迟学芬

[1] 基于鞅论的时延-可靠性约束下端到端带宽分配理论与算法研究，20230101063JC，年度：2023，项目负责人：迟学芬，吉林省自然科学基金。

[2] 华为公司横向合作项目，基于鞅的时延理论研究, 2021.09-2023.09,在研，负责人：迟学芬。

[3] 吉林省科技厅项目，面向5G+全场景通信的网络优化平台研发及应用 (项目号：20210201016GX)，2021.07-2024.06, 在研，合作负责人：迟学芬。

[4] 国家自然科学基金项目，多用户MIMO系统高可靠低时延通信的能效优化研究(61801191)，2019.1- 2021.12，在研，负责人：赵琳琳，迟学芬排名第二。

[5] 吉林省科技厅项目，基于MIMO-OCC的医疗信息发布系统研发(项目号：20200401147GX)，2019-2022，在研，负责人：迟学芬。

[6] 吉林省科技厅项目，人眼无感知的可见光通信网络技术研究(20180101040JC)，2018.1-2020.12, 在研，负责人：迟学芬。

[7] 国家自然科学基金项目：机器类通信(MTC)的网络建模和性能评(61071074)， 2011.1- 2013.12，完成，负责人：迟学芬。

[8] 国家自然科学基金项目：基于路由优化和冲突避免的低速无线个域网跨层节能机制研究(60940010)，2010.1-2010.12，完成，迟学芬排名第二。

[9] 国家自然科学基金项目——广东省人民政府联合基金：多视点立体视频编码及动态感知真实立体显示关键技术的研究(U0935001)，2010.1-2013.12，完成，迟学芬排名第四。

[10] 华为终端有限公司合作项目：移动应用与移动网络结合的行为分析及优化研究，2012.6-2013.6，完成，负责人：迟学芬。

[11] 华为终端有限公司合作项目：三屏合一下的IPTV安全技术研究项目，2011.1-2011.12，完成，负责人：迟学芬。

[12] 华为终端有限公司：M2M_3GPP终端标识，寻址机制增强，2010.1-2010.11，完成，负责人：迟学芬。12万

[13] 吉林省科技厅国际合作项目：异质业务背景下4G移动网络分析模型和性能优化研究(20130413052GH)，2013.1-2015.12，完成，负责人：迟学芬。10万

[14] 长春市科技局国际合作项目：信道自适应嵌入式 IP 多媒体通信终端(08GH03)，2008.8-2010.8，完成，负责人：迟学芬。

2023年(尚未发表)

[1] W. Yang, X. Chi, Task-driven Semantic-aware Green Cooperative Transmission Strategy for Vehicular Networks, IEEE Transactions on Communications. 大修。

[2] S.Chen,X.Chi,Analysis of optical camera communications for terminal jiggle with quality of service guarantees."Journal of Lightwave Technology. 大修，已修回。
[3] B.Yu, X. Chi, Martingale-based URLLC Slice Customization for the Provisioning of Reliability Regard to End-to-end Latency，IEEE Internet of Things Journal, R&R，在审

[4]L.Zhao, X. Chi, Ma, Shaodan Delay-QoS-Aware Local-Information-Driven Multiple Access for MTC Networks", IEEE Transactions on Mobile Computing. 大修，已修回。
[5] H. Yan, X. Chi,End-to-End Delay Analysis for Multi-hop Wireless Links Based on Martingale,IEEE Wireless Communications Letters. 在审。

2022年

[6] S.Li, X.Chi, B.Yu. An improved particle swarm optimization algorithm for the reliability redundancy allocation problem with global reliability. Reliability Engineering & System Safety, vol.225, pp.108604, 2022.

[7]Y.Zhao, X.Chi, L.Qian, et al. Resource allocation and slicing puncture in cellular networks with eMBB and URLLC terminals coexistence. IEEE Internet of Things Journal, vol.9, no.19, pp.18431-18444,2022.

[8]B.Yu, X.Chi and X.Liu. Martingale-based bandwidth abstraction and slice instantiation under the end-to-end latency-bounded reliability constraint. IEEE Communications Letters, vol.26, no.1, pp.217-221, 2022. https://doi.org/10.1109/LCOMM.2021.3122305.

[9] Y.Sun, X.Chi, B.Yu, et al. Hop-by-hop bandwidth allocation and deployment for SFC with end-to-end delay QoS guarantees.Computer Communications, vol.192, pp.256-267, 2022.

https:// doi.org/10.1016/j.comcom.2022.06.002.

[10] S. Zhao, X.Chi, B.Yu, et al. Service function chains deployment for 5G slice with bandwidth coupling. IEEE Communications Letters, vol.26, no.10, pp.2425-2429,2022. https://doi.org/10.1109/LCOMM.2022.3188678.

2021年

[11] L.Qian, X.Chi, L.Zhao,et al. User-centric secure cell formation for visible light networks with statistical delay guarantees. IEEE Transactions on Wireless Communications,vol.20, no.3, pp.1831-1846, 2021.https://doi.org/10.1109/TWC.2020.3036907.

[12] S.Chen, X.Chi, T. Li . Non-line-of-sight optical camera communication aided by pilot.

Optics Letters, vol.46,no.14, pp.3348-3351, 2021.https://doi.org/10.1364/OL.431932.

[13] W.Yang, X.Chi, L.Zhao,et al. Predictive two-timescale resource allocation for VoD services in fast moving scenarios.IEEE Transactions on Vehicular Technology, vol.70, no.10, pp.10002-10017, 2021. https://doi.org/10.1109/TVT.2021.3095917.

[14] W.Yang, X.Chi, L.Zhao,et al. QoE-based MEC-assisted predictive adaptive video streaming for on-road driving scenarios. IEEE Wireless Communications Letters, vol.10, no.11, pp.2552-2556, 2021. https://doi.org/10.1109/LWC.2021.3106945.

[15] L.Qian, X.Chi, L.Zhao,et al. Secure visible light communications via intelligent reflecting surface. 2021 IEEE International Conference on Communications (ICC-2021), Canada, pp.1-6, 2021. https://doi.org/10.48550/arXiv.2101.12390.

2020年

[16] B.Yu,X.Chi, H.Sun. Delay analysis for aggregate traffic based on martingales theory. IET Communications,vol.14, no.5, pp.760-767,2020.http://dx.doi.org/10.1049/iet-com.2019.0282.

[17] B.Yu, X.Chi, H.Sun. Bandwidth abstraction and instantiation under closed-loop latency constraint for tactile slice based on martingale theory.Computer Communications,vol.160, pp.274-283,2020.https://doi.org/10.1016/j.comcom.2020.06.008.

[18] T.Li, X.Chi, F.Ji,et al.Optimal optical camera communication-ALOHArandom access algorithm aided visible lightcommunication system. Optical Engineering,vol.59, no.7,2020.https://doi.org/10.1117/1.OE.59.7.076111.

[19] W.Yang, X.Chi, L.Zhao. Proactive VoD delivery pattern reconfiguration based on temporal-spatial channel prediction. 2020 IEEE International Conference on Communications (ICC-2020),Ireland, pp.1-7,2020.http://dx.doi.org/10.1109/ICC40277.2020.9149070.

2019年

[20] L.Zhao, X.Chi, L.Qian,et al.Analysis on latency-bounded reliability for adaptive grant-free access with multipackets reception (MPR) in URLLCs.IEEE Communications Letters, vol.23, no.5, pp.892-895, 2019.http://dx.doi.org/10.1109/LCOMM.2019.2899614.

[21] H.Shi, X.Chi,Y.Zhao,et al. Imperceptible visible light communications based on just imperceptible difference. IEEE Communications Letters, vol.23, no.12, pp.2279-2283, 2019.http://dx.doi.org/10.1109/LCOMM.2019.2942025.

2018年

[22] L.Zhao, X.Chi, Y.Zhu. Martingales-based energy-efficient D-ALOHA algorithms for MTC networks with delay-insensitive/URLLC terminals co-existence. IEEE Internet of Things Journal, vol.5, no.2, pp.1285-1298,2018.https://doi.org/10.1109/JIOT.2018.2794614.

[23] H.Sun, X.Chi, L.Qian. Bandwidth estimation for aggregate traffic under delay QoS constraint based on supermartingale theory. Computer Communications, vol.130, pp.1-9, 2018. https://doi.org/10.1016/j.comcom.2018.08.007.

[24] H.Sun, X.Chi, Z.Nan. Router buffer behavior analysis for aggregate traffic based on martingale method. IEEE Communications Letters, vol.22, no.10, pp.2040-2043,2018. https://doi.org/10.1109/LCOMM.2018.2859397.

[25] L.Qian, X.Chi, L.Zhao. Analysis of effective capacity for visible light communication systems with mobility support. AEU-International Journal of Electronics and Communications, vol.88, pp.38-43,2018. https://doi.org/10.1016/j.aeue.2018.02.017.

[26] L.Qian, X.Chi,L.Zhao. Hybrid access algorithm for eMBB terminals with heterogeneous QoS in MPR aided VLC system. 2018 IEEE Global Communications Conference (GLOBECOM),United Arab Emirates, pp.1-6,2018. https://doi.org/10.1109/GLOCOM.2018.8647841.

2016年

[27] L.Zhao, X.Chi, S.Yang. Optimal ALOHA-like random access with heterogeneous QoS guarantees for multi-packet reception aided visible light communications.

IEEE Transactions on Wireless Communications, vol.15, no.11, pp.7872-7884, 2016. https://doi.org/10.1109/TWC.2016. 2608956.

[28] L. Zhao, X.Chi, W.Shi. A QoS-driven random access algorithm for MPR-capable VLC system. IEEE Communications Letters, vol.20, no.6, pp.1239-1242, 2016, https://doi.org/10.1109/LCOMM. 2016.2553661.

[29] Z.Nan, X.Chi. Research on an uplink carrier sense multiple access algorithm of large indoor visible light communication networks based on an optical hard core point process. Appl. Opt., vol.55, no.36, pp.10392-10399, 2016. https://doi.org/10.1364/AO.55.010392.

2.授权发明专利

[1] 迟学芬, 赵爽, 于宝珠, 孙玥鑫. 一种基于耦合带宽分配并具有时延QoS保障的VNF部署方法. 专利受理公告日: 2022.03.29, 已授权, 中国,CN202111619629.0

[2] 迟学芬，李帅，籍风磊，姜科宇，武敬，陈少琦. 与拍摄方位无关的多光源光学成像通信系统. 专利受理公告日：2021.06.29，专利授权公告日：2022.03.22，已授权，中国，CN202110514910.1

[3] 迟学芬，姜科宇，籍风磊，武敬，陈少琦，李帅. 一种支持接收器晃动和用户移动的光学相机通信解调方法. 专利受理公告日：2020.12.16，专利授权公告日：2021.12.21，已授权，中国 ，CN202011484264.0

[4] 迟学芬，齐瑞哲，赵琳琳. 基于鞅变换模型实现URLLC的免授权NOMA方法. 专利受理公告日：2020. 02. 22，专利授权公告日：2021.06.08，已授权，中国，CN 202010109427.0.

[5] 迟学芬，王爽，钟苏华.基于图像传感器的可见光无线局域网.专利受理公告日：2019. 03. 08，专利授权公告日：2021.05.25，已授权，CN201811144132.6

[6] 迟学芬，李特宇，石瀚洋. 基于OCC的路灯辅助手机详细定位通信系统. 专利公告日：2019. 8. 16，已授权，中国，CN 201910431465.5.

[7] 祝宇鸿，钟苏华，迟学芬. 基于无透镜成像器的可见光通信方法. 专利公告日：2018. 7. 13，已公开，中国，CN201711440401.9.

[8] 迟学芬，石瀚洋，赵焱. 人眼不可感知VLC装置及方法. 专利公告日：2017. 11. 10， 已授权，中国，CN20170544285.9.

[9] 迟学芬，杨友全，石佳琳，于海凤. 基于OW通信的MTC接入碰撞检测装置、系统及方法. 发明授权专利，授权公告日：2017. 1. 11，中国，ZL103648179A.

[10] 迟学芬，张雁丽，刘聪. 一种EPS-WLAN融合系统和发生在服务请求时基于M2M业务的切换方法. 发明授权专利，授权公告日：2014. 12. 31，中国，ZL 201210165025.8.

[11] 孙珍奇，赵坤，迟学芬，罗耀平，金辉. 机器类通信签约用户的识别方法及装置. 授权发明专利，授权公告日：2015. 1. 21，中国，CN 201010603741.0.

[12] 迟学芬，孙珍奇，刘聪. 一种LTE上行链路无线资源调度方法. 发明授权专利， 授权公告日：2013. 12. 04，中国，ZL201110417956.8.

[13] 迟学芬，刘聪，张雁丽. LTE 系统中利用PUCCH 传输M2M 业务的方法. 授权发明专利，授权公告日： 2015. 11. 11，中国，CN 201310246457.6