noise-Aided Space–Time Line Code for Enhancing Physical Layer Security of Multiuser {MIMO} Downlink Transmission},
year={2022},
month=mar,
volume={16},
number={1},
pages={1289-1300},
doi={10.1109/JSYST.2021.3075721}}
@ARTICLE{LeYeJoJu22,
author={Lee, Ki-Hun and Yeom, Jeong Seon and Joung, Jingon and Jung, Bang Chul},
journal={IEEE Open Journal of the Communications Society},
title={Performance Analysis of Uplink {NOMA} With Constellation–Rotated {STLC} for IoT Networks},
year={2022},
month=apr,
volume={3},
number={},
pages={705-717},
doi={10.1109/OJCOMS.2022.3164876}}
@ARTICLE{ChJo22a,
author={Choi, Jihoon and Joung, Jingon},
journal={IEEE Systems Journal},
title={Generalized Space–Time Line Code With Receive Combining for {MIMO} Systems},
year={2022},
month=jun,
volume={16},
number={2},
pages={1897-1908},
doi={10.1109/JSYST.2021.3060134}}
@ARTICLE{LeJoJu22,
author={Ki‐Hun Lee and Jingon Joung and Bang Chul Jung},
journal={IET Electronics Letters},
title={Space-time line coded spatial modulation},
year={2022},
month=jun,
volume={58},
number={13},
pages={520-523},
month=jun,
doi ={10.1049/ell2.12488}}
@ARTICLE{ChJo22b,
author={J. Choi and Jingon Joung},
journal={Signal Processing},
title={Process-and-forward two-way relay using layered {STBCs} and multiple {STLCs}},
year={2022},
month=jul,
volume={196},
number={108526},
pages={1-11},
doi={https://doi.org/10.1016/j.sigpro.2022.108526}}
@ARTICLE{LiJo22b,
author={Lim, Seung-Chan and Joung, Jingon},
journal={IEEE Transactions on Vehicular Technology},
title={Ergodic Capacity of Space–Time Line Code Systems With Transmit Antenna Selection},
year={2022},
month=aug,
volume={71},
number={8},
pages={9089-9094},
doi={10.1109/TVT.2022.3177453}}
@ARTICLE{KiChJoLi22,
author={Kim, Jaehong and Choi, Jihoon and Joung, Jingon and Liang, Ying-Chang},
journal={IEEE Wireless Communications Letters},
title={Modified Block Coordinate Descent Method for Intelligent Reflecting Surface-Aided Space-Time Line Coded Systems},
year={2022},
month=sep,
volume={11},
number={9},
pages={1820-1824},
doi={10.1109/LWC.2022.3182968}}
@ARTICLE{JoFa22,
author={Joung, Jingon and Fan, Jiancun},
journal={IEEE Transactions on Vehicular Technology},
title={Linear Precoding for Space-Time Line Code-Based Multicast Systems},
year={2022},
month=nov,
volume={71},
number={11},
pages={12386-12391},
doi={10.1109/TVT.2022.3194214}}
@ARTICLE{KiYuKaJo22,
author={Kim, Jaehong and Yu, Heejung and Kang, Xin and Joung, Jingon},
journal={Entropy},
title={Discrete Phase Shifts of Intelligent Reflecting Surface Systems Considering Network Overhead},
year={2022},
month= nov,
volume={24},
number={12},
pages={1-6},
doi={10.3390/e24121753}}
@ARTICLE{JoJeOh23,
author={J. Joung and E.-R. Jeong and H. Oh},
journal={ICT-Express},
title={Blind block synchronization with carrier frequency offset estimation for space-time line coded systems},
year={2023},
month=apr,
volume={9},
number={2},
pages={235-240},
doi={https://doi.org/10.1016/j.icte.2022.05.008}}
@article{YoYeJoJu23,
author = {Janghyuk Youn and Jeong Seon Yeom and Jingon Joung and Bang Chul Jung},
journal = {ICT Express},
title = {Cooperative space-time line code for relay-assisted internet of things},
volume = {9},
number = {2},
pages = {253-257},
year = {2023},
month=apr,
doi = {https://doi.org/10.1016/j.icte.2022.07.004}}
@ARTICLE{KiLeLeKiJoKi23,
author={Kim, Subin and Lee, Han-Gyeol and Lee, Songmin and Kim, Jaehong and Joung, Jingon and Kim, Juyeop},
journal={IEEE Access},
title={Single-User {SFLC-OFDM} System Realization Based on Channel Reciprocity Recovery},
year={2023},
month=oct,
volume={11},
number={},
pages={109082-109094},
doi={10.1109/ACCESS.2023.3321670}}
@ARTICLE{JoYu23,
author={Joung, Jingon and Yuen, Chau},
journal={IEEE Transactions on Vehicular Technology},
title={Channel Shuffling for Double Space-Time Line Coded Systems},
year={2023},
month={},
volume={},
number={},
pages={1-6},
doi={10.1109/TVT.2023.3314455}}
Encoding
Decoding
Linear combining the received signals (r_{n,t})
n: Rx antenna index
t: received time index
Maximum likelihood (ML) detection for x_1 and x_2 individually. The detection SNR is the same as the SNR of STBC
Merit of STLC
Low complexity: O(M) at Tx, linear combiner at Rx
Robustness against CSI uncertainty
Scalability: easy to increase/decrease the number of Tx antennas (users for a multiuser case)
As M increases, the performance approaches the optimal performance obtained from a maximum eigen beamforming scheme
Low PAPR and high energy efficiency
Various Applications
Multiuser or multi-stream multiplexing systems
Cooperative communication systems
Orthogonal frequency-division multiplexing systems
Mobile communication systems
Secure wireless communication systems
Intelligent reflecting surface systems
...
Publications
International Journals
[33] J. Joung and C. Yuen, "Channel shuffling for double space–time line coded systems," IEEE Trans. Veh. Technol., accepted Sep, 2023
[32] S. Kim, H.-G. Lee, S. Lee, J. Kim, J. Joung, and J. Kim, "Single-user SFLC-OFDM system realization based on channel reciprocity recovery" IEEE ACCESS, vol. 11, pp. 109802-109094, Oct, 2023
[31] J. Youn, J. S. Yeom, J. Joung, and B. C. Jung, "Cooperative space-time line code for relay-assisted Internet of Things," ICT Express, vol. 9, no. 2, pp. 253-257, Apr. 2023
[30] J. Joung, E.-R. Jeong, and H. Oh, ''Blind block synchronization with carrier frequency offset estimation for space-time line coded systems," ICT-Express, vol. 9, no. 2, pp. 235-240, Apr. 2023
[29] J. Kim, H. Yu, X. Kang, and J. Joung, "Discrete phase shifts of intelligent reflecting surface systems considering network overhead " Entropy, vol. 24, no. 12, pp. 1-20, Dec. 2022
[28] J. Joung and J. Fan, "Linear precoding for space-time line code-based multicast systems," IEEE Trans. Veh. Technol., vol. 71, no. 11, pp. 12386-12391, Nov. 2022
[27] J. Kim, J. Choi, J. Joung, and Y. C. Liang, "Modified block coordinate descent method for intelligent reflecting surface-aided space-time line coded systems," IEEE Wireless Commun. Letts., vol. 11, no. 9, pp. 1820-1824, Sep. 2022
[26] S.-C. Lim and J. Joung, "Ergodic capacity of space-time line code systems with transmit antenna selection," IEEE Trans. Veh. Technol., vol. 71, no. 8, pp. 9089-9094, Aug. 2022
[25] J. Choi and J. Joung, "Process-and-forward two-way relay using layered STBCs and multiple STLCs," Elsevier Signal Processing, vol. 196, no. 108526, pp. 1-11, Jul. 2022
[24] K.-H. Lee, J. Joung, B. C. Jung, "Space-time line coded spatial modulation," IET Electronics Lett., vo. 58, no. 13, pp. 520-523, Jun. 2022
[23] J. Choi and J. Joung, "Generalized space-time line code with receive combining for MIMO systems," IEEE Syst. J., vol. 16, no. 2, pp. 1897-1980, Jun. 2022
[22] K.-H. Lee, J. S. Yeom, J. Joung, and B. C. Jung, "Performance analysis of uplink NOMA with constellation–rotated STLC for IoT networks," IEEE Open J. of the Comm. Soc., vol. 3. pp. 705-717, Apr. 2022
[21] J. Choi, J. Joung, and Y.-S. Cho, "Artificial-noise-aided space-time line code for enhancing physical layer security of multiuser MIMO downlink transmission," IEEE Syst. J., vol. 16, no. 1, pp. 1289-1300, Mar. 2022
[20] S.-C. Lim and J. Joung, "Full-rate space-time line code for four receive antennas," IEEE Wireless Comm. Letts, vol. 11. no.3, pp. 602-606, Mar. 2022
[19] J. Kim, J. Joung, and K. Lim, "Intelligent reflecting surface-aided space-time line coded systems," IEEE Wireless Commun. Letts., vol. 11, no. 2, pp. 245-249, Feb. 2022
[18] J. Choi, J. Joung, and B. C. Jung, "Space-time line code for enhancing physical layer security of multiuser MIMO uplink transmission," IEEE Syst. J., vol. 15, no. 3, pp. 3336-3347, Sep. 2021
[17] J. Joung and J. Fan, "Over-the-air computation strategy using space-time line code for collection of data sensed by multiple unmanned aerial vehicles," IEEE Access, vol. 9. pp. 105230-105241, Jul. 2021
[16] J. Joung, H. Yu, and J. Zhao "Bandwidth design for energy efficient unmanned aerial vehicle using space–time line code," IEEE Syst. J., vol. 15, no. 2, pp. 3154-3157, Jun. 2021
[15] H. Yu and J. Joung, "Frame structure design for vehicular-to-roadside unit communications using space-time line code under time-varying channels," IEEE Syst. J., vol. 15, no. 2, pp. 3150-3153, Jun. 2021
[14] S.-C. Lim and J. Joung, "Transmit antenna selection for space-time line code systems," IEEE Trans. Comm., vol. 69, no. 2, pp. 786-798, Feb. 2021
[13] J. Joung and J. Choi, "Multiuser space-time line codes with transmit antenna selection," IEEE Access, vol. 8. no. 1, pp. 71930-71939, Apr. 2020
[12] J.-B. Seo, H. Jin, J. Joung, and B. C. Jung , "NOMA random access systems with space-time line code," IEEE Trans. Veh. Technol., vol. 69, no. 4, pp. 4522-4526, Apr. 2020
[11] J. Joung, "Random space-time line code with proportional fairness scheduling," IEEE Access, vol. 8, pp. 35253-35262, Feb. 2020
[10] J. Joung, J. Choi, and B. C. Jung "Double space-time line code," IEEE Tran. Veh. Technol., vol. 69, no. 2, pp. 2316-2321, Feb. 2020
[9] J. Joung, B. C. Jung, and J. Choi, "Space-time line coded regenerative two-way relay systems with power control," IET Elect. Lett., vol. 55, no. 12, pp. 694-696, Jun. 2019
[8] J. Joung and B. C. Jung, "Machine learning based blind decoding for space-time line code (STLC) systems," IEEE Trans. Veh. Technol., vol. 68, no. 5, pp. 5154-5158, May 2019
[7] J. Joung and J. Choi, "Space-time line code with power allocation for regenerative two-way relay systems," IEEE Trans. Veh. Technol., vol. 68, no. 5, pp. 4884-4893, May 2019
[6] J. Joung, J. Choi, B. C. Jung, and S. Yu, "Artificial noise injection and its power loading methods for secure space-time line coded systems" MDPI Entropy, vol. 21, pp. 1-12, May 2019
[5] J. Joung and J. Choi, "Uneven power amplifier shuffling for space-time line code (STLC) systems," IEEE Access, vol. 6, pp. 58491-58500, Oct. 2018
[4] J. Joung and E.-R. Jeong, "Multiuser space-time line code with optimal and suboptimal power allocation methods," IEEE Access, vol. 6, pp. 51766-51775, Oct. 2018
[3] J. Joung, "Energy efficient space-time line coded regenerative two-way relay under per-antenna power constraints, IEEE Access, vol. 6, pp. 47026-47035, Sep. 2018
[2] J. Joung, "Space–time line code for massive MIMO and multiuser systems with antenna allocation," IEEE Access, vol. 6, pp. 962-979, Feb. 2018
[1] J. Joung, "Space–time line code," IEEE Access, vol. 6, pp. 1023-1041, Feb. 2018International Conferences
[12] S. Han, Y. Kim, J.-I. Byeon, J. Choi, J. Joung, "IRS-aided rate balancing precoding for STLC-based downlink MIMO transmission" in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Taipei, pp. 1-3, Feb. 2024
[11] T. Choi, J. Kim, J. Joung, "Weighted sum-rate comparisons in IRS-aided STLC systems considering signaling overhead" in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Taipei, pp. 1-3, Feb. 2024
[10] J. Kim, J. Joung, and J. Choi, "Received SNR lower bound derivation of channel shuffling double space–time line coded systems" in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Taipei, pp. 1-3, Feb. 2024
[9] K. Kim, J. Kim, and J. Joung, "Performance analysis of space–time line code systems with phase-shift keying modulation" in Proc. The 14th international conf. ICT convergence (ICTC) 2023, Jeju, Oct., 2023
[8] H. J. Yang, S. Han, J. Choi, H.-G. Lee, and J. Joung, "Low complexity precoding for multiuser MIMO system with double space-time line codes," in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Singapore, pp. 1-3, Feb. 2023
[7] J. Kim, J. Joung, J. Choi, and J. Kim, "Intelligent reflecting surface for M-by-Nr space–time line coded systems" in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Jeju, South Korea, pp. 1-3, Feb. 2022
[6] J. Kim, Y. Choi, J. Joung, "Low-complexity detection for two-user QPSK symbols by using STLC with SIC," in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Jeju, South Korea, Jan. 2021
[5] Y. Choi, J. Joung, J. Choi, and B. C. Jung, "Double space-time line codes with transmit antenna selection for two users" in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Barcelona, Spain, Jan. 2020
[4] H. Lee and J. Joung, "Preliminary test of machine learning algorithms for D-STLC transmit antenna selection" in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Barcelona, Spain, Jan. 2020
[3] J.-W. Bae, K.-H. Lee, J. M. Kim, B. C. Jung, and J. Joung, "Performance analysis of uplink NOMA-IoT networks with space-time line code," in Proc. IEEE Veh. Technol. Conf. (VTC)-Fall, Hawaii, USA, Sep. 2019, pp. 1-5
[2] K.-H. Lee, J. S. Yeom, B. C. Jung, and J. Joung, "A novel non-orthogonal multiple access with space-time line codes for massive IoT networks," in Proc. IEEE Veh. Technol. Conf. (VTC)-Fall, Hawaii, USA, Sep. 2019, pp. 1-5
[1] J. Joung and J. Choi "Regenerative two-way relay based on space-time line codes with power allocation," in Proc. Int. Conf. Elect. Info. and Comm. (ICEIC), Auckland, New Zealand, Jan. 2019Domestic Journals
[7] J. Joung, "차동 시공간 선 부호와 성상에 따른 성능 비교," J. Korean Institute of Communications and Info. Sciences (J-KICS), vol. 00, no. 0, pp. 0000-0000, Mar. 2024
[6] S.-C. Lim, J. Joung, "대규모 다중 입력 다중 출력 시스템의 훈련 오버헤드 감소를 위한 중계 기술," J. Institute of Electronics and Information Engineering (IEIE), vol. 61, no. 2, 16-24, Feb. 2024
[5] J. Kim and J. Joung, "시공간 선 부호 시스템을 위한 격자 기반 IRS 위상 할당 기법," J. Korean Institute of Communications and Info. Sciences (J-KICS), vol. 47, no. 10, pp. 1457-1467, Oct. 2022
[4] S. B. Kim, H.-G.- Lee, S. M. Lee, J. Kim, J. Kim, J. Joung, "소프트웨어 모뎀 기반 시공간 선 부호화 시스템의 채널 대칭성을 위한 CFO·STO·SCO 추정, 보상 기법," J. Korean Institute of Communications and Info. Sciences (J-KICS), vol. 47, no. 9, pp. 1381-1397, Sep. 2022
[3] J. Kim, J. Joung, J. Choi, and J. Kim, "지능형 반사 표면을 활용한 다중 입.출력 시공간 선 부호화 시스템," the Mag. of IEIE, vol. 5, pp. 38-48, May 2022
[2] J. Kim and J. Joung, "IRS-STLC 시스템을 위한 Greedy 기반 양자화 위상제어," J. Korean Institute of Communications and Info. Sciences (J-KICS), vol. 47, no. 1, pp. 188-197, Jan. 2022
[1] K.-H. Lee, J. S. Yeom, B. C. Jung, and J. Joung, “Uplink non-orthogonal multiple access with space-time line codes," J. Korean Institute of Communications and Info. Sciences (J-KICS), vol. 44, no. 5, pp. 1015-1023, Jun. 2019Domestic Conferences
[40] T. Choi, J. Kim, J. Kim, J.-Y. Kim, and J. Joung, "지능형 반사 표면을 활용한 시공간 선 부호 시스템에서 시그널링 오버헤드를 고려한 데이터 전송률 비교", in Proc. Korea Information and Communications Society (KICS), Fall, Gyeongju, Korea, Nov. 2023
[39] H. J. Jung, Y. Kim, S. Han, J. Joung, J. Kim, "전송률 공정성을 위한 개선된 다중 사용자 시공간 선 부호화 기법", in Proc. Korea Information and Communications Society (KICS), Fall, Gyeongju, Korea, Nov. 2023
[38] T. Choi, J. Kim, J. Kim, J.-Y. Kim, and J. Joung, "지능형 반사 표면을 활용한 시공간 선 부호 시스템에서 시그널링 오버헤드를 고려한 데이터 전송률 비교", in Proc. Korea Information and Communications Society (KICS), Fall, Gyeongju, Korea, Nov. 2023
[37] T. Choi, J. Kim, and J. Joung, "시공간 선 부호 시스템을 위한 D eep Q Network 기반 Intelligent Reflecting Surface 위상제어 기법," in Proc. Summer Annual Conference of IEIE 2023, Jeju, Korea, Jun. 2023
[36] S.-C. Lim and J. Joung, "대규모 다중 안테나 시스템의 훈련 오버헤드 감소를 위한 시공간 부호 기반 중계 기술 ," in Proc. Joint Conference on Commun. and Info. (JCCI), Yeosoo, Korea, Apr. 2023
[35] S.-M. Lee, S.-B. Kim, J. Joung, J. Choi, and J, Kim, "1x2x2 SFLC-FDMA 기법의 소프트웨어 모뎀 구축 및 BER 분석," in Proc. Joint Conference on Commun. and Info. (JCCI), Yeosoo, Korea, Apr. 2023
[34] H.-G. Lee, J. Joung, J. Choi, and J, Kim, "다중 사용자 시공간 선 부호 시스템을 위한 저복잡도 프리코딩 행렬 계산 알고리즘," in Proc. Joint Conference on Commun. and Info. (JCCI), Yeosoo, Korea, Apr. 2023
[33] J. Kim, K. Kim, and J. Joung, "다중 사용자 시공간 선 부호 시스템을 위한 greedy 기반 사용자 선택 기법 ," in Proc. Joint Conference on Commun. and Info. (JCCI), Yeosoo, Korea, Apr. 2023
[32] K. Kim, J. Kim, H. Lee. J. Joung, J. Kim, "Mx2 시공간 선 부호 시스템 공간 다이버시티 이득 분석" in Proc. Summer Annual Conference of IEIE 2022, Jeju, Korea, Jun. 2022 [우수논문상]
[31] S. Lee. S. Kim, J. Joung, J. Kim, "상하향링크의 채널 비상호성에 따른 시공간 선 부호 송수신 시스템의 성능 열화 양상 분석," in Proc. Korea Information and Communications Society (KICS), Summer, Jeju, Korea, Jun. 2022
[30] J. Kim, J. Joung, J. Choi, "시공간 선 부호 시스템을 위한 Modified BCD 기반 IRS 위상제어 기법," in Proc. Korea Information and Communications Society (KICS), Summer, Jeju, Korea, Jun. 2022
[29] J. Kim and J. Joung, "STLC 시스템을 위한 비균일 격자 기반 IRS 위상 Mapping 기법," in Proc. Joint Conference on Commun. and Info. (JCCI), Sokcho, Korea, Apr. 2022
[28] J. Kim, J. Joung, and J. Km, "낮은 채널 추정 및 시그널링 오버헤드를 갖는 격자 위치 기반 공중 IRS 위상 Mapping 기법" in Proc. Korea Information and Communications Society (KICS), Winter, Pyungchang, Korea, Feb. 2022
[27] J. Kim and J. Joung, "IRS-STLC 시스템 제어 신호 오버헤드를 고려한 Greedy 기반 양자화 위상제어 ," in Proc. Autumn Annual Conference of IEIE 2021, Songdo, Korea, Nov. 2021
[26] S. B. Kim, S. M. Lee, J. Joung, and J. Kim, "시공간 선 부호화 시스템 채널 대칭성을 위한 반송 주파수 오프셋 보상 방법," in Proc. Korea Information and Communications Society (KICS), Fall, Yeosoo, Korea, Nov. 2021 [장려상]
[25] J. Yoo, S. Kim, J. Joung, and J. Kim, "시공간 선 부호 송수신 구현을 위한 소프트웨어 모뎀 기반 시분할 이중 통신 되먹임 채널 설계," in Proc. Summer Annual Conference of IEIE 2021, Jeju, Korea, Jun. 2021 [장려상]
[24] Y. You, Y. Choi, J. Kim, J. Kim, and J. Joung, "SDR을 활용한 활용한 무선 채널 상관시간 측정," in Proc. Summer Annual Conference of IEIE 2021, Jeju, Korea, Jun. 2021
[23] J. Kim and J. Joung, "IRS-STLC 시스템을 위한 Greedy 기반 양자화 위상제어," in Proc. Korea Information and Communications Society (KICS), Summer, Jeju, Korea, Jun. 2021
[22] J. Kim and J. Joung, "시공간 선 부호 시스템을 위한 RIS 위상제어," in Proc. Joint Conference on Commun. and Info. (JCCI), Pusan, Korea, Apr. 2021
[21] Y.-S. Lee, K.-H. Lee, B. C. Jung, and J. Joung, "시공간 선 부호를 활용한 무선 함수 연산 시스템 성능 분석" 대한전자공학회 학술심포지움, (online) Dec. 16, 2020 [우수논문상]
[20] H.-G. Lee and J. Joung, "고차 큐 뮬런트와 심층 신경망을 활용한 시공간 선 부호 블라인드 디코더, in Proc. Korea Information and Communications Society (KICS), Fall, Seoul, Korea, Nov. 2020
[19] K. Kim, J. Choi, and J. Joung, "시공간 선 부호와 인공 잡음을 사용한 다중 안테나 보안 전송 기법" in Proc. Summer annual Conference of IEEK 2020, Jeju, Korea, Aug. 2020
[18] K.-H. Lee, B. C. Jung, and J. Joung, "위상 조향 기법을 적용한 시공간 선 부호의 공간 다중화," in Proc. Korea Information and Communications Society (KICS), Winter, Yongin, Korea, Feb. 2020
[17] S. H. Jeon, J. S. Yeon, J. M. Lee, B. C. Jung, and J. Joung, "준직교 사용자 선택기반 다중 사용자 시공간 선 부호 시스템," in Proc. Korea Information and Communications Society (KICS), Winter, Yongin, Korea, Feb. 2020
[16] H.-G. Lee and J. Joung, "CNN 기반 D-STLC 송신 안테나 선택 성능 실험," in Proc. Korea Information and Communications Society (KICS), Fall, Seoul, Korea, Nov. 2019
[15] Y.S. Lee, K. H. Lee, B. C. Jung, and J. Joung, "수신 안테나 선택을 통한 시공간 선 부호기반 아날로그 함수연산시스템의 성능 향상," in Proc. Korea Information and Communications Society (KICS), Fall, Seoul, Korea, Nov. 2019
[14] S.-C. Lim and J. Joung, "시공간 선 부호 SER, BER 및 다이버시티 성능 분석" in Proc. Korea Information and Communications Society (KICS), Fall, Seoul, Korea, Nov. 2019
[13] S. Kim, T. Kang, J. Joung, and J. Choi, "이중 시공간 선 부호를 위한 사전부호화기 설계," in Proc. Summer annual Conference of IEEK 2019, Jeju, Korea, Jun. 2019
[12] Y.-S. Lee, K.-H. Lee, B. C. Jung, and J. Joung, "시공간 선 부호를 활용한 아날로그 함수 연산 시스템의 성능 향상," in Proc. Korea Information and Communications Society (KICS), Summer, Jeju, Korea, Jun. 2019 [학부우수논문, 장려상]
[11] K.-H. Lee, J. S. Yeom, B. C. Jung, and J. Joung, "주파수 효율을 향상한 시공간 선 부호기반 공간 변조 기법 ," in Proc. Korea Information and Communications Society (KICS), Summer, Jeju, Korea, Jun. 2019
[10] K. Kim, S. Kim, J. Choi, and J. Joung, "시공간 선 부호를 사용한 복호후 전달 양방향 릴레이를 위한 송신 전력 할당 기법," in Proc. Joint Conf. Commun. & Inform. (JCCI), Gangneung, Korea, May. 2019
[9] J. Yoon, B. C. Jung, and J. Joung, "다중 중계 노드 환경을 위한 선택적 협력 시공간 선 부호 시스템," in Proc. Korea Information and Communications Society (KICS), Winter, Yongin, Korea, Jan. 2019
[8] K.-H. Lee, B. C. Jung, and J. Joung, "시공간 선 부호기반 공간변조 기법의 성능분석," in Proc. Korea Information and Communications Society (KICS), Winter, Yongin, Korea, Jan. 2019
[7] H.-G. Lee, J. Joung, and B. C. Jung, "안테나 별 전력 제한이 있는 경우 시공간 선 부호 기반 에너지 효율이 높은 양방향 중계 시스템," in Proc. Korea Information and Communications Society (KICS), Winter, Yongin, Korea, Jan. 2019
[6] J. Yoon, B. C. Jung, and J. Joung, “인덱스 변조를 쓴 OFDM 시스템을 위한 시공간 선 부호 기법,” KICS-2018-Fall, Nov. 2018.
[5] J. W. Bae, J. W. Seo, B. W. Ha, J. M. Kim, B. C. Jung, and J. Joung, “양방향 중계 네트워크에서 시공간 선 부호의 성능분석,” KICS-2018-Fall, Nov. 2018.
[4] K.-H. Lee, J. S. Yeom, B. C. Jung, and J. Joung, “시공간 선 부호기반 상향링크 비직교 다중접속 시스템,” KICS-2018-Fall, Nov. 2018 [우수논문상].
[3] J. H. Yoon, J. S. Yeom, B. C. Jung, and J. Joung, “다중 중계 노드 환경에서 분산 시공간 선 부호를 이용한 협업통신 시스템,” KICS-2018-Summer, Jun. 2018, [학부우수논문, 최우수상]
[2] J. Joung, “대단위 안테나 시스템을 위한 시공간 선 부호”, KICS-2018-Summer, Jun. 2018.
[1] J. Joung, “시공간 선 부호,” KICS-2018-Winter, Jan. 2018, [우수논문상]
Patents
[G1] 시공간 선형 부호화 방법 및 시스템, 등록번호: 10-1975416, 2019.4.29.
[G2] Space-time line coding method and system: US patent no. US11,025,370 B2, Jun. 1, 2021
[G3] 시공간 부호화를 이용한 다중 안테나 통신 시스템, 등록번호: 10-2002497, 2019.7.16
[G4] 위상 조향 기반 시공간 선 부호화를 이용한 비직교 다중 접속 통신 방법 및 그 시스템: 등록번호: 10-2094428, 2020-03-23
[G5] 양방향 중계 시스템의 통신 방법 및 그 시스템, 등록번호: 10-2089664, 2020-03-10
[G6] 기계학습 기반 시공간 선 부호화를 위한 블라인드 복호 방법 및 그 장치, 등록번호: 10-2119965, 2020-06-01
[G7] 다중 사용자 시스템에서 시공간 선형 부호화 방법 및 그 시스템, 등록번호: 10-2089073, 2020-03-09
[G8] 다중 중계 노드 환경에서 분산 시공간 선 부호를 사용한 협업통신 시스템, 등록번호: 10-2184982, 2020-11-25
[G9] 다중 시공간 선 부호화 및 복호화를 이용한 데이터 송수신 방법 및 시스템, 등록번호: 10-2467175, 2022-11-10
[F1] 다중 시공간 선 부호화 전송을 위한 저 복잡도 사전부호화 시스템, 출원번호 10-2022-0137737, 2022-10-24.
Project & Workshops
시공간 선 부호 기반 차세대 무선 접속 기술 개발. Development of Next Generation Wireless Access Technology Based on Space-Time Line Code. Apr. 2021-Dec. 2025: 과학기술정보통신부, 정보통신기획평가원(IITP), 정보통신방송기술개발사업 (숙명여자대학교, 중앙대학교) 총 사업비 12억/5년
