复杂机械过程检测与分析团队立足于西安理工大学机械与精密仪器工程学院现代传动系统研究所，团队现有导师10人，其中教授2人，副教授4人，100%具有博士学位。现有博士生10人，研究生55人，聚焦航空航天、车辆、能源化工、矿山机械及健康医疗等重要行业，针对极端工况润滑与密封、锂电池浆料制备、气体污染物末端治理等复杂机械过程中均普遍存在的气、液、固多相耦合及流动、传热、电磁、化学反应、辐射等多场耦合问题，开展基础理论分析及检测技术开发应用研究。主要研究方向包括可视化检测及传感器设计技术、高速密封润滑过程建模与分析、等离子体风洞仿真与优化设计、微尺度驱动与检测方法及可穿戴辅助装备设计。团队始终坚持“求真务实，践新致远”的育人理念，鼓励学生敢于尝试、勇于创新，在科研的道路上不断探索未知，追求卓越，同时注重对学生的人文关怀，引导学生科研学习和生活并重、专业技能和人文关怀共行，取得了丰硕的科研成果，为社会输送了大批优秀的青年人才。

近年来，围绕生物医学检测、复杂流动过程可视化与智能传感等交叉领域，本人主持或参与了多项国家级与省部级科研项目。作为负责人，主持包括中国博士后科学基金、陕西省重点研发计划、校企合作横向项目及西安理工大学“校级国际科技合作促进项目”等10余项科研课题，研究方向涵盖三维电阻抗成像技术、肌肉质量与肌电耦合建模、足部疾病早期诊断与干预技术、低浓度VOCs吸附与燃烧处理机制等。曾作为骨干成员参与国家自然科学基金重点项目、科技部“高端外国专家引进计划”、陕西省社会发展重点项目等多个重要科研计划，并与日本千叶大学、印度尼西亚加查马达大学等国际高校建立了稳定合作关系。项目成果多项已实现阶段性突破，为智能检测装备研发与临床辅助诊断提供了理论基础与技术支撑。

[1] 2026年01月~2027年12月, 主持，人体肌量和肌质全三维电阻抗成像监测方法研究，中国博士后科学基金面上项目，2025M771364。

[2] 2025年01月~2026年12月，主持，基于单目3D姿态识别和电阻抗肌肉发力成像的精准康复系统在脊柱术后多场景中的研发，陕西省 2025年重点研发计划，2025GH-YBXM-007。

[3] 2026年01月~2027年12月，主持，人工智能驱动电阻抗成像的肌少症检测方法研究，西安理工大学2024年校国际科技合作促进项目，2024GHCJ026。

[4] 2024年01月~2026年12月，主持，基于三维电阻抗成像的可穿戴式肌少症长期监测方法，国家自然科学基金青年项目， 62301419。

[5] 2023年05月~2026年05月，主持，基于三维电阻抗成像的可穿戴式肌少症监测方法，西安理工大学校博士启动金，102-451123005。

[6] 2024年01月~2025年12月，主持，肌少症全三维电阻抗成像监测方法研究，2023年度南京医科大学附属江宁医院医工融合实验室开放课题，JNYYZXKY202320。

[7] 2021年10月~2022年03月，主持，インピーダンス・トモグラフィーによる筋肉可視化法のサルコペニア予防への展開，日本科学技术振兴机构，日本科学技术振兴机构次世代研究者挑战项目（JST SPRING），JPMJSP2109。

近五年，在国内外学术刊物及国际会议上发表文章30余篇，其中SCI收录30余篇。

[1] Bo SUN, Marlin Ramadhan Baidillah, PanjiNursetia Darma, Tomoyuki Shirai, Kosei Narita, Masahiro Takei, Evaluation ofthe effectiveness of electrical muscle stimulation on human calf muscles viafrequency difference electrical impedance tomography, PhysiologicalMeasurement, Vol.42, No.3, pp.035008.

[2] Jingjing Liu,Tong Zhao, Kai Liu, Bo SUN, Chuanxin Bai, Optimization of structureparameters in a coal pyrolysis filtration system based on CFD and quadraticregression orthogonal combination and a genetic algorithm, EngineeringApplications of Computational Fluid Mechanics (Taylor & Francis). Vol.15,No.1, pp.815-829.

[3] Bo SUN, Panji Nursetia Darma, TomoyukiShirai, Kosei Narita, Masahiro Takei, Electrical-tomographic Imaging ofPhysiological-induced Conductive Response in Calf Muscle Compartments duringVoltage Intensity Change of Electrical Muscle Stimulation (vic-EMS), PhysiologicalMeasurement, Vol.42, No.9, pp.095007.

[4] Bo SUN, Tong Zhao, Yosephus ArdeanKurnianto Prayitno, Wei Li, Pengzhao Sun, Cong Peng, Optimization of designvariables for rotary regenerative thermal oxidizer high-temperature valve(rto-HTV) based on transient dynamics analysis and multi-objective optimizationalgorithm, AIP Advances, Vol.11, Issue.12, pp. 125312.

[5] Bo SUN, Tong Zhao, Lu Li, Zhilong Wang,Pengzhao Sun, Cong Peng, Optimization of regenerator operating parameters andthermal insulation construction for rotary regenerative thermal oxidizer(r-RTO) based on thermal-fluid coupling method and quadratic regression model,Case Studies in Thermal Engineering, Vol.37, pp.102314.

[6] 孙博, Prima Asmara Sejati, 姚佳烽. 人类小腿肌肉对运动训练生理响应的电学特性研究[J].生物化学与生物物理进展, 2023, 50(3):595-605.

[7] 孙博, Panji Nursetia Darma, 张全成，姚佳烽，神经肌肉电刺激下小腿肌肉的电学特性研究，生物化学与生物物理进展, 2023, 50(6): 1443-1453.

[8] Bo SUN, Panji Nursetia Darma, Kaname Ikeda,Tomoyuki Shirai, Kosei Narita, Masahiro Takei, Relationship between FatThickness and Current Density Magnitude in Calf Muscles Compartments underElectrical Muscle Stimulation (EMS) by Coupling of Electromagnetic Simulationand Electrical Impedance Tomography (ES-EIT), Journal of Visualization, 2023: 1– 14.

[9] Bo SUN, Prima Asmara Sejati, Panji NursetiaDarma, Tomoyuki Shirai, Kosei Narita, Masahiro Takei, Physiological-inducedConductive Response Evaluation in Specific Muscle Compartments under Hybrid ofElectrical Muscle Stimulation and Voluntary Resistance training by ElectricalImpedance Tomography, Frontiers in Physiology, 2023, 14: 1185958.

[10] Prima AsmaraSejati, Bo SUN*, Panji Nursetia Darma, Tomoyuki Shirai, Kosei Narita,Masahiro Takei, Multinode Electrical Impedance Tomography (mnEIT) ThroughoutWhole-Body Electrical Muscle Stimulation (wbEMS), IEEE Transactions onInstrumentation and Measurement, vol. 72, pp. 1-14, 2023, Art no. 4505014.

[11] Qi Deng, JieHe, Chengjun Zhu, Hao Wang, Kai Liu, Bo SUN, Jiafeng Yao,Three-dimensional Bioelectrical Impedance Spectroscopic Tomography forVisualization of Breast Tumor, IEEE Sensors Journal, vol. 23, no.17, pp.19598-19605, 2023.

[12] Zengfeng Gao,Panji Nursetia Darma, Bo SUN, Daisuke Kawashima, Masahiro Takei, ANoise-Controlling Method by Hybrid Current-Stimulation and Voltage-Measurementfor Electrical Impedance Tomography (HCSVM-EIT), Biomedical Physics &Engineering Express, Vol.9, No.6, pp. 065002.

[13] Bihan Gao, KaiLiu, Tao Lin, Bo SUN, Hongtao Wu, Jiafeng Yao, Continuous Monitoring ofThrombus Formation by Finite Element Methods (FEMs) Coupled with ElectricalImpedance Spectroscopy, IEEE Transactions on Instrumentation and Measurement,Vol.72, pp. 1-8.

[14] Panji NursetiaDarma, Bo SUN, Prima Asmara Sejati, Masahiro Takei, Local Muscle QualityImaging in Human Calf by Phase Angle Electrical Impedance Tomography, IEEETransactions on Instrumentation and Measurement, vol. 73, pp. 1-11, 2024, Artno. 4505411.

[15] An Zhang, XiayiLiu, Zhilong Wang, Bo SUN, Zhao Tong. (2024). Power loss model ofelectromagnetic waves propagation in cell solutions by GHz electrical impedancespectroscopy. Measurement Science and Technology, 35(4), 045121.

[16] 王芸倩，孙博*，赵桐，张安，姚佳峰，基于电阻抗成像分析血流速度和血乳酸浓度电学特性响应，分析化学，2024, 52(4): 531-540.

[17] Chaofan Pang,Tong Zhao, Bo SUN, Zengfeng Gao, Yunqian Wang, Lu Li, Dynamic Detectionof Saturated Distribution of Activated Carbon Adsorbed Volatile OrganicCompounds based on Electrical Impedance Tomography, Measurement Science andTechnology, 2024, 35(8): 085802.

[18] Bo SUN, Prima Asmara Sejati, TomoyukiShirai, Masahiro Takei, Long-term Phase Angle Muscle Imaging under ElectricalMuscle Stimulation (EMS) by Phase Angle Electrical Impedance Tomography,Physiological Measurement, Vol.45, No.7, pp.075010.

[19] Jiafeng Yao,Pierre-Olivier Bagnaninchi, Jiabin Jia, Jianping Li, Bo SUN, Biomedicalengineering and measurement technology, Measurement Science and Technology,2024, 36(1): 010203.

[20] Yunqian Wang,Hui Feng, Bo SUN*, Yuru Bai, Songpei Hu, Jiafeng Yao, Tong Zhao, PlantarPlanar Dual-Array Electrical Impedance Tomography (PPDA-EIT) Method for EarlyDiabetic Foot Ulcers’ Detection, IEEE Sensors Journal, 2024,24(23): 39759-39770.

[21] Bin Zou,Tianping Wang, Songpei Hu, Minhong Pan, Bo SUN, Kai Liu, Jiafeng Yao,Fast 3D Electrical Impedance Tomography Imaging of Tumor Boundary Based onPlane Extension Layer and Deep Learning, IEEE Sensors Journal, vol. 24, no. 24,pp. 41856-41863.

[22] Jinming Liang,Bihan Gao, Kai Liu, Xiaojie Chai, Jianlong Ji, Bo SUN, Jiafeng Yao,Microscale Electrical Impedance Tomography Method for Cell Phase SeparationDetection, IEEE Nanotechnology Magazine, vol. 19, no. 1, pp. 16-23, Feb. 2025,

[23] Jie He, ZhiyangHong, Xiaowu Sun, Qi Deng, Mengyuan Zhu, Chengjun Zhu, Kai Liu, Bo SUN,Jiafeng Yao, Three-dimensional Image Reconstruction of Breast Tumor byElectrical Impedance Tomography based on Dimensional Grey Wolf OptimizationAlgorithm, IEEE Transactions on Instrumentation and Measurement, vol. 74, pp.1-10, 2025, Art no. 4504310, Feb. 2025.

[24] Zhilong Wang,Jianhang Lu, Jiatan Zhang, Feixiang Li, Xinhao Yu, Bo SUN, Yahui Cui,Tong Zhao, Clarification of network structure of lithium-ion battery slurryunder effects of composite conductive agent amount and carbon black to graphenemass ratio, Particuology, Vol. 99, pp. 47-59, April. 2025.

[25] Zhiwei Li, YangWu, Tiecheng Xu, Jiajuan Ren, Kai Liu, Qiuju Cheng, Hao Wang, Bo SUN,Jiafeng Yao, A fast 3D lung image reconstruction method based on CT pixelmatrices learning with electrical impedance tomography, Measurement, 2025.

[26] Bin Zou,Songpei Hu, Yang Wu, Bo SUN, Hang Tian, Kai Liu, Jiafeng Yao, MinhongPan, Bioimpedance spectroscopy for lung cancer diagnosis based on Hippopotamusalgorithm with Enhanced exploitation capability (EEC-HA), Measurement, vol.251, 117319, 2025. 

[27] Junwen Peng,Tianyu Jiang, Zihan Zhao, Bo SUN*, Yingqi Zhang, Kai Liu, Jiafeng Yao,Dynamic Lactate Monitoring Method based on Spatiotemporal Inward BioimpedanceSpectroscopy Tomography, IEEE Sensors Journal, vol. 25, no. 11, pp.18971-18981, 2025.

[28] Jiajuan Ren,Huaiwu He, Zhiwei Li, Yang Wu, Guojun Li, Kai Liu*, Bo SUN, JiafengYao*, Elimination of Breath Interference for Conductivity-Contrast PulmonaryPerfusion Process with High-Frequency Electrical Impedance Tomography, IEEETransactions on Instrumentation and Measurement, vol. 74, pp. 1-9, 2025, Artno. 4509309.

[29] 孙博，候菜飞，王芸倩，赵桐，王向鹏，王一吉，姚佳峰，基于电阻抗层析成像的压力下小腿肌肉动态电学特性分析，分析化学，2025, 53(6): 1028-1036.

[30] Junwen Peng,Zihan Zhao, Jie He, Kai Liu, Chen Ye, Bo SUN*, Jiafeng Yao*, A GaussianIntelligent Optimization Framework for Real-time Electrical ImpedanceTomography of 3D Lactate Monitoring based on TK-Noser Priori, Measurement, vol.257, Part A, 2026.