self-triggered program
简明释义
自起动程序
英英释义
例句
1.In our smart home setup, the self-triggered program turns on the lights when it gets dark.
在我们的智能家居设置中,自触发程序在天黑时自动打开灯光。
2.The factory uses a self-triggered program to monitor equipment performance and alert technicians when maintenance is needed.
工厂使用自触发程序监控设备性能,并在需要维护时提醒技术人员。
3.The self-triggered program allows the system to initiate tasks automatically based on predefined conditions.
该自触发程序允许系统根据预定义条件自动启动任务。
4.The self-triggered program in the app sends reminders based on your usage patterns.
应用中的自触发程序根据您的使用模式发送提醒。
5.With a self-triggered program, the software can update itself without user intervention.
通过自触发程序,软件可以在无需用户干预的情况下自动更新。
作文
In the realm of computer science and programming, various concepts and methodologies have emerged to enhance efficiency and effectiveness in software development. One such concept is a self-triggered program, which refers to a type of software that initiates its own execution based on predefined conditions or events without requiring external inputs. This characteristic allows for greater autonomy and can lead to more streamlined processes in various applications.A self-triggered program operates by monitoring certain parameters or states within the system it is integrated into. When these parameters reach specific thresholds, the program automatically activates, executing its designed functions. This can be particularly beneficial in environments where real-time data processing is essential, such as in automated systems used in manufacturing, healthcare, or smart home technologies.For instance, consider a smart thermostat that adjusts the temperature based on the occupancy of a room. The thermostat could be programmed as a self-triggered program that senses when people enter or leave the room. When the number of occupants exceeds a certain limit, the thermostat triggers an action to heat or cool the space accordingly. This not only enhances comfort but also optimizes energy consumption, showcasing the practical benefits of such programs.Moreover, self-triggered programs can significantly reduce the need for constant human intervention. In many cases, they can operate autonomously, allowing users to focus on other critical tasks. This is particularly evident in fields like agriculture, where automated irrigation systems can be programmed to activate based on soil moisture levels. By using sensors to detect when the soil is dry, these systems can trigger watering cycles without human oversight, thereby conserving water and ensuring crops receive adequate hydration.The implementation of self-triggered programs also raises questions regarding reliability and error management. Since these programs operate independently, it is crucial to ensure they are thoroughly tested and monitored to prevent unintended consequences. For example, if a self-triggered irrigation system fails to activate due to a sensor malfunction, it could result in crop failure. Therefore, robust backup systems and regular maintenance checks are essential components of any system employing self-triggered programs.In addition to technical considerations, the use of self-triggered programs has broader implications for society. As automation continues to advance, there is a growing concern about job displacement and the ethical implications of relying heavily on autonomous systems. It is vital for developers and policymakers to address these issues, ensuring that while we embrace the benefits of automation, we also consider the social and economic impacts.In conclusion, the concept of a self-triggered program represents a significant advancement in the field of programming and automation. By enabling systems to operate independently based on specific triggers, these programs enhance efficiency and reduce the need for human intervention. However, with these advancements come responsibilities regarding reliability, maintenance, and ethical considerations. As we continue to innovate and integrate self-triggered programs into various sectors, it is essential to strike a balance between technological progress and societal well-being.
在计算机科学和编程领域,各种概念和方法不断涌现,以提高软件开发的效率和有效性。其中一个概念是自触发程序,指的是一种软件,根据预定义的条件或事件自主启动其执行,而无需外部输入。这一特性使得程序具有更大的自主性,并可以在各种应用中实现更简化的流程。自触发程序通过监控其集成的系统中的某些参数或状态来运行。当这些参数达到特定阈值时,程序会自动激活并执行其设计功能。这在实时数据处理至关重要的环境中尤为有利,例如在制造、医疗或智能家居技术中使用的自动化系统。例如,考虑一个智能恒温器,它根据房间的占用情况调整温度。恒温器可以被编程为自触发程序,感应人们进出房间。当房间内的人员数量超过某个限制时,恒温器触发加热或冷却空间的动作。这不仅提高了舒适度,还优化了能源消耗,展示了此类程序的实际好处。此外,自触发程序可以显著减少对人类干预的需求。在许多情况下,它们可以独立操作,使用户能够专注于其他关键任务。这在农业等领域尤为明显,自动灌溉系统可以被编程为根据土壤湿度水平激活。通过使用传感器检测土壤干燥时,这些系统可以在没有人工监督的情况下触发浇水周期,从而节约用水并确保作物得到充分水分。实施自触发程序也引发了关于可靠性和错误管理的问题。由于这些程序独立运行,确保它们经过彻底测试和监控以防止意外后果至关重要。例如,如果自触发灌溉系统因传感器故障而未能激活,可能导致作物失败。因此,强大的备份系统和定期维护检查是任何使用自触发程序的系统的基本组成部分。除了技术考虑之外,使用自触发程序还对社会产生了更广泛的影响。随着自动化的不断推进,人们越来越担心工作岗位的流失以及过度依赖自主系统的伦理问题。开发人员和政策制定者必须解决这些问题,确保在拥抱自动化的好处时,也考虑到社会和经济的影响。总之,自触发程序的概念代表了编程和自动化领域的一项重大进展。通过使系统根据特定触发器自主运行,这些程序提高了效率并减少了对人类干预的需求。然而,伴随这些进步而来的责任涉及到可靠性、维护和伦理考量。随着我们继续创新并将自触发程序整合到各个行业中,寻找技术进步与社会福祉之间的平衡至关重要。
