computer-aided control

简明释义

计算机辅助控制

英英释义

例句

1.The manufacturing plant uses computer-aided control to optimize production efficiency.

该制造厂使用计算机辅助控制来优化生产效率。

2.The aerospace industry relies on computer-aided control for flight simulations.

航空航天工业依赖计算机辅助控制进行飞行模拟。

3.In robotics, computer-aided control helps in precise movement and task execution.

在机器人技术中，计算机辅助控制有助于精确的运动和任务执行。

4.With computer-aided control, engineers can monitor systems in real-time.

通过计算机辅助控制，工程师可以实时监控系统。

5.The automotive sector uses computer-aided control for automated driving features.

汽车行业使用计算机辅助控制来实现自动驾驶功能。

作文

In today's fast-paced technological world, the integration of computers into various fields has revolutionized the way we approach complex problems. One significant advancement is found in the realm of engineering and automation: computer-aided control. This term refers to the use of computer systems to assist in the regulation and management of processes, particularly in industrial settings. The importance of computer-aided control cannot be overstated, as it enhances efficiency, accuracy, and safety in operations.To understand the implications of computer-aided control, we must first consider its applications. In manufacturing, for instance, machines are often controlled by computerized systems that monitor performance in real-time. These systems can adjust parameters automatically to optimize production rates and minimize waste. By employing computer-aided control, manufacturers can achieve higher output levels while maintaining product quality, which is crucial in a competitive market.Moreover, computer-aided control systems are not limited to manufacturing alone; they are also extensively used in process industries such as chemical plants and oil refineries. Here, the ability to control temperature, pressure, and flow rates with precision is vital. Computer systems equipped with advanced algorithms can analyze data from sensors and make instantaneous adjustments to ensure that operations remain within safe and efficient limits. This capability significantly reduces the risk of accidents and environmental hazards, showcasing how computer-aided control contributes to safer industrial practices.Another critical area where computer-aided control plays a pivotal role is in robotics. Modern robots are equipped with sophisticated control systems that allow them to perform intricate tasks with minimal human intervention. For example, in automotive assembly lines, robots utilize computer-aided control to assemble parts with high precision, resulting in faster production times and lower labor costs. This automation not only streamlines operations but also frees human workers to focus on more complex tasks that require creativity and problem-solving skills.Furthermore, computer-aided control has made significant strides in the field of transportation. Automated vehicles, including drones and self-driving cars, rely heavily on computer systems to navigate and respond to their environments. These vehicles use sensors and cameras to gather data, which is then processed by onboard computers using computer-aided control algorithms. This technology enhances safety by reducing human error and improving reaction times in critical situations.Despite its numerous advantages, the implementation of computer-aided control is not without challenges. One major concern is the potential for system failures, which could lead to catastrophic outcomes in critical applications. Therefore, robust testing and validation processes are essential to ensure that these systems operate reliably under various conditions. Additionally, as industries become increasingly reliant on computer-aided control, there is a growing need for skilled professionals who can design, implement, and maintain these complex systems.In conclusion, computer-aided control represents a transformative force in modern engineering and automation. Its ability to enhance efficiency, safety, and precision in various applications makes it an invaluable tool across multiple industries. As technology continues to evolve, the role of computer-aided control will undoubtedly expand, driving further innovations and improvements in how we manage and control complex processes. Embracing this technology is essential for organizations aiming to stay competitive in a rapidly changing landscape.

在当今快速发展的技术世界中，计算机的整合已经彻底改变了我们处理复杂问题的方式。其中一个重要的进步体现在工程和自动化领域：计算机辅助控制。这个术语指的是使用计算机系统来帮助调节和管理过程，特别是在工业环境中。计算机辅助控制的重要性不容小觑，因为它提高了操作的效率、准确性和安全性。为了理解计算机辅助控制的含义，我们必须首先考虑它的应用。例如，在制造业中，机器通常由计算机化系统控制，这些系统实时监测性能。这些系统可以自动调整参数，以优化生产率并最小化浪费。通过采用计算机辅助控制，制造商可以在保持产品质量的同时实现更高的产出水平，这在竞争激烈的市场中至关重要。此外，计算机辅助控制系统不仅限于制造，它们还广泛应用于化工厂和石油精炼厂等过程工业。在这里，以精确控制温度、压力和流量为重中之重。配备先进算法的计算机系统可以分析传感器的数据，并立即进行调整，以确保操作保持在安全和高效的范围内。这种能力显著降低了事故和环境危害的风险，展示了计算机辅助控制如何促进更安全的工业实践。计算机辅助控制在机器人领域也发挥着关键作用。现代机器人配备了复杂的控制系统，使它们能够以最小的人为干预执行复杂任务。例如，在汽车装配线上，机器人利用计算机辅助控制以高精度组装部件，从而实现更快的生产时间和更低的劳动力成本。这种自动化不仅简化了操作，还解放了人类工人，使他们能够专注于需要创造力和解决问题技能的更复杂任务。此外，计算机辅助控制在交通运输领域也取得了重大进展。自动化车辆，包括无人机和自驾车，严重依赖计算机系统来导航和响应其环境。这些车辆使用传感器和摄像头收集数据，然后由车载计算机使用计算机辅助控制算法进行处理。这项技术通过减少人为错误和提高关键情况下的反应时间来增强安全性。尽管有很多优点，计算机辅助控制的实施并非没有挑战。一个主要问题是系统故障的潜在风险，这可能导致关键应用中的灾难性后果。因此，强有力的测试和验证过程对于确保这些系统在各种条件下可靠运行至关重要。此外，随着各行业日益依赖计算机辅助控制，对能够设计、实施和维护这些复杂系统的专业人员的需求也在不断增长。总之，计算机辅助控制代表了现代工程和自动化中的一种变革力量。它在各种应用中提高效率、安全性和精准度的能力，使其成为多个行业中不可或缺的工具。随着技术的不断发展，计算机辅助控制的角色无疑会扩大，推动我们在管理和控制复杂过程方面的进一步创新和改进。拥抱这项技术对于希望在快速变化的市场中保持竞争力的组织至关重要。