Have you ever wanted to become a professional billiards player? Have you ever wished to train in this superb sport at home without having to pay a professional coach? With our LuminaPoolTrainer application, this is now possible.

Thanks to our software, you can access a wide range of diverse training exercises. By connecting a camera and a projector to your computer, you can directly project these training sessions onto your billiard table. And with the training editor feature, you can create the specific exercises you desire. Additionally, with the “Battle” mode, you can train with friends and try to achieve a better score than them.

Discover for yourself the incredible potential of our LuminaPoolTrainer application and immerse yourself in the captivating world of billiards. Watch our video and let yourself be inspired by the excitement and enjoyment that billiards can offer. Get your cues ready, it’s time to play!

Each year, the students of the helha engineering school carry out research and development projects proposed by their teachers.

In the technical section of the Helha’s Youtube Channel, each student has the opportunity to promote his project by sharing it with the Helha’s community all over the world.

As a student in mechanical specialization, I was proposed a project related to the measurement of tribological characteristics of materials.

The prototype that I have created during this learning activity allows in fact to measure the friction coefficients thanks to an automated assembly equipped with position sensors as well as a sensor of inclination and a electric jack.

All these components used and programmed efficiently allow us to calculate easily the values of the requested coefficients.

If you are curious to know more, join me this Monday, May 22 at 6:00 pm for a live and I will answer your questions with pleasure.

Technically yours,

Célien

Link to the live : Facebook Live – Abrasive Tools 1.mp4

Allow us to introduce our revolutionary project: Bullseye, the automatic dart scoring system! Developed by a team of two students, Willaime Simon & Fostier Thomas, our innovative solution will transform the way you play and keep track of your dart games. 

Imagine a scoring system that combines precision, accessibility, and simplicity. With our system, powered by strategically positioned cameras, each throw is accurately captured and instantly evaluated. Say goodbye to manual scoring errors and tedious scorekeeping. Our technology handles it all effortlessly. 

We have also designed a user-friendly interface that displays real-time scores on a modern website. With just a glance, you can track your progress and stay engaged throughout the game. 

Discover how to create your own scoring system in just 6 simple steps with our explanatory video. Leave no room for confusion, let us guide you and elevate your dart games with this personalised experience. 

Hello, Rafaël Havelange and Manon Favart present their project on the constituents of honey. The active ingredient that is studied in the R&D project is proline and its concentration in the microbeads. Proline, an essential amino acid, is more than just a constituent of proteins. Known for its remarkable healing properties, proline plays a crucial role in the wound healing process. When our body is confronted with an injury, proline is actively involved in the formation of collagen, a structural protein essential for tissue regeneration. By promoting collagen synthesis, proline strengthens the skin’s support fibers, thus accelerating healing. In addition, proline has anti-inflammatory properties, which help reduce inflammation and redness associated with wounds. It also helps to stimulate the production of new skin cells, accelerating the renewal of damaged tissue. Due to its healing benefits, proline has become a key ingredient in many skin care products and medical formulations for wound healing. Whether for burns, cuts or ulcers, proline offers a natural and effective solution to promote healing and minimize scarring.

Rafaël Havelange and Manon Favart

Link to the video

Step into the future of healthcare with our groundbreaking presentation on artificial intelligence-powered eye disease detection! Join us as we dive into the world of cutting-edge technology and its incredible potential to revolutionize ophthalmology. 

In this captivating presentation, we will unveil the power of AI algorithms in swiftly identifying and diagnosing various eye conditions. Witness how machine learning, combined with vast medical datasets, empowers our AI system to detect diseases with unrivaled accuracy, speed, and efficiency. 

Get ready to explore the vast array of eye conditions that can be detected, including glaucoma, macular degeneration, diabetic retinopathy, and more. Discover how early detection through AI can significantly improve patient outcomes, enabling timely interventions and potentially preventing irreversible vision loss. 

Don’t miss out on this remarkable opportunity to witness the fusion of technology and medicine. Get ready to open your eyes to the limitless possibilities of AI in ophthalmology! 

Link to the video : https://helha-my.sharepoint.com/:v:/g/personal/la199619_student_helha_be/EU1ReI0WXAxLpL1ikQ5TBQ4BWqHscpRUCEJXc58L5LiYog?e=JxaJcv

Are you ready to embark on a greener and exhilarating cycling journey? If you are sensitive to the ecological cause in this age of environmental consciousness where we are constantly searching for innovative ways to reduce our carbon-footprint, this video is for you! This project is totally futuristic in the events sector. Imagine a world where the bicycle is not only a simple means of transport but also a means of producing renewable energy. Indeed, we propose a trailer that can provide all the electrical energy needed for an open-air concert, all certified 0 carbon emissions. In this video you will discover how this is possible and the team that contributed to this wonderful project. The only name to remember is The High Energy Solar Trailer which is the future of concert organization. If you are interested in this concept, just click on the video to find out how it became possible.

Here is the link to the video: https://helha-my.sharepoint.com/:v:/g/personal/la197258_student_helha_be/EfmeiWiXuURBktVAZbF9mpABXCsZtHRUSLDqv8L8A2PY8Q?e=Vmn9k3

Our team of master’s is composed with three members from HELHa University college: Ismaïl Amnih, Junior Fonkou and Alexis Wambach.

We have been engaged in a research and development project focused on automating an electrogravimetry dosage.  

The project contains two primary elements: a chemistry segment focused on conducting electrogravimetric studies and chemistry experiments, and an automation segment dedicated to automating the electrogravimetry deposition cell using a Raspberry Pi computer. With a budget of 1000 euros, this project aims to benefit future students studying applied works in the laboratory of electrochemistry.  

Our group has conducted various chemical tests to measure the deposition efficiency under well-defined operating conditions and identify the most effective deposition methods. Furthermore, we have determined the optimal ions to study in future electrochemistry labs. Regarding the automation aspect, we built a prototype and developed software using Raspberry Pi.  

We are on track to complete our project by May, and our goal is to deliver a prototype that is ready for operation, to demonstrate the efficiency of the process for future students. 

Here is the link to the video: https://www.youtube.com/watch?v=hT24F5xXCNg

Hello everyone,

We are going to present you our R&D project on the construction and automation of a deepcoater.

What is a deepcoater?

This device allows the application of sol-gel or paint on several types of supports, from steel to ceramic.

How is it useful?

This process allows to cover the support by a coating layer which allows to fight against the abrasion, the corrosion or the dirtiness.

How does it work?

To understand how our deepcoater works and how it is assembled, please watch the video that explains it all.

This project has for final goal to be used by students in the framework of industrial laboratories, after a small fast catch in hand nothing simpler and more effective to make it function.

Made by Gaylor Letor in 1MMEA and Megan Favart in 1MMCCH.

Link to the video :

https://helha-my.sharepoint.com/:v:/g/personal/la187436_student_helha_be/EXdAZMWLjzFEgkJcCOjWp6gBI5xK5vH91a8yPNEYcQkTYA?e=K4T3KQ

This project involved conducting the first research and tests to produce carminic acid, a red pigment originally produced by mealybugs, through bacteria. Indeed, the recovery of the substance of interest requires the sacrifice of the insect. It turned out that a large number of enzymes were needed to produce the pigment. In particular, the substrate of interest, malonyl-CoA, is supported by a polyketide synthase that forms an intermediate molecule. Other enzymes use this molecule to produce the desired molecule. The manipulations thus consisted in introducing this gene of interest, produced by genetic engineering, into plasmids. These were placed in competent E. coli bacteria of strain HB 101. Ultrasonic lysis allowed to release of the intracellular molecules to detect at best an absorbance in the red at a well-chosen wavelength. This project is a biotechnological ambition that is still little developed and exploited! The scientific challenge will lead to progress in animal welfare.

Link to the video

https://helha-my.sharepoint.com/:v:/g/personal/la199787_student_helha_be/ER-p-eZbbbZLpSywPJ2o1skBk6zCm9C87ovEtuMImYeD3w?e=oKmRht