集成电路设计与集成系统系主任
电子邮箱:
宁亚飞,山东大学青年学者未来计划、交叉学科创新团队(军民融合类)项目负责人、新加坡国立大学NUS访问学者、山东大学-鹰联光电联合实验室主任。
主持项目包括:国家自然科学基金、山东省重点研发计划(公益专项类)、广东省自然科学基金(面上)、中国博士后科学基金(面上)、中国博士后科学基金(特别)、中科院对地实验室重点基金、国防项目以及各类横向课题20余项。
中国科学院大地测量与地球动力学国家重点实验室
中国科学院大学
| 名称 | 简介 |
|---|---|
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多体系架构的物联网MEMS设计及研发 |
基于单片机、PCB、FPGA、RFID、dsp、SOC等传感器的物联网集成电路设计与集成。 |
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RISC-V 芯片集成电路设计与高性能计算 |
基于RISC-V 架构的服务器芯片设计及其在人工智能领域的高性能处理计算。 |
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北斗/GNSS空天信号处理及集成电路研发 |
北斗/GNSS卫星导航系统研究PNT(导航、定位、授时)信号处理,并研究与之相适应的集成电路装备。 |
| 项目名称 | 项目周期 |
|---|---|
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空天地一体化综合感知的高速公路地质灾害 监测预警关键技术与应用 |
2025-09-01,2028-09-30 |
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机架式基准站型北斗接收机集成电路装备研制技术开发合同 |
2025-04-07,2026-04-08 |
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GFJG-GF2024多体***研发KM20240086 |
2024-04-01,2024-12-31 |
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自主可控高性能服务器CPU的设计及产业化(子课题2) |
2023-12-01,2026-12-31 |
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交通基础设施北斗高精度智慧监测系统测试验证技术服务项目 |
2024-08-22,2026-08-22 |
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山东省自主可控服务器CPU发展战略研究 |
2024-01-26,2024-12-31 |
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公路隧道钻爆法施工谱系化全工序机械化智能装备技术及集成应用 |
2022-10-01,2025-09-30 |
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光纤通信系统超高速集成电路设计及验证应用 |
2023-03-01,2026-04-01 |
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基于北斗B2b实时精密定位技术的无人机制导软硬件研发 |
2022-09-28,2024-12-30 |
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隧道三维探测器软硬件系统研发 |
2022-07-01,2024-12-31 |
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公路隧道智能安全建造及其关键技术研究 |
2022-07-01,2024-12-31 |
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基于电磁法的铝包钢测量系统嵌入式研发 |
2022-09-28,2024-12-30 |
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基于单频BDS非差非组合网解模式的电离层TEC计算方法研究 |
2019-08-16,2022-12-31 |
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北斗卫星毫米级暴雨预警实时泄洪协同调控新技术及应用 |
2019-07-08,2021-12-31 |
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基于毫米波雷达技术的运管系统软硬件研发 |
2021-12-08,2022-11-30 |
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北斗/GNSS增强软件研发 |
2019-05-24,2020-12-31 |
| 获奖时间 | 奖项名称 |
|---|---|
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山东省物联网创造力大赛优秀指导教师 |
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山东省大学生科技竞赛优秀指导教师 |
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全国“互联网+”大学生创新创业大赛优秀指导教师 |
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全国“挑战杯”大学生创业计划竞赛优秀指导教师 |
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2019 |
卫星导航定位科学技术奖 |
【1】SABEEN FATIMA.Enhanced thermal stability and switching performance of transition and alkali metal functionalized MXene films for high-temperature memristor applications. Applied Surface Science, 687,2025.
【2】赵康康.Application of nitrogen-doped graphene-like cobalt nanoparticle composite catalysts in zinc-air batteries. Journal of Electroanalytical Chemistry, 986,2025.
【3】张文恺.Doping Characteristics and Band Engineering of InSe for Advanced Photodetectors: A DFT StudyNanomaterials ,2025.
【4】宁亚飞.A Federated Weighted Learning Algorithm Against Poisoning AttacksInternational Journal of Computational Intelligence Systems,2025.
【5】石凯.State-of-the-Art 3DES Pipelined Cryptographic Engine Design Against Side-Channel AttacksINTERNATIONAL JOURNAL OF CIRCUIT THEORY AND APPLICATIONS,2024.
【6】宁亚飞.A simulation optimization method for Verilog-AMS IBIS model under overclockingINTEGRATION-THE VLSI JOURNAL,2025.
【7】Zhang, Ziqi.Improved Implementation of Chua's Circuit on an Active Inductor and Non-Autonomous System. ELECTRONICS, 13,2024.
【8】叶晓玲.High performance self-powered photodetectors based on graphene nanoribbons/Al2O3/InGaZnO heterojunctionsIEEE Photonics Journal,2024.
【9】刘文成.Nitrogen-Doped Graphene Oxide Nanoribbon Supported Cobalt Oxide Nanoparticles as High-Performance Bifunctional Catalysts for Zinc–Air BatteryADVANCED ENERGY AND SUSTAINABILITY RESEARCH,2024.
【10】叶晓玲.Graphene nanoribbons/Ru as efficient cathodic catalysts for high-performance rechargeable Li–CO2 batteriesJournal of Materials Chemistry A,2024.
【11】王名扬.High-Performance Photodetectors Based on Semiconducting Graphene NanoribbonsNano Letters,2023.
【12】刘文成.High-Performance Flexible Zinc-Air Batteries Enabled by a Sodium Polyacrylate-Based Gel Electrolyte Containing Graphene Oxide and Cellulose NanofibersEnergy & Fules,2023.
【13】刘自正.High-Q metamaterials based on cavity mode resonance for THz sensing applicationsAIP Advances,2020.
【14】刘笑宇.Tunable Terahertz Metamaterials Based on Anapole Excitation with Graphene for Reconfigurable SensorsACS Applied Nano Materials:2129,2020.
【15】杜怡凝.Advances in the Field of Graphene-Based Composites for Energy–Storage ApplicationsCrystals,2023.
【16】时彦朋.Manipulating Optical Absorption of Indium Selenide Using Plasmonic NanoparticlesACS Omega:3000,2020.
【17】花明.Electromagnetically induced transparency analog in terahertz hybrid metal-dielectric metamaterials. AIP ADVANCES, 11,2021.
【18】贾茹尚.An improved method using adaptive smoothing for GNSS tomographic imaging of ionosphere. Plos One, 16,2021.
【19】花明.Electromagnetically induced transparency analog in terahertz hybrid metal–dielectric metamaterials. AIP Advances, 11,2021.
【20】宁亚飞.A space hurricane over the Earth’s polar ionosphereNATURE COMMUNICATIONS,2021.
【21】刘自正.High-Q metamaterials based on cavity mode resonance for THz sensing applications10,2020.
【22】刘笑宇.Tunable Terahertz Metamaterials Based on Anapole Excitation with Graphene for Reconfigurable Sensors. ACS Applied Nano Materials, 3:2129,2020.
【23】刘笑宇.Manipulating Optical Absorption of Indium Selenide Using Plasmonic Nanoparticles. ACS Omega, 5:3000,2020.
【24】贾茹尚.An improved method using adaptive smoothing for GNSS tomographic imaging of ionospherePlos One,2021.
| 专利名称 | 简介 | 日期 |
|---|---|---|
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基于55nm工艺的组合逻辑环路自动仿真方法、系统 |
2025-08-05 |
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一种基于ZYNQ的卫星信号快速捕获系统及方法 |
2024-12-27 |
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一种导航信号接收机及其时钟分配方法 |
2023-07-14 |
| 著作名称 | 简介 | 日期 |
|---|---|---|
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北斗GNSS空间电离层TEC计算及电路实现 |
2025-09 |
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嵌入式创新工程设计—基于北斗+交通智能端网云融合应用 |
2022-08 |
