pulsing system

简明释义

脉冲制

英英释义

例句

1.The new traffic management employs a pulsing system to optimize flow during peak hours.

新的交通管理采用了一个脉动系统来优化高峰时段的流量。

2.The fitness tracker features a pulsing system that adjusts workout intensity based on heart rate.

这款健身追踪器具有一个脉动系统，根据心率调整锻炼强度。

3.A pulsing system in the irrigation setup ensures even water distribution.

灌溉系统中的脉动系统确保水分均匀分布。

4.The sound design uses a pulsing system to create a dynamic audio experience.

声音设计使用了一个脉动系统来创造动态音频体验。

5.In our laboratory, we use a pulsing system for precise control of chemical reactions.

在我们的实验室中，我们使用一个脉动系统来精确控制化学反应。

作文

In the realm of science and technology, the concept of a pulsing system has gained significant attention due to its unique characteristics and applications. A pulsing system can be defined as a system that operates in a cyclical manner, producing outputs at regular intervals or pulses. This concept is prevalent in various fields, including engineering, biology, and even economics. Understanding the dynamics of a pulsing system can provide insights into how these systems function and their importance in real-world applications.One of the most prominent examples of a pulsing system is found in nature—the human heart. The heart functions as a biological pulsing system, pumping blood through the body in rhythmic cycles. Each heartbeat is a pulse that delivers oxygen and nutrients to tissues while removing carbon dioxide and waste products. This natural pulsing system is essential for sustaining life, demonstrating how vital such systems are in biological contexts.In engineering, pulsing systems are often utilized in various technologies. For instance, in telecommunications, data is transmitted in pulses over networks. This method allows for efficient communication by encoding information into binary signals, which are then sent as electrical pulses. The reliability of a pulsing system in this context ensures that data can be transmitted quickly and accurately, highlighting its significance in modern technology.Moreover, pulsing systems are integral to control systems in industrial applications. In manufacturing, machinery often relies on pulsing systems to regulate processes. For example, conveyor belts may operate in pulses to move products systematically along a production line. This synchronization enhances efficiency and productivity, showcasing how pulsing systems optimize operations in various sectors.Economically, the concept of a pulsing system can also be observed in market trends. Economic cycles, characterized by periods of growth and recession, can be viewed as a pulsing system. These cycles reflect the fluctuations in supply and demand, influencing investment strategies and policy-making. By analyzing these patterns, economists can predict future trends and make informed decisions, demonstrating the relevance of pulsing systems in financial contexts.In conclusion, the understanding of a pulsing system extends across multiple disciplines, from biology to engineering and economics. The cyclical nature of these systems plays a crucial role in their functionality and effectiveness. Whether in the rhythm of a heartbeat, the transmission of data, the operation of machinery, or the fluctuations of the economy, pulsing systems are fundamental to the way we understand and interact with the world around us. As technology continues to advance, the study of pulsing systems will likely yield further innovations and applications, underscoring their importance in both scientific inquiry and practical implementation.

在科学和技术领域，脉冲系统的概念因其独特的特性和应用而受到广泛关注。脉冲系统可以定义为以循环方式运作的系统，在固定的时间间隔或脉冲中产生输出。这个概念在工程、生物学甚至经济学等各个领域都很普遍。理解脉冲系统的动态特性可以提供关于这些系统如何运作及其在现实世界中重要性的见解。一个最突出的脉冲系统例子可以在自然界中找到——人类的心脏。心脏作为一种生物脉冲系统，以有节奏的周期将血液泵送到全身。每一次心跳都是一次脉冲，向组织输送氧气和营养，同时清除二氧化碳和废物。这种自然的脉冲系统对于维持生命至关重要，展示了此类系统在生物学背景中的重要性。在工程领域，脉冲系统常常被应用于各种技术中。例如，在电信中，数据以脉冲的形式通过网络传输。这种方法通过将信息编码成二进制信号，然后以电脉冲的形式发送，从而实现高效通信。在这种情况下，脉冲系统的可靠性确保了数据能够快速准确地传输，突显了其在现代技术中的重要性。此外，脉冲系统在工业应用中的控制系统中也至关重要。在制造业中，机器通常依赖于脉冲系统来调节过程。例如，输送带可能以脉冲的方式运作，以系统地移动产品沿生产线。这种同步提高了效率和生产力，展示了脉冲系统如何优化各个行业的操作。在经济学上，脉冲系统的概念也可以在市场趋势中观察到。经济周期以增长和衰退的时期为特征，可以视为一种脉冲系统。这些周期反映了供需的波动，影响投资策略和政策制定。通过分析这些模式，经济学家可以预测未来趋势并做出明智的决策，展示了脉冲系统在金融背景中的相关性。总之，对脉冲系统的理解跨越多个学科，从生物学到工程学再到经济学。这些系统的循环特性在它们的功能和有效性中发挥着至关重要的作用。无论是心跳的节奏、数据的传输、机器的运作还是经济的波动，脉冲系统对我们理解和与周围世界互动的方式至关重要。随着科技的不断发展，对脉冲系统的研究可能会带来更多创新和应用，强调其在科学探究和实际实施中的重要性。