Jia Dagong
School
School of Disaster and Emergency Medicine
Professional Title
Professor
Administrative Appointments
应急医学研究院副院长
Discipline
光学工程
Contact Information
13512049699
020-27403147
dagongjia@tju.edu.cn
26-C-503, Tianjin University
300072
Education Background
- Master’s Degree| 天津大学| 材料加工与自动化| 2001
- Doctoral degree| 天津大学| 光学工程| 2004
- Bachelor’s Degree| 内蒙古工业大学| 材料加工| 1996
Research Interests
- 应急医学研究技术与装备
- 光电检测技术
- 光纤传感技术
- 光互连技术
Professional Membership
- 国际光学工程学会(SPIE),美国光学学会(OSA)的会员,电气和电子工程师协会(IEEE)会员
- 中国仪器仪表学会光机电集成分会的委员和中国仪器仪表学会图像科学与工程分会的委员
- 中国光学学会光电技术委员会
- 《天津科技大学学报》第五届编委
Positions & Employments
-
2025.1-Now
卫生应急学院 | 天津大学 | 应急医学研究院副院长 | 教授  -
1996.9-1998.7
 内蒙古赤峰市民族技工学校 | 教师  -
2004.8-2006.10
 天津大学精仪学院 | 博士后  -
2006.10-2017.11
 天津大学精仪学院 | 副教授 
Academic Achievements
- Papers
- [1] High-sensitivity nanostructure-based sensor using Fano resonance for noninvasive EEG monitoring
- [2] Spectrum contrast enhancement of fiber fabry-perot sensor by coupling efficiency improvement
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- [3] Extended-depth-of-field imaging with an ultra-thin folded lens
- [4] High-sensitivity electrocardiogram sensor based on Fano resonance in a double-stub-assisted plasmonic micro-ring resonator
- [5] The Tactile Force Sensing of the Gripper Based on the Mode Interference Fiber Sensor
- [6] Multi-band tunable electromagnetically induced transparencies based on active metasurface with polarization-independent property
- [7] A Review of the Characteristics of Light Pollution: Assessment Technique, Policy, and Legislation
- [8] 轻薄型折反式中波红外超焦距成像镜头设计
- [9] Rotary robotic gripper with LiDAR-tactile sensor fusion
- [10] Sensitivity Improvement of an Optical Fiber Sensor Based on Surface Plasmon Resonance with Pure Higher-Order Modes
- [11] Optical electrocardiogram monitor with a real-time analysis of an abnormal heart rhythm for home-based medical alerts
- [12] Wearable Optical Sensing in the Medical Internet of Things (MIoT) for Pervasive Medicine: Opportunities and Challenges
- [13] 基于串联哑铃型微环谐振腔的二维相干光码分多址编解码器
- [14] 基于BGSe晶体的电控可调谐中红外激光器设计
- [15] Compact Vectorial Transverse Force Sensor Based on Two-Modal Interference in a Few-Mode Seven-Core Fiber
- [16] Wearable respiration monitoring using an in-line few-mode fiber Mach-Zehnder interferometric sensor
- [17] 开放式多通道多芯少模光纤表面等离子体共振生物传感器
- [18] C-lens光纤准直器点精度优化分析
- [19] An Optical Fiber-Based Data-Driven Method for Human Skin Temperature 3-D Mapping
- [20] High-efficiency off-axis coupling of rotating optical signals based on internal conical reflection
- [21] Experimental and analytical investigation of LP01-LP11 mode interference
- [22] A Fiber Bragg Grating Sensor for Radial Artery Pulse Waveform Measurement
- [23] A self-healing evaluation model for dedicated protection optical fiber sensor networks using All-terminal reliability function
- [24] 环形光束锥形衍射出射光场偏振特性及光场调控
- [25] Method Based on Fast Fourier Transform for Calculating Conical Refraction of Beams With Noncircular Symmetry
- [26] An Approach for Increasing User Capacity of OCDMA System Based on Vernier Effect
- [27] Evaluation Parameter for Self-Healing FBG Sensor Networks After Multiple Fiber Failures
- [28] Two-dimensional coherent optical en/decoder using parallel-cascaded coupled third-order microring resonator
- [29] A Self-Healing Passive Fiber Bragg Grating Sensor Network
- [30] Combined denoising filter for fringe pattern in electronic speckle shearing pattern interferometry
- [31] 结构参数对串联微环谐振腔编解码器性能的影响
- Patents
- [1] 含有渐开面型转向器件的双向离轴光纤旋转连接器
- [2] 一种大视场角的折叠光学系统
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- [3] 光纤式视触觉融合的旋转机械爪系统
- [4] 一种用于生物电信号检测的光芯片
- [5] 一种户外场景图像预测方法
- [6] 新型多芯光纤耦合装置及制备方法
- [7] 基于热光效应的生物电信号检测系统
- [8] 一种基于卷积神经网络的灰度图像彩色化方法
- [9] 一种具有微环-马赫曾德结构的脑电信号传感器
- [10] 一种多芯少模光纤局域表面等离子体共振传感器
- [11] 一种三明治结构的反射式光学脑电信号传感器
- [12] 新型无源柔性光学电极
- [13] 在线传输式多芯光纤SPR传感器
- [14] 基于模式激发的单模-少模/多模光纤SPR传感器
- [15] 折叠式超薄光学成像系统
- [16] 离轴光纤旋转连接器
- [17] 多路中空光纤旋转连接器
- [18] 基于光学原理的人体温度场测量装置
- [19] 一种级联式光纤呼吸传感系统及其测试方法
- [20] 一种具有自愈功能的无源光纤星环网
- [21] 一种新型光学脉诊仪系统
- [22] 光学的弯曲曲率测试方法及传感器
- [23] 一种锥形折射的多通道光纤旋转连接器
- [24] 基于光纤布喇格光栅的多种气体浓度传感器
- [25] 光纤光栅脉搏测试头、三路光学脉搏测试系统及方法
- [26] 一种光学心电、脉搏综合检测装置
Team
卫生应急学院装备中心
该团队面向应急医学救援任务开发各种医学救援装备,解决救援过程中存在的各种伤情和医学救援问题。
- Honors & Awards
- [1] 天津市技术发明二等奖
- [2] 天津市技术发明二等奖