imaging array

简明释义

成像阵列

英英释义

例句

1.The research team is testing a new type of imaging array for detecting environmental pollutants.

研究小组正在测试一种新型的成像阵列，用于检测环境污染物。

2.Scientists are developing a multi-spectral imaging array to analyze plant health from satellite data.

科学家们正在开发一种多光谱成像阵列，以分析卫星数据中的植物健康状况。

3.The new camera features an advanced imaging array that captures high-resolution images even in low light conditions.

这款新相机配备了先进的成像阵列，即使在低光条件下也能捕捉高分辨率的图像。

4.In medical imaging, an imaging array can help produce clearer scans for better diagnosis.

在医学成像中，成像阵列可以帮助产生更清晰的扫描，以便更好地诊断。

5.The smartphone uses a sophisticated imaging array to enhance photo quality and reduce noise.

这款智能手机使用复杂的成像阵列来增强照片质量并减少噪点。

作文

In the field of modern technology, the term imaging array refers to a collection of sensors or detectors that capture and process visual information. These arrays are integral components in devices such as cameras, medical imaging systems, and satellite imaging systems. The functionality of an imaging array is based on the principle of converting light into electrical signals, which can then be processed to create images. This technology has revolutionized various industries, from healthcare to entertainment, by providing high-resolution images and enabling advanced analysis of visual data.One of the most common applications of imaging arrays is in digital cameras. A digital camera utilizes a charge-coupled device (CCD) or a complementary metal-oxide-semiconductor (CMOS) sensor as its imaging array. These sensors consist of millions of tiny pixels that capture light and convert it into digital information. The quality of the images produced by a camera largely depends on the size and efficiency of its imaging array. For instance, a larger imaging array with more pixels can capture finer details, resulting in higher resolution photographs. This advancement in imaging technology has allowed photographers and videographers to produce stunning visuals that were once unimaginable.In the medical field, imaging arrays play a crucial role in diagnostic imaging techniques, such as MRI (Magnetic Resonance Imaging) and CT (Computed Tomography) scans. In these applications, the imaging array consists of multiple sensors that detect different frequencies of energy emitted by the body. The data collected by the imaging array is then processed to create detailed images of internal organs and tissues, enabling doctors to diagnose conditions accurately and effectively. The precision and speed of modern imaging arrays have significantly improved patient care and outcomes.Moreover, imaging arrays are also utilized in remote sensing technology, which involves collecting data about the Earth's surface from a distance, often using satellites. In this context, an imaging array captures electromagnetic radiation reflected from the Earth's surface, allowing scientists to analyze land use, monitor environmental changes, and assess natural disasters. The ability to gather vast amounts of data from different wavelengths makes imaging arrays essential tools for researchers and policymakers.In conclusion, the concept of imaging arrays encompasses a wide range of technologies that enhance our ability to capture and interpret visual information. Whether in photography, medicine, or environmental monitoring, imaging arrays have become indispensable in our quest for knowledge and understanding. As technology continues to advance, we can expect even more sophisticated imaging arrays to emerge, further transforming how we perceive and interact with the world around us. The future of imaging technology is undoubtedly bright, and the potential applications of imaging arrays are limitless, paving the way for innovations that will continue to shape our lives for years to come.

在现代科技领域，术语imaging array指的是一组传感器或探测器，用于捕捉和处理视觉信息。这些阵列是相机、医学成像系统和卫星成像系统等设备的核心组件。imaging array的功能基于将光转换为电信号的原理，这些信号随后可以被处理以创建图像。这项技术已经彻底改变了从医疗保健到娱乐等多个行业，通过提供高分辨率图像并使视觉数据的高级分析成为可能。imaging array最常见的应用之一是在数码相机中。数码相机利用电荷耦合器件（CCD）或互补金属氧化物半导体（CMOS）传感器作为其imaging array。这些传感器由数百万个微小的像素组成，捕捉光并将其转换为数字信息。相机所拍摄图像的质量在很大程度上取决于其imaging array的大小和效率。例如，较大的imaging array具有更多像素，可以捕捉更细致的细节，从而产生更高分辨率的照片。这种成像技术的进步使摄影师和摄像师能够制作出曾经不可想象的惊艳视觉效果。在医学领域，imaging arrays在诊断成像技术中发挥着至关重要的作用，例如MRI（磁共振成像）和CT（计算机断层扫描）。在这些应用中，imaging array由多个传感器组成，检测身体发出的不同频率的能量。imaging array收集的数据随后被处理，以创建内部器官和组织的详细图像，使医生能够准确有效地诊断病情。现代imaging arrays的精确性和速度显著改善了患者护理和结果。此外，imaging arrays还用于遥感技术，它涉及从远处收集关于地球表面的数据，通常使用卫星。在这种情况下，imaging array捕获从地球表面反射的电磁辐射，使科学家能够分析土地使用情况、监测环境变化和评估自然灾害。从不同波长收集大量数据的能力使得imaging arrays成为研究人员和决策者的重要工具。总之，imaging arrays的概念涵盖了一系列增强我们捕捉和解释视觉信息能力的技术。无论是在摄影、医学还是环境监测中，imaging arrays在我们对知识和理解的追求中变得不可或缺。随着技术的不断进步，我们可以期待出现更复杂的imaging arrays，进一步改变我们感知和与周围世界互动的方式。成像技术的未来无疑是光明的，imaging arrays的潜在应用是无限的，为将继续塑造我们生活的创新铺平了道路。