Hamza Ouamna's Projects
Arduino compatible universal AVR board for 28-pin and 40-pin ATmega devices.
Files for the Elektor LoRaWAN Node Experimental Platform
ADSR Envelope Extension of the original AD9833 Waveform Generator FeatherWing
Example code for Over-the-Air-Activation of a Adafruit Feather 32u4 RFM95 LoRa Radio
PCB files for the Adafruit Feather M0 RFM69 / RFM9X LoRa
Adminator is a easy to use and well design admin dashboard template for web apps, websites, services and more
AdminBSB - Free admin panel that is based on Bootstrap 3.x with Material Design
Advanced System on Chip Design Education Kit
ANN applications in Cooperative Spectrum Sensing
Arduino core for the ESP32
Arduino MKR Projects for Schools is a colourful entry-level resource, which introduces learners to the exciting world of microcontrollers, the Internet of Things and Data Science. Learners use both simulators and physical devices to build systems and solve real-life problems.
The micro:course is a colourful, introductory book of projects that guides learners from first principles of the micro:bit through to the use of Python. It is intended for self-study and includes full explanations of each project, with all code also provided.
Learn about all the programming techniques in the GCSE Computer Science curriculum using MicroPython to program a micro:bit. Learners apply these techniques across several projects, mirroring real-world product development.
A collection of accessible and engaging projects for teachers and learners that utilise the more advanced features of Arduino in real-world contexts.
Analytical Models of the Performance of C-V2X Mode 4 Vehicular Communications
Spectrum Sensing in Interference and Noise Using Deep Learning, 2020 54th Annual Conference on Information Sciences and Systems (CISS)
A low budget battery powered LoRa node to smart up your city
It's a bunch of code written in Python+ Gnuradio libraries to be developed using SDR, specifically USRPN210
Simulation Study of Double Threshold Energy Detection Method for Cognitive Radios
MATLAB codes for cognitive radio which we used through the year
local and cooperative
an evaluation of matched filter based spectrum sensing procedure in Cognitive Radio using MATLAB simulation Monte Carlo simulation
The project was developed under the GNU Radio platform and CRTS 'Cognitive Radio Test System under CORNET Testbed to demonstrate a simplified version of Cognitive Cycle.]
This project designs and develops a technique to analyze and correlate spectrum allocation of secondary users using optimization problem of linear cooperative spectrum sensing techniques.
This repo will contain the backend code and the Ui of the flutter ecommerce app
Centralized cooperative spectrum sensing with soft fusion of energy measurements in highly mobile environments. Neyman-Pearson (NP) detection criterion. Three methods: LRT (assuming the instantaneous SNRs at the cognitive radios are known by the fusion center, Generalized LRT (GLRT), Online Expectation-Maximization (EM) based algorithm that jointly estimates the SNRs and detects the presence of primary signals.