工作经历：

2025.12 至今，bevictor伟德，伟德体育，副研究员

2022.07-2025.10，华中科技大学，武汉光电国家研究中心，博士后

2024.10-2025.09，Oregon Health & Science University，博士后

 教育经历：

2017.09-2022.06，华中科技大学，武汉光电国家研究中心，工学博士

2013.09-2017.06，华中科技大学，数学与统计公司，理学学士

 主要研究领域：

1. 血流动力学与血液流变学研究

2. 光学相干层析成像、光学相干弹性成像

3. 活体多模态光学成像

4. 人工智能驱动的眼科疾病光学诊断

 学术论文：

[1] Jiachi Hong, Wenting Zhu, Pengcheng Li, Alexander V. Priezzhev, Andrei Lugovtsov, and Jinling Lu, "Hybrid decorrelation optical coherence tomography for quantification of wide-dynamic-range blood perfusion," Opt. Express 33, 45346-45356 (2025)

[2] Y. Guo, J. Hong, Q. Dong, H. Liu, Y. Mei, J. Yan, D. Cheng, A. Nie, Q. Wang, P. Li, Y. Yao, J. Lu, Y. Yuan, Angew. Chem. Int. Ed. 2025, e20550.

[3] Jiachi Hong, Afshan A. Nanji, Richard D. Stutzman, Winston D. Chamberlain, Xubo Song, David Huang, Yan Li; Artificial Intelligence–Driven Detection of LASIK Using Corneal Optical Coherence Tomography Maps. Trans. Vis. Sci. Tech. 2025;14 (3):17.

[4] Jiachi Hong, Siyu Chen, Amy Pohodich, Tejpal Gill, Xubo Song, Yifan Jian, Eric Suhler, David Huang, and Yan Li, "Convolutional neural network-based differentiation of intraocular inflammatory cells with ultrahigh-resolution OCT," Biomed. Opt. Express 16, 4917-4928 (2025)

[5] Jiachi Hong, Wenting Zhu, Bowen Zhao, Pengcheng Li, and Jinling Lu, "Non-ergodicity and noise-corrected diffuse speckle contrast analysis in deep tissue blood flow measurement," Biomed. Opt. Express 16, 1856-1870 (2025)

[6] Jiachi Hong, Siyu Chen, Tejpal Gill, Xubo Song, Yifan Jian, Eric Suhler, David Huang, Yan Li, "Artificial intelligence assisted intraocular inflammatory cell differentiation with ultrahigh-resolution OCT," Proc. SPIE 13305, Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXIX, 1330509 (2025)

[7] Jad F. Assaf, Jiachi Hong, Yan Li, David Huang; Characterization of Directional Reflectance in Corneal Tissue: A Comprehensive Optical Coherence Tomography Analysis. Trans. Vis. Sci. Tech. 2025;14 (4):7.

[8] Jiachi Hong, Wenting Zhu, Kaikai He, Xiao Chen, Jinling Lu, and Pengcheng Li, "Ergodic speckle contrast optical coherence tomography velocimetry of rapid blood flow," Opt. Lett. 49, 3600-3603 (2024)

[9] Wenting Zhu, Tianshu Tao, Jiachi Hong, Ruolan Li, Minghui Ma, Jianjian Zhang, Jincao Chen, Jinling Lu, Pengcheng Li, "Exploring the impact of pre-anastomosis cerebral microcirculation on cerebral hyperperfusion syndrome in superficial temporal artery-middle cerebral artery bypass surgery of moyamoya disease," Neurophoton. 11(3) 035008 (2024)

[10] Ruolan Li, Minghui Ma, Chen Wang, Jiachi Hong, Zhihong Zhang, Jinling Lu, and Pengcheng Li, "Dual-exposure temporal laser speckle imaging for simultaneously accessing microvascular blood perfusion and angiography," Opt. Express 32, 6887-6902 (2024)

[11] Liu, Xiaohu, Liangwei Meng, Jiachi Hong, Changping Fu, Jinling Lu, and Pengcheng Li. "Correcting non-rigid intra-frame motion of laser speckle contrast imaging by heterogeneous regression analysis." Optics and Lasers in Engineering 170 (2023): 107759.

[12] Jiachi Hong, Xuan Zhu, Jinling Lu, and Pengcheng Li, "Quantitative laser speckle auto-inverse covariance imaging for robust estimation of blood flow," Opt. Lett. 46, 2505-2508 (2021)

[13] Chen Wang, Xiao Chen, Jiachi Hong, Liangwei Meng, Weimin Cheng, Xuan Zhu, Jinling Lu, and Pengcheng Li, "Extendable, large-field multi-modal optical imaging system for measuring tissue hemodynamics," Biomed. Opt. Express 11, 2339-2351 (2020)

[14] Jiachi Hong, Liang Shi, Xuan Zhu, Jingling Lu, and Pengcheng Li, "Laser speckle auto-inverse covariance imaging for mean-invariant estimation of blood flow," Opt. Lett. 44, 5812-5815 (2019)

[15] Cheng, Weimin, Jinling Lu, Xuan Zhu, Jiachi Hong, Xiaohu Liu, Miaowen Li, and Pengcheng Li. "Dilated residual learning with skip connections for real-time denoising of laser speckle imaging of blood flow in a log-transformed domain." IEEE Transactions on Medical Imaging 39, no. 5 (2019): 1582-1593.

[16] Jiachi Hong, Yang Wang, Xiao Chen, Jingling Lu, and Pengcheng Li, "Fluctuations of temporal contrast in laser speckle imaging of blood flow," Opt. Lett. 43, 5214-5217 (2018) .

 专利：

(1) 李鹏程 洪嘉驰   陆锦玲   ; 计算血流速度的方法、装置、介质及血流成像方法和系统, 2022-04-22, 中国, 公开(公告)号: CN110522438B；申请号: CN201910699693.0

 科研项目：

1. 国家自然科学基金委员会, 青年科学基金项目（C类）[原青年科学基金项目]，基于激光散斑的血液粘度和血流量实时在体检测方法研究，在研，主持

2. 国家自然科学基金委员会, 国际(地区)合作与交流项目, 重要疾病血液微流变学和微循环的多模态光学检测，结题，参与

3. 国家自然科学基金委员会, 面上项目, 实时血流成像导引的精准光化学脑缺血方法研究, 结题, 参与

 招生需求：

生物医学工程、生物医学光子学、电子工程、计算机或人工智能、数学（统计、计算科学等）、物理（光学工程、统计物理等）及相关专业的硕士研究生。

 联系方式：

邮箱：jiachihong@hainanu.edu.cn

 Professional Background：

2025.12 - present，School of Biomedical Engineering, Hainan University，Associate Professor

2022.07 - 2025.10，Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology, Postdoctoral Fellow

2024.10 - 2025.09，Casey Eye Institute, Oregon Health & Science University, Postdoctoral Fellow

 Education:

2017.09 - 2022.06，Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology, Ph.D. in Engineering

2013.09 - 2017.06，School of Mathematics and Statistics, Huazhong University of Science and Technology, B.S. in Science

 Main Research Interests:

1. Hemodynamics and Hemorheology

2. Optical Coherence Tomography (OCT) and Optical Coherence Elastography (OCE)

3. In Vivo Multimodal Optical Imaging

4. Artificial Intelligence-Driven Optical Diagnosis of Ocular Diseases

 Peer Review Articles：

[1] Jiachi Hong, Wenting Zhu, Pengcheng Li, Alexander V. Priezzhev, Andrei Lugovtsov, and Jinling Lu, "Hybrid decorrelation optical coherence tomography for quantification of wide-dynamic-range blood perfusion," Opt. Express 33, 45346-45356 (2025)

[2] Guo, Yaqing, Jiachi Hong, Qianwen Dong, Hanwen Liu, Yunjie Mei, Junxin Yan, Danpeng Cheng et al. "Highly Stable Twin Defects Enabled by High Entropy Configuration." Angewandte Chemie, 138(5) (2026): e20550.

[3] Jiachi Hong, Afshan A. Nanji, Richard D. Stutzman, Winston D. Chamberlain, Xubo Song, David Huang, Yan Li; Artificial Intelligence–Driven Detection of LASIK Using Corneal Optical Coherence Tomography Maps. Trans. Vis. Sci. Tech. 2025;14 (3):17.

[4] Jiachi Hong, Siyu Chen, Amy Pohodich, Tejpal Gill, Xubo Song, Yifan Jian, Eric Suhler, David Huang, and Yan Li, "Convolutional neural network-based differentiation of intraocular inflammatory cells with ultrahigh-resolution OCT," Biomed. Opt. Express 16, 4917-4928 (2025)

[5] Jiachi Hong, Wenting Zhu, Bowen Zhao, Pengcheng Li, and Jinling Lu, "Non-ergodicity and noise-corrected diffuse speckle contrast analysis in deep tissue blood flow measurement," Biomed. Opt. Express 16, 1856-1870 (2025)

[6] Jiachi Hong, Siyu Chen, Tejpal Gill, Xubo Song, Yifan Jian, Eric Suhler, David Huang, Yan Li, "Artificial intelligence assisted intraocular inflammatory cell differentiation with ultrahigh-resolution OCT," Proc. SPIE 13305, Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXIX, 1330509 (2025)

[7] Jad F. Assaf, Jiachi Hong, Yan Li, David Huang; Characterization of Directional Reflectance in Corneal Tissue: A Comprehensive Optical Coherence Tomography Analysis. Trans. Vis. Sci. Tech. 2025;14 (4):7.

[8] Jiachi Hong, Wenting Zhu, Kaikai He, Xiao Chen, Jinling Lu, and Pengcheng Li, "Ergodic speckle contrast optical coherence tomography velocimetry of rapid blood flow," Opt. Lett. 49, 3600-3603 (2024)

[9] Wenting Zhu, Tianshu Tao, Jiachi Hong, Ruolan Li, Minghui Ma, Jianjian Zhang, Jincao Chen, Jinling Lu, Pengcheng Li, "Exploring the impact of pre-anastomosis cerebral microcirculation on cerebral hyperperfusion syndrome in superficial temporal artery-middle cerebral artery bypass surgery of moyamoya disease," Neurophoton. 11(3), 035008 (2024)

[10] Ruolan Li, Minghui Ma, Chen Wang, Jiachi Hong, Zhihong Zhang, Jinling Lu, and Pengcheng Li, "Dual-exposure temporal laser speckle imaging for simultaneously accessing microvascular blood perfusion and angiography," Opt. Express 32, 6887-6902 (2024)

[11] Liu, Xiaohu, Liangwei Meng, Jiachi Hong, Changping Fu, Jinling Lu, and Pengcheng Li. "Correcting non-rigid intra-frame motion of laser speckle contrast imaging by heterogeneous regression analysis." Optics and Lasers in Engineering 170 (2023): 107759.

[12] Jiachi Hong, Xuan Zhu, Jinling Lu, and Pengcheng Li, "Quantitative laser speckle auto-inverse covariance imaging for robust estimation of blood flow," Opt. Lett. 46, 2505-2508 (2021)

[13] Chen Wang, Xiao Chen, Jiachi Hong, Liangwei Meng, Weimin Cheng, Xuan Zhu, Jinling Lu, and Pengcheng Li, "Extendable, large-field multi-modal optical imaging system for measuring tissue hemodynamics," Biomed. Opt. Express 11, 2339-2351 (2020)

[14] Jiachi Hong, Liang Shi, Xuan Zhu, Jingling Lu, and Pengcheng Li, "Laser speckle auto-inverse covariance imaging for mean-invariant estimation of blood flow," Opt. Lett. 44, 5812-5815 (2019)

[15] Cheng, Weimin, Jinling Lu, Xuan Zhu, Jiachi Hong, Xiaohu Liu, Miaowen Li, and Pengcheng Li. "Dilated residual learning with skip connections for real-time denoising of laser speckle imaging of blood flow in a log-transformed domain." IEEE Transactions on Medical Imaging 39, no. 5 (2019): 1582-1593.

[16] Jiachi Hong, Yang Wang, Xiao Chen, Jingling Lu, and Pengcheng Li, "Fluctuations of temporal contrast in laser speckle imaging of blood flow," Opt. Lett. 43, 5214-5217 (2018).

 Patents：

(1) Pengcheng Li, Jiachi Hong, Jinling Lu; Method, Device, and Medium for Calculating Blood Flow Velocity, and Blood Flow Imaging Method and System, 2022-04-22, China, Publication No.: CN110522438B; Application No.: CN201910699693.0

 Research Projects：

1. National Natural Science Foundation of China, Young Scientists Fund (Category C), Research on Real-time In Vivo Detection Method of Blood Viscosity and Blood Flow Based on Laser Speckle, Active, Principal Investigator

2. National Natural Science Foundation of China, International (Regional) Cooperation and Exchange Program, Multimodal Optical Detection of Blood Micro-rheology and Microcirculation in Important Diseases, Completed, Participant

3. National Natural Science Foundation of China, General Program, Research on Precision Photochemical Cerebral Ischemia Method Guided by Real-time Blood Flow Imaging, Completed, Participant

 Prospective Students：

Students with backgrounds in Biomedical Engineering, Biomedical Photonics, Electronic Engineering, Computer Science or Artificial Intelligence, Mathematics (Statistics, Computational Science, etc.), Physics (Optical Engineering, Statistical Physics, etc.), and related fields.

 Contact Information：

Email: jiachihong@hainanu.edu.cn