@ravikiran2020 @priya100raman
Lab/Experiment(s) Hosting Request
Lab Name - Virtual Reality Lab II :
| No.| Experiment Name | Experiment repository URL | Branch/Tag |
| 1.| An introduction to the VR system framework and development tools - https://github.com/virtual-labs/exp-introduction-to-the-vr-system-framework-and-development-tools-iitk | Main Branch | v1.0.0
| 2.| Basic concept, principles and multidisciplinary features of virtual reality - https://github.com/virtual-labs/exp-basic-concept-principles-and-multidisciplinary-features-of-virtual-reality-iitk | Main Branch | v1.0.0
| 3.| Understanding of microscope and its types using VR - https://github.com/virtual-labs/exp-microscope-and-its-types-using-vr-iitk | Main Branch | v1.0.0
| 4.| Representation of components of Optical microscope and working principle using VR - https://github.com/virtual-labs/exp-components-of-optical-microscope-and-working-principle-using-vr-iitk | Main Branch | v1.0.0
| 5.| Characterization of material (metal, ceramics) using optical microscope - https://github.com/virtual-labs/exp-characterization-of-material-using-optical-microscope-iitk | Main Branch | v1.0.0
| 6.| Sample preparation for testing in optical microscope using VR - https://github.com/virtual-labs/exp-sample-preparation-for-testing-in-optical-microscope-using-vr-iitk | Main Branch | v1.0.0
| 7.| Observation of Microstructures in a Light-Optical Microscope - https://github.com/virtual-labs/exp-microstructures-in-a-light-optical-microscope-iitk | Main Branch | v1.0.0
| 8.| Quantitative Microscopy: (i) perform volume fraction analysis manually on a multi-phase sample - https://github.com/virtual-labs/exp-quantitative-microscopy-perform-volume-fraction-analysis-manually-iitk | Main Branch | v1.0.0
| 9.| Quantitative Microscopy: (ii) manually estimate the grain size and grain boundary surface area per unit volume of a single-phase polycrystal - https://github.com/virtual-labs/exp-quantitative-microscopy-manually-estimate-grain-size-and-grain-boundary-surface-area-iitk | Main Branch | v1.0.0
GitHub Handle:
Primary GitHub Handle Details:
Name: IIT Kanpur-Virtual Lab
GitHub Handle: @vlabiitk
Email id: [vlabiitk@gmail.com]
Secondary GitHub Handle Details:
Name: Dhananjay Umrao
GitHub Handle: @umraodhananjay
Email id: [umraodhananjay@gmail.com]
Virtual Lab Phase : Extended Phase 3
Domain Name : DESIGN-P4
Approved Proposal & Hosting Approval Mail:
Approval from Lab Developer:
Introduction :
Virtual Reality (VR) is a technology that creates a computer-generated 3D environment where users can interact with objects and perform activities as if they were in a real laboratory. In this virtual lab, VR is used to help learners understand the parts and working of optical microscopes, prepare samples for examination, observe material microstructures, and perform basic quantitative microscopy analyses. By combining VR with microscopy and materials science, the lab provides an engaging and practical learning experience that helps users develop both theoretical knowledge and experimental skills.
Objectives
- To understand the fundamentals and framework of Virtual Reality (VR) technology.
- To study the construction, components, and working principles of optical microscopes.
- To learn the procedures for sample preparation and microscopic examination of materials.
- To observe and characterize the microstructure of metallic and ceramic materials.
- To perform quantitative microscopy for the measurement of volume fraction, grain size, and grain boundary characteristics.
- To gain practical experience in materials characterization through an immersive VR environment.
Course Alignment:
- Lingaya’s Vidyapeeth- Haryana, Course: B. Tech in Computer Science and Engineering (Virtual and Augmented Reality)
- The NorthCap University- Gurgoan; Course: B. Tech in Computer Science and Engineering (Gaming, AR and VR)
- Poornima University- Rajasthan, Course: B.Sc. (Gaming, Augmented and Virtual Reality)
- Periyar University- Salem Course: B.Voc. in Augmented Reality/ Virtual Reality
- Maya Academy of Advanced Cinematics- Mumbai, Kolkata, Bhopal, Course: VAR Plus (program in Virtual and Augmented Reality)
- School of Design, Sushant Univerisity- Gurgoan, Course: Diploma in AR/VR/MR
Target Audience:
The lab is primarily intended for Undergraduate (UG) students pursuing programs in Computer Science and Engineering, Information Technology, Electronics and Communication Engineering, Mechanical Engineering, Architecture, and other related disciplines. It can also serve as a valuable learning resource for faculty members, researchers, and learners interested in Virtual Reality technologies and their real-world applications.
The Virtual Reality Lab aims to bridge the gap between theory and practice by providing accessible, engaging, and realistic virtual learning experiences that foster deeper understanding and skill development.
@ravikiran2020 @priya100raman
Lab/Experiment(s) Hosting Request
Lab Name - Virtual Reality Lab II :
| No.| Experiment Name | Experiment repository URL | Branch/Tag |
| 1.| An introduction to the VR system framework and development tools - https://github.com/virtual-labs/exp-introduction-to-the-vr-system-framework-and-development-tools-iitk | Main Branch | v1.0.0
| 2.| Basic concept, principles and multidisciplinary features of virtual reality - https://github.com/virtual-labs/exp-basic-concept-principles-and-multidisciplinary-features-of-virtual-reality-iitk | Main Branch | v1.0.0
| 3.| Understanding of microscope and its types using VR - https://github.com/virtual-labs/exp-microscope-and-its-types-using-vr-iitk | Main Branch | v1.0.0
| 4.| Representation of components of Optical microscope and working principle using VR - https://github.com/virtual-labs/exp-components-of-optical-microscope-and-working-principle-using-vr-iitk | Main Branch | v1.0.0
| 5.| Characterization of material (metal, ceramics) using optical microscope - https://github.com/virtual-labs/exp-characterization-of-material-using-optical-microscope-iitk | Main Branch | v1.0.0
| 6.| Sample preparation for testing in optical microscope using VR - https://github.com/virtual-labs/exp-sample-preparation-for-testing-in-optical-microscope-using-vr-iitk | Main Branch | v1.0.0
| 7.| Observation of Microstructures in a Light-Optical Microscope - https://github.com/virtual-labs/exp-microstructures-in-a-light-optical-microscope-iitk | Main Branch | v1.0.0
| 8.| Quantitative Microscopy: (i) perform volume fraction analysis manually on a multi-phase sample - https://github.com/virtual-labs/exp-quantitative-microscopy-perform-volume-fraction-analysis-manually-iitk | Main Branch | v1.0.0
| 9.| Quantitative Microscopy: (ii) manually estimate the grain size and grain boundary surface area per unit volume of a single-phase polycrystal - https://github.com/virtual-labs/exp-quantitative-microscopy-manually-estimate-grain-size-and-grain-boundary-surface-area-iitk | Main Branch | v1.0.0
GitHub Handle:
Primary GitHub Handle Details:
Name: IIT Kanpur-Virtual Lab
GitHub Handle: @vlabiitk
Email id: [vlabiitk@gmail.com]
Secondary GitHub Handle Details:
Name: Dhananjay Umrao
GitHub Handle: @umraodhananjay
Email id: [umraodhananjay@gmail.com]
Virtual Lab Phase : Extended Phase 3
Domain Name : DESIGN-P4
Approved Proposal & Hosting Approval Mail:
Approval from Lab Developer:
Introduction :
Virtual Reality (VR) is a technology that creates a computer-generated 3D environment where users can interact with objects and perform activities as if they were in a real laboratory. In this virtual lab, VR is used to help learners understand the parts and working of optical microscopes, prepare samples for examination, observe material microstructures, and perform basic quantitative microscopy analyses. By combining VR with microscopy and materials science, the lab provides an engaging and practical learning experience that helps users develop both theoretical knowledge and experimental skills.
Objectives
Course Alignment:
Target Audience:
The lab is primarily intended for Undergraduate (UG) students pursuing programs in Computer Science and Engineering, Information Technology, Electronics and Communication Engineering, Mechanical Engineering, Architecture, and other related disciplines. It can also serve as a valuable learning resource for faculty members, researchers, and learners interested in Virtual Reality technologies and their real-world applications.
The Virtual Reality Lab aims to bridge the gap between theory and practice by providing accessible, engaging, and realistic virtual learning experiences that foster deeper understanding and skill development.