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Yamamoto, M., Ohtsuka, M., Ito, T., Ishikawa, M., Kikuchi, N., & Yamamoto, T. (2019). Malignant melanoma occurring on the chronic ulcer following surgical operation due to a traffic accident. The Journal of Dermatology, 46(12).Search in Google Scholar
Ma, Y. (2017). Study of spectral reflectance reconstruction method applied in surgical operation. Basic & clinical pharmacology & toxicology. (Suppl.4), 121.Search in Google Scholar
Brahmi, B., Saad, M., Rahman, M. H., & Brahmi, A. (2019). Adaptive force and position control based on quasi-time delay estimation of exoskeleton robot for rehabilitation. IEEE Transactions on Control Systems Technology, PP. (99).Search in Google Scholar
A, F. G., A, L. W., & B, T. L. (2020). Intelligent wearable rehabilitation robot control system based on mobile communication network. Computer Communications, 153, 286-293.Search in Google Scholar
Troccaz, J. (2019). Medical robotics: where we come from, where we are and where we could go. Industrial Robot, 35(4).Search in Google Scholar
Kim, Chunwoo, Jun, Changhan, Allaf, & Mohamad, et al. (2017). Mr safe robot, fda clearance, safety and feasibility of prostate biopsy clinical trial. IEEE/ASME transactions on mechatronics: A joint publication of the IEEE Industrial Electronics Society and the ASME Dynamic Systems and Control Division, 22(1), 115-126.Search in Google Scholar
Yang, T., Asanjan, A. A., Welles, E., Gao, X., Sorooshian, S., & Liu, X. (2017). Developing reservoir monthly inflow forecasts using artificial intelligence and climate phenomenon information. Water Resources Research, 53(4), 2786-2812.Search in Google Scholar
Xu, J., Jing, M., Wang, S., Yang, C., & Chen, X. (2019). A review of medical image detection for cancers in digestive system based on artificial intelligence. Expert Review of Medical Devices, 16(10), 877-889.Search in Google Scholar
Kumar, S. P. L. (2017). State of the art-intense review on artificial intelligence systems application in process planning and manufacturing - sciencedirect. Engineering Applications of Artificial Intelligence, 65, 294-329.Search in Google Scholar
Gennatas, E. D., & Chen, J. H. (2021). Artificial intelligence in medicine: past, present, and future. Artificial Intelligence in Medicine, 3-18.Search in Google Scholar
Adir, O., Poley, M., Chen, G., Froim, S., & Schroeder, A. (2020). Integrating artificial intelligence and nanotechnology for precision cancer medicine. Advanced Materials, 1901989.Search in Google Scholar
Kondo, Y., Ichikawa, M., Kondo, H., Koido, Y., & Otomo, Y. (2019). Current disaster medicine in japan and the change brought by information sharing. Journal of Disaster Research, 14(2), 292-302.Search in Google Scholar
Shin, H., Kang, Y., Choi, K. W., Kim, S., Ham, B. J., & Choi, Y. (2023). Artificial intelligence-based major depressive disorder (mdd) diagnosis using raman spectroscopic features of plasma exosomes. Analytical Chemistry, 95(15), 6410-6416.Search in Google Scholar
Jin, H., He, Q., He, M., Lu, S., Hu, F., & Hao, D. (2021). Optimization for medical logistics robot based on model of traveling salesman problems and vehicle routing problems: International Journal of Advanced Robotic Systems, 18(3), 103971-11.Search in Google Scholar
Li, X., Li, M., Sun, H., Gong, J., & Zhang, R. (2020). Establishing the improved dynamic model for the extracorporeal ultrasonic lithotripsy medical cooperative robot. Mathematical Problems in Engineering, 2020(4), 1-10.Search in Google Scholar
Kenmotsu, H., & Hashizume, M. (2015). Medical robotics and artificial intelligence. (complex medical engineering). Journal of Animal Science, 93(1), 185-190.Search in Google Scholar
Grischke, J., Johannsmeier, L., Eich, L., Griga, L., & Haddadin, S. (2020). Dentronics: towards robotics and artificial intelligence in dentistry. Dental Materials, 36(6).Search in Google Scholar
Sandip PanesarYvonne CagleDvvya ChanderJose MoreyJuan Fernandez-MirandaMichel Kliot. (2019). Artificial intelligence and the future of surgical robotics. Annals of Surgery, 270(2).Search in Google Scholar
Haick, H., & Tang, N. (2021). Artificial intelligence in medical sensors for clinical decisions. ACS Nano.Search in Google Scholar
Bousquet-Jette, C., Achiche, S., Beaini, D., Cio, L. K., & C. Leblond-Menard, M. R. (2017). Fast scene analysis using vision and artificial intelligence for object prehension by an assistive robot. Engineering Applications of Artificial Intelligence, 63(aug.), 33-44.Search in Google Scholar
Huo, W., Zheng, G., Yan, J., Sun, L., & Han, L. (2022). Interacting with medical artificial intelligence: integrating self-responsibility attribution, human–computer trust, and personality. Computers in Human Behavior, 132, 107253-.Search in Google Scholar
Singh, L. K., Khanna, M., & Singh, R. (2023). Artificial intelligence based medical decision support system for early and accurate breast cancer prediction. Advances in engineering software.Search in Google Scholar
Dimauro, G., Bevilacqua, V., & Pecchia, L. (2021). Bioelectronic technologies and artificial intelligence for medical diagnosis and healthcare. Electronics, 10(11), 1242.Search in Google Scholar
Jian, M., Ping, A., Liquan, S., & Kai, L. (2017). Full-reference quality assessment of stereoscopic images by learning binocular visual properties. Applied Optics, 56(29), 8291.Search in Google Scholar
Sun, Y. Z. Y. (2017). An improved binocular visual odometry algorithm based on the random sample consensus in visual navigation systems. Industrial Robot, 44(4).Search in Google Scholar
Feng, L., Chunmei, Z., Changwei, L., Changde, L., Xuesheng, P., & Jianning, S. (2018). Image recognition of individual cow based on sift in lαβ color space. Matec Web of Conferences, 176, 01023-.Search in Google Scholar
Stanley, Giovany, Andre, Putra, Agus, & S, et al. (2017). Machine learning and sift approach for indonesian food image recognition. Procedia Computer Science.Search in Google Scholar
Wan, M., Sohail, M., & Jan, N. (2022). The statistical analysis of anomalous anticyclone in ocean atmosphere and economy based on target tracking algorithm. Mathematical Problems in Engineering, 2022.Search in Google Scholar
Xiao, X., & Zhou, L. (2017). Speech recognition adaptive clustering feature extraction algorithms based on the k-means algorithm and the normalized intra-class variance. Qinghua Daxue Xuebao/journal of Tsinghua University, 57(8), 857-861.Search in Google Scholar
Yao, Y., & Ma, C. (2021). A multimedia network english listening teaching model based on confidence learning algorithm of speech recognition. International Journal of Electrical Engineering Education, 002072092098467.Search in Google Scholar