allowance for drift

简明释义

偏航修正量

英英释义

例句

1.The pilot adjusted the flight path, making an allowance for drift caused by unexpected weather changes.

飞行员调整了航线，考虑到由于意外天气变化而造成的漂移的余量。

2.During the race, the driver had to make an allowance for drift when navigating the curves of the track.

在比赛中，驾驶员在驶过赛道的弯道时必须考虑到漂移的余量。

3.The project manager included an allowance for drift in the budget to cover unforeseen delays.

项目经理在预算中包含了漂移的余量，以应对不可预见的延误。

4.When designing the bridge, engineers made an allowance for drift to account for potential movement due to wind and traffic.

在设计桥梁时，工程师考虑了漂移的余量，以应对风和交通可能造成的移动。

5.In surveying, it is essential to make an allowance for drift to ensure accurate measurements over time.

在测量中，必须考虑到漂移的余量，以确保随着时间推移的准确测量。

作文

In the world of engineering and design, precision is paramount. However, there are instances where deviations from the intended path or specification occur. This is where the concept of allowance for drift comes into play. The term refers to the permissible deviation from a set standard or expected outcome, acknowledging that not everything can be controlled with absolute precision. In many fields, particularly in manufacturing and construction, it is crucial to account for these variations to ensure that the final product meets the required standards of quality and functionality.When designing a new product, engineers often have to consider various factors that may lead to discrepancies. For example, temperature changes, material properties, and even human error can all contribute to deviations in measurements and outcomes. By incorporating an allowance for drift, designers can create specifications that accommodate these uncertainties, which ultimately leads to more reliable and effective products.Take the case of a bridge construction project. Engineers must calculate the load-bearing capacity, the expansion due to heat, and the potential for ground movement. By allowing for a allowance for drift, they can ensure that even if the actual conditions differ slightly from their predictions, the bridge will still remain safe and functional. This foresight is essential not only for the integrity of the structure but also for the safety of those who use it.Moreover, the concept of allowance for drift extends beyond physical structures. In software development, for instance, developers must consider the possibility of changes in user requirements or unforeseen bugs that may arise during the implementation phase. By allowing for some degree of drift in their project timelines and resource allocations, teams can adapt more readily to these changes without compromising the overall quality of the software.In the realm of project management, incorporating an allowance for drift can significantly enhance a team's ability to meet deadlines and deliverables. When project managers recognize that unexpected challenges will inevitably arise, they can build flexibility into their schedules. This proactive approach allows teams to navigate obstacles without derailing the entire project, fostering a culture of resilience and adaptability.However, it is essential to strike a balance when applying allowance for drift. While it is vital to prepare for deviations, excessive allowances can lead to complacency and a lack of attention to detail. Therefore, teams must establish clear parameters for what constitutes acceptable drift while maintaining high standards for quality and performance.In conclusion, the concept of allowance for drift is an invaluable principle in various fields, from engineering to project management. It serves as a reminder that while striving for precision is important, acknowledging the reality of variability is equally crucial. By integrating allowances for drift into their processes, professionals can enhance their ability to deliver successful outcomes, ensuring that their projects remain on track despite the inevitable challenges that arise. Ultimately, this principle fosters innovation and resilience, enabling teams to thrive in an ever-changing environment.

在工程和设计的世界中，精确性至关重要。然而，有时会出现偏离预期路径或规范的情况。这就是allowance for drift（漂移容许量）这一概念的用武之地。这个术语指的是允许的偏差范围，即承认并非一切都可以绝对精确控制。在许多领域，尤其是制造和建筑中，考虑这些变化是至关重要的，以确保最终产品符合所需的质量和功能标准。在设计新产品时，工程师常常必须考虑可能导致偏差的各种因素。例如，温度变化、材料特性甚至人为错误都可能导致测量和结果的偏差。通过引入allowance for drift，设计者可以创建适应这些不确定性的规范，从而最终导致更可靠和有效的产品。以桥梁建设项目为例。工程师必须计算承载能力、因热膨胀引起的扩展以及地面移动的潜在影响。通过允许一定的allowance for drift，他们可以确保即使实际条件与预测略有不同，桥梁仍然保持安全和功能。这种前瞻性不仅对结构的完整性至关重要，也关乎使用者的安全。此外，allowance for drift的概念超越了物理结构。在软件开发中，开发人员必须考虑用户需求变化或在实施阶段可能出现的意外错误。通过在项目时间表和资源分配中允许一定程度的漂移，团队可以更灵活地适应这些变化，而不会影响软件的整体质量。在项目管理领域，融入allowance for drift可以显著提升团队满足截止日期和交付要求的能力。当项目经理意识到意外挑战不可避免时，他们可以在时间表中建立灵活性。这种前瞻性的方法使团队能够在不破坏整个项目的情况下应对障碍，培养出一种韧性和适应能力的文化。然而，在应用allowance for drift时，必须找到平衡。虽然准备应对偏差至关重要，但过度的容许量可能导致自满和对细节的忽视。因此，团队必须建立明确的参数，以界定什么构成可接受的漂移，同时保持高标准的质量和性能。总之，allowance for drift的概念在各个领域都是一种宝贵的原则，从工程到项目管理。它提醒我们，虽然追求精确很重要，但承认变异的现实同样至关重要。通过将漂移容许量融入其流程，专业人士可以增强交付成功结果的能力，确保他们的项目在不可避免的挑战中保持正常轨道。最终，这一原则促进了创新和韧性，使团队能够在不断变化的环境中蓬勃发展。