裘安萍,女,博士,浙江寧波人,南京理工大學機械工程學院教授,博士生、碩士生生導師。
基本介紹
- 中文名:裘安萍
- 國籍:中國
- 出生日期:1971年12月3日
- 職業:教師
- 畢業院校:東南大學
- 學位/學歷:博士
- 專業方向:MEMS設計技術;MEMS慣性技術等
- 職務:南京理工大學博士生、碩士生導師
人物經歷,學歷經歷,工作經歷,學術兼職,所獲榮譽,學術成果,科研項目,發表論文,科研創新,
人物經歷
學歷經歷
1998-03-01 至 2001-06-01 東南大學 博士學位
1995-09-01 至 1998-02-28 東南大學 碩士學位
1989-09-01 至 1993-06-30 合肥工業大學 本科學位
工作經歷
2001-06-01 至 2005-11-30 東南大學 副教授
2005-12-01 至今 南京理工大學 教授
學術兼職
全國微機電技術標準化技術委員會SAT/TC336委員,全國慣性計量技術委員會MTC22委員,全國慣性技術與產品標準化工作組SAC/SWG16委員,中國造船工程學會學術委員會委員,南京理工大學校學術委員會委員,國家自然科學基金通訊評審專家。
所獲榮譽
國防科技進步三等獎 1項、2012年入選江蘇省第四期“333高層次人才培養工程”
學術成果
科研項目
累計主持、參加完成了41項國家及省部級項目,包括國家“973”項目、國家“863”項目、科技部重大基礎項目、總裝重大專項、國防預研項目、國家自然基金、總裝重點基金、國防技術基礎項目、江蘇省高新技術項目,江蘇省自然基金、總裝預研基金等。主持國家“973”項目1項、裝發共性技術項目1項,參研裝發共性技術項目2項,國家自然基金2項,軍委科技委領域基金1項。
發表論文
1. Effect of stress on split mode gyroscope bias: An experimental study. in 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS). 2017.
2. A Compact Low-Power Oscillation Circuit for the High Performance Silicon Oscillating Accelerometer. International Conference on Material Science,Resource and Environmental Engineering. 2017,11.
3. A Real Time Self-Temperature Compensation Method Used for MEMS Gyroscopes. International Conference on Material Science,Resource and Environmental Engineering.2017,11.
4. Sub-degree per hour Split Mode Tuning Fork Gyroscope. International Symposium on Inertial Sensors and Systems. 2016,2.
5. A low power MEMS-ASIC silicon resonant accelerometor with sub-μg bias instability and ±30g full-scale. International Symposium on Inertial Sensors and Systems. 2016,2.
6. Silicon vibrating beam accelerometer with ppm grade scale factor stability and tens-ppm grade full-range nonlinearity. International Symposium on Inertial Sensors and Systems. 2016,2.
7. A 0.23 μg bias instability and 1.6μg/Hz1/2 resolution silicon oscillating accelerometer with build-in Σ-Δ frequency-to-digital converter. 2016 IEEE Symposium on VLSI Circuits (VLSI-Circuits). 2016.06.
8. A System Decomposition Model for Phase Noise in Silicon Oscillating Accelerometers. IEEE Sensors Journal. vol.13(16).pp 5259-5269.
9. A solution to high frequency oscillation in the driving loop of silicon microgyroscope. Proceedings of the 2016 International Conference on Advanced Electronic Science and Technology.AEST2016,Aug.19-21,345-352.
10. Thermal drift optimization for silicon microgyroscope. IEEE Sensors 2016.931-933
11. An on-chip thermal stress evaluation method for silicon resonant accelerometer. IEEE Sensors 2016.340-342.
12. The Research of PNS Based on Micro Inertial Sensors, Measurement, 2016-08, SCI: 000377389600066,EI:20162202448178.
13. The Analysis and Design of Closed-loop Control System for MEMS Vibratory Gyroscopes. 20thInternationalConferenceonMechatronicsTechnology (ICMT 2016)
14. A 0.5°/h Bias Instability 0.067°/√h Angle Random Walk MEMS Gyroscope with CMOS Readout Circuit. IEEE Asian Solid- state Circuits Conference. 2015,11.
15. A Sub-ug Bias-Instability MEMS Oscillating Accelerometer With an Ultra-Low-Noise Read-Out Circuit in CMOS. IEEE Journal of Solid-state Circuits. 2015.Vol.50(9), 2113-2126.
16. Microelectromechanical resonant accelerometer designed with a high sensitivity. Journal of Sensors.2015. Vol.(15), 30293-30310.
17. Development of MEMS inertial sensors in NUST. The 5International Workshop on Computer Science and Engineering. 2015. 224-230.T
18. A wafer level vacuum packaged silicon vibration beam accelerometer. IEEE International Symposium on Inertial Sensors and Systems 2015 Proceedings.2015. 78-81.
19. Tactical grade MEMS gyro with low acceleration sensitivity. IEEE Sensors 2015. 2015. 630-633.
20.高真空環境下矽微機械陀螺品質因數的溫度特性.光學精密工程.2015,23(7),1990-1995.
21.雙質量振動式矽微陀螺理論和實驗模態分析.光學精密工程.2015,23(2),467-476.
22. JIANG S D, SU Y, SHI Q, QIU An P. Analysis of impact of driving amplitude on resonance frequency of silicon microgyroscope. Advanced materials research (ISSN:10226680). 2015. Vol.989-994,2926-2930.
23.矽微陀螺儀零偏穩定性的最佳化.光學精密工程.2014. Vol.22(9),2381-2388.
24.具有增益補償功能的微機械陀螺數位化驅動閉環.光學精密工程.2014. Vol.22(1),109-116.
25. Test andevaluationofasiliconresonant accelerometerimplementedinSOItechnology. IEEEsensors2013. 2013.
26. Modeling of Nonlinear Stiffness of Micro-Resonator in Silicon Resonant Accelerometer. Key Engineering Materials. 2013. Vol. 562-565,374-379.
27. Temperature Self-Compensation of Micromechanical Silicon Resonant Accelerometer. Apllied Mechanics and Materials. 2013. Vol.373-375,373-381.
28. Phase noise analysis of micromechanical siliconresonant accelerometer. SensorsandActuators,A:Physical.2013. Vol.197,15-24
29.高品質因數微機械陀螺的溫度自補償方法. 光學精密工程.2013. Vol.21(11),164-170.
18. 變結構PID在微機械陀螺儀閉環驅動電路中的套用. 納米技術與精密工程.2013.Vol.11(2),169-173.
30.脈衝密度反饋對力平衡式微機械陀螺的影響.光學精密工程.2013. Vol. 21(8),2087-2094.
31.矽微陀螺儀正交耦合係數的計算及驗證[J].光學精密工程,2013,1(21):87-93.
32.微機械陀螺檢測接口建模及前置放大器最佳化.光學精密工程.2013. Vol.21(7),1734-1740.
33. 矽微振動陀螺儀設計與性能測試. 光學精密工程.2013. Vol.21(5),1272-1281.
34. 雙質量矽微機械陀螺固有頻率溫度特性研究.南京理工大學學報.2013. Vol.37(1),94-100.
35.Implementation and Experiment of Dual-mass Vibratory Gyroscope with High Quality Factor. IEEE sensors 2012. 2012. 1284-1287.
36.矽微諧振式加速度計的溫度效應及補償. 納米技術與精密工程. 2012. Vol.10(3), 215-219.
37. Design and system level simulation of double-mass silicon micro gyroscope. Applied mechanics and materials. 2012. Vol.138-139,618-686.
38.微槓桿在矽微諧振式加速度計中的套用. 光學精密工程. 2011. Vol. 19(5),805-811.
39. Micro Leverage Modeling, Simulation and Optimization for Micromechanical Silicon Oscillating Accelerometer. Advanced Materials Research. 2011. Vol.193, 4130-4134.
40. 矽微諧振式加速度計的實現及性能測試[J]. 光學 精密工程. 2010, 18(12): 2583-2589.
41. A theoretical and experimental study on temperature dependent characteristics of silicon MEMS gyroscope drive mode[C]. 2010 6th International Conference on MEMS NANO, and Smart Systems. Changsha, China. Dec, 2010. 50-54.
42. Research on MEMS Gyro Random Drift Restraining based on Simplified Sage-Husa Adaptive Filter Algorithm[C]. 2010 6th International Conference on MEMS NANO, and Smart Systems. Changsha, China. Dec, 2010. 58-61.
43. A research on temperature dependent characteristics of quality factor of silicon MEMS gyroscope[C]. 2010 International Conference on Micro Nano Devices, Structure and Computing Systems. Singapore. Nov, 2010. Advanced Materials Research. 159: 399-405.
44. Analysis and design of drive closed-loop for MEMS Vibratory Gyroscope[C]. 2010 International Conference on Micro Nano Devices, Structure and Computing Systems. Singapore. Nov, 2010. Advanced Materials Research. 159: 406-411.
45. Structure Design and Simulation of Silicon Resonant Accelerometer[C]. China International Conference on Inertial Technology and Navigation. Nanjing, China. Oct 2010. 157-162.
46. Performance Analysis and Test of Double-mass Linear Vibration Silicon Micromechanical Gyroscope[C]. China International Conference on Inertial Technology and Navigation. Nanjing, China. Oct, 2010. 104-114.
47. 一種具有廣泛適應性的微機械製造方法研究[J]. 感測技術學報. 2010.07, 23(7): 922-925.
48. Nonlinear oscillation characteristics of MEMS resonator[C]. 2010 IEEE International Conference on Mechatronics and Automation. Xi’an, China. Aug, 2010. 1250 – 1253.
49. 微機械陀螺的Allan方差負係數處理方法[J]. 聲學與電子工程. 2009, 63: 13-16.
50. Bulk-micromachined silicon resonant accelerometer[C]. 2009 International Conference on Information and Automation (ICIA), Zhuhai, China, Jun, 2009. 1298-1292.
51. A Study on Device Level Vacuum Packaging for Silicon MicroGyroscopes[C]. Pro. 3rd ICMEM, Beijing, China. Oct, 2009. 1570-1575.
52. MEMS陀螺儀器件級真空封裝技術[J]. 光學精密工程, 2009, 17(8), 1987-1992.
53. 矽微陀螺儀器件級真空封裝[J]. 機械工程學報,2009, 45(2): 243-246.
54. 矽微諧振式加速度計數據採集系統設計[J]. 中國慣性技術學報, 2009.01, 17(1), 76-80.
55. 矽微諧振式加速度計結構設計與仿真[J]. 中國慣性技術學報, 2009.2, 17(1): 93-97.
56. Experimental study of compensation for the effect of temperature on a silicon micromachined gyroscope[J]. Journal of Nanoengineering and Nanosystems. 2008, 222(2): 49-55.
57. 矽微陀螺儀真空封裝技術研究[C]. 第六屆中國慣性技術學會年會,2008.11. 310-314.
58. 雙質量線振動式矽微機械陀螺儀的性能分析與測試[C]. 第六屆中國慣性技術學會年會,2008.11. 325-332.
59. 矽微陀螺儀的機械耦合誤差分析[J]. 光學 精密工程,2008.5, 16(5), 894-898.
60. 矽微機械陀螺儀封裝應力研究[J]. 電子器件,2007, 30(6): 2294-2296.
61. Effects of Adhesive on Silicon Microgyroscopes[C]. IEEE-NEMS 2007. Bangkok, Thailand. Jan, 2007, 92-95.
62. 矽微陀螺儀的誤差分析[J]. 感測技術學報. 2006, 19(5): 2182-2185.
63. 矽微振梁式加速度感測器中微槓桿結構的設計[J]. 感測技術學報. 2006, 19(5): 1987-1992.
64. 振動式微機械陀螺動態特性光學測試[J]. 光學學報. 2006, 26(2): 202-206.
65. 國外MEMS慣性技術研究進展[C]. 2006年船舶通訊導航學術會議, 中國湖北宜昌, 2006: 95-99.
66. 殘餘應力對z軸矽微機械振動陀螺儀性能的影響. 機械工程學報. 2005.41 (6):228-232.
67. 微機械諧振陀螺的有限元分析. 東南大學學報. 2004,34(1):38-41.
68. 等剛度法在音叉式陀螺儀諧振頻率計算中的套用.2004,12(5):49-52.
69. 三自由度水平軸矽微機械陀螺陀螺結構設計與仿真.2004,2(3):225-228.
70. 矽微型微機械振動陀螺儀的計算機輔助設計. 2004, 34(2):240-243.
71. 加工應力對雙線振動式陀螺儀諧振頻率的影響. 中國微米/納米學術年會. 2003.
72. 矽微機械陀螺諧振式陀螺儀. 中國慣性技術學報. 2003,11(4): 45-48.
73. 微慣性儀表技術的研究與發展. 中國慣性技術學報. 2001,9(4): 46-49.
74. 基於隧道效應的微機械角速率感測器. 中國慣性技術學報. 2000,8(4): 75-79.
75. 音叉式矽微機械振動陀螺儀的粘滯阻尼研究. 東南大學學報. 2000, 30(1):131-135.
76. 矽微機械陀螺振動輪陀螺儀原理及結構誤差分析. 感測技術學報. 2000, 13(1):18-22.
77. 微型雙框架角振動陀螺儀的原理及結構誤差分析. 東南大學學報. 1999, 29(3):130-133.
78. 扭擺式矽微加速度計的最佳化設計. 儀表技術與感測. 1999(11):8-10.
科研創新
- 工字型結構的矽微機械振動陀螺,授權發明專利,專利號:201511004405.3;
- 一種基於硼矽酸鹽玻璃退火成型的微型半球諧振陀螺及其製造方法,授權發明專利,專利號:201510753448.5;
- 一種基於數位訊號處理器平台的微分測頻方法及系統,授權發明專利,專利號:201410676742.6;
- 基於微諧振器的高精度溫度測量系統,授權發明專利,專利號:201410396177.8;
- 晶片式微陀螺的減振測試裝置,授權發明專利,專利號:201310397454.2;
- sigama-delta PLL頻率測量電路及方法,授權發明專利,專利號:201310441258.0;
- 基於片式集成高精度測溫結構的矽振梁加速度計,授權發明專利,專利號:201310398892.0;
- 矽微角振動輸出陀螺儀,授權發明專利,專利號:201110170673.8;
- 表面磨擦剪下應力感測器,授權發明專利,專利號:201010565146.2;
- 雙軸諧振式矽微加速度計,授權發明專利,專利號:201010565101.5;
- 矽微諧振式加速度計,授權發明專利,專利號:201010293127.9;
- 微諧振器溫度控制系統,授權發明專利,專利號:201010198225.4;
- 低應力矽微諧振式加速度計,授權發明專利,專利號:201010186252.X;
- 熱敏表面剪下應力感測器,授權發明專利,專利號:200910029924.3;
- 擺動式矽微陀螺儀,授權發明專利,專利號:200910024421.7;
- 雙軸表面剪下應力感測器,授權發明專利,專利號:200810243664.5;
- 矽微諧振式加速度計,授權發明專利,專利號:200810025574.9;
- 雙質量振動式矽微陀螺儀,授權發明專利,專利號:200710133223.5;
- 調諧式微機電陀螺,授權發明專利,專利號:200510040595.4。
