reprogramming

简明释义

英[/ˌriːˈprɒɡrəˌmɪŋ/]美[/ˌriːˈprɒɡrəˌmɪŋ/]

n. [计]改编程序；[计]重编程序

v. 为……重编程序；重新安排（reprogram 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.Not by reprogramming your mind to love something you hate, but by finding things about the habit you do enjoy.

不是要改变自己的想法去喜欢讨厌的事，而是去找出该事物中你所喜欢的方面。

2.(The epigenome governs patterns of gene expression.) This reprogramming could explain how we are indeed evolving so fast.

(外部基因控制着基因的外部表现形式)这种改变能够解释我们为什么会胖得如此之快。

3.Once the defense mechanism is shut off, mRNA carrying the genes for cell reprogramming can be safely delivered.

只要关闭了这种自卫机制，能够重新编码细胞且携带遗传基因的信使RNA就能安全导入了。

4.The drug ACTS by essentially reprogramming the metabolism of cancer cells, re-teaching them to undergo apoptosis, or cell death.

它可以重组癌细胞的新陈代谢，重新教会癌细胞如何死亡。

5.But the technique, called cellular reprogramming, has some drawbacks.

但是这种被称作细胞重新编程的技术具有一些缺点。

6.For that reason, LABS around the world are working on other ways to trigger reprogramming.

由于这个原因，世界各地的实验室都在寻找其它方法来引发细胞再编程。

7.This reprogramming of the genes in the brain helps nerve cells to grow and develop larger networks.

这种基因的“重新编程”帮助细胞生长并组成更发达的神经网络。

8.The software update requires reprogramming 重新编程 the device to enhance its performance.

软件更新需要重新编程设备以提升其性能。

9.After the system crash, the IT team focused on reprogramming 重新编程 the database to recover lost data.

系统崩溃后，IT团队专注于重新编程数据库以恢复丢失的数据。

10.The robotics engineer is reprogramming 重新编程 the robot to perform new tasks.

机器人工程师正在重新编程机器人以执行新任务。

11.The game developers are reprogramming 重新编程 the AI to make it more challenging.

游戏开发者正在重新编程人工智能，以使其更具挑战性。

12.The company is reprogramming 重新编程 its marketing strategy to target a younger audience.

公司正在重新编程其营销策略，以瞄准年轻受众。

作文

In the rapidly evolving world of technology, the term reprogramming has become increasingly significant. Reprogramming refers to the process of modifying the existing programming of a computer or a device to change its functionality or behavior. This concept is not limited to just software; it can also apply to hardware systems and even biological entities. Understanding reprogramming is crucial as it opens up new possibilities for innovation and improvement in various fields. One of the most prominent examples of reprogramming is found in the realm of artificial intelligence (AI). AI systems often require updates and modifications to enhance their performance or to adapt to new data. Through reprogramming, developers can refine algorithms, improve machine learning models, and ultimately create smarter systems that can learn and evolve over time. This continuous cycle of reprogramming ensures that AI remains relevant and effective in solving complex problems across industries. Moreover, reprogramming is not confined to traditional computing environments. In recent years, advances in biotechnology have led to the concept of cellular reprogramming. Scientists have discovered ways to transform specialized cells back into a pluripotent state, allowing them to develop into different cell types. This groundbreaking technique holds immense potential for regenerative medicine, as it could enable the creation of tissues or organs for transplantation. The implications of cellular reprogramming are vast, offering hope for treating diseases that currently have no cure. In addition to technological advancements, reprogramming can also be applied to personal development. Individuals often seek ways to change their habits, thought patterns, or behaviors, which can be viewed as a form of reprogramming the mind. Techniques such as mindfulness, cognitive behavioral therapy, and positive affirmations serve as tools for individuals to reprogram their thinking and foster a more positive mindset. This personal reprogramming can lead to improved mental health, better relationships, and enhanced overall well-being. Furthermore, businesses frequently engage in reprogramming their strategies to adapt to changing market conditions. In today’s competitive landscape, companies must be agile and responsive to consumer demands and technological advancements. By reprogramming their business models, organizations can innovate their products and services, streamline operations, and ultimately achieve sustainable growth. This kind of strategic reprogramming is essential for survival in an ever-changing economic environment. In conclusion, the concept of reprogramming extends far beyond mere technical alterations. It encompasses a wide range of applications, from enhancing AI systems and advancing medical research to personal growth and business strategy. As we continue to explore the potential of reprogramming, it is clear that this process will play a pivotal role in shaping the future, driving innovation, and improving lives. Embracing reprogramming in various aspects of our lives can lead to transformative outcomes, making it an essential skill in the modern world.

在快速发展的科技世界中，术语重编程变得越来越重要。重编程指的是修改计算机或设备现有编程的过程，以改变其功能或行为。这个概念不仅限于软件；它还可以应用于硬件系统，甚至生物实体。理解重编程至关重要，因为它为各个领域的创新和改进开辟了新的可能性。 一个最突出的例子是人工智能（AI）领域。AI系统通常需要更新和修改，以提高其性能或适应新数据。通过重编程，开发人员可以优化算法，改善机器学习模型，并最终创建更智能的系统，使其能够随时间学习和发展。这种持续的重编程循环确保了AI在解决复杂问题时保持相关性和有效性。 此外，重编程并不局限于传统计算环境。近年来，生物技术的进步导致了细胞重编程的概念。科学家们发现了将专门化细胞转变回多能状态的方法，使其能够发展成不同的细胞类型。这一突破性技术在再生医学中具有巨大潜力，因为它可能使组织或器官的创建成为可能，用于移植。细胞重编程的影响是巨大的，为治疗目前没有治愈方法的疾病带来了希望。 除了技术进步，重编程也可以应用于个人发展。个人常常寻求改变自己的习惯、思维模式或行为，这可以看作是一种心理的重编程。正念、认知行为疗法和积极自我暗示等技巧是个人用来重编程自己的思维，培养更积极心态的工具。这种个人的重编程可以改善心理健康，提升人际关系，并增强整体幸福感。 此外，企业经常参与重编程其战略，以适应不断变化的市场条件。在当今竞争激烈的环境中，公司必须灵活应对消费者需求和技术进步。通过重编程商业模式，组织可以创新其产品和服务，简化运营，并最终实现可持续增长。这种战略性的重编程对于在不断变化的经济环境中生存至关重要。 总之，重编程的概念远不止于技术上的改变。它涵盖了广泛的应用，从增强AI系统和推动医学研究到个人成长和商业战略。随着我们继续探索重编程的潜力，很明显这一过程将在塑造未来、推动创新和改善生活方面发挥关键作用。在我们生活的各个方面拥抱重编程可以带来变革性的结果，使其成为现代社会中一项重要的技能。