How to make great videos ANYWHERE with AI ENVIRONMENTS
TLDRThis video tutorial demonstrates how to utilize Adobe Photoshop's generative fill feature to create AI-driven environments for video production. It explains the process of using matte paintings to extend sets and enliven static spaces, with a caution about camera movement breaking the illusion. The video also emphasizes the importance of cinematography knowledge in crafting realistic AI environments. It showcases various lighting techniques to enhance realism and walks through the step-by-step process of refining an image in Photoshop. The tutorial concludes with tips on integrating the AI-generated environment back into video editing software, highlighting the tool's potential in professional video production.
Takeaways
- 🖼️ Adobe Photoshop's generative fill feature is used to create new environments for videos, similar to traditional Hollywood matte paintings on glass.
- 📷 Basic Photoshop skills allow users to create custom environments and extend sets without the need for physical changes to the location.
- 🚫 A limitation of this technique is that the camera cannot move, as movement breaks the illusion created by the AI matte painting.
- 💡 Knowledge of cinematography is crucial when creating realistic environments, as it influences lighting and the overall mood of the scene.
- 📱 The video humorously suggests giving up on finding cell service in an apocalyptic environment and instead focusing on survival.
- 🎥 Camera placement is important, especially when filming from a high angle to get usable wide shots without green screen work.
- 🚶♂️ It's advisable to avoid having subjects cross into areas that will be changed later with generative fill to minimize green screen work.
- 🏠 Indoor setups are filmed against plain gray walls to maximize resolution and allow generative fill to create the desired environment.
- 💡 Lighting plays a significant role in creating realistic scenes, with the video demonstrating how to set up key lights and adjust their intensity and color.
- 🖥️ Generative fill in Photoshop is used to replace the black background with AI-generated environments based on prompts given by the user.
- ✍️ The process of refining the image in Photoshop requires an artist's eye and good skills, as well as patience to achieve a realistic result.
- 🎞️ The final video can incorporate the AI-generated environments, with color correction and additional effects added in post-production for realism.
Q & A
What is the main topic of the video?
-The video demonstrates how to use Adobe Photoshop's generative fill feature to create AI-driven environments for video production.
How does the generative fill feature in Adobe Photoshop compare to traditional Hollywood matte paintings?
-The generative fill feature in Adobe Photoshop is a modern, AI-driven equivalent to traditional Hollywood matte paintings, allowing users with basic Photoshop skills to create custom environments without the need for green screen work.
What is the major limitation of using generative fill for video production?
-The major limitation is that the camera cannot move; any movement will break the illusion created by the AI environment.
Why is knowledge of cinematography important when creating realistic environments with generative fill?
-Knowledge of cinematography is crucial for understanding camera placement, lighting, and composition, which are essential for creating realistic and believable AI environments.
What is the significance of camera placement when filming outside plates for generative fill?
-Camera placement is significant because it affects the horizon and the ability to capture usable wide shots without green screen work, and it prevents the subject from crossing areas that will be changed later with generative fill.
How did the creators use the environment to their advantage while filming Alex?
-The creators filmed Alex from an angle where his body was blocked by a freeway overpass guardrail and a concrete block, eliminating the need for green screen work.
Why did the creators choose to film against a plain gray wall in their studio?
-They chose a plain gray wall to maximize resolution and because the sides of the image would be covered anyway, allowing generative fill to create the rest of the environment.
What is the role of lighting in creating realistic AI environments as demonstrated in the video?
-Lighting plays a critical role in creating realistic AI environments by simulating the presence of natural light sources such as windows and lamps, adding depth and realism to the scene.
How did the creators use different lighting setups to enhance the realism of their AI environment?
-The creators used key lights, soft sources, and color temperature adjustments to mimic natural light coming from windows and lamps, and added glow effects to enhance the realism of the AI-generated environment.
What is the process for using generative fill in Photoshop to create an AI environment?
-The process involves exporting a still from the editing software with the subject scaled to the desired size, making the background clear in Photoshop, highlighting areas to change with AI, and refining the image using generative fill and additional Photoshop skills.
How did the creators address color space issues when bringing the AI-generated environment back into their editing software?
-The creators changed the color space of the AI-generated environment to Rec 709a to match the color space of their footage, ensuring color consistency.
What was the advantage of filming the plate vertically on a 6K camera for the final video?
-Filming vertically on a 6K camera allowed the creators to zoom in significantly on the image without losing quality, as they edited on a 12K timeline.
Outlines
🎨 Using Generative Fill in Adobe Photoshop
This paragraph introduces the use of Adobe Photoshop's generative fill feature to create new environments for video production. It compares this technique to traditional Hollywood matte paintings on glass, explaining how basic Photoshop skills can now be used to extend sets and enliven dull spaces. The limitation of not being able to move the camera without breaking the illusion is highlighted, emphasizing the importance of cinematography knowledge when creating realistic environments. The speaker also humorously suggests giving up on finding cell service in an apocalyptic environment and provides a brief overview of filming outdoor plates, stressing the importance of camera placement and avoiding areas that will be altered later with generative fill. The paragraph concludes with creative filming setups, such as using a freeway overpass and a concrete block to block the actor's body from the background, avoiding green screen work.
💡 Lighting Techniques and Generative Fill Process
The second paragraph delves into the specifics of lighting a scene for filming against a plain gray wall in a studio. The speaker maximizes resolution by turning the camera vertically and discusses the importance of imagining elements like windows and the corresponding light sources to enhance realism. Key lighting is set up with a paper diffuser on a c-stand, and an aperture Nova light is used for soft lighting. The speaker also experiments with a warm glow from a bi-color, small light tube and a blue fill light from the Aperture MC Pros for a cool tone. After filming, the footage is brought into Photoshop where generative fill is used to create a modern dining room scene. The process involves exporting a still, making the background clear, and using generative fill to replace the background. The AI provides options, and the speaker describes the iterative refinement process, which took about an hour. The importance of an artist's eye and Photoshop skills is emphasized, as the AI can create both great and poor results. The final video includes color correction, exposure adjustments, and added glow effects for realism. The speaker concludes by noting the ability to zoom in on the image due to filming on a 12K timeline with a 6K camera and mentions that the video's narration was also AI-generated.
Mindmap
Keywords
💡Generative Fill
💡AI-driven matte painting
💡Cinematography
💡Green screen
💡Resolution
💡Lighting
💡Color space
💡Aperture Nova
💡Rec 709
💡12K timeline
💡AI narration
Highlights
The video demonstrates using Adobe Photoshop's generative fill feature to create AI-driven environments for videos.
This technique allows for the creation of custom environments to extend sets and enliven dull spaces.
A significant limitation is that the camera cannot move without breaking the illusion.
Knowledge of cinematography is crucial when creating realistic environments.
The video discusses the importance of camera placement, especially when filming without a green screen.
The use of a film cart to raise the camera to the appropriate height is highlighted.
Creative setups are shown, such as filming with the actor's body blocked by structures to avoid green screen work.
The video shows how to maximize resolution by turning the camera vertical when filming against a plain gray wall.
Lighting plays a critical role in creating realistic environments, with the video detailing the setup of key lights.
The use of a large window and a lamp to create a comforting and realistic space is discussed.
The video explains how to create the illusion of a warm glow from a warm ceiling light and a window.
The process of using generative fill in Photoshop is detailed, from exporting a still to refining the image.
The AI tool requires an artist's eye and decent Photoshop skills to create something great.
Generative fill can create unexpected results, requiring patience and refinement.
The final image is brought back into editing software, with color space adjustments needed for matching.
A colorist's work in correcting color and exposure adds to the realism of the final video.
The video was edited on a 12K timeline, allowing for significant zooming in on the image.
The video concludes with a discussion on the realism of the AI tool and its potential use in professional videos.
The narration for the video was also created with AI, indicating the extent of AI's role in video production.