Understanding the importance of natural neuromotor strategy in upper extremity neuroprosthetic control [0.03%]
探究自然神经运动策略在上肢神经康复中的重要性
Dominic E Nathan,Robert W Prost,Stephen J Guastello et al.
Dominic E Nathan et al.
A key challenge in upper extremity neuroprosthetics is variable levels of skill and inconsistent functional recovery. We examine the feasibility and benefits of using natural neuromotor strategies through the design and development of a pro...
Functional and structural analysis of mice TRPC6 with human analogue through homology modelling [0.03%]
同源建模法对TRPC6通道功能及结构分析研究(以小鼠和人类为例)
Soumya Chigurupati,Arnima Bhasin,Krishna Kishore Inampudi et al.
Soumya Chigurupati et al.
Homology models are increasingly used to determine structural and functional relationships of genes and proteins in biomedical research. In the current study, for the first time, we compared the TRPC6 gene in mouse and human. The protein en...
Real-time estimation and detection of non-linearity in bio-signals using wireless brain-computer interface [0.03%]
基于无线脑机接口的生物信号非线性实时估计与检测方法研究
S Ganesan,T Aruldoss Albert Victoire,G Vijayalakshmy
S Ganesan
In this paper, the work is mainly concentrated on removing non-linear parameters to make the physiological signals more linear and reducing the complexity of the signals. This paper discusses three different types of techniques that can be ...
A direct method for computing extreme value (Gumbel) parameters for gapped biological sequence alignments [0.03%]
计算具有缺口的生物序列对齐的极值(Gumbel)参数的直接方法
Terrance Quinn,Zachariah Sinkala
Terrance Quinn
We develop a general method for computing extreme value distribution (Gumbel, 1958) parameters for gapped alignments. Our approach uses mixture distribution theory to obtain associated BLOSUM matrices for gapped alignments, which in turn ar...
Identification of unique repeated patterns, location of mutation in DNA finger printing using artificial intelligence technique [0.03%]
利用人工智能技术进行DNA指纹识别及重复序列定位及突变点查找
B Mukunthan,N Nagaveni
B Mukunthan
In genetic engineering, conventional techniques and algorithms employed by forensic scientists to assist in identification of individuals on the basis of their respective DNA profiles involves more complex computational steps and mathematic...
Igor Yu Popov,Anastasiya V Vorobyova,Irina V Blinova
Igor Yu Popov
Using of DNA molecules for solving of NP-complete problems is discussed. Properties of DNA allow one to reduce the number of operations from exponential to polynomial. DNA-algorithm for solving of the timetable problem is suggested. The sta...
Texture-based medical image retrieval in compressed domain using compressive sensing [0.03%]
基于压缩感知压缩域的医学图像纹理检索方法研究
Kuldeep Yadav,Avi Srivastava,Ankush Mittal et al.
Kuldeep Yadav et al.
Content-based image retrieval has gained considerable attention in today's scenario as a useful tool in many applications; texture is one of them. In this paper, we focus on texture-based image retrieval in compressed domain using compressi...
Vectorial total variation regularisation of orientation distribution functions in diffusion weighted MRI [0.03%]
基于扩散加权MRI的张量总变化方向分布函数正则化方法研究
Yuyuan Ouyang,Yunmei Chen,Ying Wu
Yuyuan Ouyang
We propose a model for simultaneous Orientation Distribution Function (ODF) reconstruction and regularisation. The ODFs are represented by real spherical harmonic functions, and we propose to solve the spherical harmonic coefficients of the...
Integrating edge detection and fuzzy connectedness for automated segmentation of anatomical branching structures [0.03%]
结合边缘检测和模糊连接性的解剖分支结构自动化分割方法
Angeliki Skoura,Tatyana Nuzhnaya,Vasileios Megalooikonomou
Angeliki Skoura
Image segmentation algorithms are critical components of medical image analysis systems. This paper presents a novel and fully automated methodology for segmenting anatomical branching structures in medical images. It is a hybrid approach w...
Perpendicular fibre tracking for neural fibre bundle analysis using diffusion MRI [0.03%]
利用扩散加权MRI进行垂直纤维跟踪以分析神经纤维束
S Ray,W ODell,Angelos Barmpoutis
S Ray
Information on the directionality and structure of axonal fibres in neural tissue can be obtained by analysing diffusion-weighted MRI data sets. Several fibre tracking algorithms have been presented in the literature that trace the underlyi...