中大研發高速三維成像法

人們過往觀察生物中數百個神經元的活動時,往往因速度不夠快,難以從傳統顯微鏡中直接觀察這些現象,故中文大學機械與自動化工程學系教授陳世祈帶領其研究團隊,結合「壓縮感知演算法」及數碼全息顯微鏡,開發出一種高速成像方法,能於一秒內完成對三維樣品的雙光子熒光成像,解決了數字微鏡器件無法調製超快雷射的問題,這項研究更發表於著名期刊《Optics Letters》。

Date: 
Friday, October 25, 2019
Media: 
Sing Tao

活體高速3D成像中大助研究光遺傳學

香港文匯報訊(記者高鈺)快速的生物成像方法,對生命科學的探索至關重要。中文大學機械與自動化工程學系副教授陳世祈及其團隊,結合壓縮感知演算法與數碼全息顯微鏡,成功開發一種高速雙光子熒光成像法,在1秒內即可完成活體3D成像,速度是傳統點掃描方法的3 倍至5倍。新技術可望對神經系統及光遺傳學研究帶來貢獻,促進生物醫學領域發展。

Date: 
Friday, October 25, 2019
Media: 
Wen Wei

Novel Imaging Approach Bringing Faster 3D Imaging for Biomedical Researches

Date: 
2019-10-24
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By combining a compressive sensing algorithm with a digital holographic microscope, Prof. Shih-Chi CHEN of the Department of Mechanical and Automation Engineering, Faculty of Engineering and his research team have developed a high-speed imaging method. The new approach is able to produce two-photon microscopy images of a 3D sample in one second, which is at a speed three to five times that of the conventional point-scanning method. The research result has been published in the journal Optics Letters recently.

Activities of neurons are generally completed on a time scale of 10 milliseconds, which makes it hard for conventional microscopes to observe these phenomena directly. This new compressive sensing two-photon microscopy can be applied to 3D imaging of the nerve distribution of living things or to monitoring activities from hundreds of neurons simultaneously.
 
New multi-focus laser scanning method to break the scanning speed limit of two-photon microscope
 
Two-photon microscopy works by delivering ultrafast pulses of infrared laser light to the sample, where it interacts with fluorescent labels to create an image. It is extensively used for biological researches because of its ability to produce high-resolution 3D images up to a depth of one millimeter in a living tissue. These advantages, however, come with a limited imaging speed of the two-photon microscopy because of the weak fluorescent signal.
 
To speed up scanning, the research team developed a multi-focus laser illumination method that uses a digital micromirror device (DMD). The research solves the problem of conventional DMD being unusable to work with ultrafast laser, enabling them to be integrated and used in beam shaping, pulse shaping, and two-photon imaging.
 
The DMD generates 30 points of focused laser light on randomly selected locations within a specimen. The position and intensity of each point of light are controlled by a binary hologram that is projected onto the device. During each measurement, the DMD reflashes the hologram to change the position of each focus and records the intensity of the two-photon fluorescence with a single-pixel detector. Although, in many ways, the DMD multi-focus scanning is more flexible and faster than traditional mechanical scanning, the speed is still limited by the DMD’s refresh rate.
 
Combining the compressive sensing algorithm to further improve the imaging speed
 
The researchers further increased the imaging speed in this research by combining multi-focus scanning with compressive sensing. This approach enables image acquisition with fewer measurements. This is because it carries out image measurement and compression in a single step and then uses an algorithm to rebuild the images from the measurement results. For two-photon microscopy, it can reduce the number of measurements by between 70% and 90%.
 
After conducting a simulation experiment to demonstrate the new method’s performance and parameters, the researchers tested it with two-photon imaging experiments. These experiments demonstrated the technique’s ability to produce high-quality 3D images with high imaging speeds from any field of view. For example, they were able to acquire 3D images from a pollen grain, in just 0.55 seconds. The same images acquired with traditional point scanning took 2.2 seconds. 
 
Prof. Shih-Chi Chen said, “This method achieved a three to five times enhancement in imaging speed without sacrificing the resolution. We believe this novel approach will lead to new discoveries in biology and medicine, such as optogenetics. The team is now working to further improve the speed of the reconstruction algorithm and image quality. We also plan to use the DMD together with other advanced imaging techniques, which allows imaging in deeper tissues.”
 

Prof. Shih-Chi CHEN (1st from right, front row) and his research team.

The researchers prepared two-photon microscopy images of a pollen grain by using (a) traditional point-scanning and (b) the new compressive imaging approach. The point-scanning imaging time was 2.2 seconds while the compressive imaging time required only 0.55 seconds.

Researchers have developed a system that increases the imaging speed of two-photon microscopy up to three to five times without compromising resolution. On the left is a CAD model of the compact, custom built, two-photon microscopy system. The free-space optics inside are pictured on the right.

 

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中大研納米機械人 體內遙控攜藥治中風 五毫米血塊 20分鐘溶解

中風是本港第四大致命疾病,每年逾三千人死亡,現時常見的治療方法具一定風險,中文大學機械與自動化工程學系教授張立,把氧化鐵納米微粒移接到螺旋藻的表面,研發可攜帶藥物的磁性生物合成納米機械人,能以磁場控制其移動到目標部位施藥,納米機械人只需二十分鐘,便可溶解五毫米的血塊,成為無綫操控微型醫療機械人技術的里程碑。

Date: 
Tuesday, October 22, 2019
Media: 
SING TAO

中大研發評估納米發電新技術

納米發電機透過收集熱能、機械能等轉化為電能,它的出現為小型電子設備提供持續穩定供電,功能亦愈趨多元化。香港

Date: 
Tuesday, October 15, 2019
Media: 
Hong Kong Commercial Daily

中大新測量法 準確評估納米發電機輸出

納米發電機( Nanogenerator )可向小型電子設備持續穩定地供電,中文大學機械與自動化工程學系助理教授訾雲龍及研究團隊,最近研發了一種評估納米發電機輸出能力的通用標準化方法。與傳統方法相比,這種方法能夠更準確反映發電機實際輸出能力,為納米發電機技術的標準化應用和普及定下基礎。

Date: 
Tuesday, October 15, 2019
Media: 
Ming Pao

A Universal Standardized Method for Output Capability Assessment of Nanogenerators Laying the Foundation for Nanogenerator Technology Development

Date: 
2019-10-14
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Nanogenerator is a type of new technology that converts thermal and mechanical energy as produced by small-scale physical change into electricity. Its presence secures a stable and sustainable source of electricity that powers a wide range of small electronic devices equipped with a variety of features. A research team led by Prof. ZI Yunlong, Assistant Professor in the Department of Mechanical and Automation Engineering has recently developed a universal standardized method for evaluating the output capacity of nanogenerators. Compared with the conventional one, the new method can reflect the practical output capacity of the nanogenerator more accurately. This research will set an important foundation for the practical application and commercialisation of nanogenerators as an emerging energy harvesting technology. This research was published recently in the prestigious scientific journal Nature Communications (www.nature.com/articles/s41467-019-12465-2).

A nanogenerator has three typical approaches: piezoelectric, triboelectric, and pyroelectric nanogenerators. Triboelectric nanogenerators (TENG), which harvest energy from triboelectric effect, can provide high energy output and high energy conversion efficiency. They have caught a lot of attention because they can acquire electricity by rubbing commonly-used materials such as clothes fabric and papers. However, the unique capacitive output characteristics of the nanogenerator make the traditional characterisation method not applicable. To solve this problem, the Figure-of-Merit (FOM) defined by a maximized energy output cycle has become a standard for quantitative evaluation of output performance. However, the development of TENG is still hindered since the current FOM definition does not consider the breakdown effect, and the corresponding standardized performance assessment and well- standardized experimental evaluation methods have not been developed yet, limiting the wide application of this FOM as the evaluation standard.

Prof. Zi and his team members have discovered that a specific measuring circuit can solve the most difficult part, which is measuring the breakdown limit. Based on the designed process flow, the breakdown areas of contact separation (CS) mode and contact freestanding (CFT) mode TENG were determined and the results were consistent with the theoretical calculations. The team redefined FOM based on the experimentally measured maximized effective energy output to reflect the actual output capacity of the TENG. The team also applied this method to a piezoelectric nanogenerator based on polyvinylidene fluoride (PVDF) thin film, further proving the wide applicability of the method. This study provides a standardized method for evaluating output capacity, which is advantageous due to the standardized process flow for experimental operation and considerations of the breakdown effect. It can be widely applied to various types of nanogenerators and will make an important contribution to the standardized application and commercialisation of the nanogenerator technology.

This project was funded by the Innovation and Technology Fund of the Innovation and Technology Commission of the Hong Kong SAR, Shun Hing Institute of Advanced Engineering and CUHK.

 

Prof. Zi (5th left) and his research team.

Air breakdown of arc which can be seen in CS mode.

 

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Media Release

Prof. Darwin Lau Awarded 2019 UGC Teaching Award

Date: 
2019-10-11
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Professor Darwin Tat-ming Lau, Assistant Professor of the Department of Mechanical and Automation Engineeringhas been awarded the 2019 UGC Teaching Award (Early Career Faculty Members), in recognition of his dedication and achievements in his learner-centred and experience-based learning ideology.

Professor Rocky S. Tuan, Vice-Chancellor and President of CUHK, said, “My sincere congratulations to Professor Darwin Lau. Professor Lau is an outstanding young scholar. By introducing hands-on experience to the robotics programme, he not only tremendously improves the students’ learning interest but also enriches their learning experience. Through collaboration with medical professionals, Professor Lau helps transfer the academic research results into social services which benefits patients in need. The University is proud of his achievements.”

Professor Lau is deeply honoured to receive the award. He said, “Teaching is a job as challenging as it is meaningful. My goal is to ensure that students can learn effectively through the Student-Teacher-Experience-Peer modality and I try to make my lectures enjoyable and memorable. I would like to extend my heartfelt thanks to my teaching assistants for their support in executing the mixed mode teaching and to the students for their feedback and encouragement.”  
 

Learning Experience-Based and Improve Students’ Learning Motivation 
Joining CUHK in October 2015, Professor Lau was awarded the CUHK Vice-Chancellor’s Exemplary Teaching Award 2018 and the University Education Award 2019. He is an expert in robotics and has been responsible for teaching and supervising both undergraduate and postgraduate students in this area. He is dedicated to bringing about meaningful hands-on experiences both within and outside the classroom to improve students’ learning interest and outcomes. In the classroom, he has introduced a new form of lectures, known as “hands-on lectures”, where students learn robotics fundamentals in groups with a physical robot arm in front of them. With a tailor made tablet application, these learning tools aid students in better understanding abstract concepts while making learning more fun and relevant to the practical world, which increases student motivation. Professor Lau has also been working with colleagues in his Department to implement this novel teaching approach in other courses, sharing his teaching innovation through seminars and publications. He anticipates that the pedagogy can be beneficial to students from other disciplines as well.

Beyond the classroom, Professor Lau has been active in supervising a range of student activities, such as robotics team competitions, internship programmes and final year projects. Further, in collaboration with Prince of Wales Hospital, he has established a student prosthetics development team where his students have the opportunity to apply their engineering skills to help amputee patients by developing prosthetic devices that can change their lives. These experiences significantly enrich students’ quality of learning and motivation. Professor Lau is committed to helping students into the society, and his teaching philosophy and dedication set examples for good teachers.
 
Launching of the Hong Kong Teaching Excellence Alliance
The Hong Kong Teaching Excellence Alliance (HKTEA), a formal community for UGC Teaching Award fellows and others, is established today. HKTEA aims to collectively make an impact on promoting teaching excellence in and beyond the UGC sector. Professor Isabella Wai-yin Poon, Pro-Vice-Chancellor / Vice-President of CUHK, is the Chair of HKTEA for the first term.
 

The Annual Award for Teaching Excellence
The annual UGC Teaching Award was introduced in 2011 to honour those who excel in teaching in the UGC sector and their leadership in and scholarly contribution to teaching and learning within and across institutions. Past awardees from CUHK include Professor Isabella Wai-yin Poon, Pro-Vice-Chancellor / Vice-President and Professor in the Department of Statistics, Professor Shekhar Madhukar Kumta, Assistant Dean (Education), Faculty of Medicine, and Professor in the Department of Orthopaedics and Traumatology, Professor Leung Mei-yee, Director of University General Education, Dr. Julie Chiu Chu-lee, Deputy Director of the General Education Foundation Programme, Dr. Wong Wing-hung, Associate Director of the General Education Foundation Programme, Professor Emily Chan Ying-yang, Assistant Dean (External Affairs), Faculty of Medicine, and Professor in the Jockey Club School of Public Health and Primary Care, and Professor Suzanne So Ho-wai, Associate Professor of the Department of Psychology.

This article was originally published on CUHK Communications and Public Relations Office website.

 

Prof. Darwin Lau, Assistant Professor of the Department of Mechanical and Automation Engineering, CUHK receives the 2019 UGC Teaching Award (Early career Faculty Members)

CUHK members join Prof. Benjamin W. Wah, Provost (2nd from right) , Prof. Fanny Cheung, Pro-Vice-Chancellor / Vice-President (2nd from left), Prof. Isabella Wai-yin Poon, Pro-Vice-Chancellor / Vice-President (3rd from right), congratulating Prof. Darwin Lau (3rd from left).

 

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Media Release

建跨文化交流平台 浸大教授獲傑出教學獎

大學教育資助委員會昨頒發本年度傑出教學獎,遴選委員會從19組大學提名名單中選出3組得獎者,其中獲獎的香港浸會大學政治及國際關係學系副系主任TusharChaudhuri開展線上遠程計劃,利用網上平台連繫德國、俄羅斯、沙地阿拉伯等16間大學的學生,讓他們運用外語討論跨文化議題。他把項目延展至21所歐洲和本地中學,讓中學生透過交流提高全球意識。今後他計劃利用獎金,與大灣區的學者交流,探討共同開發其他平台的可能。

Date: 
Friday, October 11, 2019
Media: 
Ming Pao Daily

3組學者傑出教學 獲教資會嘉獎

大學是本港學術、科研發展及人才培訓的搖籃,大學教育資助委員會每年會頒發傑出教學獎項鼓勵業者提升水平,今年有三組隊伍獲獎,當中有在港教授德文的印度學者,亦有教授「機械人入門」課程的年輕學者獲獎。每組得獎者或團隊可獲得五十萬元的獎金,當中四十五萬元是供得獎者進行提升教與學質素的計劃或活動,另外五萬元鼓勵其傑出教學表現及成就。

 

Date: 
Friday, October 11, 2019
Media: 
Oriental Daily

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