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IEEE Transactions on Nanobioscience
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#1Qingchao Li (USTC: University of Science and Technology of China)
In diffusion-based molecular communications, time synchronization is a major reason for the increase of system structure complexity. In this paper, we consider the asynchronous receiver design for molecular communications with information symbols conveyed in the time of released molecules. The main contribution of this paper is that we develop a detector called clock-free asynchronous receiver design (CFARD), in which the receiver recovers the information symbols without measuring the arrival ti...
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#1Moslem Sadeghi-Goughari (UW: University of Waterloo)H-Index: 6
#2Soo Jeon (UW: University of Waterloo)H-Index: 10
Last.Hyock-Ju Kwon (UW: University of Waterloo)H-Index: 10
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High intensity focused ultrasound (HIFU) has gained increasing attention as a noninvasive therapeutic method for wide range of biomedical applications from drug delivery to cancer treatment. However, high level of ultrasonic power required for efficient HIFU treatment can cause adverse effects such as damage to surrounding healthy tissues and skin burns. One of the strategies to improve the therapeutic mechanism of HIFU is to use ultrasound absorption agents during the treatment. The objectives ...
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#1Lokendra Chouhan (VRCE: Visvesvaraya National Institute of Technology)
#2Prabhat Kumar Sharma (VRCE: Visvesvaraya National Institute of Technology)H-Index: 9
Last.Neeraj Varshney (NIST: National Institute of Standards and Technology)H-Index: 7
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We study a drift-induced diffusive mobile molecular communication system where source, destination and cooperative nanomachines follow the one-dimensional Brownian motion. For information exchange from source nanomachine to receiver nanomachine, both direct and decode-forward (DF) relay-assisted cooperative paths are considered. The closed-form expressions for the probabilities of detection and false alarm are derived at the cooperative and destination nanomachines considering the multiple-sourc...
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Perfect optical metamaterial absorbers (POMMA) utilize intrinsic loss, with the aid of appropriate structural design, to achieve near unity absorption at a certain wavelength. In all the reported absorbers, the absorption occurs only at a single wavelength or dual/multi-band wavelengths where plasmon resonances are ex-cited in the nanostructure. Here we not only show a single-band perfect absorber but also demonstrate that our proposed design has the ability to be multi-band absorber at the same...
2 CitationsSource
#1Qi Zhao (SAU: Shenyang Aerospace University)H-Index: 1
#2Yingjuan Yang (Liaoning University)H-Index: 1
Last.Chunlong Fan (SAU: Shenyang Aerospace University)H-Index: 1
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Accumulating biological experiments have shown that circRNAs are closely related to the occurrence and development of many complex human diseases. During recent years, the associations of circRNA with disease have caused more and more researchers to pay attention and to analyze their correlation mechanisms. However, experimental methods for determining the associations of circRNA with a particular disease are still expensive, difficult, and time consuming. Moreover, the available databases relat...
2 CitationsSource
#1Zhang-Wei Li (Zhejiang University of Technology)
#2Ke Sun (Zhejiang University of Technology)
Last.Guijun Zhang (Zhejiang University of Technology)H-Index: 4
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Protein structure prediction has been a long-standing problem for the past decades. In particular, the loop region structure remains an obstacle in forming an accurate protein tertiary structure because of its flexibility. In this study, Rama torsion angle and secondary structure feature-guided differential evolution named RSDE is proposed to predict three-dimensional structure with the exploitation on the loop region structure. In RSDE, the structure of the loop region is improved by the follow...
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#1Sandy Gabriela Garcia Torres (CINVESTAV)H-Index: 1
#2Anna IlyinaH-Index: 8
Last.Lourdes Diaz-Jimenez (CINVESTAV)H-Index: 2
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The immobilization of microorganisms has been reported as an alternative to improve the efficiency of processes such as fermentation, anaerobic digestion, bioadsorption, and many others. Since the kinetics of bioprocesses are governed by the adsorbent/adsorbate interaction, it is important to know the mechanisms of interaction between biological materials and supports. This could help to define optimal operating conditions. In this research, the fungus that produces the cellulases, was selected,...
1 CitationsSource
The Engineering Sciences for Biology and Medicine (ESBM) is the world’s largest international society of biomedical engineers, which provides a platform for researchers all over the world to share ideas and knowledge regarding the development and applications of engineering concepts and methods toward the solution of biological, medical, and healthcare problems. In 2018, the IEEE EMBS R9 Monterrey Chapter co-sponsored the first edition of the International Congress on NanoBioEngineering (ICNBE’1...
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#1Gustavo Ochoa-Vazquez (Universidad Autónoma de Nuevo León)
#2Boris I. Kharisov (Universidad Autónoma de Nuevo León)H-Index: 25
Last.Israel López (Universidad Autónoma de Nuevo León)H-Index: 7
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In this perspective article, we emphasize the combination of Surface-Enhanced Raman Spectroscopy (SERS) and Microfluidic devices. SERS approaches have been widely studied and used for multiple applications including trace molecules detection, in situ analysis of biological samples and monitoring or, all of them with good results, however still with limitations of the technique, for example regarding with improved precision and reproducibility. These implications can be overcome by microfluidic a...
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#1Yu ZhouH-Index: 1
#2Yifan Chen (University of Electronic Science and Technology of China)H-Index: 15
Recent progress on bioresorbable and bio-compatible miniature systems provides prospects for developing novel nanorobots operating inside the human body. These nanoscale systems are expected to dissolve in vivo and cause no side effect after completing their tasks. Motivated by these advancements, we have developed the analytical framework of touchable molecular communication (TouchCom) to describe the process of direct drug targeting (DDT) using externally controllable nanorobots. Built upon ou...
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