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Digitalization in the construction industry

Anyone who talks about digitalization in the construction industry automatically thinks of the Internet. Modern companies have an appealing website and an informative social media presence. But digitalization goes far beyond customer communication. More and more companies are using digital tools to reduce work or save costs. Today, digitalization increasingly means optimizing operational processes and business models.

However, the question of the clear definition of digitization is not easy to answer. The term is quite complex and its meaning has changed quite a bit over time. While this used to mean converting content on physically existing objects into digital data, today the term stands for the use of digital tools and their simultaneous networking.

Communication and digital reputation in the construction industry

Of course, the presentation of a company from the construction industry and communication with the customer with the help of the Internet is an important area of digitization. Because if you are not found via a search engine, you will not receive any new orders, at least via this channel. People no longer roll industry books, but search online. If they have found what they are looking for, they will inform themselves online on the homepage about the company, the team and the services offered before awarding the contract. Concrete offers and further background information generate trust in the potential customer.

Together with the publicly available opinions of other customers, the craftsman thus creates a digital reputation, a more or less good reputation. But reputation not only determines the award of contracts, it also influences employee recruitment. Finally, potential employees and, above all, trainees inform themselves about the company before applying. If digital visibility is lacking, they quickly lose interest.

Digital process optimization saves time and costs

But it’s not just about communication and marketing, digitalization can also deeply interfere with and optimize operational processes. Order processing is the best example of digitalization that is already well established in most companies. Hardly any company still creates an invoice manually today. The computer performs this task. From digital appointments to order slips and time recording via smartphone to invoice printed at the customer and central storage in document management – the paperless office is the vision of the future. However, the topic of Building Information Modeling (BIM) will also involve the construction industry in the medium term for holistic process optimization.

Technology helps with digitalization

The majority of the craft enterprises from the construction industry are already digitized in the master office. Computers, smartphones and tablets are used in an increasing age of time. But the technology continues to go further and saves companies considerable costs. For example, drones are already being used in roofing operations to inspect roof surfaces. The complex construction of a scaffolding eliminates the need for time and costs. In the future, 3D printers will not only enable spare parts for SHK operations, but also the production of precast concrete parts directly on the construction site.

New section “Digitalization in Construction”

The possibilities of digitalization are as diverse and innovative as the craft itself. Every farmer should therefore ask himself which digital channels they need for their operation and how they can involve their customers in an innovative manufacturing process. But many craft businesses are worried about taking part in the digital transformation. After all, digitalization not only increases accessibility, but also creates transparency and thus comparability in terms of price and performance. With the new section “Digitization in Construction”, the experts at construction software Australia can help you look more professional to your customers and help improve your business performance at the same time.

Nature’s Influence on Science

In the new Natural Artificial Intelligence research program, scientists use strategies from nature to make artificial systems more intelligent.

There are wonderful solutions to problems that scientists are working on in nature. Consider image recognition: although humans are adept at identifying images, machines are not. Birds will fly in groups without colliding, posing a significant threat to drones. As a result, scientists will learn a lot from nature. Artificial intelligence, on the other hand, may give insight into how natural processes function. Scientists cannot unscrew a person’s development, but they can use models to determine which form of language learning is most efficient.

Computer children

If the receptionist is a robot in the future, and a chat robot staffs customer service, you should be able to communicate naturally with those robots. But how can one teach an automated machine to use language naturally? Paul Vogt predicts that ‘By learning to connect in the same way we do with young children.’ He is a researcher who focuses on language acquisition and evolution. He also uses artificial intelligence techniques.

“The goal is a system that can learn from people, is flexible and adapts to its environment”
-Paul Vogt

Vogt and colleagues from Delft and Tilburg create computer models of a family in this study. ‘We make computer children and computer parents.’ We allowed them to play language games. Then we’ll look at how computer children communicate with one another.’ Human experiences would be fed into the computer family, taking cultural distinctions into account. ‘In an earlier research experiment, we made video clips of parents interacting with their child. ‘We annotated these images and translated them into facts that a machine would understand.’

Learning gestures on a computer

The goal is the development of an intelligent system that is good at interacting with people. ‘A system that can learn from people, is flexible and adapts to its environment.’ In addition, Vogt hopes for more insight into how children learn to communicate. ‘Once the system works, you can also test which factors determine good language acquisition. That in turn gives us insight into how that works for children. ‘

Pocket drones

Would the valuable furniture collection still be intact? That was a major concern when a fire in 2008 destroyed the Delft Faculty of Architecture. Due to the risk of collapse, no one was allowed to look during the first days. Guido de Croon therefore flew a drone past the building, hoping to see the furniture through the windows. ‘Unfortunately that did not yield any results. I would have preferred to have flown into the building, but that was not possible with that drone. ‘ Later it turned out that the furniture was largely undamaged.

Bees as a source of inspiration

Fortunately, there is evidence that it is possible. After all, bees do all that drones may soon be able to do in nature. They are less than a tenth of a gram in weight and have no brains, but they can swarm and navigate just fine. Bee research provides plenty of inspiration for De Croon and his colleagues. According to De Croon, nature serves as a warehouse full of good ideas for industrial technology. He describes how drone makers are now making effective use of a trick that aids insects in landing. ‘Insects use a ruse’. The world travels faster and faster across their picture as they get closer to the ground. They make use of this fact; they are aware that they must slow down. They always land softly this way.

Three Science Experiments With Salt | See It On YouTube

Whether ground or coarse, with salt, you not only add flavor to the soup. The crystals can do a lot more. The workshop presents you with three amazing experiments you can try at home. You can also download these videos using YouTube to MP4 converter so that you can show them to your class or lectures.

Clean Old Coins In A Flash | YouTube Phill Wyatt Outdoors

Fill a glass with vinegar. Pour in table salt until the bottom is covered about 0.5 cm. Stir everything vigorously so that the salt dissolves completely. Put your dirty coins in the solution and take them out after a few minutes. Then rub it dry with the kitchen paper. And? It’s sparkling clean!

What happened? The “dirt” on the coins is mostly oxidized metal. The acid in the salt-vinegar compound removes the metal oxide. The cleaning effect can be seen particularly well with the smaller brown coins, as they have a copper jacket.

But be careful: the salt and vinegar bath not only makes the coins shiny but also loses a tiny bit of mass every time you rub off the oxidized metal. Not that your clean money has disappeared at some point …

How electrifying! This is how you separate salt and pepper

Separate Salt and Pepper With Electrifying Charge | YouTube Child’s Play Nursery

Scatter salt and pepper. Rub the balloon vigorously against the wool fabric a few times. Now guide the balloon slowly just over the spices without touching them. The pepper jumps on the balloon and sticks there.

What happened? The balloon gets an electrostatic charge through the friction on the fabric. This makes it really attractive to the spices. Since peppers are lighter than crumbs of salt, the first thing they are attracted to and stick to the balloon is. After a while, the charge will decrease again. You can simply freshen it up by rubbing it again.

Light From Salt and Water | YouTube HD Channel

Technically, salt and water solution like a battery – but without acid or other toxic substances. Two electrode rods made of different metals react differently with the electrolytes in saltwater. Therefore, salt in water actually is an electric conductor that produces electric charges to light your bulb.