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Title: Revolutionary Hologram Systems: Pioneering a New Frontier in Visual Technology
Authors: Rameez Ahmed, Kiran Hidayat, Shakil Ahmed, Raees Ahmed
Journal: International Journal of Innovations in Science & Technology
Publisher: 50SEA JOURNALS (SMC-PRIVATE) LIMITED
Country: Pakistan
Year: 2024
Volume: 6
Issue: 4
Language: English
Keywords: Holography2D images3D modelsFan projectorVirtual realityVisual Technology
New technologies are enabling the development of consolidated, portable holographic displays that can be utilized in a variety of settings, making holographic content more accessible and shareable. Holographic displays represent objects in three dimensions, providing a more pragmatic and immersive viewing experience. This is particularly important in sectors such as architecture, design, and medical imaging, where the representation of depth can aid in comprehension and decision-making. This study presents a revolutionary and efficient method for converting 2D images into immersive 3D holograms using Blender software and a holographic FP. The process begins with Blender, an open-source 3D creative software that transforms 2D photographs into dynamic 3D models to add depth and realism. These transformed images are then uploaded to a user-friendly mobile app, which acts as an intermediary for seamless transfer to a holographic display. The smartphone app offers an intuitive interface for image customization and management. This study contributes to the understanding and practical application of 3D holographic displays by addressing key challenges and outlining the development process, resulting in a versatile tool. These recent breakthroughs in holography are expanding its potential applications and enhancing user experiences, making holographic technology increasingly significant in industries such as healthcare, education, entertainment, and data visualization.
To investigate the fundamental principles of holography to recreate three-dimensional scenes from human and construction model holograms using a holographic fan, and to develop innovative human holographic displays that convert 2D images into 3D visuals for applications in product visualization and branding.
The study employs a methodology that involves converting 2D images into 3D models using Blender software, followed by transfer to a mobile application for customization and management. This content is then projected onto a holographic fan display. The process includes manual 2D to 3D conversion using Blender's Face Builder plugin for human models and a film-based conversion for construction models. A mobile app facilitates control over rotation, intensity, and playback.
graph TD;
A[Select 2D Images] --> B[Convert 2D to 3D Models using Blender];
B --> C[Mobile App Integration];
C --> D[Customize and Manage Content];
D --> E[Transfer to Holographic Fan];
E --> F[Project Hologram];
The developed approach for producing 3D holograms has broad implications across various industries by simplifying the process and increasing accessibility. The integration of a mobile app enhances usability and flexibility. Holograms offer engaging presentation methods for education and entertainment, and improve depth perception and decision-making in healthcare and architecture. Further research is needed for more complex visualizations and advanced mobile app features.
The study successfully demonstrated the transformation of 2D photographs into immersive 3D holograms using Blender and a holographic fan. A well-executed hair simulation using particle techniques and shader editor adjustments enhanced the realism of 3D face models. The optimized mobile application provided a user-friendly interface for image management and projection. The developed system can create holographic displays of construction models and human faces, offering a versatile tool for industries.
Holography represents the pinnacle of technology for rendering true 3D images, surpassing other display technologies. While challenges remain in computing photorealistic holograms in practical timeframes and developing high-resolution electronic devices, this study contributes to the advancement of portable holographic displays, offering a flexible tool for industries.
- The study was published in December 2024. (Confirmed by publication date on pages)
- The holographic fan used has a resolution of 512*512 pixels. (Confirmed by Table 1)
- The mobile app allows users to edit and modify holographic content without requiring technical expertise. (Confirmed in Results & Discussion)
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