block adjustment

简明释义

1. 分区平差; 2. 区域网平差;

英英释义

例句

1.In geodesy, block adjustment is used to refine measurements from multiple sources.

在大地测量中，块调整用于优化来自多个来源的测量结果。

2.The team performed a block adjustment to improve the accuracy of the model.

团队进行了块调整以提高模型的准确性。

3.After the initial survey, a block adjustment was necessary to correct the data.

初步调查后，进行块调整是必要的，以纠正数据。

4.To ensure consistency, we applied a block adjustment to all the datasets.

为了确保一致性，我们对所有数据集进行了块调整。

5.The software includes a feature for block adjustment to enhance image alignment.

该软件包含一个用于增强图像对齐的块调整功能。

作文

In the realm of technology and data analysis, the term block adjustment refers to a method used to correct or modify a set of data points collectively rather than individually. This technique is particularly useful in fields such as photography, geospatial analysis, and engineering where large datasets are common. By applying block adjustment techniques, analysts can ensure that the overall integrity and accuracy of the data are maintained while making necessary corrections.For instance, consider a scenario in aerial photography where images are captured from multiple angles and heights. Each image may have slight discrepancies due to variations in lighting, camera angle, or atmospheric conditions. If we were to adjust each image individually, it could lead to inconsistencies and distortions in the final output. However, by employing block adjustment, we can analyze all the images as a cohesive group. This allows for a more uniform correction process, ensuring that the final composite image reflects a true representation of the scene being captured.Moreover, block adjustment plays a crucial role in the field of geodesy, which involves measuring and understanding the Earth’s geometric shape, orientation in space, and gravity field. In geodetic surveys, multiple observations are taken from different locations. These observations often need to be adjusted to account for various errors and biases. By applying block adjustment, surveyors can effectively minimize these errors across the entire dataset, leading to a more accurate representation of the surveyed area.The benefits of using block adjustment extend beyond mere accuracy; they also enhance efficiency. When dealing with large datasets, making individual adjustments can be time-consuming and labor-intensive. In contrast, block adjustment allows for simultaneous corrections, significantly reducing the time required for data processing. This is especially important in industries where timely decision-making is critical, such as in disaster response or urban planning.Furthermore, the implementation of block adjustment has been made easier with advancements in software and algorithms. Modern tools can automate much of the adjustment process, allowing users to focus on interpreting the results rather than getting bogged down in technical details. This democratization of technology means that even those with limited expertise can harness the power of block adjustment to improve their work.In conclusion, the concept of block adjustment is a powerful tool in the arsenal of data analysts and professionals across various fields. Its ability to correct and refine large sets of data efficiently and accurately makes it an invaluable method in today’s data-driven world. As technology continues to evolve, we can expect block adjustment techniques to become even more sophisticated, further enhancing our ability to make sense of complex datasets. By understanding and utilizing block adjustment, we open up new possibilities for innovation and precision in our work, ultimately leading to better outcomes in our respective fields.

在技术和数据分析领域，术语block adjustment指的是一种用于集体而非单独地修正或修改一组数据点的方法。这种技术在摄影、地理空间分析和工程等领域尤其有用，因为这些领域通常涉及大量数据集。通过应用block adjustment技术，分析师可以确保在进行必要的修正时，数据的整体完整性和准确性得以保持。例如，考虑一个场景，在那里从多个角度和高度拍摄了航空照片。由于光照、相机角度或大气条件的变化，每张图像可能存在轻微的差异。如果我们单独调整每张图像，可能会导致最终输出中的不一致和失真。然而，通过采用block adjustment，我们可以将所有图像作为一个整体进行分析。这使得更为统一的修正过程成为可能，确保最终合成图像真实反映被捕捉场景。此外，block adjustment在大地测量学领域也发挥着重要作用，该领域涉及测量和理解地球的几何形状、在空间中的方向以及重力场。在大地测量调查中，从不同位置进行多次观测。这些观测往往需要调整以考虑各种误差和偏差。通过应用block adjustment，测量员可以有效地最小化整个数据集中的这些误差，从而得到更准确的被测区域表示。使用block adjustment的好处不仅限于准确性；它们还提高了效率。在处理大型数据集时，进行单独调整可能既耗时又费力。相比之下，block adjustment允许同时进行修正，大大减少了数据处理所需的时间。这在需要及时决策的行业中尤为重要，例如灾难响应或城市规划。此外，随着软件和算法的进步，实施block adjustment变得更加容易。现代工具可以自动化调整过程的许多部分，使用户能够专注于解释结果，而不是陷入技术细节。这种技术的民主化意味着即使是那些专业知识有限的人也可以利用block adjustment的力量来改善他们的工作。总之，block adjustment的概念是数据分析师和各个领域专业人士的重要工具。它以高效和准确的方式修正和完善大量数据集的能力，使其在当今数据驱动的世界中成为不可或缺的方法。随着技术的不断发展，我们可以期待block adjustment技术变得更加复杂，从而进一步增强我们对复杂数据集的理解能力。通过理解和利用block adjustment，我们为我们的工作开辟了创新和精确的新可能性，最终在各自领域取得更好的成果。