Use Your Phone To Make Anything 3D With Luma AI!
TLDRChuku Bum introduces Luma Labs, a revolutionary website and software that can transform real-world objects into 3D models. With just a camera and the iOS app, users can create 3D objects from everyday items. The process involves capturing the object from different angles, placing it in an AR box to set the space, and then rendering the model, which can take up to 30 minutes. Although the quality may not be professional, it's impressive considering the ease and lack of 3D modeling experience required. The app allows users to preview the model from various angles and share it in different formats, such as glTF with a high poly diffuse model. The presenter is excited about the potential of AI in 3D modeling and plans to learn Blender to further explore the possibilities.
Takeaways
- ๐ Luma Labs is a software that can turn real-world objects into 3D models.
- ๐ฑ The process begins with the iOS app which enables users to capture everyday items.
- ๐จ Users can then import these 3D models into various software like Blender and After Effects.
- ๐ The app guides users through the process of capturing objects and creating 3D models.
- ๐ฆ An AR (Augmented Reality) box is used to define the space that the object occupies.
- ๐๏ธ Ensuring the camera's crosshair is centered on the object is crucial for a successful scan.
- ๐ Users need to move around the object to capture it from different angles.
- โณ Rendering the 3D model can take around 30 minutes, depending on the complexity.
- ๐ The quality of the render may not be professional, but it's impressive considering the ease of use.
- ๐ The app allows users to preview the 3D model from different angles before sharing.
- ๐ Users can share their creations in various formats, including the high poly diffuse model.
- ๐ก The process is not without its challenges and requires some trial and error.
- ๐ Luma AI represents a significant step towards making 3D modeling more accessible to everyone.
Q & A
What is Luma AI and what does it allow users to do?
-Luma AI is a software that enables users to turn real-world objects into complete 3D models. These models can be imported into various applications like Blender and After Effects for further use.
How does the process of creating a 3D model with Luma AI begin?
-The process begins by visiting the Luma website, where users can start capturing real-world objects and converting them into 3D models.
What is the first step in creating a 3D model with Luma AI's iOS app?
-The first step is to point the camera directly at the object you want to create a 3D model of, ensuring the crosshair is in the middle of it, and then tapping the screen.
How does one determine the space needed for the 3D rendering process in Luma AI?
-Users need to put the object in an AR box, which determines the space the object takes. Adjusting the box size can be tricky, but it's necessary to accommodate the size of the object being rendered.
What are the different angles from which one can preview the 3D model within the Luma AI app?
-After the rendering is done, users can preview the 3D model from all the different angles provided within the app.
How long does the average rendering process take in Luma AI?
-The rendering process can take around 30 minutes on average, depending on the complexity of the render.
What is the quality of the 3D model render in Luma AI?
-While the quality of the render is not quite professional, it is impressive considering the process takes only a few minutes and requires no 3D modeling experience.
How can users share their 3D models created with Luma AI?
-Users can share their 3D models by clicking the share button in the bottom right of the app, which brings up different assets that can be shared.
What file format does Luma AI provide for sharing 3D models?
-Luma AI provides a .glb file for sharing 3D models, which can be uploaded to a personal drive for further use in other software like Blender.
What is the narrator's future plan regarding learning Blender?
-The narrator plans to learn Blender in the future to have more fun and create more advanced content with the 3D models rendered using Luma AI.
What are some of the limitations or areas for improvement in Luma AI as mentioned in the script?
-The script mentions that Luma AI is not perfect and has a few kinks that need to be worked out, but the narrator has high hopes for its future evolution and improvement.
How does the narrator describe the potential of AI in the context of 3D modeling with Luma AI?
-The narrator describes the potential of AI in this context as the future, highlighting the ease and speed with which anyone can create 3D models without prior experience.
Outlines
๐ Introduction to Luma Labs and 3D Modeling
The video begins with the host, Chuku Bum, introducing Luma Labs, a website and software that facilitates the creation of 3D models from real-world objects. The host expresses excitement about the technology's potential to import these models into various software like Blender and After Effects. The process is as simple as entering a prompt to generate a 3D model. The host also mentions a previous video discussing 3D models and invites viewers to check it out for more information.
Mindmap
Keywords
Luma AI
3D models
Blender
After Effects
iOS version
AR box
Rendering
High poly diffuse
glTF
glb file
AI evolution
Highlights
Luma Labs is a website and software that can turn real-world objects into 3D models.
The 3D models created can be imported into software like Blender and After Effects.
Luma AI allows users to create 3D models by simply entering a prompt.
The website showcases the ability to capture real-world objects and convert them into 3D models.
A drone shot of a castle is displayed, demonstrating the creation of a 3D landscape.
The process begins with downloading the iOS version of the Luma app.
Users point their camera at the object they want to model and tap the screen.
A box, or AR box, is used to determine the space the object occupies in the 3D model.
Adjusting the AR box can be tricky but is essential for accurate 3D modeling.
The 3D object needs to be scanned from different angles for a complete model.
The rendering process can take up to 30 minutes depending on the complexity.
While not professional quality, the 3D models are impressive considering the ease of creation.
Users can preview the 3D model within the app from various angles.
The 3D models can be shared and exported in different formats, such as glTF.
High poly diffuse models are recommended for better quality in 3D editing software.
A warning is given that the render may not look the same in different 3D editing software.
The presenter plans to learn Blender for more advanced use of the 3D models.
After Effects can also be used to import and work with the 3D models.
The presenter is excited about the potential of AI in 3D modeling and its future improvements.