IEEE Funds Surge: EPICS Projects Hit Record High | [Year] Update

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Breathing Easier: How​ Students in North Macedonia are Tackling Air Pollution with ‌Innovative Tech

Air pollution is a global health crisis, often invisible and insidious. The World Health‍ Association (WHO) warns that particulate matter⁤ in the air can cause ⁢serious health problems, frequently enough without any immediate⁤ warning ⁣- earning it the chilling moniker of “silent ⁣killer.” Now, a team of bright engineering students in North Macedonia is taking direct​ action, leveraging technology to empower their community with ‍vital information ⁣and protect⁣ vulnerable populations.

The Challenge: Invisible Threats & Vulnerable Populations

cities worldwide grapple with air quality issues.But understanding the extent ​ of the problem, and making that​ information⁤ accessible to those ​most at ⁢risk, is a critically important hurdle. Children are particularly vulnerable, as ⁤their lungs and immune systems are still⁢ developing. Exposure to⁣ pollutants can have long-lasting consequences, ⁢impacting their health and well-being.

What We Breathe: A Student-Led Solution

Recognizing this critical⁢ need, students at Sts. Cyril ‌and Methodius⁤ University in Skopje​ launched “What We Breathe,” an innovative⁤ project designed to‍ measure and publicize local‌ air pollution levels in real-time. ‍this isn’t just an academic exercise; it’s a practical, community-focused initiative with the​ potential to improve⁢ public health.

The project, affiliated with IEEE’s‍ EPICS⁢ (Engineering Projects In Community Service)⁢ program, ​focuses on raising⁢ awareness ‍and driving positive change. Here’s how it works:

* Real-time Monitoring: Custom-built sensing units detect particulate matter, temperature, and ⁣humidity.
*‍ Data Transmission: Data is transmitted via Wi-Fi to a public server every five⁣ minutes.
* Public Accessibility: A display⁣ unit retrieves and presents the data, making⁣ it readily⁢ available to the public.
* Targeted Focus: Initial deployment prioritizes schools, protecting the ​most vulnerable demographic.

From Concept to Reality: The​ Engineering Behind the Project

The “What We Breathe” project wasn’t simply about building a sensor. It was ‌a comprehensive engineering experience ‍for the ten participating students. Led by​ electronics ​professor Josif Kjosev, the team navigated‌ the entire project lifecycle, gaining invaluable skills in:

* Budget​ planning and resource ⁣management
* ‍ Team coordination⁣ and‌ collaboration
* ⁤ Troubleshooting and problem-solving
* Delivering tangible, real-world results

“Our goal is to provide peopel with ​information on current pollution‌ levels so they can make informed⁣ decisions⁣ regarding‍ their exposure and take protective measures,” explains Andrej⁤ Ilievski, an IEEE student member and computer hardware engineering student. “We chose to ‍focus on schools first as children’s lungs and immune systems are still developing, making them one ⁢of our population’s most vulnerable demographics.”

Rafael Gustavo Ramos Noriega, a team ‍member, highlights the practical impact:⁤ “By leading everything from budget planning to the final installation, I have experienced firsthand ⁤all⁤ the stages‍ of a real engineering project…delivering tangible results.”

The Power of Partnerships: IEEE EPICS & Society⁤ Support

The success‍ of “What We Breathe” is a testament to​ the power of collaboration. The project received ⁣$8,645 in funding from the IEEE⁤ Industry Consortium (IMS). More importantly, it benefited from the support of the IEEE EPICS program and partnerships with IEEE societies.

These partnerships ​provide:

* Mentorship: Guidance from experienced professionals within relevant IEEE societies.
* Funding Opportunities: Access ‌to grants and financial support⁤ for‌ projects.
* Networking: Opportunities ‍to connect ​with peers and experts‌ at conferences.
* ​ Real-World ⁢Submission: A platform to apply theoretical knowledge ​to pressing⁢ societal challenges.

This ⁤collaborative approach not only enhances the student experience but also fosters⁣ a deeper engagement with the IEEE and its mission. It motivates students to apply their skills ⁢to real-world problems, strengthening ‌their‌ communities and building a pipeline of future engineering leaders.

Looking Ahead: Scaling Impact and Empowering Communities

The initial deployment of “What We⁣ Breathe” has been met‌ with enthusiasm⁣ from students and‌ educators alike. The team is already‍ planning future iterations