nonautonomous

简明释义

英[ˌnɒnəˈtɔːnəməs]美[ˌnɑːnəˈtɔːnəməs]

非自治

英英释义

单词用法

同义词

反义词

例句

1.The main results obtained in this paper show that the unique steady state of the nonlinear nonautonomous circuits can be determined by the stability of decomposed matrixes.

结果表明，该类电路的唯一稳态，可以用分解矩阵的稳定性来决定。

2.The main results obtained in this paper show that the unique steady state of the nonlinear nonautonomous circuits can be determined by the stability of decomposed matrixes.

结果表明，该类电路的唯一稳态，可以用分解矩阵的稳定性来决定。

3.In chapter 2, We study a nonautonomous SIS model with age structure.

第二章，提出了具有年龄结构和周期传染率的的SIS模型。

4.In this paper we shall discuss the criteria of stability for second-order linear nonautonomous, systems using the integral inequality.

本文所考虑的是二阶非定常系统稳定性的积分不等式判别法。

5.The robot was classified as nonautonomous because it required constant human supervision.

这款机器人被归类为非自主，因为它需要持续的人类监督。

6.The software's nonautonomous nature means it cannot make decisions without user commands.

该软件的非自主特性意味着它无法在没有用户命令的情况下做出决策。

7.In a nonautonomous system, user input is essential for operation.

在一个非自主系统中，用户输入对操作至关重要。

8.The nonautonomous drone could only fly when controlled by an operator.

这架非自主无人机只能在操作者的控制下飞行。

9.Many educational robots are nonautonomous and require guidance from teachers.

许多教育机器人是非自主的，需要教师的指导。

作文

In the realm of science and technology, the term nonautonomous refers to systems or entities that do not possess the ability to operate independently. This concept is especially relevant in discussions about artificial intelligence and robotics, where machines often require human intervention to perform tasks effectively. The idea of nonautonomous systems can be illustrated through various examples, from simple household appliances to complex industrial machines. For instance, consider a traditional washing machine. While it automates the process of washing clothes, it still relies on human input for selecting the wash cycle, adding detergent, and loading the laundry. In this context, the washing machine is a nonautonomous device because it cannot function without human guidance. Similarly, many robotic systems used in manufacturing are designed to assist human workers rather than operate entirely on their own. These robots may perform repetitive tasks efficiently, but they still depend on humans to set up the workflow and make crucial decisions. The implications of nonautonomous systems extend beyond individual devices; they raise important questions about the future of work and the role of automation in society. As technology advances, there is a growing debate about whether we should strive for fully autonomous systems or focus on enhancing nonautonomous technologies that complement human capabilities. Proponents of full automation argue that it can lead to increased efficiency and productivity, while critics warn of potential job losses and ethical dilemmas associated with machines making decisions without human oversight. Moreover, the concept of nonautonomous can also be applied to social and political contexts. For example, certain regions or communities may be described as nonautonomous if they lack the ability to govern themselves or make independent decisions. This can occur due to external influences, such as colonialism or economic dependence on more powerful nations. In such cases, nonautonomous entities may struggle to achieve self-determination and autonomy, leading to ongoing conflicts and challenges in governance. In conclusion, understanding the concept of nonautonomous is crucial in various fields, including technology, sociology, and politics. Whether we are discussing machines that require human input or communities that lack self-governance, the implications of nonautonomous systems are far-reaching. As we continue to innovate and develop new technologies, it is essential to consider how these nonautonomous entities can be integrated into our lives in a way that enhances human potential rather than diminishes it. By striking a balance between autonomy and interdependence, we can create a future where technology serves as a tool for empowerment rather than a replacement for human agency.

在科学和技术领域，术语nonautonomous指的是无法独立操作的系统或实体。这个概念在讨论人工智能和机器人技术时尤其相关，因为机器通常需要人类干预才能有效执行任务。nonautonomous系统的概念可以通过各种例子来说明，从简单的家用电器到复杂的工业机器。例如，考虑一台传统的洗衣机。虽然它自动化了洗衣过程，但仍然依赖于人类输入来选择洗涤周期、添加洗涤剂和装载衣物。在这种情况下，洗衣机是一个nonautonomous设备，因为它无法在没有人类指导的情况下运行。类似地，许多用于制造业的机器人系统被设计为辅助人类工人，而不是完全独立运作。这些机器人可能高效地执行重复性任务，但它们仍然依赖于人类来设置工作流程并做出关键决策。nonautonomous系统的影响超出了单个设备的范畴；它们引发了关于未来工作和自动化在社会中角色的重要问题。随着技术的进步，关于我们是否应该追求完全自主系统或专注于增强补充人类能力的nonautonomous技术的辩论日益激烈。全自动化的支持者认为，这可以提高效率和生产力，而批评者则警告与机器在没有人类监督的情况下做出决策相关的潜在失业和伦理困境。此外，nonautonomous的概念也可以应用于社会和政治背景。例如，某些地区或社区如果缺乏自我治理或独立决策的能力，可能会被描述为nonautonomous。这种情况可能由于外部影响而发生，例如殖民主义或对更强大国家的经济依赖。在这种情况下，nonautonomous实体可能难以实现自决和自主权，从而导致持续的冲突和治理挑战。总之，理解nonautonomous的概念在技术、社会学和政治等各个领域都至关重要。无论我们是在讨论需要人类输入的机器还是缺乏自我治理的社区，nonautonomous系统的影响都是深远的。随着我们继续创新和开发新技术，考虑这些nonautonomous实体如何以增强人类潜能而非削弱人类代理的方式融入我们的生活至关重要。通过在自主性和相互依赖之间取得平衡，我们可以创造一个技术作为赋能工具而非取代人类代理的未来。