吉澤(晋)研究室 | 東北大学電気情報系

東北大学 吉澤(晋)研究室


助教 森 翔平

〒980-8579
仙台市青葉区荒巻字青葉6-6-05
東北大学大学院工学研究科 通信工学専攻 吉澤研究室
E-mail: mori[at]tohoku.ac.jp
[at]は@に置き換えてください。


学歴

2009年3月 東京都立日比谷高等学校 卒業
2013年3月 東京工業大学 工学部 制御システム工学科 卒業
2015年3月 東京工業大学大学院理工学研究科 機械制御システム専攻 博士前期課程 修了
2017年9月 東京工業大学大学院理工学研究科 機械制御システム専攻 博士後期課程 修了
2017年9月 博士(工学)『超音波エコー信号の振幅確率分布モデルを用いた肝線維化定量評価手法の研究』(東京工業大学)

職歴

2016年4月〜2017年9月 日本学術振興会 特別研究員(DC2)
2017年10月〜2024年3月 東北大学大学院工学研究科 電子工学専攻 助教
2024年4月〜現在 東北大学大学院工学研究科 通信工学専攻 助教


受賞
  1. Best Paper Award(筆頭論文, Symposium on UltraSonic Electronics, 2023)
  2. 2022 Outstanding Reviewer Awards(Japanese Journal of Applied Physics, 2022)
  3. 第28回青葉工学研究奨励賞(青葉工学振興会, 2022)
  4. 日本超音波医学会論文賞 第36回菊池賞(共著論文, 日本超音波医学会, 2022)
  5. 日本超音波医学会論文賞 第35回菊池賞(共著論文, 日本超音波医学会, 2021)
  6. Best Paper Award(筆頭論文, Symposium on UltraSonic Electronics, 2018)
  7. Young Scientist Award(The 38th Symposium on UltraSonic Electronics, 2018)
  8. 平成29年度東北大学電気・情報系 若手優秀研究賞(2018)
  9. 日本音響学会第43回粟屋潔学術奨励賞 (日本音響学会2017年秋季研究発表, 2017)
  10. 日本超音波医学会第17回奨励賞 (日本超音波医学会第89回学術集会, 2016)
  11. Student Travel Award (2015 IEEE International Ultrasonics Symposium, 2015)
  12. Poster Session Award (9th TOIN International Symposium on Biomedical Engineering, 2014)
  13. 日本音響学会第10回学生優秀発表賞 (日本音響学会2014年秋季研究発表会, 2014)

研究業績

学術論文
  1. Shohei Mori, Mototaka Arakawa, Tadashi Yamaguchi, Hiroshi Kanai, and Hiroyuki Hachiya, “Appropriate indicator of modeling error for threshold-based model selection in statistics-based ultrasound tissue characterization,” Japanese Journal of Applied Physics, 2024 (in press).
  2. Yuya Komatsu, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Method for measuring time waveforms of minute sinusoidal displacements using continuous waves with a network analyzer,” Japanese Journal of Applied Physics, 2024 (in press).
  3. Yu Obara, Shohei Mori, Masumi Iwai-Takano, Mototaka Arakawa, and Hiroshi Kanai, “Influence of Power-Weighted Center of Echo Signal Within Window Function on Local Strain Rate Distribution in Left Ventricular Wall,” Ultrasound in Medicine & Biology, Vol. 50, pp. 768-774, 2024.
    https://doi.org/10.1016/j.ultrasmedbio.2024.01.014
  4. Yuya Komatsu, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “A novel ultrasonic method for measuring minute sinusoidal displacement by network analyzer,” Review of Scientific Instruments, Vol. 95, 025105, 2024.
    https://doi.org/10.1063/5.0177846
  5. Shohei Mori, Keiji Onoda, Mototaka Arakawa, and Hiroshi Kanai, “Estimation error in speed of sound caused by rotation of measured cross-section from short-axis plane of blood vessels: a preliminary study,” Journal of Medical Ultrasonics, Vol. 51, pp. 49-57, 2024.
    https://doi.org/10.1007/s10396-023-01383-y
  6. Daiki Ouchi, Shohei Mori, Mototaka Arakaw, Tomohiko Shindo, Hiroaki Shimokawa, Satoshi Yasuda, and Hiroshi Kanai, “Optimizing irradiation conditions for low-intensity pulsed ultrasound to upregulate endothelial nitric oxide synthase,” Journal of Medical Ultrasonics, Vol. 51, pp. 39-48, 2024.
    https://doi.org/10.1007/s10396-023-01382-z
  7. Yuki Ujihara, Kazuki Tamura, Shohei Mori, Dar-In Tai, Po-Hsiang Tsui, Shinnosuke Hirata, Kenji Yoshida, Hitoshi Maruyama, and Tadashi Yamaguchi, “Modified multi-Rayleigh model-based statistical analysis of ultrasound envelope for quantification of liver steatosis and fibrosis,” Journal of Medical Ultrasonics, Vol. 51, pp. 5-16, 2024.
    https://doi.org/10.1007/s10396-023-01354-3
  8. Mai Yamamoto, Satoru Murakami, Iori Nakamura, Haruhi Ida, Hiromi Masauzi, Keiko Miwa, Kazunori Okada, Sanae Kaga, Shohei Mori, Mototaka Arakawa, Hiroshi Kanai, and Nobuo Masauz, “The usefulness of a gray-level co-occurrence matrix based on the polar coordinate system for the quantitative evaluation of neutrophil cytoplasmic granules,” Hokkaido Journal of Medical Science, Vol. 98, pp. 81-104, November, 2023.
  9. Shohei Mori, Mototaka Arakawa, Hiroshi Kanai, and Hiroyuki Hachiya, “Quantification of limitations in statistical analysis of ultrasound echo envelope amplitudes,” Japanese Journal of Applied Physics, Vol. 62, SJ1045, March, 2023.
    https://doi.org/10.35848/1347-4065/acc33e
  10. Yuki Ujihara, Kazuki Tamura, Shohei Mori, Shinnosuke Hirata, Kenji Yoshida, Hitoshi Maruyama, and Tadashi Yamaguchi, “Improved robustness of multi-component analysis in amplitude envelope statistics using plane waves,” Japanese Journal of Applied Physics, Vol. 62, SJ1043, March, 2023.
    https://doi.org/10.35848/1347-4065/acc749
  11. Ryota Yamane, Shohei Mori, Mototaka Arakawa, Jens E. Wilhjelm, and Hiroshi Kanai, “Ultrasonic measurement of carotid luminal surface roughness with removal of axial displacement caused by blood pulsation,” Japanese Journal of Applied Physics, Vol. 62, SJ1042, March, 2023.
    https://doi.org/10.35848/1347-4065/acc07a
  12. Saki Suzuki, Shohei Mori, Masumi Iwai-Takano, Mototaka Arakawa, and Hiroshi Kanai, “Internal pressure dependence on viscoelasticity of arterial wall by ultrasonic measurement,” Japanese Journal of Applied Physics, Vol. 62, SJ1041, March 2023.
    https://doi.org/10.35848/1347-4065/acbf5d
  13. Kaisei Hara, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “High-speed measurement of two-dimensional displacement of myocardium using element RF data of ultrasonic probe,” Japanese Journal of Applied Physics, Vol. 62, SJ1040, March, 2023.
    https://doi.org/10.35848/1347-4065/acc112
  14. Yoshifumi Nagai, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Ultrasonic measurement of thickness of carotid arterial wall using its natural longitudinal displacement,” Japanese Journal of Applied Physics, Vol. 62, SJ1039, March 2023.
    https://doi.org/10.35848/1347-4065/acba26
  15. Shohei Mori, Hiroshi Kanai, and Mototaka Arakawa, “Speed-of-sound estimation in ultrasound propagation medium by considering size of target scatterer,” Journal of Medical Ultrasonics, Vol. 50, pp. 151-165, March 2023.
    https://doi.org/10.1007/s10396-023-01282-2
  16. Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Lateral M-Mode: Ultrasound Visualization of Displacement Along Longitudinal Direction at Intima?Media Complex,” Ultrasound in Medicine & Biology, Vol. 49, No. 3, pp. 875-888, March 2023.
    https://doi.org/10.1016/j.ultrasmedbio.2022.11.014
  17. Mototaka Arakawa, Kyohei Higashiyama, Shohei Mori, Satoshi Yashiro, Yasushi Ishigaki, and Hiroshi Kanai, “In vivo measurement of attenuation coefficient of blood in a dorsal hand vein in a frequency range of 10?45 MHz: A preliminary study,” Frontiers in Physics, Vol. 11, pp. 1077696-1-7, January 2023.
    https://doi.org/10.3389/fphy.2023.1077696
  18. Masanori Hisatsu, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Application of low-complexity generalized coherence factor to in vivo data,” Journal of Medical Ultrasonics, Vol. 49, pp. 555-567, August 2022.
    https://doi.org/10.1007/s10396-022-01243-1
  19. Yuta Haji, Shohei Mori, Mototaka Arakawa, Toshio Yamagishi, and Hiroshi Kanai, “Evaluation of local changes in radio?frequency signal waveform and brightness caused by vessel dilatation for ascertaining reliability of elasticity estimation inside heterogeneous plaque: a preliminary study,” Journal of Medical Ultrasonics, Vol. 49, pp. 539-543, July 2022.
    https://doi.org/10.1007/s10396-022-01229-z
  20. Taiga Bando, Shohei Mori, Mototaka Arakawa, Eiko Onishi, Masanori Yamauchi, and Hiroshi Kanai, “Transmission conditions for clear depiction of thoracic spine based on difference between reflection and scattering characteristics of medical ultrasound,” Japanese Journal of Applied Physics, Vol. 61, pp. SG1068-1?SG1068-10, May 2022.
    https://doi.org/10.35848/1347-4065/ac51c0
  21. Kenta Kawamata, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Improving axial resolution of medical ultrasound images by using noise-robust broadband filter based on singular value decomposition,” Japanese Journal of Applied Physics, Vol. 61, pp. SG1061-1?SG1061-11, May 2022.
    https://doi.org/10.35848/1347-4065/ac5a2c
  22. Kyohei Higashiyama, Shohei Mori, Mototaka Arakawa, Satoshi Yashiro, Yasushi Ishigaki, and Hiroshi Kanai, “Estimation of aggregate size of red blood cell by introducing reference power spectrum measured for hemispherical ultrafine wire,” Japanese Journal of Applied Physics, Vol. 61, pp. SG1046-1?SG1046-10, May 2022.
    https://doi.org/10.35848/1347-4065/ac4683
  23. Yuto Shoji, Shohei Mori, Mototaka Arakawa, Shigeo Ohba, Kazuto Kobayashi, and Hiroshi Kanai, “Accurate measurement of elasticity of the radial artery wall considering changes in cross-sectional shape of artery caused by pushing pressure applied by ultrasound probe,” Japanese Journal of Applied Physics, Vol. 61, pp. SG1042-1?SG1042-9, May 2022.
    https://doi.org/10.35848/1347-4065/ac4e4a
  24. Yu Obara, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Appropriate window function and window length in multifrequency velocity estimator for rapid motion and locality of layered myocardium," IEEE Transaction on Ultrasonics, Ferroelectrics, and Frequency Control, Vol. 69, No. 4, pp. 1353-1369, April 2022.
    https://doi.org/10.1109/TUFFC.2022.3153048
  25. Yu Obara, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Strain rate distribution in layered myocardium measured using local velocity estimator with multifrequency phase differences,” Ultrasound in Medicine & Biology, Vol. 47, No. 9, pp. 2768-2773, September 2021.
    https://doi.org/10.1016/j.ultrasmedbio.2021.05.021
  26. Masanori Hisatsu, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Low?complexity generalized coherence factor estimated from binarized signals in ultrasound beamforming,” Journal of Medical Ultrasonics, Vol. 48, pp. 259-272, July 2021.
    https://doi.org/10.1007/s10396-021-01089-z
  27. Aoi Nakayama, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Estimation error in sound velocity depending on size of target scatterer,” Japanese Journal of Applied Physics, Vol. 60, No. SD, pp. SDDE17-1-6, April 2021.
    https://doi.org/10.35848/1347-4065/abf39e
  28. Takumi Hashimoto, Shohei Mori, Mototaka Arakawa, Eiko Onishi, Masanori Yamauchi, and Hiroshi Kanai, “A study on differentiation of depiction between scatterer and reflector to assist epidural anesthesia by ultrasound,” Japanese Journal of Applied Physics, Vol. 60, No. SD, pp. SDDE15-1-10, April 2021.
    https://doi.org/10.35848/1347-4065/abf4a3
  29. Akiyo Fukase, Kyohei Higashiyama, Shohei Mori, Mototaka Arakawa, Satoshi Yashiro, Yasushi Ishigaki, and Hiroshi Kanai, “Stabilization of red blood cell aggregation evaluation using short-axis view of vein of ultrasound,” Japanese Journal of Applied Physics, Vol. 60, No. SD, pp. SDDE08-1-5, April 2021.
    https://doi.org/10.35848/1347-4065/abf3d5
  30. Seira Akiyama, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Accuracy verification in ultrasonic elasticity measurement within intima-media complex visible range using phantom experimental system,” Japanese Journal of Applied Physics, Vol. 60, No. SD, pp. SDDA07-1-7, April 2021.
    https://doi.org/10.35848/1347-4065/abef0d
  31. Yusuke Sato, Kazuki Tamura, Shohei Mori, Dar-In Tai, Po-Hsiang Tsui, Kenji Yoshida, Shinnosuke Hirata, Hitoshi Maruyama, and Tadashi Yamaguchi, “Fatty liver evaluation with double-Nakagami model under low-resolution conditions,” Japanese Journal of Applied Physics, Vol. 60, No. SD, pp. SDDE06-1-9, April 2021.
    https://doi.org/10.35848/1347-4065/abf07d
  32. Kana Sugahara, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Evaluation of error factors depending on ultrasonic transmitted beamwidth in measurement of myocardial minute velocity,” Japanese Journal of Applied Physics, Vol. 60, No. SD, pp. SDDE05-1-3, April 2021.
    https://doi.org/10.35848/1347-4065/abef0e
  33. Yuto Shoji, Shohei Mori, Mototaka Arakawa, Shigeo Ohba, Kazuto Kobayashi, and Hiroshi Kanai, “Estimation of viscoelasticity of radial artery during flow-mediated dilatation using a single ultrasound probe based on blood pressure measurement via pulse transit time method,” Japanese Journal of Applied Physics, Vol. 60, No. SD, pp. SDDE03-1-3, March 2021.
    https://doi.org/10.35848/1347-4065/abef0b
  34. Yu Obara, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Measurement of propagation of local and minute contractile response in layered myocardium,” Japanese Journal of Applied Physics, Vol. 60, No. SD, pp. SDDE02-1-8, March 2021.
    https://doi.org/10.35848/1347-4065/abeabf
  35. Yu Obara, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Multifrequency Phased Tracking Method for Estimating Velocity in Heart Wall,” Ultrasound in Medicine & Biology, Vol. 47, No. 4, pp. 1077-1088, April 2021.
    https://doi.org/10.1016/j.ultrasmedbio.2020.12.011
  36. Kanta Nagasawa, Akiyo Fukase, Shohei Mori, Mototaka Arakawa, Satoshi Yashiro, Yasushi Ishigaki, and Hiroshi Kanai, “Evaluation method of the degree of red blood cell aggregation considering ultrasonic propagation attenuation by analyzing ultrasonic backscattering properties,” Journal of Medical Ultrasonics, Vol. 48, pp. 3-12, January 2021.
    https://doi.org/10.1007/s10396-020-01065-z
  37. Hibiki Kawamura, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Measurement of viscoelasticity of anisotropic viscoelastic phantom by dual ultrasound excitation,” Japanese Journal of Applied Physics, Vol. 59, No. SK, pp. SKKE24-1-10, May 2020.
    https://doi.org/10.35848/1347-4065/ab8bc0
  38. Masanori Hisatsu, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Generalized coherence factor estimated from real signals in ultrasound beamforming,” Journal of Medical Ultrasonics, Vol. 47, No. 2, pp. 179-192, April 2020.
    https://doi.org/10.1007/s10396-019-01004-7
  39. Takumi Saito, Shohei Mori, Mototaka Arakawa, Shigeo Ohba, Kazuto Kobayashi, and Hiroshi Kanai, “Estimation of viscoelasticity of radial artery via simultaneous measurement of changes in pressure and diameter using a single ultrasound probe,” Japanese Journal of Applied Physics, Vol. 59, No. SK, pp. SKKE04-1-7, April 2020.
    https://doi.org/10.35848/1347-4065/ab7f1c
  40. Tomohiro Yokoyama, Shohei Mori, Mototaka Arakawa, Eiko Onishi, Masanori Yamauchi, and Hiroshi Kanai, “Discrimination of thoracic spine from muscle based on their difference in ultrasound reflection and scattering characteristics,” Journal of Medical Ultrasonics, Vol. 47, No. 1, pp. 3-11, January 2020.
    https://doi.org/10.1007/s10396-019-00964-0
  41. Mototaka Arakawa, Takumi Saito, Shohei Mori, Shigeo Ohba, Kazuto Kobayashi, and Hiroshi Kanai, “Development of an ultrasonic probe to measure both radial arterial pressure and diameter change at the same position for early diagnosis of vascular endothelial function: Preliminary study,” Sensors & Actuators A: Physical, Vol. 297, No. 111487, pp. 1-4, October 2019.
    https://doi.org/10.1016/j.sna.2019.07.011
  42. Naoya Furusawa, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “A new evaluation method for dependence of width of transmitted waves on accuracy in multipoint simultaneous ultrasonic measurements of cardiac wall vibration waveform,” Japanese Journal of Applied Physics, Vol. 58, No. SG, pp. SGGA08-1-6, July 2019.
    https://doi.org/10.7567/1347-4065/ab1a30
  43. Akane Hayashi, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Local two-dimensional distribution of propagation speed of myocardial contraction for ultrasonic visualization of contraction propagation,” Japanese Journal of Applied Physics, Vol. 58, No. SG, pp. SGG05-1-7, July 2019.
    https://doi.org/10.7567/1347-4065/ab0d0b
  44. Chuang Zhang, Shohei Mori, Shinnosuke Hirata, amd Hiroyuki Hachiya, “Examination of optimal moments as input parameters for evaluation of liver fibrosis based on multi-Rayleigh model,” Japanese Journal of Applied Physics, Vol. 57, No. 7S1, pp. 07LF27-1-7, July 2018.
    https://doi.org/10.7567/JJAP.57.07LF27
  45. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, and Hiroyuki Hachiya, “Quantitative evaluation method for liver fibrosis based on multi-Rayleigh model with estimation of number of tissue components in ultrasound B-mode image,” Japanese Journal of Applied Physics, Vol. 57, No. 7S1, pp. 07LF17-1-11, July 2018. (Symposium on Ultrasonic Electronics Best Paper Award 受賞)
    https://doi.org/10.7567/JJAP.57.07LF17
  46. Mototaka Arakawa, Shohei Mori, Hiroshi Kanai, Ryo Nagaoka, Miki Horie, Kazuto Kobayashi, and Yoshifumi Saijo, “Robust analysis method for acoustic properties of biological specimens measured by acoustic microscopy,” Japanese Journal of Applied Physics, Vol. 57, No. 7S1, pp. 07LB07-1-7, July 2018.
    https://doi.org/10.7567/JJAP.57.07LB07
  47. Shohei Mori, M. Ohashi, Shinnosuke Hirata, and Hiroyuki Hachiya, “Stability evaluation of parameter estimation of multi-Rayleigh model for ultrasound B-mode image of liver fibrosis,” Japanese Journal of Applied Physics, Vol. 55, No. 7S1, pp. 07KF09-1-6, July 2016.
    http://doi.org/10.7567/JJAP.55.07KF09
  48. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, and Hiroyuki Hachiya, “Probability image of tissue characteristics for liver fibrosis using multi-Rayleigh model with removal of nonspeckle signals,” Japanese Journal of Applied Physics, Vol. 54, No. 7S1, pp. 07HF20-1-8, July 2015.
    http://dx.doi.org/10.7567/JJAP.54.07HF20
  49. Shohei Mori, Shinnosuke Hirata, and Hiroyuki Hachiya, “Effect of beam width on quantitative estimation of liver fibrosis using ultrasonic images,” Japanese Journal of Applied Physics, Vol. 53, No. 7, pp. 07KF23-1-5, July 2014.
    http://dx.doi.org/10.7567/JJAP.53.07KF23

国際会議論文
  1. Ryota Yamane, Shohei Mori, Mototaka Arakawa, Jens E. Wilhjelm, and Hiroshi Kanai, “Spatial Frequency Analysis of Luminal Surface Roughness of the Carotid Artery Measured by Ultrasound,” 2023 IEEE International Ultrasonics Symposium, Sept. 2023.
    https://doi.org/10.1109/IUS51837.2023.10307855
  2. Yu Obara, Shohei Mori, Masumi Iwai-Takano, Mototaka Arakawa, and Hiroshi Kanai, “Preliminary Study on Ultrasonic Visualization of Myocardial Contraction and Relaxation Based on Local Strain Rate,” 2023 IEEE International Ultrasonics Symposium, Sept. 2023.
    https://doi.org/10.1109/IUS51837.2023.10306617
  3. Yu Obara, Shohei Mori, Masumi Iwai-Takano, Mototaka Arakawa, Susumu Morosawa, Tomohiko Shindo, Hiroaki Yamamoto, Satoshi Yasuda, Hiroaki Shimokawa, and Hiroshi Kanai, “Local Measurement of Instantaneous Change in Myocardial Thickness in Swine Heart During Acute Myocardial Ischemia,” 2022 IEEE International Ultrasonics Symposium, Oct. 2022.
    https://doi.org/10.1109/IUS54386.2022.9958249
  4. Mototaka Arakawa, Kyohei Higashiyama, Rina Takeyama, Shohei Mori, Satoshi Yashiro, Yasushi Ishigaki, and Hiroshi Kanai, “Estimation of Size of Red Blood Cell Aggregates Using Reference Power Spectra,” 2022 IEEE International Ultrasonics Symposium, Oct. 2022.
    https://doi.org/10.1109/IUS54386.2022.9957206
  5. Mototaka Arakawa, Yuto Shoji, Shohei Mori, Shigeo Ohba, Kazuto Kobayashi, and Hiroshi Kanai, “Elasticity Measurement of Radial Arterial Wall Considering Vessel Shape Change Caused by Pushing Pressure Applied by Ultrasonic Probe,” 2022 IEEE International Ultrasonics Symposium, Oct. 2022.
    https://doi.org/10.1109/IUS54386.2022.9957701
  6. Mototaka Arakawa, Takumi Hashimoto, Taiga Bando, Shohei Mori, Eiko Onishi, Masanori Ymauchi, and Hiroshi Kanai, “A Novel Method for Depicting Thoracic Spine Using Difference Between Scattering of Muscle Tissues and Reflection at Bone Surface,” 2021 IEEE International Ultrasonics Symposium, Sept. 2021.
    https://doi.org/10.1109/IUS46767.2020.9251333
  7. Shohei Mori, Aoi Nakayama, Keiji Onoda, Mototaka Arakawa, and Hiroshi Kanai, “Preliminary Study on Estimation of Speed of Sound in Propagation Medium Considering Target Scatterer Size,” 2021 IEEE International Ultrasonics Symposium, Sept. 2021.
    https://doi.org/10.1109/IUS52206.2021.9593638
  8. Shohei Mori, Takahisa Abe, Mototaka Arakawa, Jens E. Wilhjelm, and Hiroshi Kanai, “Ultrasonic Measurement of Luminal Surface Roughness of Carotid Artery Wall with Removal of Local Displacement Induced by Blood Vessel Pulsation,” 2020 IEEE International Ultrasonics Symposium, Sept. 2020.
    https://doi.org/10.1109/IUS46767.2020.9251812
  9. Mototaka Arakawa, Kanta Nagasawa, Akiyo Fukase, Kyohei Higashiyama, Shohei Mori, Satoshi Yashiro, Yasushi Ishigaki, and Hiroshi Kanai, “Basic Study for Size Estimation of Red Blood Cell Aggregates by Analyzing Ultrasonic Backscattering Properties Considering Ultrasonic Propagation Attenuation,” 2020 IEEE International Ultrasonics Symposium, Sept. 2020.
    https://doi.org/10.1109/IUS46767.2020.9251333
  10. Yuto Shoji, Takumi Saito, Shohei Mori, Mototaka Arakawa, Shigeo Ohba, Kazuto Kobayashi, and Hiroshi Kanai, “Measurement of Change in Viscoelasticity of Radial Artery During Flow-Mediated Dilatation Using a Single Ultrasonic Probe,” 2020 IEEE International Ultrasonics Symposium, Sept. 2020.
    https://doi.org/10.1109/IUS46767.2020.9251414
  11. Akiyo Fukase, Kyohei Nagasawa, Shohei Mori, Mototaka Arakawa, Satoshi Yashiro, Yasushi Ishigaki, and Hiroshi Kanai, “Correlation between Red Blood Cell Aggregation and Blood Glucose Level,” 2019 IEEE International Ultrasonics Symposium, Oct. 2019.
    https://doi.org/10.1109/ULTSYM.2019.8926267
  12. Koji Iwamori, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Accurate Estimation Method of Arterial Wall Movement in Longitudinal Direction,” 2019 IEEE International Ultrasonics Symposium, Oct. 2019.
    https://doi.org/10.1109/ULTSYM.2019.8925634
  13. Hiroshi Kanai, Shohei Mori, and Mototaka Arakawa, “Speeds of Contraction Responses Propagating Along Septum at Pre-Ejection Period Are Different between Radial and Longitudinal,” 2019 IEEE International Ultrasonics Symposium, Oct. 2019.
    https://doi.org/10.1109/ULTSYM.2019.8925990
  14. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, and Hiroyuki Hachiya, “Quantitative Evaluation Method for Liver Fibrosis in Clinical Ultrasound B-mode Image Based on Optimized Multi-Rayleigh Model,” 2018 IEEE International Ultrasonics Symposium, Oct. 2018.
    https://doi.org/10.1109/ULTSYM.2018.8580078
  15. Mototaka Arakawa, Takumi Saito, Shohei Mori, Shigeo Ohba, Kazuto Kobayashi, and Hiroshi Kanai, “An Ultrasonic Probe to Measure Both Radial Arterial Pressure and Diameter at Identical Position for Early Diagnosis of Arteriosclerosis,” 2018 IEEE International Ultrasonics Symposium, Oct. 2018.
    https://doi.org/10.1109/ULTSYM.2018.8579854
  16. Itsuki Kobayashi, Shohei Mori, Mototaka Arakawa, and Hiroshi Kanai, “Spiral Complex Movements of the Heart Wall at the Beginning of Myocardial Contraction Detected by High Frame Speckle Tracking,” 2018 IEEE International Ultrasonics Symposium, Oct. 2018.
    https://doi.org/10.1109/ULTSYM.2018.8579988
  17. Aakane Hayashi, Shohei Mori, Mototaka Arakawa, Hiroaki Yamamoto, Susumu Morosawa, Hiroaki Shimokawa, and Hiroshi Kanai, “Ultrasonically Measured Propagation Speed of Myocardial Contraction Rapidly Descreased in Swine Heart Just after A vascularisation of Coronary Artery,” 2018 IEEE International Ultrasonics Symposium, Oct. 2018.
    https://doi.org/10.1109/ULTSYM.2018.8579780
  18. Mototaka Arakawa, Hiroki Sakaki, Kanta Nagasawa, Akiyo Fukase, Shohei Mori, Satoshi Yashiro, Yasushi Ishigaki, and Hiroshi Kanai, “Red Blood Cell Aggregation Measurement with 40-MHz Ultrasound Has a Possibility for Noninvasive Evaluation of Blood Glucose Level in Patients with Diabetes,” 2018 IEEE International Ultrasonics Symposium, Oct. 2018.
    https://doi.org/10.1109/ULTSYM.2018.8580086
  19. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, and Hiroyuki Hachiya, “Quantitative fibrotic imaging based on multi-Rayleigh model for ultrasound B-mode image of liver fibrosis,” 5th Joint Meeting of the Acoustical Society of America and Acoustical Society of Japan, The Journal of the Acoustical Society of America, Vol. 140, No. 40, p. 3247, Oct. 2016.
    https://doi.org/10.1121/1.4970273
  20. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, and Hiroyuki Hachiya, “Comparison of modeling accuracy of amplitude distribution models for ultrasonic tissue characterization of liver fibrosis,” 2016 IEEE International Ultrasonics Symposium, pp. 1-4, Sep. 2016.
    https://doi.org/10.1109/ULTSYM.2016.7728528
  21. Shohei Mori, Shinnosuke Hirata, Hiroyuki Hachiya, and Tadashi Yamaguchi, “Evaluation of fibrotic probability image by multi-Rayleigh model for ultrasound image of liver using automatic region of interest selection,” 2015 IEEE International Ultrasonics Symposium, pp. 1-4, Nov. 2015.
    https://doi.org/10.1109/ULTSYM.2015.0406
  22. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, and Hiroyuki Hachiya, “Effect of non-speckle echo signals on tissue characteristics for liver fibrosis using probability density function of ultrasonic B-mode image,” 2015 International Congress on Ultrasonics, Physics Procedia, Vol. 70, pp. 1173-1176, Sep. 2015.
    https://doi.org/10.1016/j.phpro.2015.08.252
  23. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, and Hiroyuki Hachiya, “Probability image of tissue characteristics based on multi-Rayleigh model by removing high amplitude non-speckle signal,” 9th TOIN Ineternational Symposium on Biomedical Engineering, pp. 84-85, Nov. 2014.
  24. Shohei Mori, Shinnosuke Hirata, and Hiroyuki Hachiya, “Quantitative estimation of liver fibrosis considering effect of resolution of ultrasound in B-mode image,” 7th Forum Acusticum, pp. 1-6, Sep. 2014.

Invited Seminar
  1. Shohei Mori, “Medical ultrasound imaging: quantification and visualization of diseases,” IEEE Ottawa Section: Engineering in Medicine and Biology Society, 125th EMBS Seminar Series, Carleton University, Ottawa, Canada, 2023.

競争的研究資金等(代表)
  1. 2021-2023年度: 独立行政法人 日本学術振興会 学術研究助成基金助成金 若手研究
    “超音波画像の画質向上と脂肪肝の定量診断を目指した生体内音速分布推定法の開発”
  2. 2019-2020年度: 独立行政法人 日本学術振興会 学術研究助成基金助成金 若手研究
    “超音波を用いた生体組織構造推定と粘弾性計測を融合した慢性肝疾患の定量診断法の開発”
  3. 2019年度: 公益財団法人 村田学術振興財団 第35回(2019年度)研究助成
    “超音波を用いた心筋動態計測のための最適なビーム送信条件に関する研究”
  4. 2018年度: 一般財団法人 カワイサウンド技術・音楽振興財団 平成30年度研究助成
    “超音波画像を用いた線維性肝組織構造の高精度推定法に関する研究”
  5. 2018年度: 公益信託 小野音響学研究助成基金 平成30年度研究助成
    “強散乱体からの超音波後方散乱波に着目した肝臓内音速推定法に関する研究”
  6. 2016-17年度: 独立行政法人 日本学術振興会 科学研究費補助金 特別研究員奨励費
    “超音波画像を用いたびまん性肝疾患の定量診断システムの開発”
  7. 2015年度: 公益財団法人 立石科学技術振興財団 研究助成(C)
    “超音波画像を用いた肝炎線維化定量診断手法の開発”

競争的研究資金等(分担)
  1. 2023年度-2025年度: 独立行政法人 日本学術振興会 科学研究費助成事業 基盤研究(B), 代表者: 金井 浩, “自己治癒力を活性化させる超音波治療のための低出力超音波照射条件の最適化の研究”
  2. 2021年度-2024年度: 独立行政法人 日本学術振興会 科学研究費助成事業 基盤研究(B), 代表者: 荒川元孝, “動脈硬化症の極早期診断を目指した血管壁の粘弾性特性の計測法に関する研究”
  3. 2020年度-2023年度: 独立行政法人 日本学術振興会 科学研究費助成事業 基盤研究(B), 代表者: 金井 浩, “硬膜外麻酔支援を目指した超音波による胸椎の可視化に関する研究”
  4. 2019年6月-2022年3月: 独立行政法人 日本学術振興会 科学研究費助成事業 挑戦的研究(萌芽), “ヒト心筋の収縮応答性の計測による心臓収縮を引起こす電気的興奮伝導の非侵襲的可視化”
  5. 2019年10月-2022年3月: 独立行政法人 日本学術振興会 科学研究費助成事業 国際共同研究加速基金(国際共同研究強化(B)), 代表者: 金井 浩, “内膜弾性板の表面粗さの高精度超音波計測による動脈硬化症の極早期診断法”

解説記事
  1. 森 翔平, 荒川元孝, 金井 浩, “超音波を用いた生体内音速推定における血管の径と走行角度の影響,” 超音波テクノ(日本工業出版), Vol. 36, No. 1, pp. 61-66, 2024.
  2. 森 翔平, “医用超音波画像で見えているもの?画像の色・模様≒生体組織の物性・構造??,” 日本音響学会誌, Vol. 78, No. 6, pp. 313-321, 2022.
  3. 森 翔平, 荒川元孝, 金井 浩, “超音波を用いた動脈壁弾性率計測法のファントム実験による精度検証,” 超音波テクノ(日本工業出版), Vol. 33, No. 6, pp. 72-77, 2021.
  4. 森 翔平, “大学教員として働くこと,” 日本音響学会誌, Vol. 77, No. 1, pp. 96-97, 2021.
  5. 荒川元孝, 森 翔平, 金井 浩, 堀江みき, 西條芳文, 長岡 亮, 小林和人, “超音波顕微鏡による生体試料の音響特性の解析方法の検討: ロバストな解析方法を目指して,” 超音波テクノ(日本工業出版), Vol. 30, No. 6, pp. 26-32, 2018.

国内学会発表(筆頭)
  1. 森 翔平, Khoa Toran, 荒川元孝, 金井 浩, 小野 雄, “Examination of quantitative evaluation method of lung ultrasound for pneumothorax detection,” 日本音響学会 2024年春季研究発表会, Sept. 2023.
  2. 森 翔平, 山根綾太, 荒川元孝, 金井 浩, “動脈硬化症の極早期診断を目指した頸動脈内腔表面粗さ超音波計測における解析時相の限定法,” 日本超音波医学会 第67回東北地方会学術集会, 67-21, March 2024.
  3. 森 翔平, Khoa Toran, 荒川元孝, 金井 浩, 小野 雄, “Examination of Envelope Statistics Analysis for M-mode Signals in Lung Ultrasound,” 令和5年度第4回アコースティックイメージング研究会, Dec. 2023.
  4. 森 翔平, 荒川元孝, 金井 浩, 蜂屋弘之, “超音波による生体組織性状解析における振幅確率分布モデルの近似精度評価法の比較,” 第6回東北地区音響学研究会, 6-4, Nov. 2023.
  5. Shohei Mori, Mototaka Arakawa, Tadashi Yamaguchi, Hiroshi Kanai, Hiroyuki Hachiya, “Basic examination for selecting probability distribution model in ultrasound tissue characterization,” USE2023 The 44th Symposium on Ultrasonic Electronics, Proceedings of Symposium on Ultrasonic Electronics, Vol. 44, 1P5-4, Nov. 2023.
  6. 森 翔平, 小野田啓司, 荒川元孝, 金井 浩, “超音波を用いた肝臓内音速推定における血管の走行角度の影響に関する基礎検討,” 日本音響学会 2023年秋季研究発表会, 2-2-5, Sept. 2024.
  7. 森 翔平, 荒川元孝, 山口 匡, 金井 浩, 蜂屋弘之, “びまん性肝疾患の定量評価のための振幅確率分布モデルの選択法の検討,” 日本超音波医学会 第66回東北地方会学術集会, 66-30, Sept. 2023.
  8. 森 翔平, 荒川元孝, 金井 浩, “頸動脈壁長軸方向変位の超音波による可視化と計測に関する検討,” 令和5年度第2回アコースティックイメージング研究会, Aug. 2023.
  9. Shohei Mori, Mototaka Arakawa, Hiroshi Kanai, Hiroyuki Hachiya, “Examination of statistical limitation in statistics evaluation of ultrasound echo envelope amplitudes,” USE2022 The 43rd Symposium on Ultrasonic Electronics, Proceedings of Symposium on Ultrasonic Electronics, Vol. 43, 2E3-2, Nov. 2022.
  10. 森 翔平, 荒川元孝, 金井 浩, “対象散乱体の大きさを考慮した伝播媒質内の音速推定法に関する検討,” 電子情報通信学会・日本音響学会 超音波研究会, 信学技報, US2021-46, pp. 36-41, Nov. 2021.
  11. 森 翔平, 古澤直也, 荒川元孝, 金井 浩, “心臓壁の動態計測における最適な超音波ビーム送信条件の評価,” 日本超音波医学会第92回学術集会, 92-SY基-22, May 2019.
  12. Shohei Mori, Masaru Yamauchi, Shinnosuke Hirata, Hiroyuki Hachiya, “Improvement of Estimation Accuracy of Liver Fibrosis Parameters Based on Multi-Rayleigh Model Considering Fluctuation of Statistical Moment of Ultrasound Echo Envelope,” USE2018 The 39th Symposium on Ultrasonic Electronics, Proceedings of Symposium on Ultrasonic Electronics, Vol. 39, 3P5-8, Oct. 2018.
  13. 森翔平, 平田慎之介, 蜂屋弘之, “マルチレイリーモデルを用いた肝線維化定量評価のための実用的な非スペックル信号除去手法,” 日本超音波医学会第56回東北地方会学術集会, 日本超音波医学会第56回東北地方会学術集会 抄録集, p. 4, Oct. 2018.
  14. 森翔平, 山内優, 平田慎之介, 蜂屋弘之, “超音波エコー振幅統計量の統計ゆらぎがマルチレイリーモデルを用いた肝線維化推定に与える影響の検討,” 日本音響学会 2018年秋季研究発表会, 日本音響学会 2018年秋季研究発表会 講演論文集, 日本音響学会, Sep. 2018.
  15. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “超音波エコー信号を用いた肝臓内線維化の定量評価手法 ーマルチレイリーモデルに基づく臨床画像評価法ー,” 第88回超音波エレクトロニクス研究会, 88-1, May 2018.
  16. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, Hiroyuki Hachiya, “Quantitative evaluation method of liver fibrosis based on multi-Rayleigh model with number estimation of tissue components in ultrasound B-mode image,” USE2017 The 38th Symposium on Ultrasonic Electronics, Proceedings of Symposium on Ultrasonic Electronics, Vol. 38, 2P5-12, Oct. 2017.
  17. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “臨床応用を考慮した超音波肝画像中の成分数判定によるマルチレイリーモデルに基づく肝線維定量画像の高精度推定,” 日本音響学会 2017年秋季研究発表会, 日本音響学会 2017年秋季研究発表会 講演論文集, 日本音響学会, pp. 1251-1254, Sep. 2017.
  18. 森翔平, 大橋穣, 平田慎之介, 山口匡, 蜂屋弘之, “組織成分を考慮したマルチレイリーモデルに基づく肝線維確率画像の高精度化の検討,” 日本超音波医学会第90回学術集会, 日本超音波医学会第90回学術集会抄録集, 日本超音波医学会, S458, Apr. 2017.
  19. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “肝超音波画像のエコー振幅分布を用いた実用的な非スペックル信号除去手法の検討,” 日本音響学会 2017年春季研究発表会, 日本音響学会 2017年春季研究発表会 講演論文集, 日本音響学会, pp. 1135-1138, Mar. 2017.
  20. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “超音波エコー信号の振幅分布情報を用いた肝臓内線維化の定量評価手法,” 日本超音波医学会第28回関東甲信越地方会学術集会, 日本超音波医学会第28回関東甲信越地方会学術集会抄録集, 日本超音波医学会, p. 33, Oct. 2016.
  21. 森翔平, 平田慎之介, 山口匡,蜂屋弘之, “臨床画像における超音波エコー振幅統計量の分布と肝病変進行度の関係評価,” 日本音響学会 2016年秋季研究発表会, 日本音響学会 2016年秋季研究発表会 講演論文集, 日本音響学会, pp. 987-988, Aug. 2016.
  22. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “肝病変進行と超音波画像のエコー振幅統計量分布の関係の検討,” アコースティックイメージング研究会, 日本音響学会 アコースティックイメージング研究会 講演資料, 日本音響学会, AI2016, 2, 10, Aug. 2016.
  23. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “マルチレイリーモデルに基づく組織性状確率画像による肝超音波画像の線維化定量評価,” 日本超音波医学会第89回学術集会, 日本超音波医学会第89回学術集会抄録集, 日本超音波医学会, S519, Apr. 2016.
  24. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “びまん性肝疾患の組織性状超音波画像のための種々の定量処理手法の比較,” 日本音響学会 2016年春季研究発表会, 日本音響学会 2016年春季研究発表会 講演論文集, 日本音響学会, pp. 1509-1510, Feb. 2016.
  25. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “マルチレイリーモデルに基づくExtended-CFAR処理によるびまん性肝疾患の線維抽出手法の検討,” 日本音響学会 2016年春季研究発表会, 日本音響学会 2016年春季研究発表会 講演論文集, 日本音響学会, pp. 1281-1282, Feb. 2016.
  26. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “超音波画像を用いた肝炎線維化定量診断手法に関する研究,” 第4回次世代がん治療推進専門家養成プランシンポジウム, 第4回次世代がん治療推進専門家養成プランシンポジウム 講演論文集, 次世代がん治療推進専門家養成プラン, pp. 19, Jan. 2016.
  27. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, Hiroyuki Hachiya, “Stability evaluation of estimation method of multi-Rayleigh model using simulated ultrasound B-mode image for liver fibrosis,” USE2015 The 36th Symposium on Ultrasonic Electronics, Proceedings of Symposium on Ultrasonic Electronics, Vol. 36, 2P5-11, Nov. 2015.
  28. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “マルチレイリーモデルの成分数と肝線維化パラメータ推定精度の関係,” 日本音響学会 2015年秋季研究発表会, 日本音響学会 2015年秋季研究発表会 講演論文集, 日本音響学会, pp. 1217-1218, Sep. 2015.
  29. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “臨床画像に含まれる非スペックル成分を考慮した肝線維化定量手法の推定精度の検討,” 電子情報通信学会・日本音響学会 超音波研究会, 信学技報, Vol. 115, No. 102, pp. 7-12, Jun. 2015.
  30. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “非スペックル成分を含む肝病変組織における線維組織画像化手法の評価,” 日本超音波医学会第88回学術集会, 日本超音波医学会第88回学術集会抄録集, 日本超音波医学会, S492, May. 2015.
  31. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “肝病変組織構造モデルを用いた非スペックル信号除去手法の精度検討,” 日本音響学会 2015年春季研究発表会, 日本音響学会 2015年春季研究発表会 講演論文集, 日本音響学会, pp. 1281-1282, Mar. 2015.
  32. Shohei Mori, Shinnosuke Hirata, Tadashi Yamaguchi, Hiroyuki Hachiya, “Probability image of tissue characteristics based on multi-Rayleigh model for liver fibrosis by removing non-speckle signal,” USE2014 The 35th Symposium on Ultrasonic Electronics, Proceedings of Symposium on Ultrasonic Electronics, Vol. 35, pp. 527-528, Dec. 2014.
  33. 森翔平, 平田慎之介, 山口匡, 蜂屋弘之, “非スペックル成分を除去したマルチレイリーモデルによる肝組織性状確率画像の検討,” 日本音響学会 2014年秋季研究発表会, 日本音響学会 2014年秋季研究発表会 講演論文集, 日本音響学会, pp. 1453-1454, Sep. 2014.
  34. 森翔平, 平田慎之介, 蜂屋弘之, “肝病変組織構造モデルを用いた肝炎線維組織画像化手法の精度検討,” 日本超音波医学会第87回学術集会, 日本超音波医学会第87回学術集会抄録集, 日本超音波医学会, Vol. 41, Supplement, S478, Apr. 2014.
  35. 森翔平, 平田慎之介, 蜂屋弘之, “マルチレイリーモデルに基づく病変肝の線維化定量推定に分解能が与える影響,” 日本音響学会 2014年春季研究発表会, 日本音響学会 2014年春季研究発表会 講演論文集, 日本音響学会, pp. 1399-1400, Mar. 2014.
  36. Shohei Mori, Shinnosuke Hirata, Hiroyuki Hachiya, “Effect of the ultrasonic beam width for quantitative evaluation of liver fibrosis using ultrasonic images,” USE2013 The 34th Symposium on Ultrasonic Electronics, Proceedings of Symposium on Ultrasonic Electronics, Vol. 34, pp. 321-322, Nov. 2013.
  37. 森翔平, 平田慎之介, 蜂屋弘之, “超音波画像を用いた肝線維化の定量推定におけるビーム幅の影響評価シミュレーション,” 電子情報通信学会・日本音響学会 超音波研究会, 信学技報, 電子情報通信学会, Vol. 113, No. 284, pp. 43-48, Nov. 2013.
  38. 森翔平, 平田慎之介, 蜂屋弘之, “肝病変超音波画像を用いた線維組織量評価にビーム幅が与える影響の検討,” 日本音響学会 2013年秋季研究発表会, 日本音響学会 2013年秋季研究発表会 講演論文集, 日本音響学会, pp. 1333-1334, Sep. 2013.