Technical Foundations

Our Deep Technical Foundations: From High-Performance Computing to Your Pocket

Extensive background forms the bedrock of every mobile application. It ensures that innovative concepts are built upon a foundation of unparalleled stability, efficiency, and precision, ready for the demands of modern digital experiences.

Leveraging Decades of Applied Computer Science and C++ Mastery for Robust iOS & Android App Development.

The mobile applications crafted by eBolp Labs are distinguished by a profound technical rigor, rooted in extensive high-performance computing and scientific research. At its helm is Dr. Danko Milasinovic, its founder, a figure who seamlessly bridges the worlds of cutting-edge scientific research and practical software development. Far from the typical app developer, Danko brings two decades of robust C++ development experience and the esteemed title of Full Professor of Applied Computer Science at the University of Kragujevac to the burgeoning field of lifestyle mobile applications.

It's a journey that began in the intricate realms of finite element modeling and high-performance computing. Before crafting the intuitive apps designed for your smartphone, Danko was immersed in complex challenges, contributing significantly to software development for medical diagnostics and intricate simulations. His work at the R&D Center for Bioengineering - BioIRC and the Serbian Academy of Science and Arts forged a meticulous approach to problem-solving, performance optimization, and the creation of rock-solid architectural designs – principles that now directly benefit every eBolp Labs project.

The Power of Precision: A Look at dfemtoolz

As a prime example of Danko's development prowess, consider dfemtoolz, an open-source C++ framework he developed. This robust package enables highly efficient: (1) discretization of a triangular surface mesh into volumetric tetrahedral elements; (2) splitting of prism or tetrahedral meshes into hexahedral meshes; and (3) application of boundary conditions for modeling various physical phenomena, such as fluid flow, structural analysis, heat transfer, and mass transport.

The novelty of dfemtoolz lies in its ability to avoid computationally expensive merging by performing a more efficient search of neighboring nodes, and its highly efficient manipulation of nodes’ boundary conditions in a bitwise manner. Initially proposed and validated for biomedical simulations, this framework showcases Danko's capability in building complex, high-performance, and mathematically precise software systems.

You can explore dfemtoolz on GitHub:
https://github.com/dmilashinovic/dfemtoolz

The research paper detailing dfemtoolz is available on ScienceDirect:
https://www.sciencedirect.com/science/article/abs/pii/S0010465519303376

Another Look at Applied Innovation: Virtual ABI

Further demonstrating Danko's commitment to bridging advanced computation with real-world medical challenges is the Virtual ABI project. This groundbreaking work developed a computational procedure to help clinicians better predict the outcome of femoro-popliteal bypass surgeries for Peripheral Arterial Disease (PAD).

By utilizing patient-specific finite element modeling of blood flow based on medical scans, the Virtual ABI provides a noninvasive way to assess how different surgical strategies might perform. This allows surgeons to optimize bypass length, diameter, and position, significantly improving the ability to predict patient-specific outcomes and potentially reducing complications. The high correlation (R^2 = 0.9485) with experimentally measured values underscores the reliability and practical utility of this computational tool.

Read more about Virtual ABI on ScienceDirect:
https://www.sciencedirect.com/science/article/abs/pii/S0169260721003163

A Research-Driven Approach

As a Full Professor, Danko's ongoing engagement in academic research and education ensures that eBolp Labs isn't just keeping pace with technology—it's often leading the way. His published works in top-tier scientific journals, such as the dfemtoolz paper mentioned above, are evidence of his dedication to rigorous analysis and innovative solutions. These aren't just academic exercises; they are real-world applications of computer science that showcase an ability to tackle challenges at the highest level.

From designing intricate algorithms for computational mechanics to building robust server systems, the diverse background of eBolp Labs' founder means that every mobile app developed is infused with a level of technical integrity that stands out. It's the precision of scientific research, packaged into the simplicity of an everyday app. For a comprehensive overview of Danko's research and academic contributions, please visit his LinkedIn page: www.linkedin.com/in/dmilashinovic.