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594 results on '"Piyawattanametha, Wibool"'

1. Multihead Attention U‐Net for Magnetic Particle Imaging–Computed Tomography Image Segmentation.

Author

Juhong, Aniwat, Li, Bo, Liu, Yifan, Yang, Chia‐Wei, Yao, Cheng‐You, Agnew, Dalen W., Lei, Yu Leo, Luker, Gary D., Bumpers, Harvey, Huang, Xuefei, Piyawattanametha, Wibool, and Qiu, Zhen

Subjects
IMAGE segmentation, COMPUTED tomography, FERRIC oxide, MAGNETIC particles, INDOCYANINE green, DEEP learning, MAGNETIC particle imaging
Abstract

Magnetic particle imaging (MPI) is an emerging noninvasive molecular imaging modality with high sensitivity and specificity, exceptional linear quantitative ability, and potential for successful applications in clinical settings. Computed tomography (CT) is typically combined with the MPI image to obtain more anatomical information. Herein, a deep learning‐based approach for MPI‐CT image segmentation is presented. The dataset utilized in training the proposed deep learning model is obtained from a transgenic mouse model of breast cancer following administration of indocyanine green (ICG)‐conjugated superparamagnetic iron oxide nanoworms (NWs‐ICG) as the tracer. The NWs‐ICG particles progressively accumulate in tumors due to the enhanced permeability and retention (EPR) effect. The proposed deep learning model exploits the advantages of the multihead attention mechanism and the U‐Net model to perform segmentation on the MPI‐CT images, showing superb results. In addition, the model is characterized with a different number of attention heads to explore the optimal number for our custom MPI‐CT dataset. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Theoretical modeling and experimental investigation of in-phase resonant MEMS mirrors with cascaded structures

Author

Chen, Wenhao, Luo, Huahuang, Tavakkoli, Hadi, Duan, Mingzheng, Piyawattanametha, Wibool, Lee, Yi-kuen, Chen, Wenhao, Luo, Huahuang, Tavakkoli, Hadi, Duan, Mingzheng, Piyawattanametha, Wibool, and Lee, Yi-kuen

Abstract

This paper proposes an efficient nonlinear one-dimensional (1D) compact mass-damper-spring model to predict the dynamic response of electrostatic resonant micro-electro-mechanical system (MEMS) mirrors with cascaded structures. The time-dependent damping moment due to viscous shear and pressure drag is computed using semi-empirical analytical equations for comb-drive structures and device frames. Nonlinear electrostatic force induced by the comb drives is efficiently acquired based on the hybrid method. The optimized device is fabricated using MEMS fabrication processes based on a 4-inch silicon-on-insulator wafer. The proposed compact model with the measured key parameters from the fabricated device shows excellent capability to accurately predict nonlinear dynamic responses of the fabricated device, including parametric excitation and hysteretic frequency response, with an average error of less than 5%. In particular, our 1D model is three orders of magnitude faster than the conventional finite element method model (0.8 s versus 1 h), enabling efficient system-level optimization of the critical design parameters. Based on the parametric study, electrode gap distance and torsion spring width are found to be two critical design parameters and dimensional analysis is conducted for design optimization with scan angle enhancing from 16.8° to 24° compared with the first design.

Published
2024

3. Virtual Biopsies with Handheld Dual-Axis Confocal Microscope

Author

Piyawattanametha, Wibool, Magjarevic, Ratko, Editor-in-Chief, Ładyżyński, Piotr, Series Editor, Ibrahim, Fatimah, Series Editor, Lacković, Igor, Series Editor, Rock, Emilio Sacristan, Series Editor, Lhotska, Lenka, editor, Sukupova, Lucie, editor, and Ibbott, Geoffrey S., editor

Published
2019
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8. Theoretical and experimental study of comb-actuated mirror with cascaded structures

Author

Chen, Wenhao, Luo, Huahuang, Duan, Mingzheng, Tavakkoli, Hadi, Piyawattanametha, Wibool, Lee, Yi-kuen, Chen, Wenhao, Luo, Huahuang, Duan, Mingzheng, Tavakkoli, Hadi, Piyawattanametha, Wibool, and Lee, Yi-kuen

Abstract

For the first time, we present a two-dimensional theoretical model for one-dimensional comb-actuated MEMS mirror with cascaded structures. The numerical model including different damping mechanisms and nonlinear capacitive force is validated with experiment results. Stability analysis is conducted to simulate the nonlinear hysteretic frequency response. The model proposed can be a guideline for designing multi-degree-of-freedom nonlinear parametric-excited MEMS mirror with high frequency and large scan angle.

Published
2023

40. Bioengineering horizon scan 2020

Author

Kemp, Luke, Adam, Laura, Boehm, Christian R, Breitling, Rainer, Casagrande, Rocco, Dando, Malcolm, Djikeng, Appolinaire, Evans, Nicholas G, Hammond, Richard, Hills, Kelly, Holt, Lauren A, Kuiken, Todd, Markotić, Alemka, Millett, Piers, Napier, Johnathan A, Nelson, Cassidy, ÓhÉigeartaigh, Seán S, Osbourn, Anne, Palmer, Megan, Patron, Nicola J, Perello, Edward, Piyawattanametha, Wibool, Restrepo-Schild, Vanessa, Rios-Rojas, Clarissa, Rhodes, Catherine, Roessing, Anna, Scott, Deborah, Shapira, Philip, Simuntala, Christopher, Smith, Robert Dj, Sundaram, Lalitha S, Takano, Eriko, Uttmark, Gwyn, Wintle, Bonnie, Zahra, Nadia B, Sutherland, William J, Kemp, Luke [0000-0002-7447-4335], Adam, Laura [0000-0002-4822-2695], Boehm, Christian R [0000-0002-6633-7998], Breitling, Rainer [0000-0001-7173-0922], Djikeng, Appolinaire [0000-0002-0955-171X], Evans, Nicholas G [0000-0002-3330-0224], Kuiken, Todd [0000-0001-7851-6232], Napier, Johnathan A [0000-0003-3580-3607], Nelson, Cassidy [0000-0003-0934-8313], Osbourn, Anne [0000-0003-2195-5810], Palmer, Megan [0000-0001-8310-2325], Patron, Nicola J [0000-0002-8389-1851], Piyawattanametha, Wibool [0000-0002-2228-8485], Restrepo-Schild, Vanessa [0000-0002-3486-454X], Rios-Rojas, Clarissa [0000-0001-6544-4663], Rhodes, Catherine [0000-0002-7747-2597], Roessing, Anna [0000-0002-2888-3963], Scott, Deborah [0000-0002-5962-2002], Shapira, Philip [0000-0003-2488-5985], Smith, Robert Dj [0000-0002-5814-6032], Sundaram, Lalitha S [0000-0002-9595-9753], Takano, Eriko [0000-0002-6791-3256], Uttmark, Gwyn [0000-0001-8758-5256], and Apollo - University of Cambridge Repository

Subjects
Male, bioengineering, medicine, Internationality, none, Climate Change, Politics, foresight, human biology, Agriculture, Plants, Genetically Modified, point of view, genomics, Humans, genetics, Female, horizon scanning, Genetic Engineering, Biotechnology, Forecasting
Abstract

Horizon scanning is intended to identify the opportunities and threats associated with technological, regulatory and social change. In 2017 some of the present authors conducted a horizon scan for bioengineering (Wintle et al., 2017). Here we report the results of a new horizon scan that is based on inputs from a larger and more international group of 38 participants. The final list of 20 issues includes topics spanning from the political (the regulation of genomic data, increased philanthropic funding and malicious uses of neurochemicals) to the environmental (crops for changing climates and agricultural gene drives). The early identification of such issues is relevant to researchers, policy-makers and the wider public.

Published
2020

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