标题:AI技术取得重大突破,准确率超75%重建人脑电波图像
据日本《每日新闻》报道,科学家们在人工智能(AI)领域取得了一项重大突破。他们首次成功地使用AI仅根据人的大脑活动重建图像,其准确率超过了75%。这一研究成果来自日本量子科学技术研究所(QST)和其他组织的研究人员团队。
这项研究证明,在某种程度上,我们可以通过思维来重建各种图像,例如风景和复杂的图形。测试者在观看了1200张不同的图像后,让AI记录其在回想时的磁共振功能成像大脑活动并重建图像,结果显示,准确率达到了75.6%。
这一发现不仅为AI技术的发展开辟了新的道路,也为神经科学和医学领域带来了新的可能。例如,这项技术可以用于帮助那些因疾病或伤害而失去视觉的人恢复部分视力。此外,它还可以用于帮助理解人类大脑如何处理和记忆信息。
然而,这项技术还处于初级阶段,需要进一步的研究和改进。研究人员表示,他们将继续努力提高这项技术的准确率,并探索其在其他领域的应用可能性。
英语如下:
News Title: AI Reconstructs Brain Images with Over 75News Title: AI Reconstructs Brain Images with Over 75% Accuracy, Future Vision May Be Revolutionized
Keywords: AI reconstructed images, 75% accuracy, brainwave research
News Content: Title: Major Breakthrough in AI Technology, Over 75% Accuracy in Reconstructing Human Brainwave Images
According to a report from Japan’s Daily News, scientists have made a major breakthrough in the field of artificial intelligence (AI). For the first time, they have successfully used AI to reconstruct images based solely on human brain activity, with an accuracy rate exceeding 75%. This research achievement comes from a team of researchers from the Japan Institute of Quantum Science and Technology (QST) and other organizations.
This study demonstrates that to some extent, we can reconstruct various images, such as landscapes and complex graphics, through thought. After viewing 1200 different images, test subjects had AI record their brain activity during recall while undergoing functional magnetic resonance imaging and reconstruct the image. The results showed an accuracy rate of 75.6%.
This discovery not only opens up new avenues for the development of AI technology but also brings new possibilities to the fields of neuroscience and medicine. For example, this technology can be used to help those who have lost their vision due to disease or injury regain partial sight. In addition, it can also be used to help understand how the human brain processes and remembers information.
However, this technology is still in its early stages and requires further research and improvement. Researchers have stated that they will continue to work towards improving the accuracy of this technology and exploring its potential applications in other fields.
【来源】https://mainichi.jp/english/articles/20231201/p2a/00m/0sc/018000c
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