Qian Ma

Nov 27, 2024 | scijournals.onlinelibrary.wiley.com | Kui Wang |Guocui Wu |Qian Ma |Lin Yang

DATA AVAILABILITY STATEMENT The transcriptomic datasets produced for this research are accessible in NCBI under the BioProject numbers PRJNA1108160 and PRJNA1063788. Other data relating to this research are available upon request to the corresponding author.

Sep 29, 2024 | rmets.onlinelibrary.wiley.com | Qian Ma |Han Liu

Conflicts of Interest The authors declare no conflicts of interest. Supporting Information Filename Description joc8640-sup-0001-supinfo.docxWord 2007 document , 148.8 KB Data S1. References , , , , and . 2016. “A Solar Irradiance Climate Data Record.” Bulletin of the American Meteorological Society 97: 1265–1282. , , , et al. 2011. “The Twentieth Century Reanalysis Project.” Quarterly Journal of the Royal Meteorological Society 137: 1–28. , , , et al. 2015.

Jul 14, 2024 | mdpi.com | Qian Ma |Yuxuan Xie

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Jun 5, 2024 | onlinelibrary.wiley.com | Xuemei Zhang |Lele Chang |Qian Ma |Qian Zhang

INTRODUCTION Diffuse pleural mesothelioma is a malignant tumor originating from pleural mesothelial cells.1 The incidence of malignant pleural mesothelioma is very low worldwide, and its development is most often associated with previous asbestos exposure, which is why it is also known as asbestos-related cancer.2-4 The use of asbestos has been banned or reduced in many countries to minimize environmental exposure, but widespread use of asbestos is still unavoidable in Asia, Latin America and...

Jun 3, 2024 | nature.com | Quan Wu |Wen Wei |Shao Wang |Shi Dai |Qian Ma |Tie Jun Cui | +3 more

Intelligent voice interaction offers a flexible and powerful way to connect individuals with smart devices beyond our expectations. The real-time nature of voice communication enables smart devices to comprehend the user language, execute the corresponding instructions, and facilitate seamless communications, transforming our lives in unprecedented ways. Owing to self-adaptive and reprogrammable functionalities, information metasurface (IMS) opens up a new avenue for smart home and smart cities. To further enhance the intelligence of IMS, we propose an IMS system via intelligent voice interaction and information processing. The voice interaction enables the efficient remote control on the IMS in a flexible, convenient, touchless manner. Leveraging speech recognition, speech synthesis, target detection, and communication technologies, the IMS system achieves automatic beam manipulation capabilities for wireless information transmissions and wireless power transfers. The IMS system is designed to operate in two distinct modes: instruction mode, wherein the user instructs the operations, and autonomous mode, wherein the automatic detections govern the actions, in which seamless mode switching through the voice commands is supported. Users can flexibly achieve precise control over the functions of the intelligent metasurface system through voice interaction at a distance, without the need for close-range manual touch control, which greatly simplifies the operation difficulty and is particularly suitable for remote control and complex application scenarios. A series of experiments, including wireless video transmissions and wireless power transfers are conducted to demonstrate the flexibility and convenience of the IMS system. The incorporation of intelligent voice interaction technology with the IMS presents a novel paradigm for the applications of programmable and information metasurfaces.