In a noteworthy event on December 7, 2023, a DeepFake video generated using the DeepFakeAI platform gained viral traction on Instagram, subsequently earning recognition on the Joe Rogan Experience podcast. DeepFakeAI, a groundbreaking project blending artificial intelligence and blockchain, showcased the video's creation via a tweet, emphasizing its potential applications and the capabilities of the platform.
The viral video, featuring Swedish climate activist Greta Thunberg advocating against battery-powered toys, rapidly gained popularity on Instagram since its upload on November 16. Accumulating 400,000 likes within the initial three days, the video exemplifies the power of deep fake technology. The widespread recognition caught the attention of influential podcaster Joe Rogan, who discussed the astonishing realism achieved through AI assistance in episode #2072 of the Joe Rogan Experience with guest Stavros Halkins.
Addressing the video's creation process, a Twitter user underscored the ease with which such realistic videos can be produced, particularly noting the simplicity of generating one using a Telegram bot. Similar DeepFake videos have surfaced on platforms like YouTube, X, and TikTok.
DeepFakeAI's innovative infrastructure seamlessly merges blockchain, AI, and Telegram community functionalities, enabling users to create lifelike deep fake videos with minimal technical expertise. The platform offers a selection of pre-existing DeepFake characters while also empowering users to generate new ones. Leveraging an AI algorithm, the process involves training the algorithm with source clips to isolate noise and providing source images, resulting in a DeepFake character added to the expanding DeepFakeAI database.
To complete the video creation, users input selected phrases or sentences for the generated characters to articulate. The DeepFakeAi ecosystem encompasses the DeepFake web platform, Telegram bot integration for Telegram communities, and the FakeAI deflationary token, contributing to the platform's comprehensive and dynamic functionality.
