【Nature子刊发表创新AI发音系统:无声带也能“说话”】
一项革命性的科技突破近日在国际知名学术期刊Nature的子刊上引发关注。加州大学洛杉矶分校生物工程系助理教授陈俊领导的科研团队,开发出了一种新型的AI辅助发音系统,有望为嗓音障碍患者带来福音。这款创新的“柔性贴片”助听装置,利用人工智能技术,使得即使没有声带的人也能实现有效沟通。
该装置基于磁弹性效应,设计独特,能够贴附在患者的喉部肌肉上,捕捉到微小的肌肉运动。通过内置的传感器,它能实时收集这些运动数据,并将这些信号传输给机器学习算法。算法通过对大量数据的分析和分类,能准确识别出肌肉运动所代表的语义信息,进而生成对应的语音信号进行输出。
这一技术的突破,对于那些因疾病或手术导致声带受损的患者来说,无疑为他们重新找回“说话”的能力提供了可能。据团队介绍,该柔性贴片的使用简便,且适应性强,有望在未来改变嗓音障碍患者的沟通方式,提升他们的生活质量。
这一科研成果不仅在生物工程领域内产生了深远影响,也彰显了人工智能在医疗健康领域的巨大潜力。未来,随着技术的进一步发展和完善,我们有理由期待更多类似创新的出现,为人类健康事业带来更大的进步。
英语如下:
**News Title:** “Breakthrough Innovation: AI-Powered Voice Restoration for the Voiceless with New Flexible Patch”
**Keywords:** AI pronunciation system, flexible patch, throat muscle communication
**News Content:**
_A Silent No More: Revolutionary AI Pronunciation System from_ _Nature_ _Subjournal_
A groundbreaking technological advancement has recently caught the attention of the international scientific community, featured in a prominent subjournal of Nature. Assistant Professor Chen Jun from the Department of Bioengineering at the University of California, Los Angeles, leads a research team that has developed an innovative AI-assisted pronunciation system, offering hope to those with voice disorders. This pioneering “flexible patch” hearing aid harnesses artificial intelligence to enable communication even in the absence of vocal cords.
Built on the principle of magnetoelastic effects, the distinctive design of the device adheres to a patient’s throat muscles, detecting minute muscle movements. With its embedded sensors, it collects real-time data on these movements and relays the signals to a machine learning algorithm. By analyzing and classifying vast amounts of data, the algorithm accurately identifies the semantic information conveyed by the muscle movements, generating corresponding speech signals for output.
This breakthrough holds immense potential for individuals whose voice capabilities have been compromised due to illness or surgery. The team explains that the flexible patch is user-friendly and adaptable, with the potential to revolutionize communication methods for voice-impaired individuals, thereby enhancing their quality of life.
This scientific achievement not only leaves a profound impact within the field of bioengineering but also underscores the tremendous potential of artificial intelligence in healthcare. As technology continues to advance and refine, there is reason to anticipate more such innovations that will contribute significantly to human health and well-being.
【来源】https://mp.weixin.qq.com/s/xe5DXr3vTA69qyTTG04fQQ
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