Custom Genes Tutorial
TLDRThe tutorial introduces a new custom feature in ArtReader called 'genes'. Users can create their own categories by selecting reference images and utilizing tags to find specific features, such as beards. The gene is then tested on a clean-shaven image, with adjustments made to refine the feature. The gene can be further customized by subtracting or adding other genes and adjusting sliders to control the impact on the image's identity and style. Once satisfied, users can export and share their genes with the community, allowing others to use and adapt them, fostering a collaborative and creative environment.
Takeaways
- 🎨 The tutorial introduces a new custom jeans feature in ArtReader, available under the advanced members-only section.
- 🖼️ Users can select reference images from different categories to create a new gene, such as 'beard gene' in the example provided.
- 🏷️ The tags feature can be utilized to search for specific images, like those with beards, to use as references for creating a gene.
- 👤 The gene creation process involves selecting an image to test the new gene, and adjusting it to fit the desired outcome.
- 📉 Additional tools are available to modify the gene, such as subtracting or adding other genes to fine-tune the final look.
- 🔄 The slider tool allows control over how much the new gene affects the content or identity of the person in the image.
- 🎨 Users can define styles, such as hair color, to further customize the gene to their preferences.
- 📦 Once satisfied with the gene, it can be exported and named, and will appear in the user's profile under a new genes section.
- 🔄 Custom genes can be shared among users, allowing others to add and use them in their own creations.
- 🌐 The custom gene feature encourages collaboration and the sharing of creative ideas within the ArtReader community.
- 🤩 The potential for personalization and creativity with custom genes is vast, and the community is expected to explore and innovate with this feature.
Q & A
What is the new feature being discussed in the tutorial?
-The new feature being discussed is the custom jeans feature in ArtReader.
How can users access this advanced feature in ArtReader?
-Users can access this feature from the create page by selecting a category and then choosing 'Create Gene' under the advanced members-only section.
What is the purpose of selecting reference images in the gene creation process?
-The purpose of selecting reference images is to define the characteristics of the new gene, such as in the example, selecting images of faces with beards to create a 'beard gene'.
How does the tagging feature help in gene creation?
-The tagging feature allows users to search for specific attributes within images, such as 'faces with beards', making it easier to find and select appropriate reference images for gene creation.
What happens when you test a new gene on an image?
-Testing a new gene on an image allows users to see how the gene would look when added to that face, including any changes it might make to the face's other features.
How can users modify the effects of a gene?
-Users can subtract or add other genes to the custom gene to modify its effects, such as removing the 'age' gene to prevent the face from looking older.
What is the slider tool used for in gene editing?
-The slider tool is used to control the intensity of the gene's effect on the image, allowing users to balance the changes to the content or identity of the person versus the style.
How can users further customize the gene by defining styles?
-Users can use additional tools to define specific styles, such as hair color, to fine-tune the appearance of the gene when applied to images.
Where can users find and use their custom genes in ArtReader?
-Custom genes can be found in a new section on the user's profile page and can be used wherever genes are utilized in ArtReader, such as in browsing or composing images.
What is the benefit of user-customized genes being shareable?
-The shareability of custom genes allows other users to add and use them, fostering a collaborative and creative community where users can benefit from each other's creations.
What types of images can be used to create a gene?
-Any type of image can be used to create a gene, whether abstract, personal, or interesting, as long as there are enough images with the desired characteristic.
Outlines
🎨 Introduction to Custom Jeans Feature in Art Reader
The paragraph introduces a tutorial on utilizing the new custom jeans feature in Art Reader. The speaker explains that this advanced feature is user-friendly and allows users to create a new category by selecting reference images from the members-only section. The process involves searching for images with specific attributes, such as beards, using tags and selecting the ones that fit the desired criteria. The speaker demonstrates how to create a 'beard June' category and emphasizes the importance of having a variety of images for better results.
Mindmap
Keywords
💡custom jeans feature
💡Art Reader
💡reference images
💡advanced feature
💡genes
💡preview
💡subtract or add genes
💡slider
💡export
💡profile page
💡collaborative crowdsource
Highlights
Introduction to the new custom jeans feature in ArtReader.
Accessing the feature from the create page under the advanced members-only section.
Creating a new category, 'Beard June', by selecting reference images.
Utilizing the tags feature to search for images with beards.
The importance of having a variety of reference images for gene creation.
Testing the new beard gene on a clean-shaven face.
Modifying the gene to adjust for unwanted changes, such as subtracting the age gene.
Using sliders to control the degree of gene impact on the subject's identity and style.
Adjusting the gene for consistency in style elements like hair color.
Finalizing the gene creation process with minor tweaks.
Exporting and naming the custom gene 'Weird Wonderful'.
Accessing the new gene section on the profile page.
Using the custom gene in various applications like portrait images.
Sharing custom genes with other users for broader usage.
The potential for diverse gene creation and community collaboration.
Excitement about the creative possibilities of the custom gene feature.