Artworks generated by artificial intelligence (AI) have become a source of controversy, but Nigerian filmmaker and artist Malik Afegbua is making a case that it can challenge us to create a better real world - and a more stylish one for older people. At first glance, his images look like they were snapped on the edge of a fashion runway, but these models are not actually real people. Instead, the pictures are the result of Afegbua's imagination working in conjunction with AI , showing older-looking models in beautiful clothes. The series of images, called Fashion Show For Seniors, has attracted quite a attention on social media, Afegbua's work has clearly made an impact in the real world. But questions linger about whether computer-generated work is a threat to human creativity.
The use of AI and robotics is greatly augmenting our understanding and exploration of Mars. Robots, such as the Mars Rover and the Mars Reconnaissance Orbiter, are able to withstand the harsh conditions of the planet, cover vast distances, and collect precise data that would be impossible for humans to achieve. These robotic missions have already provided us with invaluable information about the planet's surface, atmosphere, and potential for life. With plans for more advanced robotic missions, including the use of drones to fly over the planet's surface, and even the deployment of robots that can dig beneath the surface to search for signs of water and life. AI plays a crucial role in these missions. AI algorithms are used to process and analyze the vast amounts of data collected by the robots. The use of AI and robotics in Mars exploration is allowing us to uncover the secrets of the red planet and pave the way for future human colonization.
AI and generative art have been making waves in the art world, but did you know that the legal landscape around this technology is also evolving? As AI-generated art becomes more widely recognized and accepted, the question of ownership and control over the technology and the artwork it produces has become a subject of stable diffusion litigation. On one hand, AI artists and developers argue that they should be entitled to the same rights and protections as human artists. On the other hand, some argue that the use of AI in art raises complex ethical and legal questions, such as the question of authorship and originality. This legal battle is still ongoing and its outcome is yet to be determined. But one thing is for sure, it has the potential to reshape the art world and the way we think about creativity and ownership. https://stablediffusionlitigation.com/
AI-powered kitchen automation is streamlining the food preparation process, making it more efficient and accurate. In addition to kitchen automation, AI is also being used to personalize menu recommendations and create tailored dining experiences. For example, AI-powered systems can analyze customer preferences and dietary restrictions to suggest menu items that are tailored to their needs. AI is also being used to optimize supply chain management, from predicting demand to managing inventory, this technology is helping to reduce food waste and improve the overall efficiency of the food industry. However, one of the main concerns is that AI may take over jobs currently done by humans. But, by focusing on augmenting human capabilities and working alongside human, AI can help to create new opportunities and efficiencies that will benefit both the industry and its employees. Overall, AI has the potential to revolutionize the food industry and change the way we dine.
It is truly a game changer, from new startup Liger Mobility Pvt. Ltd. It Uses AI algorithms to dynamically shift the Center of Gravity of the vehicle in order to ensure that the vehicle stays balanced. Self-balancing remains active for up to 5-7 kmph. The system goes on standby mode after the 7 kmph threshold and reactivates at lower speeds.
Have you heard of nanobots? These tiny robots, measuring just billionths of a meter, have the potential to revolutionize medicine, manufacturing, and more! Imagine a future where nanobots can target and destroy cancer cells without harming healthy cells, or where they can repair damaged tissue inside the body. In manufacturing, nanobots could work at the atomic level to create perfect, customized products. The possibilities are endless and exciting! Share this post to spread awareness about the potential of nanobots and the advancements being made in this field.