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Al-Mustaqbal Center for Artificial Intelligence Applications

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23 January 2025

Professor Dr. Nidhal Khdhair Al-Abbadi Chairs Master s Thesis Defense on Detecting Fake Comments Using AI"

Prof. Dr. Nidhal Khdhair Al-Abbadi, Director of Al-Mustaqbal Center for Artificial Intelligence Applications, chaired on Thursday, January 23rd, the master s thesis defense committee at the College of Women’s Science, University of Babylon. The master s thesis focused on a distinguished topic concerning the detection of fake comments on social media platforms. Advanced AI techniques for analyzing and verifying the authenticity of comments were discussed. This step comes as part of academic efforts to develop smart applications that contribute to combating misinformation and enhancing trust in social platforms.

20 January 2025

Scientific article by Engineer Mohammed Saad Abis

"Smart Industry: The Role of Artificial Intelligence, IoT, and Embedded Systems in Digital Transformation" Introduction: Smart Industry is at the forefront of the Fourth Industrial Revolution, driven by advanced technologies like Artificial Intelligence (AI), the Internet of Things (IoT), and Embedded Systems. These technologies are transforming traditional factories into intelligent environments where real-time data improves productivity, reduces costs, and enhances operational efficiency. In this article, we explore how AI, IoT, and embedded systems are revolutionizing the industrial sector through innovative applications. Artificial Intelligence: The Heart of Smart Industry AI has become a game-changer in the industrial domain. Using machine learning and deep learning algorithms, AI analyzes data generated by IoT devices to optimize industrial systems. For instance, AI plays a critical role in predictive maintenance by forecasting equipment failures before they occur, reducing unplanned downtimes and enabling proactive repairs. For example, predictive maintenance collects data from embedded sensors in machinery, such as motors or heavy equipment. AI then analyzes this data to detect patterns indicating potential failures. This minimizes emergency repair costs and maximizes the efficiency of machinery. Internet of Things: Enabling Real-Time Connectivity IoT devices are key to gathering real-time data in industrial settings. These devices include smart sensors that measure temperature, humidity, vibration, and pressure, as well as control systems in production lines. IoT enables seamless data flow to central systems or cloud platforms, enhancing decision-making processes. For instance, in smart factories, IoT devices monitor production quality, track inventory movements, and adjust production lines in real time based on live data. These systems empower companies to gain precise insights into daily operations and improve decision-making efficiency. Embedded Systems: The Foundation of Industrial Innovation Embedded systems like Arduino and Raspberry Pi are cost-effective and flexible tools for smart manufacturing environments. These systems facilitate sensor integration and real-time monitoring of processes. Embedded systems also enable local data analysis and device control, contributing to greater automation and productivity. For example, a factory using Arduino or Raspberry Pi can monitor motor temperatures or pressure levels in production lines. When abnormal changes are detected, the embedded system sends automatic alerts to technicians for inspection or adjustments. Innovative Industrial Applications: Supply Chain Management: IoT integration in supply chains enhances real-time tracking of products and raw materials. Sensors monitor conditions like temperature and humidity during transportation to ensure product quality. AI analyzes this data to optimize delivery schedules, reducing logistical costs. Smart Industrial Robots: AI-powered robots, combined with IoT, are transforming industrial operations. These robots can monitor equipment, transport materials, and assemble products faster and more accurately than humans. They continuously learn from experience to improve their performance over time. Energy Monitoring and Efficiency: IoT devices combined with AI allow factories to monitor energy consumption in real time. Energy sensors provide data on inefficient usage patterns, enabling companies to implement energy-saving strategies and achieve environmental goals. Challenges Facing Smart Industry: Despite its numerous benefits, integrating AI, IoT, and embedded systems into the industrial sector comes with challenges, including: Mohammed Saad, [1/28/2025 1:30 PM] High Initial Costs: Although these technologies offer long-term savings, implementation costs can be significant for small and medium-sized enterprises. Data Security: With the increasing number of connected devices, protecting sensitive data from cyberattacks and breaches is critical. Reliability and Dependability: In highly automated environments, embedded systems and AI need to operate flawlessly to ensure uninterrupted workflows and prevent unexpected failures. Conclusion: The integration of AI, IoT, and embedded systems marks a significant step toward achieving smart industry. Together, these technologies enhance productivity, reduce costs, and improve operational efficiency. While challenges such as cybersecurity and implementation costs remain, the potential benefits offer a unique opportunity to transform the industrial sector, making it smarter and more sustainable in the future.

19 January 2025

Al-Mustaqbal Center for AI Applications Develops Smart Medical Robot for Patient Oxygen Monitoring

The Al-Mustaqbal Center for AI Applications at Al-Mustaqbal University has developed a smart medical robot arm capable of monitoring a patient’s face and automatically applying an oxygen mask when blood oxygen levels drop. This innovation, designed by Engineer Mohammed Saad Abais, focuses on improving healthcare by providing an immediate response to emergency situations. The robot intelligently monitors patients and administers oxygen at the right moment, making it a vital tool in hospitals and emergency rooms. This project aligns with the Sustainable Development Goals (SDGs), particularly Goal 3: Good Health and Well-being and Goal 9: Industry, Innovation, and Infrastructure, enhancing healthcare efficiency and offering smart solutions for critical care management.

19 January 2025

Scientific article by programmer Sarah Sadoon Abbas

Virtual Reality and Augmented Reality: Current and Future Applications Introduction Virtual Reality (VR) and Augmented Reality (AR) are among the most promising technologies to emerge in recent years. While VR provides a fully immersive experience in a digitally created environment, AR overlays digital elements onto the real world. In this article, we explore the current applications of these technologies and their future potential in various fields. Current Applications of Virtual Reality and Augmented Reality 1. Education and Training: VR and AR have become powerful tools in education and professional training. VR is used to create realistic simulation environments, allowing students to interact with complex scenarios without being in a physical location. For instance, pilots and surgeons train using VR simulations to develop their skills in a safe, controlled environment. 2. Marketing and E-Commerce: In e-commerce, AR allows users to virtually try products before purchasing. Customers can see how furniture looks in their homes or try on clothes without visiting a store. This technology enhances the shopping experience and increases customer satisfaction. 3. Entertainment and Gaming: The entertainment and gaming industry is witnessing tremendous growth thanks to VR and AR. Games like "Pokemon Go" (AR) and "Half-Life: Alyx" (VR) offer immersive gaming experiences, allowing players to fully engage in virtual worlds like never before. 4. Healthcare: VR and AR technologies are being used in medical training and psychological therapy. Surgeons and trainees can perform complex virtual surgeries, while VR is used to treat patients with anxiety disorders and phobias through exposure therapy in a safe, virtual setting. The Future of Virtual Reality and Augmented Reality As VR and AR technologies continue to evolve, there are many predictions about how they will impact new fields. Some future applications include: 1. Remote Collaboration and Virtual Workspaces: As remote work becomes more common, VR and AR technologies can help create interactive virtual spaces where remote teams can collaborate as if they were in the same room. These virtual environments will enable meetings and brainstorming in a more dynamic and productive way. 2. Virtual Tourism: Virtual reality will allow people to experience travel to distant places without leaving their homes. Virtual tourism could become an alternative to physical travel, allowing individuals to explore cities and tourist attractions in an immersive 3D environment. 3. Art Exhibitions and Museums: AR can be used in exhibitions and museums to display art interactively, allowing viewers to gain a deeper understanding of the artwork by overlaying additional information and virtual details. Conclusion Virtual and augmented reality technologies are not just entertainment tools; they are increasingly contributing to advancements in education, healthcare, and work. As these technologies continue to evolve, their applications will expand into more sectors, opening new possibilities for human interactive experiences.

19 January 2025

Al-Mustaqbal Center for AI Applications Develops Innovative Smart Trash Bin System with Motion Sensors

As part of Al-Mustaqbal Center for AI Applications's efforts to achieve the Sustainable Development Goals (SDGs), an innovative smart trash bin system utilizing motion sensors has been developed. Designed by Engineer Mohammed Saad Abais, the system automatically opens when a person approaches, providing a more hygienic and practical experience. This system reduces the need for manual touch, making it ideal for homes and offices, and helps minimize the spread of germs and contaminants. This innovation aligns with the SDG Goal 3: Good Health and Well-being, and SDG Goal 9: Industry, Innovation, and Infrastructure. By leveraging smart technology, the center aims to deliver practical and sustainable solutions that enhance life quality and promote public health.

14 January 2025

Al-Mustaqbal Center for AI Applications Develops Smart Safety Device for Gas Leak Detection

The Al-Mustaqbal Center for AI Applications at Al-Mustaqbal University has developed a smart safety device designed to quickly detect gas leaks and emit an audible alert to warn residents. This device, designed by Engineer Mohammed Saad Abais, aims to provide protection and prevent serious accidents caused by gas leaks in homes, kitchens, and public facilities. The device operates automatically, offering an innovative technological solution to ensure the safety of individuals by providing a rapid response to any potential gas leaks. This innovation aligns with the Sustainable Development Goals (SDGs), particularly Goal 3: Good Health and Well-being and Goal 9: Industry, Innovation, and Infrastructure, contributing to enhanced safety and security through smart technology.

14 January 2025

A Representative from the Martyrs Foundation, Babylon Branch, Visits Al-Mustaqbal Center for AI Applications at Al-Mustaqbal University to Discuss Collaboration

Prof. Dr. Nidhal Khdhair Al-Abbadi, Director of Al-Mustaqbal Center for AI Applications at Al-Mustaqbal University, welcomed a representative from the Martyrs Foundation, Babylon Branch. During the visit, they discussed various topics aimed at fostering collaboration between the two institutions. The discussions focused on organizing specialized scientific workshops to support the families of martyrs and enable them to benefit from advancements in artificial intelligence. This visit highlights the center’s commitment to enhancing cooperation with national institutions and providing valuable scientific services to the community.

13 January 2025

Visit of Dr. Feryal Ibrahim from the Faculty of Science to Al-Mustaqbal Center for Artificial Intelligence Applications to Discuss Collaboration

Prof. Dr. Nidhal Khdhair Al-Abbadi, Director of Al-Mustaqbal Center for Artificial Intelligence Applications at Al-Mustaqbal University, welcomed Dr. Feryal Ibrahim from the Faculty of Science. The visit aimed at discussing mutual collaboration between the faculty and the center to harness AI technologies in educational and research projects. The discussions focused on strengthening the partnership through AI programs and applications provided by the center to support innovation and scientific research.