Core Viewpoint - Chinese scientists have successfully developed an ultra-wideband optoelectronic integrated system, achieving high-speed wireless communication across all frequency bands, which is expected to support the future of reliable 6G wireless communication [1] Group 1: Technological Advancements - The ultra-wideband optoelectronic integrated system can transmit wireless signals at any frequency point from 0.5GHz to 115GHz, showcasing international leadership in full-band compatibility [1] - The system features flexible tunability, allowing dynamic switching to secure frequency bands in response to interference, thereby enhancing communication reliability and spectrum utilization efficiency [1] Group 2: Application and Future Prospects - The integration of AI algorithms into this new system is expected to create a more flexible and intelligent AI wireless network, capable of real-time data transmission and precise environmental sensing in complex scenarios [2] - The system can automatically avoid interference signals, ensuring safer and smoother network signal transmission [2]

图为基于相关研究，所构想的未来无线网络全场景图。（受访者供图） 王兴军表示，通过植入AI算法，这种新系统将催生更灵活智能的AI无线网络，不仅可在多种复杂场景 下应用，同步实现实时数据传输与环境精准感知，还可自动规避干扰信号，让网络信号传输更安全通 畅。 来源：新华社 我国科学家近日成功研制出超宽带光电融合集成系统，首次实现全频段、灵活可调谐的高速无线通信， 有望为未来更畅通可靠的6G无线通信提供保障。该成果8月27日晚在线发表于《自然》杂志。 6G作为下一代无线通信网络，需要在多样化场景下满足各种频段的无线信号高速传输。然而，传统电 子学硬件仅适应于单个频段，不同频段的器件又有不同的设计、结构和材料，很难实现跨频段或全频段 范围的工作。 为此，北京大学、香港城市大学组成的联合研究团队，历经4年，自主研发出超宽带光电融合集成系 统。该系统的无线信号从0.5GHz（千兆赫兹）到115GHz范围内任一频点都可实现高速传输——这一全 频段兼容能力国际领先。该系统还具有灵活可调谐能力，在信号受到干扰时，能动态切换至安全频段建 立新的通信通道，提升了通信的可靠性和频谱利用效率。 "这项技术就好比建了一条超宽的高速公路，车 ...

我国科学家近日成功研制出超宽带光电融合集成系统， 首次实现全频段、灵活可调谐的高速无线 通信 ，有望为未来更畅通可靠的6G无线通信提供保障。 该成果8月27日晚在线发表于《自然》 杂志。 【导读】6G，取得新突破！ 来源：央视新闻微信公众号 我国科学家在6G无线通信领域取得新突破 印 度 总 理 莫 迪 乘 抵 达 天 津 机 6G作为下一代无线通信网络，需要在多样化场景下满足各种频段的无线信号高速传输。然而，传 统电子学硬件仅适应于单个频段，不同频段的器件又有不同的设计、结构和材料，很难实现跨频 段或全频段范围的工作。 为此，北京大学、香港城市大学组成的联合研究团队，历经4年，自主研发出超宽带光电融合集 成系统。该系统的无线信号从0.5GHz（千兆赫兹）到115GHz范围内任一频点都可实现高速传输 ——这一全频段兼容能力国际领先。该系统还具有灵活可调谐能力，在信号受到干扰时，能动态 切换至安全频段建立新的通信通道，提升了通信的可靠性和频谱利用效率。 "这项技术就好比建了一条超宽的高速公路，车辆就是电子信号，车道是频段。过去，车都只能 挤在一两个车道上，而现在有很多车道可选择。如果一条道堵了，车还能灵活换道再 ...

我国科学家在6G无线通信领域取得新突破 我国科学家近日成功研制出超宽带光电融合集成系统，首次实现全频段、灵活可调谐的高速无线通信，有望为未来更畅通可靠的6G无线通 信提供保障。 该成果8月27日晚在线发表于《自然》杂志。 6G作为下一代无线通信网络，需要在多样化场景下满足各种频段的无线信号高速传输。然而，传统电子学硬件仅适应于单个频段，不同频 段的器件又有不同的设计、结构和材料，很难实现跨频段或全频段范围的工作。 图为研究人员在北京大学实验室内调试系统链路。（受访者供图） 王兴军表示，通过植入AI算法，这种新系统将催生更灵活智能的AI无线网络，不仅可在多种复杂场景下应用，同步实现实时数据传输与环境 精准感知，还可自动规避干扰信号，让网络信号传输更安全通畅。 （本文来源：新华社 ） 为此，北京大学、香港城市大学组成的联合研究团队，历经4年，自主研发出超宽带光电融合集成系统。 该系统的无线信号从0.5GHz（千 兆赫兹）到115GHz范围内任一频点都可实现高速传输——这一全频段兼容能力国际领先。 该系统还具有灵活可调谐能力，在信号受到干扰 时，能动态切换至安全频段建立新的通信通道，提升了通信的可靠性和频谱利用效率 ...

为此，北京大学、香港城市大学组成的联合研究团队，历经4年，自主研发出超宽带光电融合集成系 统。该系统的无线信号从0.5GHz（千兆赫兹）到115GHz范围内任一频点都可实现高速传输——这一全 频段兼容能力国际领先。该系统还具有灵活可调谐能力，在信号受到干扰时，能动态切换至安全频段建 立新的通信通道，提升了通信的可靠性和频谱利用效率。 "这项技术就好比建了一条超宽的高速公路，车辆就是电子信号，车道是频段。过去，车都只能挤在一 两个车道上，而现在有很多车道可选择。如果一条道堵了，车还能灵活换道再走，车走得更快，不会堵 车。"北京大学电子学院副院长王兴军教授说。 图为基于相关研究，所构想的未来无线网络全场景图。（受访者供图） 我国科学家在6G无线通信领域取得新突破 我国科学家近日成功研制出超宽带光电融合集成系统，首次实现全频段、灵活可调谐的高速无线通信， 有望为未来更畅通可靠的6G无线通信提供保障。该成果8月27日晚在线发表于《自然》杂志。 6G作为下一代无线通信网络，需要在多样化场景下满足各种频段的无线信号高速传输。然而，传统电 子学硬件仅适应于单个频段，不同频段的器件又有不同的设计、结构和材料，很难实现跨频段或 ...

Core Viewpoint - Recent breakthroughs in 6G wireless communication technology have been achieved by Chinese scientists, specifically the development of an ultra-wideband optoelectronic integrated system that enables high-speed wireless communication across all frequency bands [1][2]. Group 1: Technological Advancements - The ultra-wideband optoelectronic integrated system can transmit wireless signals at any frequency point from 0.5GHz to 115GHz, showcasing international leadership in full-band compatibility [2]. - The system features flexible tunability, allowing it to dynamically switch to safe frequency bands in case of interference, thereby enhancing communication reliability and spectrum utilization efficiency [2][3]. - The integration of AI algorithms into this new system is expected to create a more flexible and intelligent AI wireless network, capable of real-time data transmission and precise environmental sensing [3]. Group 2: Market Reactions - On August 28, 6G concept stocks surged over 4% in the A-share market, with several stocks hitting the daily limit, including Sanwei Communication, Dongcai Technology, and Woge Optoelectronics [1][4]. - The market showed mixed performance on August 29, with Sanwei Communication hitting the limit again, while stocks like ZTE and ShuoBeide fell over 4% [1][4]. Group 3: Government Initiatives - The Ministry of Industry and Information Technology (MIIT) is accelerating the deployment of 5G-A product systems and advancing 6G technology research, while also fostering an application industry ecosystem for 6G [1][5]. - Recent government policies emphasize the integration of AI with various fields, including 6G, to support technological innovation and application [4][5]. - The MIIT has outlined plans to enhance the satellite internet system and promote high-quality development in satellite communication, which will synergize with 5G/6G and AI technologies [5][6]. Group 4: Investment Opportunities - Analysts suggest that the ongoing development of AI and related technologies will increase demand for computing power and infrastructure, presenting investment opportunities in the computing power industry chain [6][7]. - The growth of domestic internet companies and the constraints on overseas GPU supply are expected to sustain high demand for domestic computing infrastructure [6][7].

Core Viewpoint - Recent breakthroughs in 6G wireless communication technology have been achieved by Chinese scientists, marking significant progress in the field with the development of an ultra-broadband optoelectronic integrated system that enables high-speed wireless communication across all frequency bands [1][2]. Group 1: Technological Breakthroughs - The newly developed system allows for high-speed transmission of wireless signals across a frequency range from 0.5GHz to 115GHz, showcasing international leadership in full-band compatibility [2]. - The system features flexible tunability, enabling dynamic switching to secure frequency bands in response to interference, thereby enhancing communication reliability and spectrum utilization efficiency [2][3]. - The integration of AI algorithms into this new system is expected to create a more intelligent AI wireless network capable of real-time data transmission and environmental perception [3]. Group 2: Market Reactions - On August 28, 6G concept stocks surged over 4% in the A-share market, with several stocks hitting the daily limit, including Sanwei Communication and Dongcai Technology [1][4]. - The following day, stock performance showed divergence, with Sanwei Communication maintaining its limit up, while others like ZTE Corporation and ShuoBeid fell over 4% [1][4]. Group 3: Industry Developments - The Ministry of Industry and Information Technology (MIIT) is accelerating the deployment of 5G-A products and advancing 6G technology research, aiming to cultivate an application ecosystem for 6G [1][5]. - Recent government initiatives emphasize the integration of artificial intelligence with 6G and other emerging technologies, supporting innovation and application in various fields [4][5]. - The MIIT has also issued guidelines to promote the development of satellite communication industries, highlighting the importance of integrating satellite technology with 5G/6G and AI [5].

Core Insights - Recent breakthroughs in 6G wireless communication have been achieved by Chinese scientists, who developed an ultra-broadband optoelectronic integrated system capable of high-speed wireless communication across all frequency bands [1][3] - The Ministry of Industry and Information Technology (MIIT) is accelerating the deployment of 5G-A products and advancing 6G technology research, aiming to cultivate an application ecosystem for 6G [1][7] Industry Developments - The 6G sector saw a significant surge in stock prices, with companies like Sanwei Communication, Dongcai Technology, and Woge Optoelectronics hitting the daily limit, while ZTE and Shuo Beid fell by over 4% on August 29 [1][6] - The MIIT has outlined plans to enhance the integration of artificial intelligence with various technologies, including 6G, to foster innovation and application in the communication sector [5][7] Technological Advancements - The newly developed system allows for high-speed transmission of wireless signals from 0.5GHz to 115GHz, showcasing international leadership in full-band compatibility [3] - The system's flexibility enables dynamic switching to secure frequency bands in response to interference, enhancing communication reliability and spectrum efficiency [3][4] Market Outlook - Analysts suggest that the ongoing push for "Artificial Intelligence+" will elevate demands for infrastructure, computing power, and data, indicating a positive outlook for the computing power industry chain [8] - The demand for domestic computing infrastructure is expected to remain robust due to increased capital expenditure from internet companies and supply chain constraints abroad [8]

据新华社报道，我国科学家近日成功研制出超宽带光电融合集成系统，首次实现全频段、灵活可调谐的高速无线通信， 有望为未来更畅通可靠的6G无线通信提供保障。该成果近日在线发表于《自然》杂志。 6G作为下一代无线通信网络，需要在多样化场景下满足各种频段的无线信号高速传输。然而，传统电子学硬件仅适应于 单个频段，不同频段的器件又有不同的设计、结构和材料，很难实现跨频段或全频段范围的工作。 6G，传来重磅消息！ 日前，有消息称，我国科学家近日在6G无线通信领域取得重大突破，成功研制出超宽带光电融合集成系统，首次实现全 频段、灵活可调谐的高速无线通信。 此外，工信部日前表示，将加速推动5G-A产品体系与高品质网络落地部署，加快推进6G技术研发，并前瞻布局和培育面 向6G的应用产业生态。 8月28日，在A股市场上，6G板块大涨超4%，三维通信、东材科技、沃格光电等多股涨停，中兴通讯、硕贝德等涨超 7%。8月29日早盘，6G概念股走势有所分化，截至午间收盘，三维通信涨停，中国卫通涨超7%，中兴通讯、硕贝德跌超 4%。 来看详细报道！ 6G技术重大突破 为此，北京大学、香港城市大学组成的联合研究团队，历经4年，自主研发出超宽带光 ...

新华社北京8月28日电（记者魏梦佳）我国科学家近日成功研制出超宽带光电融合集成系统，首次实现 全频段、灵活可调谐的高速无线通信，有望为未来更畅通可靠的6G无线通信提供保障。该成果27日晚 在线发表于《自然》杂志。 为此，北京大学、香港城市大学组成的联合研究团队，历经4年，自主研发出超宽带光电融合集成系 统。该系统的无线信号从0.5GHz（千兆赫兹）到115GHz范围内任一频点都可实现高速传输——这一全 频段兼容能力国际领先。该系统还具有灵活可调谐能力，在信号受到干扰时，能动态切换至安全频段建 立新的通信通道，提升了通信的可靠性和频谱利用效率。 "这项技术就好比建了一条超宽的高速公路，车辆就是电子信号，车道是频段。过去，车都只能挤在一 两个车道上，而现在有很多车道可选择。如果一条道堵了，车还能灵活换道再走，车走得更快，不会堵 车。"北京大学电子学院副院长王兴军教授说。 王兴军表示，通过植入AI算法，这种新系统将催生更灵活智能的AI无线网络，不仅可在多种复杂场景 下应用，同步实现实时数据传输与环境精准感知，还可自动规避干扰信号，让网络信号传输更安全通 畅。（完） 6G作为下一代无线通信网络，需要在多样化场景下满足 ...