Surprising Facts About #dirtsimple Mute Digital Twins

作者：Holger (HoPi) Pietzsch

不久前，我参与了一场有关说话机器的活动。确实，由于连通性的提高，数十亿个小工具现在可以连接到物联网（IoT）。通过无数设备流传输的数据流向了最复杂的平台，被令人震惊的算法搅动，并诞生了新的商业模式。

说话的机器是我们未来的一部分。他们说话很多吗？他们告诉我们他们的健康，能源消耗，关闭状态以及名单不断增长。今天，他们中的大多数人都用不同的语言说话。为了推动云中许多“机器方言”跨越云中的标准化，最近new agreementhas been reached on construction machine data standards at a general meeting of the Working Group Machines in Construction MiC 4.0 in Berlin.

The goal of this collaboration between manufacturers and users is to deliver a quality assurance system to guarantee a uniform standard for the construction industry. Manufacturers, machine users and system integrators are continuously working on a coordinated industrial standard to democratise technology and modernise the heavy construction industry.

Why and which machines need to talk to us?

令人惊讶的是，尽管有一种不断增加的见解选择，但人们想知道的关于物体的大多数事情都很简单。它在哪里？它在哪里？稍微有意义：它是应该的位置，还是不应该在哪里？像我的袜子一样，在最奇怪的地方随机出现或消失。

Indeed, other objects should be interested in the location of their peers too. Do the fridge and the milk know of each other’s existence in space? Which machine algorithm will minimise the Euclidian distance, for instance, put the milk back in the fridge? I could hook up the milk to the IoT, and the fridge, and the beer and run them all through an App. As I’m adding grocery to my cloud, why not to add the car, the garage, the trees and the whole garden and connect them. But wait, you can’t hook up a garden or the trees in the backyard. That makes no technical or economic sense. Even the milk is questionable if you ask me. Beer maybe.

So, what do we do about all of these quadrillions of inanimate objects? Will they be damned to eternal muteness? None of them will ever get to meet their digital twin. They’re stuck in ordinary earthly reality.

How to create digital twins?

Leveraging digital twins is of critical importance for entire sectors in our economy, and heavy construction is a prime example for that. Contractors move large amounts of material every day. Earth needs to be accurately cut in one place and asphalt precisely laid in another. Machines need to be operating in the right location and workers need to move in some and stay out of other areas. How do you capture and coordinate all of this without micro-chipping every stone on-site? How does one find a mute ditch in the cloud?

The answer to this question is that the ditch does not need to know of its own existence and talk about it. You need to know about the ditch’s location. The underlying technology to digitally capture large surfaces in the real world and gain the most accurate interpretation of the project conditions is called reality capture. Reality capture doesn’t need to listen to a ditch. However, it sees it, measures it, digitises it and runs the captured data up the cloud for further processing and sharing.

先进的GNSS技术决定了“眼睛”的确切地理位置，通过三角测量，可以找到任何“可见”点。bob综合app赌博现实捕获使用无线电，激光器，激光雷达和传统相机。它运行了高级测量算法，以绘制每秒数百万分。

Data can be captured from multiple sources through the use of 3D laser scanners and Unmanned Aerial Vehicle (UAV) photogrammetry, producing 3D datasets such as point clouds and meshes and shared with everyone involved in the project via cloud-based collaboration tools . The ability to monitor the project conditions in real time not only gives the benefit of better planning, design, and execution but also provides the base for as-built validation.

哪种现实捕获bob综合app赌博技术要选择？

There are an array of reality capture technologies available from small handheld to more static, terrestrial laser scanners. When choosing a reality capture solution for your next project, it is key to understand why you need data, what data you need, how best to capture it, and how you plan to use it.

Small portable and handheld imaging scanners give access to difficult areas and capture detailed data and images at the touch of a button. To capture large, inaccessible or hazardous areas aerial imagery and generate 3D deliverables UAVs or drones are ideal solutions.

When using mobile mapping solutions carried as a backpack or mounted on vehicles, the technology helps to capture data across large areas, highways, tunnels, railways and much more. However, for large scale jobs and inaccessible places, the latest terrestrial laser scanners allow long-range data capturing from a safe position on site.

要找到适合您项目的现实捕bob综合app赌博获解决方案，请从了解做出明智决定所需的数据和信息开始，并最终将项目准时，预算和规范保持。

Digital twins for a smarter future

Digital reality builds an infinitesimal number of digital twins, stores them in time capsules and compares the measured reality against the desired reality in countless feedback loops. Edge computing or cloud processed data can then be transmitted to anything and anybody providing complete spatial awareness. Digital reality provides space and time to the Internet of Things (IoT).

Today,Smart Digital Reality™is the most promising technology to enable smart sites, smart infrastructures and smart cities. Smart Digital Reality™ approach will enable Hexagon’s technology to work everywhere, and to provide real-time location intelligence for the places and times that matter the most. A Smart Digital Reality™ is much bigger than the digital twin. It captures events as they happen in real-time autonomously extracting from the digital twin and fuse that live data to a complete reality capture.

它可以使对象的相互作用，人的协作以及任务的协调能够更安全，更可持续地解决问题，因为一切都有一个位置，并且有一个地方，甚至还有我的袜子。