design payload
简明释义
设计有效负载
英英释义
例句
1.The military's goal is to design payload that can deliver precision strikes on target.
军方的目标是设计有效载荷,以便对目标进行精确打击。
2.The engineers need to design payload for the new satellite to ensure it can carry the necessary equipment.
工程师需要设计有效载荷以确保新卫星能够携带必要的设备。
3.In order to optimize performance, we must design payload with weight distribution in mind.
为了优化性能,我们必须考虑重量分布来设计有效载荷。
4.Our team will design payload specifications that meet the mission requirements for the spacecraft.
我们的团队将设计有效载荷规格,以满足航天器的任务要求。
5.To enhance communication capabilities, we will design payload that includes advanced antennas.
为了增强通信能力,我们将设计有效载荷,包括先进的天线。
作文
In the world of technology and engineering, the term design payload refers to the process of creating a specific set of functionalities or features that a system or device is intended to carry out or deliver. This concept is particularly significant in fields such as aerospace, robotics, and software development, where the effectiveness of a product often hinges on its ability to perform designated tasks efficiently. The design payload can be seen as the core purpose of a project, guiding the development process from conception to completion.To illustrate this idea, let’s consider the example of a satellite. When engineers set out to build a satellite, they must first determine what its design payload will be. This could involve scientific instruments for gathering data about the Earth’s atmosphere, cameras for imaging purposes, or communication equipment for relaying signals back to Earth. Each of these functionalities represents a different aspect of the satellite's design payload, which ultimately dictates the choices made during the design and construction phases.The importance of clearly defining the design payload cannot be overstated. A well-defined payload ensures that all team members are working towards a common goal, reducing the likelihood of scope creep and miscommunication. For instance, if a team is developing a drone intended for agricultural monitoring, the design payload might include high-resolution cameras, sensors for soil moisture, and GPS capabilities. By having a clear understanding of the design payload, engineers can prioritize these features and allocate resources effectively, leading to a more successful outcome.Moreover, the design payload also plays a critical role in determining the technical specifications and limitations of a project. In the case of the drone mentioned earlier, the weight and size of the design payload directly influence the type of materials used, the power requirements, and even the flight duration. Engineers must carefully balance the payload with the vehicle’s performance capabilities, ensuring that the drone can operate effectively while carrying all necessary equipment.In software development, the concept of design payload is equally relevant. When creating an application, developers must decide on the key features that will define the user experience. For example, if the design payload of a mobile app is to provide users with real-time weather updates, then the development team needs to focus on integrating reliable data sources, designing an intuitive user interface, and ensuring that the app performs well under various conditions. By concentrating on the design payload, developers can create a product that meets user expectations and stands out in a competitive market.In conclusion, understanding the concept of design payload is essential for anyone involved in technology and engineering projects. It serves as a guiding principle that helps teams stay focused on their objectives, makes informed decisions about resource allocation, and ultimately leads to the successful realization of a project. Whether in aerospace, robotics, or software development, a clear and well-defined design payload can make all the difference between success and failure. As technology continues to evolve, the importance of effectively managing the design payload will only grow, underscoring its vital role in innovation and advancement.
在技术和工程领域,术语design payload指的是创建一组特定功能或特征的过程,这些功能或特征是系统或设备旨在执行或提供的。这个概念在航空航天、机器人和软件开发等领域尤为重要,在这些领域中,产品的有效性往往取决于其高效执行指定任务的能力。design payload可以被视为项目的核心目的,引导从构思到完成的开发过程。为了说明这个想法,让我们考虑一个卫星的例子。当工程师们开始建造卫星时,他们必须首先确定其design payload是什么。这可能涉及用于收集地球大气数据的科学仪器、用于成像目的的相机或用于将信号传回地球的通信设备。这些功能的每一个方面都代表了卫星的design payload,最终决定了在设计和建造阶段所做的选择。明确界定design payload的重要性不容小觑。明确定义的有效载荷确保所有团队成员朝着共同的目标努力,减少范围蔓延和沟通不畅的可能性。例如,如果一个团队正在开发一种用于农业监测的无人机,design payload可能包括高分辨率相机、土壤湿度传感器和GPS功能。通过清楚了解design payload,工程师可以优先考虑这些功能,并有效分配资源,从而导致更成功的结果。此外,design payload在决定项目的技术规格和限制方面也起着关键作用。在前面提到的无人机案例中,有效载荷的重量和大小直接影响所用材料的类型、电力需求,甚至飞行持续时间。工程师必须仔细平衡有效载荷与飞行器的性能能力,确保无人机能够在携带所有必要设备的同时有效运行。在软件开发中,design payload的概念同样相关。当创建应用程序时,开发人员必须决定定义用户体验的关键功能。例如,如果移动应用程序的design payload是为用户提供实时天气更新,那么开发团队需要专注于集成可靠的数据源、设计直观的用户界面,并确保应用程序在各种条件下表现良好。通过集中精力于design payload,开发人员可以创建满足用户期望并在竞争市场中脱颖而出的产品。总之,理解design payload的概念对于任何参与技术和工程项目的人来说都是至关重要的。它作为一种指导原则,帮助团队专注于目标,做出关于资源分配的明智决策,并最终导致项目的成功实现。无论是在航空航天、机器人还是软件开发中,清晰且定义良好的design payload都可能成为成功与失败之间的关键所在。随着技术的不断发展,有效管理design payload的重要性只会增加,强调其在创新和进步中的重要作用。
