Objective/Contributions: Investigation and categorization of the different methodologies in fractional operator discretization. Investigate the effect of the number of memory samples on the performance of different discretization schemes and recommend the scheme which gives the best performance for the least number of memory samples. Discuss the stability analysis of the discretized operators and

Objective/ Contributions: A first prototype of a glucose device that can be connected to the 4G network. Computer-based software for monitoring the patient’s condition and alerting the system in case of emergency. The correlation between sensor impedance and its sensitivity and developing an auto-calibration based on that. Design and implementation of impedance spectroscopy for the sensor

This project's aim is to develop a working flow providing a better and an efficient way for implementing Machine Learning algorithms having a balance between high performance and low power consumption. Objective/Contributions: Software Implementation of Machine Learning Algorithms Hardware Implementation of Machine Learning Algorithms Efficient Power Consumption Reconfigurable Design of ML FPGA IP

Internet of Things (IoT) is a network of physical objects or people called things, where electronics, software, and network work together to open the door for these things to be able to collect and exchange data remotely. The IoT devices serve many applications such as smart cities, wearables and health monitoring, security, and surveillance. Low cost, long battery life, low data rate, low latency

Objective/Contributions: Surveying research papers about transferring hard robot characteristics to soft one. Use additive manufacturing techniques to minimize the assembly process of the ROV actuator. Work on soft control and soft sensing system and study its ability to be used in soft robotics. Discuss biomimicking ROV. Create a hub for soft robotics at Nile University for participating in Egypt

Objective: This project aims to study the relation between the mathematical fundamentals of fractional calculus and the concept of two-port circuit networks in the design of oscillators and filters with their analyses. These concepts will be applied to the Cole-Cole model, suitable for agriculture and biomedical applications tissue modelling. Outcomes: Literature Surveys (2 Journals + 2 Chapters)

Nowadays, the demand for building CNTFET-based ternary systems has been increasing. The current two-level binary logic and MOSFET technology have been facing limitations in chip size, design complexity, and power consumption. In this proposal, the method to design Ternary logic gates based on CNTFET and Memristor is proposed. Implementing Ternary Full-Adders and Multipliers is also discussed in

Fractional Calculus (FC) has been proved through numerous research examples to be a superior tool for system description to the narrow integer order domain. This is achieved through the extra parameters introduced by allowing the differential or integral orders to take non-integer values. The promising capabilities of fractional-order devices challenge the research to find a way to simulate its

Fractional calculus (FC) has been proved through numerous research examples to be a superior tool for system description to the narrow integer order domain. This is achieved through the extra parameters introduced by allowing the differential or integral orders to take non-integer values. The promising capabilities of fractional-order devices challenge the research to find a way to simulate its

Efficient management of the Earth’s water resources has surged in urgency due to the confluence of several factors, including population growth, climate change, urbanization, etc. Irrigation stands out as one of the major sources of water utilization that can benefit drastically from novel approaches to water management. The nominal method for smart irrigation is to use some weather conditions to