ChatGPT and the Future of Construction

ChatGPT is an AI powered software. This software is trained to generate human like responses to questions and queries. It has been trained on a wide set of web text which allows it to understand and respond to a variety of questions. How can the construction industry benefit from such a powerful tool?

There is a variety of ways in which the construction industry can use ChatGPT. It certainly has a huge potential for content creation. Construction firms can use the power of ChatGPT to quickly generate written content such as, project proposals, reports, and documentation. This saves time and resources for businesses which are required to generate an extensive amount of organizational written material.

Second, ChatGPT can be used to generate training materials for construction workers, such as instructional videos and written guides. This can help companies ensure that all workers are properly trained on the equipment and procedures used on a construction site.

Finally, ChatGPT can be used to generate project management reports and schedule updates, this can help construction companies to have a clear overview of the project and make data-driven decisions.

Trojan is extensively studying the diversity that ChatGPT possesses and is exploring ways to utilize the capabilities of this new technology. We are looking for more ways to implement the usage of Chat GPT in the construction industry, knowing that this technology can be a game changer if deployed properly.

See-through Energy is here

As the natural resources of the world are being drained, scientists over the past decades have been working on creating sustainable renewable energy. A new innovation is being created in the world of solar energy and it has the potential to reshape energy usage around the world.

Transparent solar panels, is an emerging technology that is being developed out of South Korea. Scientists are developing transparent solar panels in hopes that they would be able to use them instead of windows in domestic settings to help increase the use of renewable energy overall. The way that scientists were able to achieve a transparent solar panel is by replacing the semiconductor layers that usually catch the light with Titanium Dioxide and Nickle Oxide which have high optical transparency. Allowing more light through the panel. The biggest challenge facing this technology is that it is currently at a low 2% efficiency rate. But, many researchers are determined that they can achieve a higher efficiency rate as the technology evolves. Even though this technology hasn’t seen domestic and commercial use, it is believed to have huge potential in the small gadgets and appliances segment.