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AI-Powered Healthcare Solution Developed by UAE Students

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This year’s United Arab Emirates national James Dyson Award winners plan to fill the current gap in healthcare by inventing readily available solutions, beginning with Vita-Cam. Invented by a team of Arab nationals, Vita-Cam is a mobile application built on a convolutional neural network, an artificial intelligence technology, and offers an affordable way to prevent common health complications.

It intelligently analyses images of body parts – including eyes and nails – and uses a growing depository of medical records to identify both vitamin and mineral deficiencies. The application also provides nutritional recommendations for optimal health, and can be made available by health authorities or healthcare providers to users for free, or used by healthcare professionals as a simplified tool.

To commemorate this accomplishment, the winners were recognised by His Excellency Khalfan Belhoul, CEO of Dubai Future Foundation, during the awarding ceremony hosted at Youth x Hub Dubai. Commenting on this occasion, HE. Khalfan Belhoul said: “This solution is a testament to the UAE’s efforts to empower the youth and in creating an environment that promotes innovation and creativity. I am extremely proud of the talented Arab students behind Vita-Cam, as well as of the rest of the nominees, and hope to see many more similar successes from the region.”

The Invention 
Electrical engineering students at Ajman University – Ahmed Saif, Mohamed AitGacem, Saifeddin Alghlayini and Wissam Shehieb – are the minds behind Vita Cam and were encouraged to apply to the James Dyson Awards when they found out that the competition had opened to UAE students. 

“As engineers, we would like to fill current gaps in order to enhance people’s quality of life, and address mounting universal challenges. By connecting disparities within the global healthcare system with an applied AI solution, we have invented an interactive prevention tool that is within reach of smartphone users around the world,” explained Ahmed Saif on behalf of the team. “A good engineer is curious, imaginative, highly ethical and always inspired by the stories of others.”

Winning the national leg of the James Dyson Award will inject AED 9,300 (£2,000) into the Vita-Cam project, allowing the budding inventors to develop an advanced version of the application that can be utilised by healthcare systems and medical professionals.

It took three full software prototypes and countless programming amendments to develop Vita-Cam, owing to the complexity of integrating different programming tools in one compact application. There was also an initial medical research phase, which was facilitated by one of the team members who also have a medical degree.

The Vita-Cam will progress to the international stage of the James Dyson Award. The winners aim to commercialise this product for global use, and offer it to medical bodies for large-scale research.

The Runners Up

VisionCap
Problem: It is estimated that approximately 1.3 billion people live with some form of vision impairment around the world, while an aging global population increases the risk that more people will be impacted by vision impairment throughout their lives. 

Solution: VisionCap, fitted on a regular cap to be easily worn by the visually impaired, enables users to see the world around them through an AI-based ‘virtual eye’. The solution describes for users their immediate surroundings, while also allowing access to basic smartphone features on-the-go. It runs on a Raspberry Pi board (SBC) that is connected to a camera and a Bluetooth 4.0 module, and was designed based on comprehensive in-field research.

Aquatronix

Problem: Water scarcity across the world continues to threaten food security. While the rapidly increasing cost of mass-produced food and unhealthy farming techniques are negatively impacting the health of citizens in both low and high-income countries.

Solution: Taking up the same space as an average fridge, Aquatronix leverages a smart and sustainable two-step irrigation system to grow organic produce and seafood responsibly and at low-cost. The solution allows users to comfortably grow six varieties of plants, along with a school of fish, without the use of pesticides or additional nutrients. Once the fish waste is exposed to oxygen, it naturally converts as nutrient for plant growth, while a pump circulates the water from the plants to the fish tank.

James Dyson Award
The competition is open to student inventors with the ability and ambition to solve the problems of tomorrow. Winning solutions are selected by Sir James Dyson and show ingenuity, iterative development, and commercial viability. With students from 27 nations now competing, the award is set to welcome new approaches to a broader range of global issues than ever before.

Since the competition first opened fourteen years ago, the iconic inventor has already contributed over £1m to championing boundary-breaking concepts. To help finalists to develop their novel idea, each year the overall winner is awarded £30,000, and winners in each participating region receive £2,000. Unlike other competitions, participants are given full autonomy over their intellectual property. 

The James Dyson Award forms part of a wider commitment by Sir James Dyson, to demonstrate the power of engineers to change the world. The Dyson Institute of Engineering and Technology, the James Dyson Foundation and James Dyson Award embody a vision to empower aspiring engineers, encouraging them to apply their theoretical knowledge and discover new ways to improve lives through technology.

What is the prize?
The international prize is AED 140,000 (£30,000) for the student and £5,000 for the student’s university department. National winners are awarded AED 9,300 (£2,000) each. 

Who can enter the James Dyson Award?
Any university-level student of product design, industrial design or engineering, or graduate within four years of graduation, who is studying or studied in Australia, Austria, Belgium, Canada, China, France, Germany, Hong Kong, India, Italy, Ireland, Japan, Malaysia, Mexico, the Netherlands, New Zealand, the Philippines, Russia, Singapore, Spain, South Korea, Switzerland, Sweden, Taiwan, the UAE, the UK and the USA. 

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Pop Culture Show Popcon Middle East Comes to Dubai in November 2022

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Dubai will be hosting its first edition of PopCon Middle East (PopConME) from the 10th  – 13th  November 2022. Promising the ultimate weekend, PopConME will showcase the best in Movies, TV, comics, graphic novels, anime, cosplay, and much more. In partnership with Dubai Festivals and Retail Establishment (DFRE), Speedy Comics, and Alanza Trading, PopConME will take place at the Dubai Exhibition Centre (DEC), Expo City Dubai, featuring exclusive workshops, movie screenings, Cosplay gaming competitions, and much more.

PopConME will be running as part of Dubai Esports Festival (DEF 2022) taking place from the 9th – 20th November 2022, the most exciting esports and gaming event in the Middle East, and a trend-setter for the region’s gaming industry which is set to cement Dubai’s position as a year-round global hub for esports and gaming.

“We are excited to introduce PopConME to Dubai. I have been a fan of comic books since I was a child and have been entrenched in the community from an early age. This is a dream come true for a true geek like me. I want this convention to have everything and more my geek heart desires.” said Amer Rashed Al Farooq, Deputy CEO, Speedy Comics Group, the region’s number one destination for vintage comics and pop culture collectibles.

This festival will give fans the opportunity to celebrate their favourite celebrities, meet like-minded people, and indulge in the world of fantasy all under one roof. Comic book geeks will get the opportunity to meet and greet their favourite talents up close, attend exclusive workshops and buy one-of-a-kind merchandise at the Artist Alley. Packed with interactive zones and activations PopConME will host its own People’s Choice Cosplay, Dungeons & Dragons, Pokémon/Yu-Gi-Oh Card Competitions.

Featuring a line-up of some of the biggest international talents, PopConME has already confirmed the attendance of Nightmare on Elm Street actress Katie Cassidy, who is also known for her portrayal of the demon Ruby in the fantasy horror series, Supernatural and Black Canary in Arrow. Also confirmed to attend are CW Supernatural Kevin Tran and Dirk Gently’s Holistic Detective Agency actor, Osric Chau, and voice actor Ray Porter best known for his portrayal of DC Comics Villain, Darkseid in Zack Snyder’s Justice League.

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3D Printing

Abu Dhabi-Based Khalifa University Develops 3D-Printed Glasses to Help Correct Colour Blindness

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Khalifa University of Science and Technology, a consistently top-ranked research-intensive university based in Abu Dhabi, has developed a new method to manufacture customized glasses using 3D printing that could help people with colour blindness. Colour Vision Deficiency (CVD) is an inherited ocular disorder that manifests itself by limiting the retina cones’ ability to transmit the whole spectrum of colours.

With red-green colour blindness being the most prevalent form of CVD, the most common way of dealing with everyday difficulties is by wearing tinted glasses. Now, a team of researchers from Khalifa University has developed lenses using transparent resin mixed with two wavelength-filtering dyes to provide a tinting effect. To customise the lenses and make them as similar as possible to commercially available products, the team used two dyes – one blocked the undesired wavelengths for red-green patients, while the other filtered unwanted wavelengths for yellow-blue patients, with volunteers for both groups attesting to the lenses’ efficacy.

Even though glasses based on this method are commercially available at present, they are not comfortable for wearing, nor optimizable. However, the Khalifa University research team has developed its own frames for the lenses, using 3D printing to optimize the frames for comfort and usability, making them as close as possible to regular glasses.

Dr. Haider Butt, Associate Professor, Mechanical Engineering, Khalifa University, said, “Our results showed that 3D printing had no influence on the wavelength-filtering properties of the dyes. In fact, the dyes remained unchanged as they were integrated with the resin and 3D printed. When we compared the optical performance of our glasses with commercial glasses for colour blindness, our results indicated that our 3D-printed glasses were more selective in filtering undesired wavelengths than the commercially available options. They have great potential in treating colour blindness, and their ease of fabrication and customization means they can be tailored to suit each individual patient.”

The glasses underwent several tests to address toxicity, durability, and longevity concerns. These tests included storing the glasses in water for over a week to analyze whether any dye would leak and leaving them out in the open under ambient conditions for another week. The glasses exhibited tensile strength and flexibility, proving their stability and long-lasting properties.

Khalifa University’s research outcome presents an opportunity for people with color blindness to mitigate their inability to distinguish between shades of certain colours that could restrict them from working in fields where color recognition is critical, in addition to carrying out everyday tasks. The research was funded by organizations from Abu Dhabi, including real estate developer Aldar Properties, and Sandooq Al Watan, a social initiative.

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Emirates Mars Mission Tracks Martian Dust Storms

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The Emirates Mars Mission, the first interplanetary exploration undertaken by an Arab nation, is returning a number of unique observations of Martian dust storms, providing an unparalleled depth of information and insight into the way in which these storms evolve and spread across huge swathes of the planet.

Hope provides a powerful platform to observe details of the structure and variability of the Martian atmosphere.  Coordinated observations made by the EXI camera and the EMIRS infrared spectrometer characterize the thermal state of the surface and lower atmosphere and provide details of the geographic distribution of dust, water vapor, and water and carbon-dioxide ice clouds over time scales of minutes to days.

The EXI camera system collects images at three visible and two ultraviolet wavelengths – providing a multispectral “weather satellite view” of Mars.  The color composites presented here are assembled from images taken through EXI’s blue, green, and red filters (centered at 437, 546, and 635 nanometers).   These images are “calibrated” products that have removed many of the artifacts introduced by the camera system and also provide the observation geometry information to allow for mapping.  The contrast has been adjusted to enhance the visibility of the surface and atmospheric features.

EMIRS is an interferometric thermal infrared spectrometer (operating in the 6-40 micron wavelength range) that complements EXI in characterizing the lower atmosphere of Mars. EMIRS measurements are used to determine the distribution of lower atmospheric constituents such as dust, water ice, and water vapor (presented here as optical depth – related to the number of aerosols suspended in the atmosphere).

In addition, Mars surface temperatures and atmospheric temperature profiles up to 50 km from the surface are measured.  For the figures shown here, EMIRS data are averaged over an individual orbit of the Hope spacecraft (a time span of about 55 hours) to construct “globes” of dust optical depth (shown as shades of red, overlaid on a 3D map of surface elevations; these “globes” are centered at 4°N latitude, 100°E longitude).  The warming of the suspended dust by sunlight leads to increased atmospheric temperatures, which are also detected by EMIRS.

Rapid evolution
Starting in late December 2021, EXI and EMIRS monitored a rapidly-evolving regional dust storm as it expanded to a size of over several thousand km.  A series of EXI and EMIRS “globes” are presented here (orientated with north to the top), documenting the growth and dissipation of the storm over nearly two weeks.

The prominent dark “shark’s fin” feature in the EXI images is known as Syrtis Major. In this area, thin deposits of dark basaltic sand cover the surface of a gently-sloping shield volcano.  To the south, the tan circular feature is the Hellas impact basin (the largest crater on Mars – about 2300 km across, and up to 7 km deep) – often shrouded in dust and water-ice clouds.  In both the EMIRS and EXI globes, a green star marks a “reference location” (an 85-km diameter impact crater) to visually aid tracking features in both data sets.

On 29 December 2021 (EMM orbit number 153), EXI captured a fully illuminated disk of Mars nearly centered on Syrtis Major (image center: 24.6°S, 81.1°E). It was mid-winter in the southern hemisphere (Ls = 149°).  As is typical for this season, the atmosphere was relatively clear, with only thin water-ice clouds visible over the plains to the east of Syrtis.  As is also typical, Hellas appeared to be filled with tannish dust clouds, obscuring deposits of surface ice mantling the southern portion of the basin.  The EMIRS observations during this time confirm the relatively thick dust clouds in Hellas but detect only low amounts of suspended dust elsewhere. This set of EXI and EMIRS observations provides a baseline to compare with the subsequent views of Mars obtained over the following two weeks.

On 5 January 2022 (EMM orbit number 156), EXI obtained this half-illuminated view of Mars (image center: 12.3°S, 94.8°E) — the sun was just setting near the center of the disk.  Apparently forming over the previous week, a massive dust storm (about 2500 km across) was approaching from the east and was partially obscuring Syrtis Major; greyish water-ice clouds are also evident in this storm.  Hellas was completely shrouded by dust clouds.  The EMIRS observations clearly show the high concentrations of dust in the Syrtis and Hellas dust storms, with a “dust haze” extending far to the east.

On January 7, 2022 (EMM orbit number 157), this mid-day EXI observation better reveals the extent of the dust haze and greyish water-ice clouds spreading to the east of Syrtis Major and to the north of Hellas (image center: 22.8°S, 97.9°E).  The EMIRS data reveal the increasing thickness of this diffuse dust haze, suggesting the active lifting of dust from the surface extending at least 4000 km eastward from Syrtis Major.

On January 9, 2022 (EMM orbit number 158), EXI observed a fully illuminated hemisphere centered on Syrtis Major (image center: 22.7°S, 62.6°E).  The dust-lifting has extended to the west, with a discrete multi-lobed dust storm (about 1200 km across) swirling over northwestern Syrtis.  The dust haze is very prominent covering the plains eastward from Syrtis.  Again, EMIRS reveals the extent of the dust clouds – dramatically portraying the increased dust optical depth from NW of Syrtis all the way to the eastern limb of the map – spanning about 1/3 of the circumference of Mars!  Compare this set of observations with the relatively clear conditions prevailing on 29 December 2021!

The final time step is for January 14, 2022 (EMM orbit number 160).  EXI shows a late-afternoon (nearing sunset) view of Syrtis Major (image center: 8.5°S, 117.0°E).  No discrete dust storms are visible; instead, a pervasive dust haze partially obscures and extends eastward from the entire Syrtis Major/Hellas region.  EMIRS data also indicate the thinning of the haze, with the amount of dust significantly reduced.  The continuation of the dust veil to fill the Hellas basin is evident in both the EXI image and EMIRS map.

As the Martian season approaches southern spring, dust storm activity typically becomes more pervasive.  The Hope observatory is a valuable orbiting asset in documenting the location and evolution of dust storms on the planet, giving unprecedented observations and insight into the nature of these storms and their characterisation.

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