Contributions to University Day 2024
Our Computer Engineering students consistently demonstrate dedication, creativity, and a passion for innovation. During University Day, several students made a remarkable impact with their projects, each a reflection of months of hard work and ingenuity. These projects showcase their ability to solve complex problems and embrace cutting-edge technology, highlighting the exceptional talent and commitment of our academic community. here is the projects
1) Smart agriculture.
Smart agriculture, often referred to as precision agriculture or digital farming, is an innovative approach that leverages advanced technologies to improve farming practices, increase productivity, and promote sustainability.
The primary goal of smart agriculture is to enable farmers to make more informed decisions by collecting real-time data about soil conditions, weather patterns, crop health, and livestock behavior. This data allows for precise irrigation, fertilization, and pest control, reducing waste, lowering costs, and minimizing the environmental impact of farming activities. Water sensor/This sensor help farmers optimize water usage, ensuring that crops receive the appropriate amount of water for optimal growth, while minimizing waste and preventing over-irrigation or under-irrigation
Students:
1) Rawand Rzgar Abbas
2)Vina Fryad Ghafoor
2) Powering the future with every step: using harvest energy from human movement.
Our project focuses on an innovative concept of sustainable power supply which is the conversion of energy from human motion to electricity using sensors called piezoelectric.
With increasing energy requirements in the world and the deterioration of environmental conditions, there is increasing consciousness of energy options that have close or no unfavorable effects on the environment in the supply of electricity energy. This project is aimed on eliminating electricity scarcity in such countries as Kurdistan by creating an application that may use kinetic energy generated by human actions for instance when walking or jogging and convert it to usable electrical energy that serve both our community and environment
Students:
1) Sara Bayan
2) Dyako Saman
3) Zmkan Rebwar
3) Intelligent Anti-Breach Correctional System (Smart Prison).
A smart prison utilizes cutting-edge technology to optimize security, efficiency, and rehabilitation in correctional facilities.
Through AI, IoT, and data analytics, smart prisons continuously monitor inmate behavior and streamline operations, minimizing manual oversight. Key systems include advanced surveillance, biometric identification, and sensor-based tracking, which enhance security while providing real-time insights into facility conditions. Additionally, these technologies enable personalized rehabilitation plans by assessing individual needs in education, mental health, and job training, which can reduce recidivism rates. This integrated approach promotes both operational efficiency and humane treatment, supporting inmates’ preparation for reintegration into society.
Students:
1) Tina Shaho Saeed
2) Diya Sherko Fayeq
3) Elaf Jalal Hameed
4) Fatima Jamal
4) Smart Garage.
A smart garage is an innovative system that utilizes advanced technology, including IoT tools like sensors, to enhance the efficiency, security, and convenience of traditional parking garages.
The primary goal is to reduce the time drivers spend searching for parking spaces and minimize congestion. Sensors embedded in each parking spot detect availability and send this information to a central system, which displays real-time updates on digital screens within the garage, allowing drivers to quickly locate open spots. Additionally, a mobile app enables drivers to reserve a parking space in advance, ensuring a spot is ready for them upon arrival. If another vehicle occupies a reserved space, the sensors trigger an alert until the car leaves the spot . By providing real-time updates and reservation options, smart garages streamline the parking process, optimize traffic flow, and improve overall convenience and security within parking areas.
Students:
1) Mazn Hoshyar
2) Ramyar Salam
3) Kaiwan Shadi
4) Milan Hardi Ibrahim
5) Strategies for detecting and preventing login access hacking (Brute Force attack).
This type of hack can be used on every device or system but here I will not all the information on how to hack and rather than a real weblogging page I am using tryhackme website which they provide me a vulnerable weblogging page. I am using kali Linux because it can be used as a hacking environment and in it.
I am using hydra which is a tools that been written in java script language so we can make our own tool if we want, basically hydra can work with more that 50 different types of protocol and it can do a brute force for us. By using rockyou text file with hydra the hacking can be done to find username and password. For preventing this type of attack I recommend using complicated password and add (symbol, more digit and letters from different language), or using honeypot and using more complicated network traffic and code lines and different login url.
Student:
1) Ara Hawre Ibrahim
6) Smart Robotic Arm System :Integrated Wireless Hand Gesture Controls with Automation Feature.
Students:
1) Zhir Salahadin
2) Harez Othman
3) Shaza Salahdin