Scientists Achieve Two-Way Communication in Dreams


Researchers have developed a groundbreaking technology enabling two-way communication during lucid dreams, which could revolutionize our understanding of dream interactions and open new avenues for applications in mental health and skills training. Although this technology is still awaiting peer review, it could signify a major advancement in sleep research. The study conducted by REMspace involved tracking participants’ brain waves and transmitting messages when they entered a lucid dream state. In a related, controversial endeavor, an individual performed a self-surgery to implant a chip in his brain, aiming to facilitate real-time communication in dreams, suggesting that REM sleep could become a significant industry alongside AI.


 

Researchers are pioneering a groundbreaking technology that enables two-way communication during dreams. This advancement could become so integral to daily life that we may find it hard to imagine living without it. The potential applications are vast, offering new ways to think about communication and interactions in the dream state.

While this technology has not yet undergone peer review or replication, its validation would mark a significant leap in sleep research, with potential uses in mental health treatment, skills training, and more, according to REMspace. The company claims to have utilized specialized equipment to facilitate the exchange of simple messages between two individuals while they were lucid dreaming.

Lucid dreaming occurs when individuals recognize that they are dreaming, allowing them to exert control over their actions within the dream. This typically happens during REM (Rapid Eye Movement) sleep, the phase when most dreaming occurs. Although REMspace has not disclosed the exact equipment used, they mentioned that it included a device for monitoring brain waves and other biological data throughout the experiment.

The setup also featured a server that detected when participants entered a lucid dream state and transmitted messages to them. In the study, two participants slept separately while their brain waves were tracked. Once the server identified that one participant had entered a lucid dream, it sent a random word through earbuds, which the participant then repeated in their dream. This response was recorded in the server.

Eight minutes later, when the second participant also entered a lucid dream, the server transmitted the previously recorded word to her, which she echoed upon waking.

In a related, albeit controversial, study, an individual undertook a dangerous self-surgery to implant a chip in his brain, motivated by the ambition to achieve real-time communication in lucid dreams. Despite the risks, he expressed relief at surviving the procedure and believes that the exploration of REM sleep and lucid dreaming could emerge as a significant industry, following the rise of artificial intelligence.

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