GLOBAL COLLABORATION IN RESEARCH – WELCOMING ANOTHER POSTDOC FROM KING FAHD UNIVERSITY TO OUR SCIENTIFIC JOURNEY
Excited to share that my second postdoctoral staff application has been approved! Thrilled to be supervising exceptional talent from King Fahd University in Saudi Arabia, but he is originally from Cairo, Egypt. Looking forward to impactful collaboration and research advancements.
Bridging Academia and Industry and The Crucial Role of MoUs between Research Universities and International Industry Leaders
In the ever-evolving landscape of innovation and progress, the synergy between research universities and international industry players is increasingly becoming a catalyst for groundbreaking advancements. At the heart of this collaboration lies the Memorandum of Understanding (MoU), a powerful tool that shapes the future of research, technology, and industry. Let’s explore why forging MoUs between research universities and main international industry players is of paramount importance.
1. Knowledge Transfer and Innovation Hub:
Research universities are hubs of knowledge and innovation. Partnering with international industry players through an MoU creates a two-way street for the exchange of ideas, cutting-edge research, and technological breakthroughs. This collaboration fosters an environment where academia and industry can coalesce, driving innovation to new heights.
2. Real-world Application of Research:
The synergy between academia and industry is where theoretical knowledge meets real-world application. An MoU facilitates the seamless integration of academic research into practical industry solutions. This bridge ensures that groundbreaking discoveries in university labs find their way into products, services, and technologies that impact society positively.
3. Access to Funding and Resources:
International industry players bring not only expertise but also substantial resources to the partnership. Through MoUs, research universities gain access to funding, state-of-the-art laboratories, and industry-specific resources. This infusion of support empowers researchers to pursue ambitious projects and push the boundaries of what’s possible.
4. Talent Development and Collaboration:
Collaboration with industry leaders opens up avenues for talent development. Students and researchers benefit from exposure to real-world challenges, industry practices, and mentorship from professionals. This dynamic interaction nurtures a skilled workforce ready to tackle the complexities of today’s global challenges.
5. Global Relevance and Impact:
An MoU with an international industry player elevates the global relevance of a research university. Collaborative projects extend the reach of research findings, enhancing the university’s impact on a global scale. This global footprint not only attracts top-tier talent but also positions the institution as a key player in shaping the future.
6. Commercialization Opportunities:
The collaboration facilitated by MoUs often leads to commercialization opportunities. Transformative research outcomes can find their way into the market, creating a pathway for industry partners to capitalize on innovative solutions. This symbiotic relationship strengthens the bond between academia and industry for mutual benefit.
7. Solving Grand Challenges:
Grand challenges facing society, from climate change to healthcare, require interdisciplinary solutions. MoUs enable research universities and industry leaders to pool their collective expertise and resources to tackle these challenges head-on. The result is a collaborative effort that transcends boundaries and addresses critical global issues.
The importance of forging MoUs between research universities and main international industry players cannot be overstated. It’s a strategic alignment that propels both entities toward shared goals of innovation, knowledge dissemination, and societal impact. As we navigate a future defined by technological advancements and global challenges, these partnerships forged through MoUs will be instrumental in shaping a world where academia and industry stand united on the forefront of progress.
UNVEILING CRITICAL SUCCESS FACTORS IN PUBLIC HEALTHCARE FACILITIES MANAGEMENT – A VIVA VOCE SYMPHONY WITH FIRDAUS FHAMIZI OMAR
On the date of January 22, 2024, I had the distinct honor of presiding over the viva voce session for Firdaus Fhamizi Omar, a student immersed in the depths of the Real Estate master’s program. What captured my intellectual curiosity was his captivating research endeavor, centered around unraveling the Critical Success Factors for Facilities Management in the intricate realm of Public Healthcare in Malaysia.
As the mastermind behind this compelling exploration, Firdaus embarked on a journey to decipher the intricate elements that determine success in the realm of Facilities Management within the public healthcare domain. The implications of his findings stretch far beyond the borders of a mere academic exercise, delving into the practical intricacies that define excellence in the Malaysian healthcare landscape.
The viva voce session unfolded like a symphony of intellect and insight. Engaging in a spirited exchange of ideas, Firdaus demonstrated a profound understanding of his subject matter. The air was charged with intellectual fervor as we dissected and explored the nuances of his research, paving the way for a deepened understanding of the critical underpinnings of Facilities Management in the healthcare sector.
What made this session truly remarkable was not just the successful navigation of academic rigor but the profound learning it afforded me as a chair. Through Firdaus’s meticulous presentation and responses, I found myself acquiring fresh perspectives, delving into uncharted territories of thought, and expanding the horizons of my own intellectual landscape.
In essence, this viva voce session transcended the boundaries of a mere academic ritual—it was a symposium of knowledge, an exchange of insights, and a celebration of the intellectual journey embarked upon by a diligent scholar. Firdaus Fhamizi Omar’s research not only contributed to the Real Estate master’s program but also left an indelible mark on the broader discourse surrounding Facilities Management in Malaysian Public Healthcare.
The session was not just a milestone in Firdaus’s academic journey but a testament to the transformative power of research and the limitless potential it holds to reshape our understanding of critical aspects in the dynamic tapestry of real estate and healthcare management.
Thrilled to announce our upcoming conference on ‘Geographic Perspectives on Climate Change Mitigation in Urban and Rural Environments’ in collaboration with the Università del Salento (University of Salento), Italy.
Date: June 25-27, 2024
Proud to serve as a member of the International Reviewer Committee. I encourage you to contribute your insights! Check out the Call for Papers here: https://www.ierek.com/events/geographic-perspectives-on-climate-change-mitigation-in-urban-and-rural-environments-#reviewers
SOUNDSCAPES UNVEILED: ADVANCEMENTS IN 3D CITY MODELLING FOR 3D TRAFFIC NOISE VISUALIZATION
Excited to share our latest publication in the Geomatics and Environmental Engineering journal: “Calculation of Road Traffic Noise, Development of Data, and Spatial Interpolations for Traffic Noise Visualization in Three-dimensional Space.”
Our study delves into the essentials of 3D traffic noise visualization, emphasizing the critical role of noise observation points (NOPs) and advancements in spatial interpolations. Explore how TIN noise contours prove optimal for visualizing traffic noise levels, and how advanced kriging, such as empirical Bayesian kriging (EBK), provides a significant leap in 3D noise interpolation accuracy.
Check out the full paper for insights into refining noise visualization techniques! #TrafficNoise #SpatialInterpolations #Geomatics #EnvironmentalEngineering #ResearchInsights
Link to the full paper: https://www.gaee.agh.edu.pl/gaee/article/view/523/150
BOUNDLESS COMMITMENT: A STUDENT’S DRIVE IN SPATIAL ALGORITHM AND APPLICATIONS
Thrilled to share a heartening experience with my international exchange student at UTM! She specifically chose my Spatial Algorithm and Applications course, and during the test, I was amazed to see her dedication. Not only did she buy my digital book, but she also went the extra mile—printing, binding a physical copy, and even translating it into Chinese. Truly inspired by her commitment to learning!
BREAKING BOUNDARIES: A DEEP DIVE INTO 3D CITY MODELLING TOPOLOGY RULES IN GIS APPLICATIONS
Thrilled to share insights from our groundbreaking research: “Topology Models and Rules: A 3D Spatial Database Approach”. Our study delves into the intricate world of topological information, crucial for complex spatial analysis, particularly in describing the containment, adjacency, and connectivity of objects within a 3D space.
Traditionally, spatial databases have leaned on 2D topology mechanisms, often falling short in handling the intricacies of 3D topology functions. Our experiments, conducted within ArcGIS and Oracle spatial database, unveil the limitations of existing topology rules and models. Notably, while 2D geodatabase topology rules in ArcGIS effectively determine relationships between 2D multi-surfaces, they struggle with 3D objects.
Enter the 36-Intersection Model (36IM), the hero of our study. This innovative model, describing intersections from 0D to 3D, introduces a paradigm shift in handling topological relationships within Oracle. Our experiments showcase how 36IM topology rules bridge the gap, providing insights into dimensions of intersections and supporting the maintenance of topological information without breaking down 3D objects.
Curious to dive deeper into the world of 3D GIS, spatial databases, and the nuances of topology models? Explore our full paper for a comprehensive understanding of how 3D topology rules reshape the landscape of spatial data management. Elevate your knowledge and stay ahead in the evolving realm of GIS and 3D spatial databases!
SPATIAL SYMPHONY: 3D CITY MODELLING OF TRAFIC NOISE DECIBELS WITH HENK DE KLUJIJVER MODEL
Exciting news! Our recent publication in the prestigious Q1 journal “Noise Mapping” explores the intricacies of visualizing road traffic noise using the Henk de Klujijver model.
Delving into the challenges of 3D noise contours, we emphasize the critical role of noise observation points (Nops) within a 3D building model. Our study reveals that Triangular Irregular Network (TIN) interpolation outshines others, offering superior accuracy in 3D noise contour visualization.
Dive into the full paper to uncover insights that contribute to refining traffic noise planning policies and spatial interpolation techniques! #TrafficNoise #SpatialVisualization #NoiseMapping #ResearchDiscoveries