PROPOSALS

Project 1 Proposal <https://docs.google.com/document/d/1nc0LbsBcV2Xg6dvP1tjtniM6nc12crMYe-5Auj2IUpc/edit?tab=t.0>

Presentation for Project 1 Proposal <https://docs.google.com/document/d/1nc0LbsBcV2Xg6dvP1tjtniM6nc12crMYe-5Auj2IUpc/edit?tab=t.0. >

In-class Activity <https://www.vrwiki.cs.brown.edu/course-years/spring-2025/journals/jos%C3%A9-guallpas-journal/untitled-page>

End Presentation for Project 1 <https://docs.google.com/presentation/d/1EcmkAVEmyP0-aFrIMALLof9KgqhQjbh9XlLFuPEJrug/edit?pli=1#slide=id.gc6f75fceb_0_60.>

Project 2 Proposal <ADD LINK>

Presentation for Project 2 Proposal <ADD LINK>

Poster <ADD LINK>

In-class Activity <ADD LINK>

Public Demo <ADD LINK>

GOALS

before after

----  ----

  1   | 5 | Goal 0: example goal showing "novice" score before and "expert mentor" after   

  2   |   | Goal 1: articulate AR/VR visualization software tool goals, requirements, and     capabilities;
  2   |   | Goal 2: construct meaningful evaluation strategies for software libraries,     frameworks, and applications; strategies include surveys, interviews,     comparative use, case studies, and web research

  2   |   | Goal 3: execute tool evaluation strategies

  1   |   | Goal 4: build visualization software packages  

  3   |   | Goal 5: comparatively analyze software tools based on evaluation;   

  1   |   | Goal 6: be familiar with a number of AR/VR software tools and hardware; . 

  3   |   | Goal 7: think critically about software;

  3   |   | Goal 8: communicate ideas more clearly;  
  2   |   | Goal 9: Learn the basics of 3D modeling for VR environments.

ALL OTHER WIKI CONTRIBUTIONS

CONTRIBUTION 1 [New section called VR in sports science] <https://www.vrwiki.cs.brown.edu/applications-of-vr/vr-in-sports-science. >

CONTRIBUTION 2 [With the addition of VR in sports science, I also edited "Applications in VR"] <https://www.vrwiki.cs.brown.edu/applications-of-vr. >

CONTRIBUTION 3 [Housekeeping items with the "Scientific Data" page where I included passmaps information!} <https://www.vrwiki.cs.brown.edu/scientific-data.>

CONTRIBUTION 4 [new page called "Passmaps with statsbomb" <https://www.vrwiki.cs.brown.edu/scientific-data/statsbomb-open-data/passmaps-with-statsbomb. >

CONTRIBUTION 5 [Added my own activity page] <https://www.vrwiki.cs.brown.edu/course-years/spring-2025/journals/jos%C3%A9-guallpas-journal/in-class-activity. >

.....

CONTRIBUTION N [short description] <ADD LINK>

HOURS journal

1/26/25 - 4 Hours

• Watched Lecture and completed activities

• Setup my journal

• Work on portion of the HW due on Monday at Noon

• Joined slack and introduced myself. 

• Completing the challenges: 

Three changes should each require ~10 minutes to complete:

One of the changes I recommend is displaying videos or maybe links of videos for specific software; For example, TiltBrush/OpenBrush software could benefit from more than just the screenshot, adding video links could benefit the educational value of the softwares. 

Add comments to the GLTF file format code example to explain each section’s purpose, making it easier for users to understand and adapt the code for their own projects.  https://www.vrwiki.cs.brown.edu/scientific-data/3d-model-file-types/gltf-file-format

In VR in education, I'd fix the webpages to actually go to the papers! Middle example's link gives an error, so I'll fix that so it does and to give others an opportunity to use that as their fix as well !! (CHALLENGE) 

Three changes should each require ~1 hour to complete. 

On homework pages, as a person who gets confused easily, I'd add links to tutorials, videos, or articles that explain key concepts in the homework, such as how to use VR software for scientific data visualization.

The wiki doesn’t provide guidance on where to find scientific data for practice. Thus,  add a section titled "Reliable Data Sources for Scientific Visualization" with links to datasets and websites, would help find the data they need to practice and apply VR software for scientific purposes.

Add a prominent link to the class page in the introduction or overview section because it'll make it easier for students to access the class page without reorganizing the structure.

The final three changes should each require ~10 hours to complete :

Write an in-depth comparison of popular VR software tools (e.g., Unity, Unreal Engine, Nanome), including their strengths, weaknesses, and scientific use cases, with tutorials or examples.

Add a section titled "Getting Started in VR for Science" with links to internships, research opportunities, and advice from professionals in the field.

Research and write a comprehensive section titled "Global Perspectives on VR in Science" that highlights  significant research projects from different regions of the world, explaining how VR software was used, the scientific impact, and links to papers or resources.

1/25/25 - 4 Hours

• added question to board

• needed more inspiration this time around, didn't know really where I'd take my project, but I started thinking more of softwares like the software I included in the first's lectures software and how integrating that in various forms of education would possibly look like?  How accessible is it? 

• Thought about 3D artists, how hard that must be? For example, if I were to use a spray can in the space of VR, how accurate can we make the spread that comes from an actual can?

1/25/25 - 1 Hour

• Decided to work on the feedback professor gave me, so I revised my previous journal entries! 

 to video tutorials demonstrating how to use BrushOn for scientific applications

1/26/25 - 4 Hour 

• Set up my Meta Quest3 (had problems with wifi, but got it figured it out, finally able to connect to wifi now) 

• Continued with activities from previous homework:

  • Looked at various VR apps in my favorite type of setting, the purple nebula caught my attention right away. 

  • Futbol apps and also others like roblox because of their availability and quickness to produce games.

• Looked through the published wiki and found three projects I liked:

  • • VR TOOL FOR COLLABORATIVE FIGURE STUDIES  -Lexi Henrion

    • Collaborative WebVR Environments for Data Visualization  -Jakobi Haskell

    • Collaborative Archaeological Map  -Robert Koch

what I found most interesting about these projects is the fact that all three were collaborative, based on the feedback I received today, I need more help understanding the software and evaluation portion of what is being asked.  Being indigenous/latine, there are so much lost history and art t 

• Three project ideas for me:
  - Use passthrough AR to overlay reconstructed indigenous/Latine murals (based on historical photos, oral histories, and pigment analysis) onto their original physical locations, evaluating success through user engagement metrics and feedback from community elders on cultural accuracy.

       -Use Spark AR so that it projects warm-up animations to prevent common sports injuries (e.g., ACL tears), leveraging CDC/sports injury data and evaluating success via adherence tracking and user-reported pain reduction.

       -I could use Lens Studio so that it overlays real-time footwork/body movement guides onto the user’s environment for dances, using motion-capture data from professional dancers like the boxing and table tennis games that have a robot play with you based on diffuculty, and evaluate effectiveness via progress tracking and surveys on confidence/technique improvement.

      -With Unity, I could generate interactive heatmaps visualizing player/ball movement, tracking metrics like distance covered, ball possession percentage, and high-intensity zones. Evaluate the tool’s effectiveness by comparing heatmap-derived insights to feedback from coaches and surveying users (e.g., players or analysts) on the utility of VR visualizations for performance analysis.

• my work from last night didn't save, so I'll have to re do this. 

1/30/25 - 3 hours

• Completed class activity and Benzi Lab!

• Completed Google Earth Activity

Google Earth VR

Google Earth Web

2/03/25 - 3 hours

• Installed DinoVR and completed the activity

• Focused more on potential projects to get ready for tomorow's class

• Three ideas I've looked at is: 

  • •  VR Soccer/Football Heatmap Tool Showdown (with 3D GVR and perhaps Unity3D :

      • Compare VR tools that allow users to visualize key stats in a football match, such as heatmaps and shots on target vs off-target. Using passthrough to demonstrate the differences in data! 

Class Activity for the Project:

• I'd have halftime stats of such game like France vs Argentina final, students will see where Argentina was dominating and see if the substitutes were actually useful or resulted in the same result of the first half. Students will fill out a form with feedback, such as need for more info? other stats that could be included? 

    Potential Deliverables: 

• I'd like to add my own section in the wiki: VR in sports. Hopefully that becomes possible where like Social Sciences and Engineering I also mention sports. For example what Melvin shared on the slack with Jayden McDaniels, something which I would love to explore more, but with a sport I'm more familiar with

More resources I found to potentially help with this: https://github.com/Friends-of-Tracking-Data-FoTD/LaurieOnTracking. 

https://sportstomorrow.fcbarcelona.com/wp-content/uploads/2020/11/GVR_An_intuitive_tool_for_the_visualization_and_easy_interpretation_of_advanced_exploration_methods_for_the_analysis_of_soccer_matches.pdf. 

https://zone14.ai/en/blog/heatmaps-data-visualisation-football-video-analysis/#:~:text=Action%20heatmaps%20provide%20a%20visual,and%20track%20progress%20over%20time. 

• VR Brainstorming Spaces for Group Projects

  • Goal: Explore how VR can replace physical whiteboards for group brainstorming sessions in college projects. In this project we'll test two VR apps that support collaborative whiteboarding, note-taking, or mind mapping and evaluate features like ease of drawing, adding notes, importing images, and real-time collaboration.

Class Acitivity for the Project:

• Groups will use both VR apps to plan a hypothetical class project. Form will be sent out to discuss which they preferred! 

    Potential Deliverables:

• Add a “VR for Group Projects” page in the Wiki comparing the apps’ collaboration features as well as other in-depth look with videos and perhaps screenshots! 

• Mural Art in VR—Collaborative Painting

  • Goal: Test VR painting apps to see how well they support collaborative mural creation, not just spray paint also tagging

Class Activity for the Project:

(Procreate, layers) 

• Students pair up to design part of a collaborative VR mural. They’ll give feedback on how easy it was to work together and whether VR helped spark creativity.

  Potential Deliverables:

• I'd love to do something related to my culture. I always think about murals such as those in chicano park! I'd love to add a  A mini-gallery of VR murals in the wiki perhaps. Maybe look more into that and hopefully get those in a VR gallery of sorts for this project.

2/05/25 - 2 hours

• finished exit ticket

• added to activity board and finished my first proposal presentation! 

• left feedback (only one person because I did this pretty late) 

02/10/25 - 2 hours

• added my DinoVR photos for class activity 

• shared my presentation before the deadline. 

• starting on the A-frame lab, hopefully can use that for my project.

02/16/25 - 5 hours

• finished deliverables for 2/11 

• Missed class, so I finished the class activity to be caught up. 

• Used Professor's feedback to reflect and m

• plan is to finish APV and signing up for a lab section after class to get more clarification.

• finised setting up ben lab to get ready for class on thursday.

02/19/25 - 5 hours

• Continued fixing my project, adjusted for scaling to make the project be able to scale anywhere

• Found myself adding to the wiki with a tutorial for Statsbombs (now there are multiple data points I could use like Heatmaps, Shotmaps and passmaps)

• Started thinking about my evaluations for the in-class activity.

02/22/25 -  2 hours

• Finished adding my photos from class activites on to the activity board. 

• Finished editing the wiki page so I added a passing maps in statbomb tutorial along with some important information.

02/24/25 - 6 hours

• Finished my in-class activity page, everything should be up to date with important info. 

• Google form is set up for the in-class activity, WebXR is setup in the glitch space, google slides to demonstrate 2D vs VR and overall ready for my in-class activity

• Had to stay up all night to make sure I had to figure out everything quickly.

02/30/25 - 1 hours

• Looking over the Feedback received to focus more on my other classes. 

• So far added the scaling of the diameter instead of the whole thing itself

• Beginning my investigation on maybe adding arrows?

03/11/25 - 1 hours

• Got some progress done, looking into maybe bringing the project over to project 2.

• Finished setting up my headset to be able to participate fully in the activities.

03/12/25 - 2 hours

• Finished my own eval, my wiki contribution on my journal and my presentation for class.

• All sent to Professor and Melvin.

03/16/25 -3 hours

• Finished seven scenarios paper

• Project 2 Idea/Proposal:

  • • Seven Scenarios: CDA, CTV, UE, VDAR

      • This project aims to bridge the educational gap for low-income, multilingual students by providing immersive, interactive learning experiences in VR. Many students in underserved communities face language barriers that affect their performance in STEM, history, and literacy. Using Meta Quest 2 and AI-driven tools, this project will create adaptive VR environments that support language learning, subject comprehension, and collaboration.

      • Collaborative Data Analysis (CDA), the system will enable group learning, allowing students to work together in VR while engaging in bilingual lessons and interactive educational games.

      • Communication Through Visualization (CTV), by embedding real-time translations, contextualized vocabulary, and interactive storytelling, students can better grasp complex subjects through visual and auditory learning.

      • User Experience (UE), the project will ensure that the VR tool is intuitive, engaging, and accessible, particularly for students with limited access to technology.

      • Visual Data Analysis and Reasoning (VDAR), the VR system will track student learning progress, analyzing how they interact with lessons, which concepts they struggle with, and how they improve over time.

    • Potential Deliverables

      • Prototype of a VR educational platform with bilingual support (e.g., immersive math or science lessons with real-time translation overlays).

      • Study comparing VR-based language learning to traditional classroom methods in low-income schools.

      • Evaluation of peer collaboration in VR and its impact on language acquisition.

      • Documentation on integrating speech-to-text, real-time translation, and AI-driven voice recognition into VR

      • **Best practices for designing low-cost, scalable VR educational tools for multilingual classrooms.

      • Tutorial for educators on implementing VR into classrooms with limited resources.

      • Study on student engagement and knowledge retention when using VR-assisted bilingual learning.

3/18/25 - 2 hours

• Finished presentation, 3 slides and sent!

• Found more resources for my work with VR/AR in teaching lanugages: 

  • https://fltmag.com/teaching-languages-in-virtual-reality-tips-and-tools-for-getting-started/. 

  • https://virtualspeech.com/blog/learn-language-vr-scenarios-apps

    • Looked further even to AI as a big issue with using google translate is that it may be confused and give us the correct translation but no one would actually read or speak like the response gathered!

    • https://www.literacyworldwide.org/blog/literacy-now/2024/11/12/the-power-of-artificial-intelligence-in-supporting-multilingual-learners. 

    • https://www.idra.org/resource-center/ai-as-a-tool-for-inclusive-bilingual-education/. 

3/18/25 - 2 hours

• Finished presentation, 3 slides and sent!

• Found more resources for my work with VR/AR in teaching lanugages: 

  • https://fltmag.com/teaching-languages-in-virtual-reality-tips-and-tools-for-getting-started/. 

  • https://virtualspeech.com/blog/learn-language-vr-scenarios-apps

    • Looked further even to AI as a big issue with using google translate is that it may be confused and give us the correct translation but no one would actually read or speak like the response gathered!

    • https://www.literacyworldwide.org/blog/literacy-now/2024/11/12/the-power-of-artificial-intelligence-in-supporting-multilingual-learners. 

    • https://www.idra.org/resource-center/ai-as-a-tool-for-inclusive-bilingual-education/.