Muhammad Al-Ayyad
Al-Ahliyya Amman University
17 Papers
9 Citations
Muhammad Al-Ayyad is an academic researcher from Al-Ahliyya Amman University. The author has contributed to research in topics: Medicine & Electrospinning. The author has an hindex of 1, co-authored 5 publications.
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Papers
Electromyography Monitoring Systems in Rehabilitation: A Review of Clinical Applications, Wearable Devices and Signal Acquisition Methodologies
TL;DR: A comprehensive and updated survey of wearable devices for sEMG detection, both reported in the scientific literature and on the market, is provided, mainly applied in rehabilitation training and physiological tracking as mentioned in this paper .
Recent Applications of Electrospun Nanofibrous Scaffold in Tissue Engineering
H A Owida,Jamal Al-Nabulsi,F. A. Alnaimat,Muhammad Al-Ayyad,Nidal M. Turab,A. Al Sharah,Murad Shakur +6 more
TL;DR: An overview of attempts to construct nanofibrous meshes as tissue-engineered scaffolds for various tissues such as bone, cartilage, cardiovascular, and skin tissues is given.
Prediction Alzheimer's disease from MRI images using deep learning
Esraa Mggdadi,Ahmad Alaiad,Muhammad Al-Ayyad,Alaa Darabseh +3 more
- 24 May 2021
TL;DR: In this paper, the authors used 2D CNN and vgg16 to predict and diagnose Alzheimer's disease and achieved an accuracy of 67.5% and 70.3% respectively.
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Advancement of Nanofibrous Mats and Common Useful Drug Delivery Applications
Hamza Abu Owida,Jamal Al-Nabulsi,F. A. Alnaimat,A. Al Sharah,Muhammad Al-Ayyad,Nidal M. Turab,M.B. Abdullah +6 more
TL;DR: The nanofibrous mesh and its various application purposes are discussed in terms of a summary of recent research, emphasizing the ease of streaming and a large number of combinations of this approach, which could lead to a breakthrough in targeted therapy.
Controlling a Lower-Leg Exoskeleton Using Voltage and Current Variation Signals of a DC Motor Mounted at the Knee Joint
TL;DR: The results support the hypothesis that the developed system can detect human motion and drive the motor in the necessary direction without the use of uncomfortable electrodes (sensors) and their connections.
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