Over-represented words in the 1 kb upstream promoter regions were identified using the Element algorithm [41]. by Aakash Chawade (189467)

Shape minimisation problems in liquid crystals by Andrew DeBenedictis (2898083)

“…We develop a finite element algorithm to solve such problems with dynamic mesh control, achieved by supplementing the free energy with an auxiliary functional that promotes mesh quality and is minimised in the null space of the energy. …”

B Cells and Ectopic Follicular Structures: Novel Players in Anti-Tumor Programming with Prognostic Power for Patients with Metastatic Colorectal Cancer by Anastasia Meshcheryakova (573898)

“…Given the multifaceted roles of B-cell-driven responses, we aimed to elucidate the immunological imprint of B lymphocytes at the metastatic site, the interrelation with macrophages, and their prognostic relevance. Here we present novel algorithm allowing to assess a link between the local patient-specific immunological capacity and clinical outcome. …”

datasheet1_Low-Frequency Elastic Properties of a Polymineralic Carbonate: Laboratory Measurement and Digital Rock Physics.docx by Ken Ikeda (814130)

“…Finally, the elastic property arrays from the sub-images are combined and fed into a finite element algorithm to compute the effective elastic properties of the sample. …”

datasheet1_Low-Frequency Elastic Properties of a Polymineralic Carbonate: Laboratory Measurement and Digital Rock Physics.docx by Ken Ikeda (814130)

“…Finally, the elastic property arrays from the sub-images are combined and fed into a finite element algorithm to compute the effective elastic properties of the sample. …”

Data Sheet 1_Calculating 3D rugosity maps for complex habitat scans.pdf by Kindrat Beregovyi (20762342)

“…However, many existing methods for calculating structural complexity of these models use 2.5D techniques that fail to capture the details of truly 3D models with overlapping features. This paper presents novel algorithms that extend traditional rugosity metrics to generate multi-scale rugosity maps for complex 3D models. …”

Data Sheet 2_Calculating 3D rugosity maps for complex habitat scans.zip by Kindrat Beregovyi (20762342)

“…However, many existing methods for calculating structural complexity of these models use 2.5D techniques that fail to capture the details of truly 3D models with overlapping features. This paper presents novel algorithms that extend traditional rugosity metrics to generate multi-scale rugosity maps for complex 3D models. …”

Data Sheet 6_Calculating 3D rugosity maps for complex habitat scans.pdf by Kindrat Beregovyi (20762342)

“…However, many existing methods for calculating structural complexity of these models use 2.5D techniques that fail to capture the details of truly 3D models with overlapping features. This paper presents novel algorithms that extend traditional rugosity metrics to generate multi-scale rugosity maps for complex 3D models. …”

Data Sheet 4_Calculating 3D rugosity maps for complex habitat scans.pdf by Kindrat Beregovyi (20762342)

“…However, many existing methods for calculating structural complexity of these models use 2.5D techniques that fail to capture the details of truly 3D models with overlapping features. This paper presents novel algorithms that extend traditional rugosity metrics to generate multi-scale rugosity maps for complex 3D models. …”

Video 1_Calculating 3D rugosity maps for complex habitat scans.mp4 by Kindrat Beregovyi (20762342)

“…However, many existing methods for calculating structural complexity of these models use 2.5D techniques that fail to capture the details of truly 3D models with overlapping features. This paper presents novel algorithms that extend traditional rugosity metrics to generate multi-scale rugosity maps for complex 3D models. …”

Data Sheet 5_Calculating 3D rugosity maps for complex habitat scans.pdf by Kindrat Beregovyi (20762342)

“…However, many existing methods for calculating structural complexity of these models use 2.5D techniques that fail to capture the details of truly 3D models with overlapping features. This paper presents novel algorithms that extend traditional rugosity metrics to generate multi-scale rugosity maps for complex 3D models. …”

Data Sheet 3_Calculating 3D rugosity maps for complex habitat scans.pdf by Kindrat Beregovyi (20762342)

“…However, many existing methods for calculating structural complexity of these models use 2.5D techniques that fail to capture the details of truly 3D models with overlapping features. This paper presents novel algorithms that extend traditional rugosity metrics to generate multi-scale rugosity maps for complex 3D models. …”

SHF: Small: Collaborative Research: Transform-to-perform:languages, algorithms, and solvers for nonlocal operators by Andreas Kloeckner (8396844)

“…An extended compiler will generate performant code combining FMM with effective finite element algorithms.</p>…”

Simulation parameter settings. by Yuhui Feng (9201271)

“…To demonstrate the effectiveness of this method, we use high-voltage dry-type bushings as a case study, comparing the performance of our approach with traditional finite element algorithms. We verify the algorithm’s computational efficiency and apply it to the analysis of typical temperature anomalies in bushings, further illustrating its suitability for electrical equipment condition assessment.…”

Specifications of the employed computer. by Yuhui Feng (9201271)

“…To demonstrate the effectiveness of this method, we use high-voltage dry-type bushings as a case study, comparing the performance of our approach with traditional finite element algorithms. We verify the algorithm’s computational efficiency and apply it to the analysis of typical temperature anomalies in bushings, further illustrating its suitability for electrical equipment condition assessment.…”

Temperature on characteristic lines. by Yuhui Feng (9201271)

“…To demonstrate the effectiveness of this method, we use high-voltage dry-type bushings as a case study, comparing the performance of our approach with traditional finite element algorithms. We verify the algorithm’s computational efficiency and apply it to the analysis of typical temperature anomalies in bushings, further illustrating its suitability for electrical equipment condition assessment.…”

Typical fault locations of contact resistance. by Yuhui Feng (9201271)

“…To demonstrate the effectiveness of this method, we use high-voltage dry-type bushings as a case study, comparing the performance of our approach with traditional finite element algorithms. We verify the algorithm’s computational efficiency and apply it to the analysis of typical temperature anomalies in bushings, further illustrating its suitability for electrical equipment condition assessment.…”

Grid division example. by Yuhui Feng (9201271)

“…To demonstrate the effectiveness of this method, we use high-voltage dry-type bushings as a case study, comparing the performance of our approach with traditional finite element algorithms. We verify the algorithm’s computational efficiency and apply it to the analysis of typical temperature anomalies in bushings, further illustrating its suitability for electrical equipment condition assessment.…”

Schematic diagram of mesh element mapping. by Yuhui Feng (9201271)

“…To demonstrate the effectiveness of this method, we use high-voltage dry-type bushings as a case study, comparing the performance of our approach with traditional finite element algorithms. We verify the algorithm’s computational efficiency and apply it to the analysis of typical temperature anomalies in bushings, further illustrating its suitability for electrical equipment condition assessment.…”

Sampling location. by Yuhui Feng (9201271)

“…To demonstrate the effectiveness of this method, we use high-voltage dry-type bushings as a case study, comparing the performance of our approach with traditional finite element algorithms. We verify the algorithm’s computational efficiency and apply it to the analysis of typical temperature anomalies in bushings, further illustrating its suitability for electrical equipment condition assessment.…”