改变世界价值连城的发明专利

A priceless invention patent that changed the world以下是一些改变世界并且具有巨大商业价值的重大发明专利：1. iPhone：尽管它不是第一款智能手机或第一款连接互联网的手机，但其基本设计改变了人们使用手机的方式，它更像是手持计算机，影响了人类沟通、浏览甚至思考的方式；2. 磁悬浮技术：磁悬浮列车的相关专利使列车不需要与铁路轨道接触，利用磁铁来实现升力和向前的推力。例如 1967 年，布鲁克海文国家实验室的 James Powell 和 Gordon Danby 获得的磁悬浮列车专利；3. 汉字激光照排技术：20 世纪 80 年代，该技术实现了中国出版印刷行业“告别铅与火、迎来光与电”的技术革命，王选是计算机汉字激光照排技术的创始人；4. 朗科闪存：1999 年，邓国顺和成晓华共同研制出世界第一款闪存盘。朗科公司在全球多个国家和地区提交了众多专利申请；5. 机动化的外骨骼：这项 2014 年的专利，其相关产品可以帮助不同程度麻痹症患者进行康复训练，或辅助工人进行现场工作；6. 银版照相法：1839 年由达盖尔发明，被认为是摄影术的起源，让曝光时间大幅缩短，拍摄出的照片影纹细腻、色调均匀且不易褪色；7. 贝塞麦工艺：18 世纪 40 年代由英国发明家和工程师亨利·贝塞麦发明，使大规模生产钢铁成为可能，是建筑领域的一项巨大创新；8. 赛璐珞：1870 年左右由约翰·韦斯利·凯悦开发，是第一种商业上合成塑料，对现代生活有重要影响；9. 电视机：1924 年，约翰·罗杰·贝尔德发明了电视机，它极大地改变了人们获取信息和娱乐的方式；10. 萨克斯管：1846 年，安托万-约瑟夫·萨克斯获得了第一支萨克斯管的专利，独特的声音为爵士乐等音乐风格的发展奠定了基础。这些发明在各自的领域都产生了深远影响，并带来了巨大的商业价值。科技的发展是不断演进的，新的发明也在不断涌现，继续改变着世界和人们的生活。

在未来，很有可能会出现具有重大影响的电子产品发明专利。随着科技的不断进步，以下几个领域有可能催生这类重大发明：首先，人工智能与机器学习的深度融合。可能会出现更加智能、能够真正理解和适应人类需求的电子产品，例如具备高度个性化服务和决策能力的智能助手设备。其次，生物技术与电子技术的交叉创新。比如能够直接与人体神经系统交互，用于医疗康复、增强人类感知和能力的生物电子设备。再者，能源技术的突破。开发出具有超长续航能力、快速充电且对环境友好的新型能源存储和供应设备，将极大地改变电子产品的使用方式和范围。此外，量子计算技术若能在电子产品中得到广泛应用，将带来计算能力的指数级提升，从而创造出前所未有的高性能计算设备和应用场景。还有，在材料科学领域，新型的柔性、可穿戴和自修复材料的研发，可能造就形态和功能完全不同于现有产品的电子产品。总之，科技的发展永无止境，未来充满无限可能，新的具有重大影响的电子产品发明专利的出现是可以期待的。

1. 科技巨头公司：如苹果、谷歌、微软、亚马逊等。这些公司拥有雄厚的资金、强大的研发团队和广泛的市场影响力，能够投入大量资源进行前沿技术的研究和开发。2. 半导体芯片制造商：像英特尔、高通、英伟达等。他们在芯片技术方面的创新往往是电子产品性能提升的关键，有可能引领新的电子产品变革。3. 新兴科技企业：例如特斯拉在电动汽车和能源领域的创新，有可能将相关技术拓展到电子产品领域。还有一些专注于特定领域的创新企业，如在人工智能、虚拟现实等领域表现突出的初创公司。4. 大型电子制造企业：如三星、华为等，具备从研发到生产的完整产业链，有能力推动重大电子产品发明的实现和商业化。5. 高校和科研机构：如麻省理工学院、斯坦福大学、卡内基梅隆大学等知名高校的研究实验室，以及一些国家级的科研机构，如中国科学院等。他们常常在基础科学和前沿技术研究方面取得突破，为电子产品的创新提供理论和技术支持。当然，未来的创新是难以完全预测的，任何具有创新精神和足够资源的机构都有可能在电子产品领域产生重大发明。

要产生具有重大影响的电子产品发明专利，通常需要具备以下关键条件和因素：1. 强大的研发投入：包括资金、人力和时间等方面的大量投入。充足的资金能支持先进设备的购置、科研人员的招募以及长期的实验和测试。2. 卓越的科研人才：拥有具备跨学科知识、创新思维和实践能力的科学家、工程师和设计师。他们能够在电子工程、计算机科学、材料科学、物理学等多个领域融会贯通。3. 前沿的技术积累：在相关领域有深厚的技术底蕴和专利储备，为新的发明提供基础和灵感。4. 敏锐的市场洞察力：了解消费者的需求和市场趋势，确保发明能够解决实际问题并具有广泛的市场应用前景。5. 开放的创新环境：鼓励团队成员自由交流和合作，能够包容失败，激发创新思维。6. 高效的管理机制：合理规划研发流程，确保项目按时推进，资源得到有效配置。7. 跨学科合作：电子产品的重大发明往往涉及多个学科的交叉融合，如电子、材料、生物、能源等，跨学科团队的紧密合作至关重要。8. 风险承受能力：勇于探索未知领域，接受在创新过程中可能面临的风险和不确定性。9. 产业链整合能力：能够与供应商、制造商、销售商等产业链各方紧密合作，确保发明能够顺利转化为产品并推向市场。10. 政策支持：政府在政策、资金、法规等方面提供支持，为创新创造有利的外部环境。

实现前沿技术积累可以通过以下途径：1. 持续的科研投入：企业或研究机构应分配足够的资金用于基础研究和应用研究项目，以探索新的技术方向和解决关键技术问题。2. 学术交流与合作：参加国内外的学术会议、研讨会和学术论坛，与同行分享研究成果，了解最新的研究动态和趋势。3. 建立研发实验室：配备先进的实验设备和工具，为科研人员提供良好的实验条件，以便开展创新性的研究工作。4. 人才培养与引进：通过内部培养和外部引进的方式，汇聚一批具有前沿技术视野和创新能力的专业人才。5. 专利申请与分析：积极申请专利保护自身的技术创新成果，并对相关领域的专利进行分析，了解技术发展的脉络和竞争态势。6. 产学研合作：与高校、科研院所建立紧密的合作关系，共同开展科研项目，实现资源共享和优势互补。7. 跟踪国际标准和规范：参与国际技术标准的制定和修订工作，及时掌握行业的技术要求和发展方向。8. 技术并购：对于具有潜力的技术初创公司或拥有关键技术的企业，进行并购以获取其技术和人才资源。9. 内部知识共享平台：建立内部的知识共享机制和平台，促进不同项目团队之间的技术交流和经验分享。10. 设立技术观察小组：专门负责跟踪和评估新兴技术的发展，为决策提供参考依据。

（请注意，研发项目处于动态变化中，以下信息可能不是最新的）：苹果：- 研发更强大的自研芯片，以提升其设备的性能和能效。- 开发增强现实（AR）和虚拟现实（VR）相关技术和产品。谷歌：- 致力于人工智能在语言处理、图像识别等方面的优化和创新。- 探索量子计算在数据处理和算法优化上的应用。微软：- 推进云计算技术的发展，提高服务的稳定性和性能。- 研究脑机接口技术，以实现更自然的人机交互。亚马逊：- 优化其物流配送中的自动化和智能化技术。- 开发基于语音交互的智能家居系统。英特尔：- 研究新一代的半导体制造工艺，以缩小芯片制程。- 探索新的计算架构，如神经拟态计算。高校和科研机构如麻省理工学院：- 进行生物电子接口方面的研究，旨在将电子设备与生物系统更紧密地结合。- 探索新材料在能源存储和转换中的应用。中国科学院：- 开展量子通信技术的实用化研究，提高通信的安全性和效率。- 进行高性能计算系统的研发，提升计算能力。需要注意的是，这些只是一小部分示例，实际的研发项目范围广泛且不断更新。

全球高价值发明专利一览表以下是部分全球高价值发明专利的详细信息：基因编辑技术：随着CRISPR-Cas9系统的广泛应用，基因编辑技术使得科学家们能够更精确地编辑人类基因，有望在未来消除遗传疾病。这一技术在生物医学领域具有极高的经济价值和应用前景。纳米药物：纳米药物在医疗领域的应用越来越广泛，能够更准确地靶向病变部位，提高药物的治疗效果，同时降低副作用。这种技术在环境保护和医疗健康方面具有显著的经济价值。可持续能源技术：太阳能、风能等可再生能源的技术不断发展，使得我们能够更有效地利用自然资源，减少对环境的影响。这种技术在环境保护和能源利用方面具有极高的战略价值1。海水淡化技术：通过特定的纳米结构材料，可以更有效地从海水中提取淡水，解决全球水资源短缺的问题。这种技术在环境保护和资源利用方面具有显著的经济价值。深度学习技术：深度学习技术在人工智能领域的应用日益广泛，通过更复杂的神经网络结构，可以进一步提高机器学习的效果。这种技术在人工智能和自动化领域具有极高的战略价值。5G通信技术：5G技术的发展使得数据传输速度得到了极大的提升，为物联网、自动驾驶等新兴行业提供了强大的支持。这种技术在通信和自动化领域具有显著的经济价值。量子通信技术：量子通信技术以其强大的安全性和极高的传输速度，正在成为通信技术的新方向。这种技术在信息安全和高速传输方面具有极高的战略价值。3D打印技术：3D打印技术正在改变传统的制造业模式，提高了生产效率和灵活性。这种技术在制造业和自动化领域具有显著的经济价值。这些专利不仅在各自领域内具有显著的经济价值，还在环境保护、技术创新和战略发展等方面发挥了重要作用。

千年技术奖（Millennium Technology Prize）是由芬兰技术学会组织评选的奖项，自2004年起每两年颁发一次，奖金为100万欧元，旨在表彰有助于改善生活质量的技术创新。以下是部分获奖者的信息：2004年：蒂姆·伯纳斯·李，万维网之父2006年：中村修二，蓝色发光二极管发明者2008年：罗伯特·兰格，生物医学材料科学家2010年：迈克尔·格雷策尔，染料敏化太阳能电池发明人2012年：利努斯·托瓦兹，Linux操作系统创始人2024年：本德瓦尔·贾扬特·巴利加，绝缘栅双极晶体管（IGBT）发明者这些奖项的获得者都是在各自领域内对人类发展做出巨大贡献的科学家，他们的创新成果对全球技术进步和人类生活质量提升起到了重要作用。

手机（美国，1973年）——摩托罗拉工程师马丁·库珀成功拨出世界上第一通移动电话，自此 电脑（美国，1946年）——ENIAC作为首台通用电子计算机诞生，引领我们步入数字化时代，高铁（德国，1899年）——高速铁路的概念始于磁悬浮列车的研发，其后不断刷新速度 飞机（美国，1903年）——莱特兄弟驾驶。

光纤（美国，1970年）

卫星（苏联，1957年）——斯普特尼克1号的成功发射标志着人类迈。光刻机（荷兰，1984年）——半导体制造的关键设备，推动集成电路微细化。洗衣机（美国，1858年）—9. B超（美国，1950年）——医学影像技术的重大突破。

电视（英国，1925年）

. 心脏起搏器（美国，1958年）

A price invention patent that changed the world The following are some major invention patents that have changed the world and have great commercial value: 1. iPhone: Although it is not the first smart phone or the first mobile phone connected to the Internet, its basic design has changed the way people use mobile phones. It is more like a handheld computer, affecting the way people communicate, browse and even think; 2. Magnetic levitation technology: The relevant patents of magnetic levitation train make the train not need to contact with the railway track, and use magnets to realize lift and forward thrust. For example, in 1967, James Powell and Gordon Danby of Brookhaven National Laboratory obtained the patent of maglev train; 3. Chinese character laser phototypesetting technology: In 1980s, this technology realized the technological revolution of "bidding farewell to lead and fire, welcoming light and electricity" in China publishing and printing industry, and Wang Xuan was the founder of computer Chinese character laser phototypesetting technology; 4. Netac Flash Memory: In 1999, Deng Guoshun and Cheng Xiaohua jointly developed the world's first flash drive. Netac has submitted many patent applications in many countries and regions around the world; 5. Motorized exoskeleton: this patent in 2014, its related products can help patients with different degrees of paralysis to carry out rehabilitation training, or assist workers to carry out on-site work; 6. Silverplate photography: invented by Daguerre in 1839, it is considered as the origin of photography, which greatly shortens the exposure time, and the photos taken are fine in shadow, uniform in tone and not easy to fade; 7. Bessemer process: Invented by British inventor and engineer Henry Bessemer in the 1740s, it makes it possible to produce steel on a large scale, which is a great innovation in the field of architecture; 8. Celluloid: developed by John Wesley Hyatt around 1870, it is the first commercial synthetic plastic and has an important influence on modern life; 9. Television: In 1924, john logie baird invented the television, which greatly changed the way people get information and entertainment; 10. Saxophone: In 1846, Antoine Joseph Saxophone obtained the patent of the first saxophone, and the unique sound laid the foundation for the development of jazz and other musical styles. These inventions have had a far-reaching impact in their respective fields and brought great commercial value. The development of science and technology is constantly evolving, and new inventions are constantly emerging, which continue to change the world and people's lives.  In the future, it is very likely that there will be patents for invention of electronic products with great influence. With the continuous progress of science and technology, the following fields may give birth to such major inventions: First, the deep integration of artificial intelligence and machine learning. There may be more intelligent electronic products that can truly understand and adapt to human needs, such as intelligent assistant equipment with highly personalized service and decision-making ability. Secondly, the cross-innovation of biotechnology and electronic technology. For example, bioelectronic devices that can directly interact with the human nervous system for medical rehabilitation and enhance human perception and ability. Furthermore, the breakthrough of energy technology. Developing new energy storage and supply equipment with long endurance, fast charging and environmental friendliness will greatly change the use mode and scope of electronic products. In addition, if quantum computing technology can be widely used in electronic products, it will bring about an exponential increase in computing power, thus creating unprecedented high-performance computing equipment and application scenarios. Moreover, in the field of materials science, the research and development of new flexible, wearable and self-repairing materials may create electronic products with completely different forms and functions from existing products. In short, the development of science and technology is endless, and the future is full of infinite possibilities. The emergence of new patents for invention of electronic products with great influence can be expected. 1. Technology giants: such as Apple, Google, Microsoft and Amazon. These companies have abundant funds, strong R&D teams and extensive market influence, and can invest a lot of resources in the research and development of cutting-edge technologies. 2. Semiconductor chip manufacturers: such as Intel, Qualcomm and NVIDIA. Their innovation in chip technology is often the key to improve the performance of electronic products, which may lead to new changes in electronic products. 3. Emerging technology enterprises: For example, Tesla's innovation in the field of electric vehicles and energy may expand related technologies to the field of electronic products. There are also some innovative companies that focus on specific fields, such as startups that have outstanding performance in artificial intelligence and virtual reality. 4. Large electronic manufacturing enterprises, such as Samsung and Huawei, have a complete industrial chain from R&D to production, and have the ability to promote the realization and commercialization of major electronic product inventions. 5. Universities and scientific research institutions: research laboratories of famous universities such as Massachusetts Institute of Technology, Stanford University and Carnegie Mellon University, and some national scientific research institutions such as China Academy of Sciences. They often make breakthroughs in basic science and cutting-edge technology research and provide theoretical and technical support for the innovation of electronic products. Of course, it is difficult to predict the future innovation completely, and any institution with innovative spirit and sufficient resources may produce major inventions in the field of electronic products. To produce a patent for invention of electronic products with great influence, the following key conditions and factors are usually required: 1. Strong R&D investment: including a lot of investment in capital, manpower and time. Sufficient funds can support the purchase of advanced equipment, the recruitment of scientific researchers and long-term experiments and tests. 2. Excellent scientific research talents: scientists, engineers and designers with interdisciplinary knowledge, innovative thinking and practical ability. They can be integrated in many fields such as electronic engineering, computer science, material science and physics. 3. Cutting-edge technology accumulation: there are profound technical details and patent reserves in related fields, which provide foundation and inspiration for new inventions. 4. Sharp market insight: Understand consumer demand and market trends, and ensure that the invention can solve practical problems and has broad market application prospects. 5. Open innovation environment: encourage team members to communicate and cooperate freely, tolerate failures and stimulate innovative thinking. 6. Efficient management mechanism: rationally plan the R&D process to ensure that the project is promoted on time and resources are effectively allocated. 7. Interdisciplinary cooperation: Major inventions of electronic products often involve the cross-integration of multiple disciplines, such as electronics, materials, biology, energy, etc. Close cooperation among interdisciplinary teams is essential. 8. Risk tolerance: be brave in exploring unknown areas and accept the risks and uncertainties that may be faced in the process of innovation. 9. industry consolidation's ability: It can work closely with suppliers, manufacturers, sellers and other parties in the industrial chain to ensure that the invention can be successfully transformed into products and pushed to the market. 10. Policy support: The government provides support in terms of policies, funds and regulations to create a favorable external environment for innovation. The accumulation of cutting-edge technology can be achieved through the following ways: 1. Continuous investment in scientific research: enterprises or research institutions should allocate enough funds for basic research and applied research projects to explore new technical directions and solve key technical problems. 2. Academic exchange and cooperation: Participate in academic conferences, seminars and forums at home and abroad, share research results with peers, and learn about the latest research trends and trends. 3. Establish R&D laboratory: equipped with advanced experimental equipment and tools to provide good experimental conditions for scientific researchers in order to carry out innovative research work. 4. Talent training and introduction: through internal training and external introduction, a group of professionals with cutting-edge technical vision and innovative ability will be gathered. 5. Patent application and analysis: actively apply for patents to protect their own technological innovations, and analyze patents in related fields to understand the context of technological development and competitive situation. 6. Industry-University-Research Cooperation: Establish close cooperative relations with universities and research institutes, jointly carry out scientific research projects, and realize resource sharing and complementary advantages. 7. Track international standards and norms: Participate in the formulation and revision of international technical standards, and keep abreast of the technical requirements and development direction of the industry. 8. Technology M&A: For potential technology start-ups or enterprises with key technologies, conduct M&A to acquire their technology and human resources. 9. Internal knowledge sharing platform: Establish an internal knowledge sharing mechanism and platform to promote technical exchange and experience sharing among different project teams. 10. Establish a technical observation group: responsible for tracking and evaluating the development of emerging technologies and providing reference for decision-making. (Please note that R&D projects are in dynamic changes, and the following information may not be the latest): Apple:-Develop more powerful self-developed chips to improve the performance and energy efficiency of its equipment. -Develop technologies and products related to augmented reality (AR) and virtual reality (VR). Google:-Committed to the optimization and innovation of artificial intelligence in language processing and image recognition. -Explore the application of quantum computing in data processing and algorithm optimization. Microsoft:-Promote the development of cloud computing technology and improve the stability and performance of services. -Research on brain-computer interface technology to realize more natural human-computer interaction. Amazon:-Optimize its automation and intelligent technology in logistics distribution. -Develop a smart home system based on voice interaction. Intel:-Research a new generation of semiconductor manufacturing process to reduce the chip manufacturing process. -Explore new computing architectures, such as neuromimetic computing. Universities and scientific research institutions such as Massachusetts Institute of Technology:-Conduct research on bioelectronic interfaces, aiming at more closely combining electronic devices with biological systems. -Explore the application of new materials in energy storage and conversion. China Academy of Sciences:-Carry out practical research on quantum communication technology to improve the security and efficiency of communication. -Research and development of high-performance computing systems to improve computing power. It should be noted that these are only a few examples, and the actual R&D projects are extensive and constantly updated. List of global high-value invention patents The following are the detailed information of some global high-value invention patents: Gene editing technology: With the wide application of CRISPR-Cas9 system, gene editing technology enables scientists to edit human genes more accurately, which is expected to eliminate genetic diseases in the future. This technology has extremely high economic value and application prospect in the biomedical field. Nano-drugs: Nano-drugs are more and more widely used in the medical field, which can target the lesion site more accurately, improve the therapeutic effect of drugs and reduce the side effects. This technology has significant economic value in environmental protection and medical health. Sustainable energy technology: The continuous development of renewable energy technologies such as solar energy and wind energy enables us to use natural resources more effectively and reduce the impact on the environment. This technology has extremely high strategic value in environmental protection and energy utilization. Seawater desalination technology: through specific nano-structured materials, fresh water can be extracted from seawater more effectively, thus solving the problem of global water shortage. This technology has remarkable economic value in environmental protection and resource utilization. Deep learning technology: Deep learning technology is increasingly widely used in the field of artificial intelligence. Through more complex neural network structure, the effect of machine learning can be further improved. This technology is of great strategic value in the fields of artificial intelligence and automation. 5 G communication technology: The development of 5 G technology has greatly improved the data transmission speed and provided strong support for emerging industries such as the Internet of Things and autonomous driving. This technology has remarkable economic value in the fields of communication and automation. Quantum communication technology: With its strong security and high transmission speed, quantum communication technology is becoming a new direction of communication technology. This technology is of great strategic value in information security and high-speed transmission. 3 d printing technology: 3 d printing technology is changing the traditional manufacturing model and improving production efficiency and flexibility. This technology has remarkable economic value in the fields of manufacturing and automation. These patents not only have significant economic value in their respective fields, but also play an important role in environmental protection, technological innovation and strategic development.  The Millennium Technology Prize) is an award selected by the Finnish Institute of Technology. Since 2004, it has been awarded every two years with a prize of 1 million euros, in recognition of technological innovations that help improve the quality of life. The following are the information of some winners: 2004: Tim Berners Lee, Father of the World Wide Web 2006: Shuji Nakamura, inventor of blue light-emitting diode 2008: Robert Langer, biomedical materials scientist 2010: Michael Gretzer, inventor of dye-sensitized solar cell 2012: Linus Torvalds, Founder of Linux operating system in 2024: Bendwar Jayant Baliga, inventor of insulated gate bipolar transistor (IGBT). The winners of these awards are scientists who have made great contributions to human development in their respective fields, and their innovations have played an important role in global technological progress and improvement of human life quality.  Mobile phone (USA, 1973)-Motorola engineer marty cooper successfully dialed the first mobile phone in the world, and since then, computer (USA, 1946)-ENIAC was born as the first general-purpose electronic computer, leading us into the digital age, and high-speed railway (Germany, 1899)-The concept of high-speed railway began with the research and development of maglev train, and then the speed plane was constantly updated (USA, 1909). The successful launch of Putnik I, an optical fiber (USA, 1970) satellite (Soviet Union, 1957), marks the human step forward. Mask aligner (Netherlands, 1984)-the key equipment of semiconductor manufacturing, which promotes the miniaturization of integrated circuits. Washing machine (USA, 1858)-9. B-ultrasound (USA, 1950)-a major breakthrough in medical imaging technology. Television (UK, 1925). Pacemaker (USA, 1958)A price invention patent that changed the world The following are some major invention patents that have changed the world and have great commercial value: 1. iPhone: Although it is not the first smart phone or the first mobile phone connected to the Internet, its basic design has changed the way people use mobile phones. It is more like a handheld computer, affecting the way people communicate, browse and even think; 2. Magnetic levitation technology: The relevant patents of magnetic levitation train make the train not need to contact with the railway track, and use magnets to realize lift and forward thrust. For example, in 1967, James Powell and Gordon Danby of Brookhaven National Laboratory obtained the patent of maglev train; 3. Chinese character laser phototypesetting technology: In 1980s, this technology realized the technological revolution of "bidding farewell to lead and fire, welcoming light and electricity" in China publishing and printing industry, and Wang Xuan was the founder of computer Chinese character laser phototypesetting technology; 4. Netac Flash Memory: In 1999, Deng Guoshun and Cheng Xiaohua jointly developed the world's first flash drive. Netac has submitted many patent applications in many countries and regions around the world; 5. Motorized exoskeleton: this patent in 2014, its related products can help patients with different degrees of paralysis to carry out rehabilitation training, or assist workers to carry out on-site work; 6. Silverplate photography: invented by Daguerre in 1839, it is considered as the origin of photography, which greatly shortens the exposure time, and the photos taken are fine in shadow, uniform in tone and not easy to fade; 7. Bessemer process: Invented by British inventor and engineer Henry Bessemer in the 1740s, it makes it possible to produce steel on a large scale, which is a great innovation in the field of architecture; 8. Celluloid: developed by John Wesley Hyatt around 1870, it is the first commercial synthetic plastic and has an important influence on modern life; 9. Television: In 1924, john logie baird invented the television, which greatly changed the way people get information and entertainment; 10. Saxophone: In 1846, Antoine Joseph Saxophone obtained the patent of the first saxophone, and the unique sound laid the foundation for the development of jazz and other musical styles. These inventions have had a far-reaching impact in their respective fields and brought great commercial value. The development of science and technology is constantly evolving, and new inventions are constantly emerging, which continue to change the world and people's lives.  In the future, it is very likely that there will be patents for invention of electronic products with great influence. With the continuous progress of science and technology, the following fields may give birth to such major inventions: First, the deep integration of artificial intelligence and machine learning. There may be more intelligent electronic products that can truly understand and adapt to human needs, such as intelligent assistant equipment with highly personalized service and decision-making ability. Secondly, the cross-innovation of biotechnology and electronic technology. For example, bioelectronic devices that can directly interact with the human nervous system for medical rehabilitation and enhance human perception and ability. Furthermore, the breakthrough of energy technology. Developing new energy storage and supply equipment with long endurance, fast charging and environmental friendliness will greatly change the use mode and scope of electronic products. In addition, if quantum computing technology can be widely used in electronic products, it will bring about an exponential increase in computing power, thus creating unprecedented high-performance computing equipment and application scenarios. Moreover, in the field of materials science, the research and development of new flexible, wearable and self-repairing materials may create electronic products with completely different forms and functions from existing products. In short, the development of science and technology is endless, and the future is full of infinite possibilities. The emergence of new patents for invention of electronic products with great influence can be expected. 1. Technology giants: such as Apple, Google, Microsoft and Amazon. These companies have abundant funds, strong R&D teams and extensive market influence, and can invest a lot of resources in the research and development of cutting-edge technologies. 2. Semiconductor chip manufacturers: such as Intel, Qualcomm and NVIDIA. Their innovation in chip technology is often the key to improve the performance of electronic products, which may lead to new changes in electronic products. 3. Emerging technology enterprises: For example, Tesla's innovation in the field of electric vehicles and energy may expand related technologies to the field of electronic products. There are also some innovative companies that focus on specific fields, such as startups that have outstanding performance in artificial intelligence and virtual reality. 4. Large electronic manufacturing enterprises, such as Samsung and Huawei, have a complete industrial chain from R&D to production, and have the ability to promote the realization and commercialization of major electronic product inventions. 5. Universities and scientific research institutions: research laboratories of famous universities such as Massachusetts Institute of Technology, Stanford University and Carnegie Mellon University, and some national scientific research institutions such as China Academy of Sciences. They often make breakthroughs in basic science and cutting-edge technology research and provide theoretical and technical support for the innovation of electronic products. Of course, it is difficult to predict the future innovation completely, and any institution with innovative spirit and sufficient resources may produce major inventions in the field of electronic products. To produce a patent for invention of electronic products with great influence, the following key conditions and factors are usually required: 1. Strong R&D investment: including a lot of investment in capital, manpower and time. Sufficient funds can support the purchase of advanced equipment, the recruitment of scientific researchers and long-term experiments and tests. 2. Excellent scientific research talents: scientists, engineers and designers with interdisciplinary knowledge, innovative thinking and practical ability. They can be integrated in many fields such as electronic engineering, computer science, material science and physics. 3. Cutting-edge technology accumulation: there are profound technical details and patent reserves in related fields, which provide foundation and inspiration for new inventions. 4. Sharp market insight: Understand consumer demand and market trends, and ensure that the invention can solve practical problems and has broad market application prospects. 5. Open innovation environment: encourage team members to communicate and cooperate freely, tolerate failures and stimulate innovative thinking. 6. Efficient management mechanism: rationally plan the R&D process to ensure that the project is promoted on time and resources are effectively allocated. 7. Interdisciplinary cooperation: Major inventions of electronic products often involve the cross-integration of multiple disciplines, such as electronics, materials, biology, energy, etc. Close cooperation among interdisciplinary teams is essential. 8. Risk tolerance: be brave in exploring unknown areas and accept the risks and uncertainties that may be faced in the process of innovation. 9. industry consolidation's ability: It can work closely with suppliers, manufacturers, sellers and other parties in the industrial chain to ensure that the invention can be successfully transformed into products and pushed to the market. 10. Policy support: The government provides support in terms of policies, funds and regulations to create a favorable external environment for innovation. The accumulation of cutting-edge technology can be achieved through the following ways: 1. Continuous investment in scientific research: enterprises or research institutions should allocate enough funds for basic research and applied research projects to explore new technical directions and solve key technical problems. 2. Academic exchange and cooperation: Participate in academic conferences, seminars and forums at home and abroad, share research results with peers, and learn about the latest research trends and trends. 3. Establish R&D laboratory: equipped with advanced experimental equipment and tools to provide good experimental conditions for scientific researchers in order to carry out innovative research work. 4. Talent training and introduction: through internal training and external introduction, a group of professionals with cutting-edge technical vision and innovative ability will be gathered. 5. Patent application and analysis: actively apply for patents to protect their own technological innovations, and analyze patents in related fields to understand the context of technological development and competitive situation. 6. Industry-University-Research Cooperation: Establish close cooperative relations with universities and research institutes, jointly carry out scientific research projects, and realize resource sharing and complementary advantages. 7. Track international standards and norms: Participate in the formulation and revision of international technical standards, and keep abreast of the technical requirements and development direction of the industry. 8. Technology M&A: For potential technology start-ups or enterprises with key technologies, conduct M&A to acquire their technology and human resources. 9. Internal knowledge sharing platform: Establish an internal knowledge sharing mechanism and platform to promote technical exchange and experience sharing among different project teams. 10. Establish a technical observation group: responsible for tracking and evaluating the development of emerging technologies and providing reference for decision-making. (Please note that R&D projects are in dynamic changes, and the following information may not be the latest): Apple:-Develop more powerful self-developed chips to improve the performance and energy efficiency of its equipment. -Develop technologies and products related to augmented reality (AR) and virtual reality (VR). Google:-Committed to the optimization and innovation of artificial intelligence in language processing and image recognition. -Explore the application of quantum computing in data processing and algorithm optimization. Microsoft:-Promote the development of cloud computing technology and improve the stability and performance of services. -Research on brain-computer interface technology to realize more natural human-computer interaction. Amazon:-Optimize its automation and intelligent technology in logistics distribution. -Develop a smart home system based on voice interaction. Intel:-Research a new generation of semiconductor manufacturing process to reduce the chip manufacturing process. -Explore new computing architectures, such as neuromimetic computing. Universities and scientific research institutions such as Massachusetts Institute of Technology:-Conduct research on bioelectronic interfaces, aiming at more closely combining electronic devices with biological systems. -Explore the application of new materials in energy storage and conversion. China Academy of Sciences:-Carry out practical research on quantum communication technology to improve the security and efficiency of communication. -Research and development of high-performance computing systems to improve computing power. It should be noted that these are only a few examples, and the actual R&D projects are extensive and constantly updated. List of global high-value invention patents The following are the detailed information of some global high-value invention patents: Gene editing technology: With the wide application of CRISPR-Cas9 system, gene editing technology enables scientists to edit human genes more accurately, which is expected to eliminate genetic diseases in the future. This technology has extremely high economic value and application prospect in the biomedical field. Nano-drugs: Nano-drugs are more and more widely used in the medical field, which can target the lesion site more accurately, improve the therapeutic effect of drugs and reduce the side effects. This technology has significant economic value in environmental protection and medical health. Sustainable energy technology: The continuous development of renewable energy technologies such as solar energy and wind energy enables us to use natural resources more effectively and reduce the impact on the environment. This technology has extremely high strategic value in environmental protection and energy utilization. Seawater desalination technology: through specific nano-structured materials, fresh water can be extracted from seawater more effectively, thus solving the problem of global water shortage. This technology has remarkable economic value in environmental protection and resource utilization. Deep learning technology: Deep learning technology is increasingly widely used in the field of artificial intelligence. Through more complex neural network structure, the effect of machine learning can be further improved. This technology is of great strategic value in the fields of artificial intelligence and automation. 5 G communication technology: The development of 5 G technology has greatly improved the data transmission speed and provided strong support for emerging industries such as the Internet of Things and autonomous driving. This technology has remarkable economic value in the fields of communication and automation. Quantum communication technology: With its strong security and high transmission speed, quantum communication technology is becoming a new direction of communication technology. This technology is of great strategic value in information security and high-speed transmission. 3 d printing technology: 3 d printing technology is changing the traditional manufacturing model and improving production efficiency and flexibility. This technology has remarkable economic value in the fields of manufacturing and automation. These patents not only have significant economic value in their respective fields, but also play an important role in environmental protection, technological innovation and strategic development.  The Millennium Technology Prize) is an award selected by the Finnish Institute of Technology. Since 2004, it has been awarded every two years with a prize of 1 million euros, in recognition of technological innovations that help improve the quality of life. The following are the information of some winners: 2004: Tim Berners Lee, Father of the World Wide Web 2006: Shuji Nakamura, inventor of blue light-emitting diode 2008: Robert Langer, biomedical materials scientist 2010: Michael Gretzer, inventor of dye-sensitized solar cell 2012: Linus Torvalds, Founder of Linux operating system in 2024: Bendwar Jayant Baliga, inventor of insulated gate bipolar transistor (IGBT). The winners of these awards are scientists who have made great contributions to human development in their respective fields, and their innovations have played an important role in global technological progress and improvement of human life quality.  Mobile phone (USA, 1973)-Motorola engineer marty cooper successfully dialed the first mobile phone in the world, and since then, computer (USA, 1946)-ENIAC was born as the first general-purpose electronic computer, leading us into the digital age, and high-speed railway (Germany, 1899)-The concept of high-speed railway began with the research and development of maglev train, and then the speed plane was constantly updated (USA, 1909). The successful launch of Putnik I, an optical fiber (USA, 1970) satellite (Soviet Union, 1957), marks the human step forward. Mask aligner (Netherlands, 1984)-the key equipment of semiconductor manufacturing, which promotes the miniaturization of integrated circuits. Washing machine (USA, 1858)-9. B-ultrasound (USA, 1950)-a major breakthrough in medical imaging technology. Television (UK, 1925). Pacemaker (USA, 1958)

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