geruganti, s., & orcid:0009-0000-0039-. (2025). *'Comparative Analysis of 3D Plotting Techniques for Multidimensional Data in Scientific Computing: Performance Metrics, Human Perception, and Cross-Domain Applications'* ; Alternative Titles: 1. 'From Static to Interactive: Evaluating 3D Visualization Tools for Scientific Data in Python' 2. 'Seeing Beyond the Plane: A Systematic Study of 3D Data Representation in Computational Research' 3. 'Benchmarking 3D Plotting Libraries: A Multidisciplinary Perspective on Matplotlib, Plotly, and PyVista' 4. 'The Art of Multidimensional Storytelling: How 3D Visualization Techniques Impact Scientific Insight' ; Subtitles: • *'Quantifying the Trade-offs: Speed vs. Interactivity in 3D Scientific Visualization'* • 'Color, Depth, and Cognition: Designing Effective 3D Plots for Human Interpretation' • *'From Physics to Genomics: Domain-Specific Best Practices for 3D Data Representation'* • 'Beyond the Benchmark: How Tool Selection Influences Research Outcomes in Computational Science'. https://doi.org/10.5281/zenodo.16760411

geruganti, sudhakar, a orcid:0009-0000-0039-. *'Comparative Analysis of 3D Plotting Techniques for Multidimensional Data in Scientific Computing: Performance Metrics, Human Perception, and Cross-Domain Applications'* ; Alternative Titles: 1. 'From Static to Interactive: Evaluating 3D Visualization Tools for Scientific Data in Python' 2. 'Seeing Beyond the Plane: A Systematic Study of 3D Data Representation in Computational Research' 3. 'Benchmarking 3D Plotting Libraries: A Multidisciplinary Perspective on Matplotlib, Plotly, and PyVista' 4. 'The Art of Multidimensional Storytelling: How 3D Visualization Techniques Impact Scientific Insight' ; Subtitles: • *'Quantifying the Trade-offs: Speed Vs. Interactivity in 3D Scientific Visualization'* • 'Color, Depth, and Cognition: Designing Effective 3D Plots for Human Interpretation' • *'From Physics to Genomics: Domain-Specific Best Practices for 3D Data Representation'* • 'Beyond the Benchmark: How Tool Selection Influences Research Outcomes in Computational Science'. 2025. https://doi.org/10.5281/zenodo.16760411.

geruganti, sudhakar, a orcid:0009-0000-0039-. *'Comparative Analysis of 3D Plotting Techniques for Multidimensional Data in Scientific Computing: Performance Metrics, Human Perception, and Cross-Domain Applications'* ; Alternative Titles: 1. 'From Static to Interactive: Evaluating 3D Visualization Tools for Scientific Data in Python' 2. 'Seeing Beyond the Plane: A Systematic Study of 3D Data Representation in Computational Research' 3. 'Benchmarking 3D Plotting Libraries: A Multidisciplinary Perspective on Matplotlib, Plotly, and PyVista' 4. 'The Art of Multidimensional Storytelling: How 3D Visualization Techniques Impact Scientific Insight' ; Subtitles: • *'Quantifying the Trade-offs: Speed Vs. Interactivity in 3D Scientific Visualization'* • 'Color, Depth, and Cognition: Designing Effective 3D Plots for Human Interpretation' • *'From Physics to Genomics: Domain-Specific Best Practices for 3D Data Representation'* • 'Beyond the Benchmark: How Tool Selection Influences Research Outcomes in Computational Science'. 2025. https://doi.org/10.5281/zenodo.16760411.