Pennsylvania’s state government, under the leadership of Democratic Governor Josh Shapiro, is gearing up to embrace artificial intelligence (AI) in its operations. In a news conference held at Carnegie Mellon University in Pittsburgh, Shapiro outlined the state’s plan to harness the power of AI while addressing the need for regulations and governance.

The key initiatives include the establishment of an AI governing board, the publication of guiding principles for AI use, and the development of training programs aimed at educating state employees about AI. Governor Shapiro stressed the importance of ensuring that the state government understands AI, adapts to it, and promotes its safe usage in the private sector.

Microsoft is pushing the boundaries of artificial intelligence (AI) integration in its products with the unveiling of Microsoft Copilot on September 21. This innovative technology combines AI language models with Windows interfaces, promising enhanced user experiences and productivity.

Microsoft Copilot will seamlessly integrate into Windows, offering users the option to access it as an app or through a right-click menu. It will feature as an add-on to popular applications like Paint, Photos, and Clipchamp. Additionally, Bing, the search engine, will receive a boost from OpenAI’s DALL-E 3 model, and Microsoft 365 Copilot will introduce a chat assistant tailored for enterprise solutions.

Google has announced a significant expansion of its Bard AI, allowing it to access real-time data from various Google applications such as Docs, Maps, Lens, Flights, Hotels, and YouTube. This enhancement aims to provide more relevant and actionable responses, strengthening the chatbot’s capabilities and transparency.

Jack Krawczyk, the product lead for Bard, noted the rapid evolution of this technology over the past six months and acknowledged that some users remain cautious about AI, either due to a lack of immediate use cases or concerns about its accuracy.

About a decade ago, Žiga Avsec, a PhD physics student at the time, unexpectedly delved into the world of genomics through a university machine learning module. His academic journey soon led him to a laboratory focused on rare diseases, where the mission was to decipher the intricate genetic mutations responsible for a peculiar mitochondrial disorder. It was akin to searching for a “needle in a haystack” as millions of potential genetic suspects resided within the complex DNA code. Particularly intriguing were the “missense variants” – single-letter genetic alterations that resulted in the creation of different amino acids within proteins. Since proteins constitute the fundamental building blocks of the human body, even subtle changes could trigger significant consequences.

The human genome harbors a staggering 71 million possible missense variants, with the average individual carrying over 9,000 of them. While most are benign, some are linked to genetic disorders like sickle cell anemia and cystic fibrosis, and even complex conditions like type 2 diabetes, potentially arising from a combination of subtle genetic alterations. Avsec was faced with a pressing question: “How can we pinpoint the genuinely hazardous ones?” Unfortunately, the response he encountered was disheartening: “In most cases, we simply can’t.”

In a groundbreaking endeavor, the Toyota Research Institute (TRI) has harnessed the power of generative AI to educate robots on the art of preparing breakfast, breaking away from the traditional arduous coding and debugging process. The key to their success lies in imparting robots with a sense of touch and connecting them to an AI model, allowing them to learn much like humans do.

This tactile sense is identified as a pivotal element in the robots’ learning process. By equipping them with a soft, pliable “thumb,” as seen in the accompanying video, the AI model gains the ability to “feel” its actions, providing invaluable sensory input that surpasses the limitations of sight alone. Consequently, intricate tasks become more manageable for the robots.

Virtual influencers have taken the digital world by storm, revolutionizing content creation, consumption, and marketing. These digital avatars, a fusion of cutting-edge technology and our innate desire for connection, have captured millions of adoring fans. However, beneath the surface lies a world of risks and blurred realities.

What Are Virtual Influencers?

Virtual influencers, also known as digital influencers or AI influencers, are not an entirely new concept, with virtual Japanese popstar Kyoko Date dating back to 1996. Recent technological advances have brought them into the limelight. These digital personalities maintain a presence on social media, engaging with the world from a first-person perspective. Crafted by 3D artists using CGI, motion-capture technology, and AI tools, they can be customized in appearance and behavior to align with specific target audiences. There are three main types of virtual influencers: non-humans, animated humans, and lifelike CGI humans, each offering innovative ways to connect with audiences.