fire control

简明释义

点火控制火灾控制

英英释义

The methods and systems used to manage and direct the use of firepower in military operations.

在军事行动中用于管理和指挥火力使用的方法和系统。

Techniques employed to suppress or extinguish unwanted fires, particularly in firefighting.

用于压制或扑灭不必要火灾的技术,特别是在消防中。

例句

1.The military uses advanced technology for fire control to ensure precision in targeting.

军方使用先进技术进行火力控制以确保目标的精准打击。

2.During training exercises, soldiers practice fire control techniques to enhance their skills.

在训练演习中,士兵们练习火力控制技巧以提升他们的技能。

3.In a forest fire, effective fire control measures can save lives and property.

在森林火灾中,有效的火灾控制措施可以拯救生命和财产。

4.The firefighter reported that fire control was established within minutes of arrival.

消防员报告称,到达后几分钟内就建立了火灾控制

5.The new software improves fire control systems in naval ships.

新软件提高了海军舰艇的火力控制系统。

作文

In modern warfare, the term fire control refers to the systems and procedures used to direct and manage weaponry to effectively engage targets. This concept encompasses a wide range of technologies and methodologies that ensure accuracy and efficiency in combat operations. The primary goal of fire control is to maximize the effectiveness of a military unit while minimizing collateral damage and unnecessary expenditures of ammunition.Historically, fire control has evolved significantly from simple manual aiming techniques to sophisticated computer-assisted systems. In the early days of artillery, soldiers relied on their skills and experience to estimate range and direction. However, as weapons became more advanced, the need for precision increased. This led to the development of various tools, such as range finders and ballistic calculators, which provided crucial data to gunners.Today, fire control systems are integral to all branches of the military. In naval operations, for instance, ships are equipped with advanced radar and targeting systems that allow them to track enemy vessels and coordinate attacks with other units. Similarly, in air combat, fighter jets utilize fire control systems to lock onto targets and deliver munitions with pinpoint accuracy. These systems often incorporate real-time data from satellites and drones, enhancing situational awareness and decision-making capabilities.One of the most significant advancements in fire control technology is the integration of artificial intelligence (AI) and machine learning. These innovations enable systems to analyze vast amounts of data quickly, improving target identification and engagement strategies. For example, AI algorithms can assess multiple variables, such as weather conditions and enemy movements, to determine the optimal time and method for an attack. This not only increases the likelihood of success but also helps to protect the lives of military personnel.Moreover, fire control is not limited to traditional military applications. Law enforcement agencies and firefighting teams also employ similar principles to manage their operations effectively. In law enforcement, tactical teams use fire control techniques to ensure the safety of civilians during high-stakes situations, such as hostage rescues or armed confrontations. By coordinating their actions and utilizing precise targeting methods, they can neutralize threats while minimizing risks.In firefighting, fire control involves strategies to contain and extinguish fires efficiently. Firefighters assess the situation, determine the best approach, and deploy resources accordingly. This could involve aerial support, ground crews, or both, depending on the fire's size and location. Effective fire control in this context is vital to protecting lives and property, demonstrating the versatility of the concept across different fields.In conclusion, fire control is a critical element in both military and civilian contexts. Its evolution from basic aiming techniques to advanced, technology-driven systems illustrates the importance of precision and efficiency in managing any form of engagement. As technology continues to advance, the role of fire control will likely expand, incorporating new methods and tools to enhance operational effectiveness. Understanding and mastering fire control is essential for anyone involved in these high-stakes environments, as it directly impacts the success of missions and the safety of individuals involved.

在现代战争中,术语火力控制指的是用于指导和管理武器以有效打击目标的系统和程序。这个概念涵盖了一系列技术和方法,确保战斗行动的准确性和效率。火力控制的主要目标是最大限度地提高军事单位的有效性,同时减少附带损害和不必要的弹药支出。历史上,火力控制从简单的手动瞄准技术演变为复杂的计算机辅助系统。早期的炮兵,士兵依靠他们的技能和经验来估计射程和方向。然而,随着武器的不断进步,对精确度的需求也在增加。这导致了各种工具的发展,例如测距仪和弹道计算器,为炮手提供至关重要的数据。如今,火力控制系统是所有军种不可或缺的一部分。在海军作战中,例如,舰船配备了先进的雷达和目标定位系统,使其能够跟踪敌方舰艇并与其他单位协调攻击。同样,在空战中,战斗机利用火力控制系统锁定目标并以精确的命中率投放弹药。这些系统通常结合来自卫星和无人机的实时数据,提高了态势感知和决策能力。火力控制技术的一个重大进展是人工智能(AI)和机器学习的整合。这些创新使系统能够快速分析大量数据,从而改善目标识别和打击策略。例如,AI算法可以评估多种变量,如天气条件和敌方动向,以确定最佳攻击时间和方法。这不仅增加了成功的可能性,还帮助保护军事人员的生命。此外,火力控制并不限于传统的军事应用。执法机构和消防队也采用类似的原则来有效管理其操作。在执法中,战术小组使用火力控制技术以确保在高风险情况下(如人质营救或武装对峙)保护平民的安全。通过协调他们的行动并利用精确的瞄准方法,他们可以在尽量减少风险的同时消除威胁。在消防中,火力控制涉及有效遏制和扑灭火灾的策略。消防员评估情况,确定最佳方法,并相应地部署资源。这可能涉及空中支援、地面队伍或两者,具体取决于火灾的规模和位置。有效的火力控制在这种情况下对于保护生命和财产至关重要,展示了这一概念在不同领域的多样性。总之,火力控制在军事和民用环境中都是一个关键要素。从基本的瞄准技术到先进的技术驱动系统的演变,说明了在任何形式的交战中管理精确性和效率的重要性。随着技术的持续进步,火力控制的角色可能会进一步扩展,结合新方法和工具以增强操作有效性。理解和掌握火力控制对于任何参与这些高风险环境的人来说都是必不可少的,因为它直接影响任务的成功和参与者的安全。