1. 高口順一，田島真吾，吉岡勇人，工具主軸の静的変位推定を用いた切削力モニタリングの高精度化，日本機械学会論文集，Vol.91，No.942（2025）pp.1-15. (DOI: 10.1299/transjsme.24-00199)
2. 吉岡勇人，インプロセス計測の取組み事例と今後の課題，砥粒加工学会誌，Vol.69，No.3，（2025），pp.142-145.
3. 吉岡勇人，精密加工におけるインプロセス計測，機械技術，Vol.72，No.9，（2024），pp.34-37．
4. Ren, Zongwei, Zhenglong Fang, Takuhiro Arakane, Toru Kizaki, Yannan Feng, Tetsu Nagata, Yoshito Komatsu, and Naohiko Sugita. "Chipping analysis and prediction in gear skiving process using multi-infeed strategy." Mechanical Systems and Signal Processing 211 (2024): 111169.
5. Wang, Chao, Toru Kizaki, Keisuke Nagato, Zongwei Ren, and Naohiko Sugita. "Velocity plane-based analytical modeling for reconstructing temperature field at tool-chip/work interface." Precision Engineering 88 (2024): 177-191.

1. Kouguchi, J, Tajima, S., Yoshioka, H., Milling force estimation by combining servo information of feed axis and vibration behavior of tool spindle, Proceedings of the 27th International Conference on Mechatronics Technology (ICMT2024), Kanazawa, Japan, 19-21 Nov. (2024)
2. Narita, D., Ren. Z., Yoshioka, H., Measurement and compensation of workpiece setup error in NC machining using a 3D scanner, Proceedings of the 20th International Conference on Precision Engineering (ICPE2024), Sendai, Japan, 24-26 Oct., (2024), OS01-12.
3. Ren. Z., Yoshioka, H., Experimental investigation of the impact of machining conditions on AE signal in grinding process, Proceedings of the 20th International Conference on Precision Engineering (ICPE2024), Sendai, Japan, 24-26 Oct., (2024), OS06-07.
4. 任宗偉，吉岡勇人，研削加工において音響信号によるワーク表面粗さの予測，日本機械学会第15回生産加工・工作機械部門講演会，福島，（2024），D26，p.435.
5. 吉岡勇人，山本風雅，田島真吾，インボリュート歯車歯面勾配の光学的測定に基づく検査法，日本機械学会2024年度年次大会，愛媛大学（松山），（2024），J131-10
6. Yoshioka, H., [Invited Talk] Robot-related technologies for flexible manufacturing systems, Robotics in Biomedical Applications, The University of Tokyo, 22nd Oct. 2024
7. Narita, D., Ren, W., Yoshioka, H.,, Compensation of workpiece mounting errors based on measurement with 3D scanner, The 20th International Machine Tool Engineers’ Conference (Poster session), Nov. 5-10, 2024, Tokyo Big Sight
8. 遠藤弥生，勝田悠介，互野亮，尾崎茜，山田将博，江草宏，任宗偉，吉岡勇人，進士忠彦，支台歯形成技能評価のための辺縁の形態を評価するアルゴリズム，2024年度生体医歯工学共同研究拠点成果報告会，2025年3月3日，東京科学大学

1. Nakamura S, Nakanishi K, Ohara K, et al. Tool design for low-frequency vibration cutting on surface property. Front. Manuf. Technol. 2023;2:1079127. doi:10.3389/fmtec.2022.1079127
2. Inoue, S., Qin, T., Fujita, S., Tajima, S., Yoshioka, H., Practical approach to flexible job shop scheduling with tool switching constraints using quantum annealing, Journal of Advanced Mechanical Design, Systems, and Manufacturing, Vol.18, No.2, (2024), pp.1-14, (DOI: 10.1299/jamdsm.2024jamdsm0009)
3. Kouguchi J., Tajima, S., Yoshioka, H Machine-learning-based model parameter identification of cutting force estimation, International Journal of Automation Technology, Vol.18, No.1, (2024), pp.26-38. (DOI:10.20965/ijat.2024.p0026)
4. Kouguchi, J., Yoshioka, H., Estimation method of cutting forces and vibration by using frequency separation of acceleration sensor signals during milling process with small ball end mills, Precision Engineering, Vol.85, (2024), pp.337-356. (DOI: 10.1016/j.precisioneng.2023.10.013)
5. Tajima, S., Iwamoto, S., Yoshioka, H., Posture optimization in robot machining with kinematic redundancy for high-precision positioning, International Journal of Automation Technology, Vol.17, No.5, (2023), pp.494-503. (DOI: 10.20965/ijat.2023.p0494)
6. Zapata, A., Benda A., Spreitler, M., Zhao, F. X., Bernauer, C., Yoshioka, H., Zaeh F. M., A model-based approach to reduce kinematics-related overfill in robot-guided laser directed energy deposition, CIRP Journal of Manufacturing Science and Technology, Vol.45 (2023), pp.200-209. (DOI: 10.1016/j.cirpj.2023.06.014)
7. 吉岡勇人，【解説】工具主軸の微動による切削加工の高精度化，生産研究，Vol.75, No.4, (2023), pp.55-59.
8. Nakamura S, Nakanishi K, Ohara K, et al. Tool design for low-frequency vibration cutting on surface property. Front. Manuf. Technol. 2023;2:1079127. doi:10.3389/fmtec.2022.1079127

1. Fang Z, Ren Z, Schulze V, et al. Understanding the gear surface enhancement by hard-hobbing via ferritic-martensitic grain analysis. CIRP Annals. 2023
2. Yoshioka, H., Hifumi, T., Tajima, S., Identification and grouping defects for complement in measuring of workpiece with 3D scanner,Proceedings of The International Conference on Leading Edge Manufacturing/Material Processing (LEM&P2023), New Brunswick, NJ, USA, 12-16 June, (2023), LEMP2023-054, pp.214-215.
3. Tajima, S., Kojima, Y., Yoshioka, H., Displacement compensation of machining robot based on trajectory control for high accuracy, Proceedings of The International Conference on Leading Edge Manufacturing/Material Processing (LEM&P2023), New Brunswick, NJ, USA, 12-16 June, (2023), LEMP2023-046, pp.189-190.
4. 成田大輔，吉岡勇人，任宗偉，NC加工における3Dスキャナを用いたワーク取付け位置測定および位置補正の自動化，2024年度精密工学会春季大会，学術講演会講演論文集，東京大学（2024）H09，pp.780-781．
5. 任宗偉，吉岡勇人，研削において加工条件の影響の取り除きに基づくAE信号の解析，2024年度精密工学会春季大会，学術講演会講演論文集，東京大学（2024）F12，pp.571-572．
6. 吉岡勇人，一二三輝人，田島真吾，アーム動作範囲を考慮した自律走行搬送ロボットの停止位置決定法，2023年度精密工学会秋季大会，学術講演会講演論文集，福岡工業大学（2023）A30，pp.27-28．
7. 田島真吾，小島悠太，吉岡勇人，変位予測に基づく軌跡補正によるロボット切削加工の高精度化，2023年度精密工学会秋季大会，学術講演会講演論文集，福岡工業大学（2023），A37，pp.39-40.

1. Yamada M, Kimura T, Kimura N, et al. The titanium nanosurface with biomimetic physical microenvironment to induce endogenous regeneration of the periodontium. ACS Appl Mater Interfaces. 2022;14(24):27703-27719. doi:10.1021/acsami.2c06679
2. Yamada, M., Kimura, T., Kimura, N., Watanabe, J., Kartikasari, N., He X., Tiskratok, W., Yoshioka, H., Shinno, H., Egusa, H., The titanium nanosurface with biomimetic physical microenvironment to induce endogenous regeneration of the periodontium, ACS Applied Materials & Interfaces，14, 24, (2022), pp.27703-27719. (DOI: 10.1021/acsami.2c06679)
3. Showa, Y., Yoshioka, H., Reduction of the influence of non-repeatable run-out in X-Y plane on machining surface, International Journal of Automation Technology, Vol.16, No.2, (2022), pp.149-156. (DOI: 10.20965/ijat.2022.p0149)
4. 吉岡勇人，【解説】熱変形抑制を目的としたCFRP複合材ボールねじ，砥粒加工学会誌，Vol.66，No.7,(2022),pp.382-385.
5. 吉岡勇人，鳥居有沙，【解説】ハイパースペクトルデータを用いためっき液の状態推定，月刊「画像ラボ」，Vol.33，No.1，（2022），pp.6-9.
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1. Tajima S, Sencer B, Yoshioka H. Real-time interpolation of complex machining toolpaths with drive limits and vibration avoidance. The 19th International Conference on Precision Engineering (ICPE2022). 2022;C146.
2. Tajima, S., Sencer, B., Yoshioka, H., Real-time interpolation of complex machining toolpaths with drive limits and vibration avoidance, The 19th International Conference on Precision Engineering (ICPE2022), Nara, 28 Nov. – 2 Dec., C146.
3. Kouguchi, J., Yoshioka, H., Estimation method of cutting forces and abnormal vibrations by using frequency separation of acceleration sensor signals, The 19th International Conference on Precision Engineering (ICPE2022), Nara, 28 Nov. – 2 Dec., C166.
4. Tajima, S., Sencer, B., Yoshioka, H., Trajectory generation of dual-drive servo systems for laser processing with local corner smoothing, Proceedings of the 2022 International Symposium on Flexible Automation (ISFA2022), Yokohama (Hybrid), 3-7 July, (2022), pp.224-227.
5. Li, Y., Kojima, H., Tajima, S., Yoshioka, H., Study on the vertical vibration behavior of beam caused by driving force, Proceedings of the 2022 International Symposium on Flexible Automation (ISFA2022), Yokohama (Hybrid), 3-7 July, (2022), pp.426-429.
6. 吉岡勇人，遠藤将貴，田島真吾，工作機械ボルト結合部の伝熱特性に及ぼす接触面圧の影響，日本機械学会第14回 生産加工・工作機械部門講演会，金沢，（2022）A11，pp.49-51.
7. 原佳之，吉岡勇人，田島真吾，研削力の時間領域および周波数領域における特徴量推移に基づく砥石表面状態変化の推定，2022年度精密工学会春季大会，学術講演会講演論文集，オンライン開催（2022），E91，pp.393-394.
8. 山本健彰，田島真吾，吉岡勇人，奥山弥生，勝田悠介，江草宏，人工支台歯形状の特徴抽出に基づく自動評価システムの開発，2022年度精密工学会春季大会，学術講演会講演論文集，オンライン開催（2022），G109，pp.580-581.
9. 宮下和也，吉岡勇人，田島真吾，産業用ロボットの固有振動数変化を考慮した速度プロファイル生成法，2022年度精密工学会春季大会，学術講演会講演論文集，オンライン開催（2022），J03，pp.737-734.
10. 岩本啓志，田島真吾，吉岡勇人，冗長性を持つ産業用ロボットの機械加工における位置決めの高精度化，2022年度精密工学会春季大会，学術講演会講演論文集，オンライン開催（2022），J05，pp.741-742.