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研究方向: 1. 新能源控制及应用,微电网运行及控制 2. 信息物理融合综合能源系统及其应用 3. 工业物联网,大数据分析,智慧工厂建设 4. 人工智能在电力系统中的应用等 招生信息: 1. 隶属于管晓宏院士团队 2. 招收电气工程、自动化方向博士、硕士研究生 欢迎学有余力的本科生提前加入实验室学习
联系方式 单 位:电信学部自动化学院 办公室:兴庆校区东二楼175室/创新港4-5197 信 箱1:hjj7759@xjtu.edu.cn 信 箱2:hjj7759@163.com |
Welcome个人主页 - 黄 晶晶
2022年
- Li Y, Zhang A, Huang J, Xu Z. “An Approach Based on Transfer Learning to Lifetime Degradation Rate Prediction of the Dry-Type Transformer” IEEE Transactions on Industrial Electronics, 2022, early access. (最具学术影响力期刊).
- Yang L, Huang J, Feng B, et al. “Undersea wireless power and data transfer system with shared channel powered by marine renewable energy system” IEEE Journal on Emerging and Selected Topics in Circuits and Systems, 2022, early access.
- Sun C, Zhang X, Zhang J, Zhu M, Huang J. “Hybrid Input-Series–Output-Series Modular DC–DC Converter Constituted by Resonant and Nonresonant Dual Active Bridge Modules”, IEEE Transactions on Industrial Electronics, 2022, 69(1): 1062-1069. (最具学术影响力期刊)
- Zhong M., Tong X., Huang J. “The strategy of second harmonic voltage match suppression for the DC-link in inverter,” Energy Reports, 2022, 8:188-195.
2021年
- Huang J, Zhang X. “Multi-time Scale Frequency Regulation of A General Resonant DC Transformer in Hybrid AC/DC Microgrid,” IEEE Transactions on Industrial Electronics, 2021, 68(10): 9641-9651. (最具学术影响力期刊).
- Wang B, Huang J*, Wen C, et al. “Event-Triggered Model Predictive Control for Power Converters,” IEEE Transactions on Industrial Electronics, 2021, 68(1): 715-720. (最具学术影响力期刊)
- Yang L, Zhang Y, Li X, Jian J, Wang Z, Huang J, Ma L, Tong X. “Analysis and design of four-plate capacitive wireless power transfer system for undersea applications,” CES Transactions on Electrical Machines and Systems, 2021, 5(3): 202-211.
- Ma Q., Tong X., Huang J., Wang P., Li J. “Nodal charging demand forecast of EVsconsidering drivers’ psychological bearing ability basedon NMC-MCS,” IET Gener. Transm. Distrib, 2021, 1–12.
- Wang S., Pei Y., Rong W., Xiao G., Huang J., Zhang, J. “A transformerless active voltage quality regulator with the novel three‐leg circuit”, IET Power Electronics, 2021, 14: 1879-1888. (最具学术影响力期刊)
- Sun Y, Tong X, Huang J, Li J, Yang L. “Robust and low-cost design of LLC-type DC transformer in hybrid AC / DC nano-grids to improve energy conversion ability”, International Transactions on Electrical Energy Systems, 2021, early access.
- 孙元岗, 同向前, 李庚, 黄晶晶, 张伟. 一种双向谐振型高频直流变压器通用参数设计方法. 电力系统保护与控制, 2021, 49(5), 29-35.
2020年
- Huang J, Zhang X, Zhang A, Wang P. “Comprehensive Coordinated Frequency Control of Symmetrical CLLC-DC Transformer in Hybrid AC/DC Microgrids,” IEEE Transactions on Power Electronics, 2020, 35(10): 10374-10384. (最具学术影响力期刊)
- Huang J, Zhang X, Zhang Z. “Three-Step Switching Frequency Selection Criteria for the Generalized CLLC-Type DC Transformer in Hybrid AC/DC Microgrid,” IEEE Transactions on Industrial Electronics, vol. 67, no. 2, pp. 980-991, Feb. 2020. (最具学术影响力期刊).
- Huang J, Zhang X. “Step-by-Step Threshold Design Methodology of Switching Frequency Regulation for A Generalized Resonant DC/DC Converter,” IEEE Transactions on Industrial Electronics. (最具学术影响力期刊)
- Sun C, Zhu M, Zhang X, Huang J, Cai X. “Output-Series Modular DC DC Converter With Self-Voltage Balancing for Integrating Variable Energy Sources,” IEEE Transactions on Power Electronics, 2020. (最具学术影响力期刊)
- Huang J, Zhang X, Wen C. “Two-stage Parameter Design Methodology of A Generalized Resonant DC Transformer in Hybrid AC/DC Microgrid with Optimum Active Power Transmission,” IEEE Journal of Emerging and Selected Topics in Power Electronics, 2020, 8(3): 2313-2325. (最具学术影响力期刊)
- Huang J, Zhang X, Zhao B. “Simplified resonant parameters design of the asymmetrical CLLC-Type DC Transformer in the renewable energy system via the semi-artificial intelligent optimal scheme,” IEEE Transactions on Power Electronics, 2020, 35(2): 1548-1562. (最具学术影响力期刊).
- Zhou Y., Zhang A., Zhang H., Huang J., Yang W., Zhang, L. “Proportional integral resonance based sliding mode control of VIENNA rectifier for charging station of tramcar under unbalanced power supply”, International Transactions on Electrical Energy Systems, 2020, 30(10), e12518.
- 周运红, 张爱民, 张杭, 黄晶晶, 杨卫朋,张蕾. 电压不平衡下 Vienna 整流器的谐振滑模控制策略[J]. 西安交通大学学报, 2020, 54(4): 76-84.
2019年
- Huang J, Zhang X, Shuai Z, et al. “Robust Circuit Parameters Design for the CLLC-Type DC Transformer in the Hybrid AC/DC Microgrid,” IEEE Transactions on Industrial Electronics, vol. 66, no. 3, pp. 1906-1918, Mar. 2019. (最具学术影响力期刊)
- Dang C, Tong X, Song W, Huang J. “Stability analysis of high power factor Vienna rectifier based on reduced order model in d-q domain”, Journal of Modern Power Systems and Clean Energy, 2019, 7(1): 200-210.
- Huang J, Xiao J, Wen C, et al. “Implementation of Bidirectional Resonant DC Transformer in Hybrid AC/DC Micro-grid,” IEEE Transactions on Smart Grid, vol.10, no.2, pp. 1532-1542, Mar. 2019. (最具学术影响力期刊).
- Huang J, Zhang X. “Three-Step Switching Frequency Selection Criteria for symmetrical CLLC-Type DC Transformer in Hybrid AC/DC Microgrid,” IEEE Transactions on Power Electronics, vol. 34, no. 10, pp. 9379-9385, Oct. 2019. (最具学术影响力期刊)
- Zhao B, Zhang X, Huang J. “AI Based Two-stage Optimal Design Methodology of High-efficiency CLLC Resonant Converters for the Hybrid AC/DC Microgrid Applications.” IEEE Transactions on Industrial Electronics, vol. 66, no. 12, pp. 9756-9767, Dec. 2019. (最具学术影响力期刊).
- Ma Z, Zhang X, Huang J, Zhao B. “Stability Constraining Dichotomy Solution Based Model Predictive Control to Improve the Stability of Power Conversion System in the MEA”, IEEE Transactions on Industrial Electronics, vol. 66, no. 7, pp. 5696-5706, July 2019. (最具学术影响力期刊)
- Zhang X, Zhong Q C, Kadirkamanathan V, He J, Huang J. “Source-side Series-virtual-impedance Control to Improve the Cascaded System Stability and the Dynamic Performance of Its Source Converter,” IEEE Transactions on Power Electronics, vol. 34, no. 6, pp. 5854-5866, June 2019. (最具学术影响力期刊)
- Dang C, Tong X, Huang J, Song W, Huang J. “Vienna rectifier based on reduced order model in d-q domain,” Journal of Modern Power Systems and Clean Energy, vol. 7, no. 1, pp. 200-210, 2019. (SCI/EI)
2018年
- Huang J, Yang Bo, Guo F, et al. “Priority Sorting Approach for Modular Multilevel Converter Based on Simplified Model Predictive Control,” IEEE Transactions on Industrial Electronics, vol. 65, no. 6, pp. 4819-4830, 2018. (最具学术影响力期刊)
- Huang J, Guo F, Wen C, et al. “A Direct Power Control Strategy for AC/DC Converter Based on Best Switching State Approach,” IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 6, no. 4, pp. 2273-2286, 2018. (最具学术影响力期刊).
- 党超亮, 同向前, 宋卫章, 黄晶晶. 基于降阶模型的三相 Vienna 整流器交流级联稳定性分析[J]. 电力自动化设备, 2018, 38(10): 133-139. (EI核心期刊)
其他:
- Huang J, Zhang A, Zhang H, et al. “Improved Direct Power Control for Rectifier Based on Fuzzy Sliding Mode,” IEEE Transactions on Control Systems Technology, vol. 22, no. 3, pp.1174-1180, 2014. (最具学术影响力期刊)
- Dang C, Tong X, Huang J, et al. “QPR and duty ratio feed-forward control for Vienna rectifier of HVDC supply system,” IEEJ Transactions on electronic engineering, vol. 12, no. 4, pp. 502-504, 2017. (SCI/EI)
- Dang C, Tong X, Yin J, Huang J, et al. “The Neutral Point-potential and Current Model Predictive Control Method for Vienna Rectifier,” Journal of the Franklin Institute, vol. 354, no. 17, pp. 7605-7623, 2017. (SCI/EI)
- 黄晶晶, 孙元岗, 同向前, 等. 基于变换器的分段式直接功率控制[J]. 电工技术学报, 2016, 31(14): 176-182. (EI核心期刊)
- 黄晶晶, 孙元岗, 同向前. 基于滑模变结构方法的 APF 电流控制策略[J]. 电气传动, 2016, 46(5): 44-48.
- 党超亮, 同向前, 黄晶晶, 等. 基于等效载波 SVM 的 Vienna 整流器比例重复控制[J]. 电力电子技术, 2016, 50(12): 59-62.
- 高实, 黄晶晶, 同向前, 等. 基于模型预测方法的 MMC 环流抑制策略[J]. 北京交通大学学报, 2015 (05): 118-124.
- 靳艳, 黄晶晶, 同向前, 等. 基于级联STATCOM 的 CPS-SPWM 脉冲相移技术[J]. 电力系统保护与控制, 2015, 43(14): 120-125.
- 黄晶晶, 张爱民, 陈晓菊,等. 三相电压型 PWM整流器双开关表直接功率控制策略[J]. 电力系统自动化, 201236(8): 128-133. (EI核心期刊)
- 黄晶晶, 张杭, 张爱民, 等. 一种新型并网逆变器电流控制策略的研究[J]. 电力系统保护与控制, 2011, 39(20):137-140. (EI检索)
其他论文及原文见: https://www.researchgate.net/profile/Jingjing-Huang-7
1. 发明专利
以第一发明人申请/授权发明专利如下:
- 基于智能楼宇光储供电设备的参数优化设计方法及系统, 2021-1-30, 中国, CN2021101288196
- 一种用于高频谐振型直流变压器的多频率段控制方法, 2020-10-27, 中国, ZL201810885435.7
- 一种引入大信号稳定性约束的整流器模型预测控制方法, 2020-7-28, 中国, ZL201810586962.8
- 一种实现大功率电力电子变压器自然均压的参数设计方法, 2020-7-28, 中国, ZL201810953147.0
- 高频隔离谐振型直流变压器的多时间尺度频率调节方法, 2020-6-26, 中国, ZL201811517569.X
- 一种基于传输功率的用户侧电能路由器协调控制方法, 2019-11-27, 中国, CN201911180389.1
- 基于模糊控制的链式STATCOM直流侧电容均压方法, 2017-3-1, 中国, ZL201510324732.0
- 一种判断电压矢量空间位置的APF系统及判断方法, 2017-2-1, 中国, ZL201510337094.6
- 基于风光荷两级预测的综合能源供电系统优化调度方法, CN 2022100329422.
- 一种基于工业控制系统的消息推送方法.
其他:
- 发明专利: 基于载波交叠的三电平NPC变流器PWM控制策略, 第四发明人, 授权号: 201510378710.2.
- 发明专利: 一种基于定时器的变环宽滞环电流控制方法, 第三发明人, 授权号: 201310228186.
- 发明专利: 一种基于虚拟磁链定向的控制电路及控制方法, 第一发明人, 授权号: 201210425728.X.
- 发明专利: 一种载波变频控制方法, 第二发明人, 授权号: 201210425727.5.
- 发明专利: 一种链式静止同步补偿器的直流侧电压平衡控制方法, 第二发明人, 授权: 201210425347.1
- 发明专利: 一种三相电压矢量空间位置判断方法, 第三发明人, 授权号: 201210422069.4.
- 发明专利: 一种有源滤波和无功补偿装置的直接功率控制方法, 第三发明人, 授权号: 201210422068.X.
- 发明专利: 一种静止无功补偿器的调节装置, 第二发明人, 授权号: 201110027912.4.
- 实用新型: 一种光电互感器中的半周积分复位电路, 第三发明人, 授权号: 201020657580.9.
2. 项目
主持课题---进行中
- 纵向课题--含氢多能源供需系统在孤岛和并网状态下的分层优化调控方法
- 企业委托课题--配电台区柔性互联控制算法研究
- 企业委托课题--电源模块测试系统
- 企业委托课题--智慧矿山一体化综合管控平台研发
- 企业委托课题--石油钻井营地电能质量综合治理装置研发
- 纵向课题--西安交通大学科协能源信息融合模式探讨学术沙龙
- 纵向课题--面向智能楼宇的直流型电能路由器频率自适应控制与稳定性分析
- 企业委托课题--电力电子装置在线监测软件技术开发
- 纵向课题--海下无线供电基站系统层能效提升策略
主持课题---已结题
- 国家自然科学基金青年基金项目,电网电压不平衡时基于模糊反步法的 PWM 变换器控制策略研究(51507138)(优秀结题)
- 陕西省青年人才托举计划项目,基于模糊自适应反步法的链式 STATCOM 直流侧电压平衡控制(20160117)(已结题)
- 陕西省自然科学基础研究计划,适用于智能楼宇的多电压等级直流配电关键技术研究(2018JQ5077)(已结题)
- 陕西省教育厅自然科学专项,电网电压不平衡时基于模糊滑模变结构的 AC/DC 变换器控制策略研究(15JK02)(已结题)
- 陕西省经济技术研究院委托项目,陕西电网各电压等级无功补偿及优化方案(已结题)
- 湖南电科院委托项目,故障指示器检定平台主控模块的研究、加工、项目测试(已结题)
