Hiroyuki Tashiro | Last modified dateļ¼2023.11.22 |
Lecturer /
Division of Medical Technology /
Department of Health Sciences /
Faculty of Medical Sciences
Books
1. | Marko B. Popovic, Kathleen A. Lamkin-Kannard, Hiroyuki Tashiro, Philipp Beckerle, Steffen Willwacher, Minas Liarokapis, Michelle J. Johnson, Adam D. Goodworth, Pinar Boyraz, Ivo Dobrev, Biomechatronics, Academic Press, Elsevier, 10.1016/C2016-0-04132-3, Chapter 19, Practice Problems, pp. 567-604, 2019.04, [URL]. |
2. | Hiroyuki Tashiro, Marko B. Popovic, Ivo Dobrev, Yasuo Terasawa, Biomechatronics, Academic Press, Elsevier, 10.1016/C2016-0-04132-3, Chapter 7, Artificial Organs, Tissues, and Support Systems, pp. 175-199, 2019.04, [URL]. |
3. | Hiroyuki Tashiro, Marko B. Popovic, Keiji Iramina, Yasuo Terasawa, Jun Ohta, Biomechatronics, Academic Press, Elsevier, 10.1016/C2016-0-04132-3, Chapter 6, Direct Neural Interface, pp. 139-174, 2019.04, [URL]. |
4. | Takashi Tokuda, Jun Ohta, Hiroyuki Tashiro, Yasuo Terasawa, John G. Webster (ed.), Wiley Encyclopedia of Electrical and Electronics Engineering, John Wiley & Sons, 10.1002/047134608x.w8370, Retinal Prosthesis, 17 pages, 2018.05, [URL], Retinal prosthesis technologies have been intensively studied over the past decades and some projects are in the clinical trial or conditional commercialization phase. Electronic components play essential roles in the retinal prosthesis technologies. In this article, we present basic aspects and the status of the retinal prosthesis field from an electronics-oriented viewpoint. Important concepts, stimulation schemes, device designs, and other essential elements related to retinal prosthesis are discussed. Some leading projects in the field are also mentioned together with reference information.. |
5. | HANDBOOK OF PRACTICAL IMAGE ANALYSIS IN MEDICINE, Chapter 4 Biomedical Optics, 4.6.2Funduscopy. |
Unauthorized reprint of the contents of this database is prohibited.