My research on LLMs has resulted in another top-tier journal publication. In particular, the Proceedings of the National Academy of Sciences (PNAS) accepted my paper on deception abilities in LLMs, which is now available under this link. Moreover, you can find a brief summary here. In the paper, I present a series of experiments demonstrating that state-of-the-art LLMs have a conceptual understanding of deceptive behavior. These findings have significant implications for AI alignment, as there is a growing concern that future LLMs may develop the ability to deceive human operators and use this skill to evade monitoring efforts. Most notably, the capacity for deception in LLMs appears to be evolving, becoming increasingly sophisticated over time. The most recent model evaluated in the study is GPT-4; however, I very recently ran the experiments with Claude 3, GPT-4o, and o1. Particularly in complex deception scenarios, which demand higher levels of mentalization, these models significantly outperform both ChatGPT and GPT-4, which often struggled to grasp the tasks at all (see figure below). Most notably, o1 demonstrates an almost flawless performance, highlighting a significant improvement in the deceptive capabilities of LLMs and necessitating the development of even more complex benchmarks.