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Virtual Simulation of UAV (Unmanned Aerial Vehicle) Delivery in WebGIS

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With the breakthroughs in core technologies such as drones and eVTOLs, the application scenarios of the low-altitude economy have been greatly expanded. It has extended from traditional fields such as agricultural and forestry plant protection and industrial line inspection to emerging fields such as urban air mobility and low-altitude logistics distribution, opening up new paths for the digital and intelligent transformation of numerous industries. Hightopo uses low-code digital twin tools to create a lightweight smart city GIS low-altitude economy drone operation and maintenance monitoring platform. In scenarios such as airspace management, smart logistics, and food delivery, it achieves service innovation goals such as route optimization, cost control, and risk early warning. Combined with spatial semantic analysis, it provides a 3D perspective, enabling intelligent route planning and dynamic navigation, and has irreplaceable advantages in core functions such as route optimization...
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Low-code Digital Twin Web SCADA for Smart Steel Plant

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As a typical process manufacturing industry, the steel industry, by integrating advanced information technology and big data analysis, can not only enhance the automation and intelligence levels in the production process of steel enterprises, but also realize the functions of predicting and diagnosing potential equipment failures, providing strong support for steel enterprises in reducing operation and maintenance costs. Hightopo has applied its self-developed HT for Web low-code digital twin product to conduct configuration monitoring of smart steel plants, including real-time monitoring of key information such as production processes, energy consumption data, environmental protection indicators, sales operations, and logistics transportation. It creates a modern, digital, and green smart factory from multiple dimensions to ensure the realization of refined management throughout the steel manufacturing process and the entire workflow. Hightopo conducts process analysis by integratin...
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Hightopo 数字孪生 | 铝厂低代码 2D 工业配置屏

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在制造业数字化转型的浪潮中,铝厂正在积极寻找创新的方法来提高生产效率和管理水平。Hightopo 的低代码数字孪生平台为铝厂带来了全新的可视化解决方案。通过构建 2D 配置可视化系统,实现铝生产过程的精确呈现和高效管理。 效果展示 铝生产是一个复杂而精细的过程,涵盖脱硫、脱硝、熔炼、铸造、除尘、脱气、废水处理等多个关键环节。全新的 Low-Code 大屏配置,使每个环节紧密相连、环环相扣,共同形成完整的铝材生产链条。在整体视图中,您可以直观地看到每个链接的联系。同时,它支持单击按钮来查看各个进程的配置页面。 Hightopo 配置平台是一个集成开发环境,用于设计、配置和管理工业自动化控制系统。它允许用户通过图形化和拖放式配置方式快速构建和定制适用于特定工业场景的应用软件,而无需编写大量的底层代码。 在设计搭建配置界面的过程中,可以使用 Hightopo 低代码数字孪生平台中的图标库和面板库进行快速拖拽构建。 页面样式开关 铝厂在设计2D配置页时,根据不同的使用场景设计了两种配色方案:夜班值的深色配色方案和日常白色的极简风格。开关按钮设计具有立体感,融合了全新的拟态设计风格。浅蓝色和清爽的色彩点缀,增添了青春活力的视觉感官体验。 通过 Hightopo 的低代码数字孪生平台,用户可以根据系统构建的铝生产工业运行过程,对整个视觉系统的数据进行监控和维护。 系统分析 01 脱硫 脱硫的原理是将特定的脱硫剂,如石灰石浆液喷洒到烟气中,使其与二氧化硫发生激烈的“化学反应”,将其转化为无害的石膏,从而大大减少二氧化硫的排放,保护蓝天白云。 石灰石浆料:石灰石浆料通常用于脱硫等过程。 它是石灰石粉与水混合形成的液体,可用于吸收和去除烟气中的硫化物等污染物。 吸收塔:吸收塔是一个重要的装置。 在脱硫和脱硝等过程中,它允许气体与吸收剂(如石灰石浆料)充分接触,以去除有害成分。 工艺用水:工艺用水是指工业生产过程中用于各种用途的水。 例如,在铝厂中,它可能用于冷却、稀释、清洁和其他环节。 Hightopo 低代码数字孪生平台构建的二维配置可视化界面,可以实时监控脱硫剂的流速、浓度等关键数据,确保脱硫反应始终处于最佳状态。 一旦出现异常,可迅速发出警报,方便工人根据实际情况进行调整,确保最佳脱硫效果,减少二氧化硫等污染物的排放,践行绿色生产理念。 02 脱硝 对于反硝化,常见的选择性催化...
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