Tag: #athena

Irish woman wins Global James Dyson Award 2024

The international student design competition, which has now supported more than 400 problem-solving inventions from young engineers and scientists worldwide, received nearly 2,000 entries this year.

Speaking of the 2024 winners, James Dyson said: “We started the James Dyson Award nearly 20 years ago to encourage students at university to solve problems. And we’ve had thousands and thousands of entries since. It’s wonderfully encouraging to see how many students have solutions to severe global problems. Instead of sitting back and talking about it, they’re doing something about it – and that’s what the James Dyson Award encourages. We’ve got two brilliant winners this year which we’re thrilled to support, and I hope the Award will give them a springboard to future success.”

James Dyson surprised Olivia, Shane and Danial with the exciting news during an online video call.

Medical Winner – Athena, by Olivia Humphreys from Ireland.

The problem

Some 65-99% of patients going through chemotherapy will be affected by chemo-induced hair loss. Current hair-loss prevention techniques commonly use scalp cooling, a method which involves applying ice cold temperatures to the scalp before, during, and after chemotherapy, which can be very painful for patients. It mitigates hair loss by shrinking blood vessels and limiting blood flow to the scalp. After chemotherapy, cooling can also help hair grow back faster and stronger.

However, the availability of scalp cooling is limited due to its high costs. This year’s Medical Winner is from Ireland where the Minister for Health estimated the total cost of installing a scalp cooling machine at €216,000, with additional costs needed for staffing as the treatment requires additional help to operate the equipment.

Ensuring the equipment fits the patient properly and the extended time it means someone needs to be in hospital for are additional hurdles. There are cheaper, manual cooling alternatives available, yet these are less powerful, and they don’t provide long-lasting effects.

Not all hospitals offer scalp cooling for patients too. In fact, in Ireland, scalp cooling is only available in eight out of the country’s 86 hospitals.

The solution

Olivia Humphreys, a 24-year-old product design and technology graduate, invented Athena to tackle these issues after witnessing the impact of chemotherapy-induced hair loss when her mother was diagnosed with cancer in 2019. Having spent time with her mother during treatment, Olivia was inspired to reimagine hair-loss prevention technology.

Athena is a portable, thermoelectric hair-loss prevention device that uses scalp cooling. It’s more cost effective and timesaving than current hospital models, without compromising on the quality of treatment. For those exploring advanced hair wellness solutions and scalp care.

Current scalp cooling products use refrigeration technology requiring constant plugged in power. The patient must arrive at hospital 30 minutes early and stay for 90 minutes after infusion for pre and post scalp cooling. Battery powered Athena, weighing around 3kg, consists of a carry case and a cooling headpiece, that fits to different head shapes, and enables people to spend less time in hospital on a chemotherapy infusion day. It works by using low-cost thermoelectric semiconductors called Peltiers, and these cool a tank of water, which circulates the cold water around the head with the smartly designed headpiece.

With Athena, patients can start and end the scalp-cooling process themselves from wherever they wish, such as the comfort of their own home. At full power, it can run for 3.5 hours, allowing the patient to commute to and from the hospital while cooling, and move around during infusion, such as for bathroom visits. Athena aims to give control back to patients during a time when they usually have little of it.

Athena is patient-centric and so Olivia also chose bright colours for the device’s materials as a change from conventional, clinical colours found in hospitals.  Taking its name from the powerful Greek Goddess of wisdom and battle strategy, for Humphreys, Athena is a symbol of resilience, which is a quality often seen in those living with an illness as serious as cancer and going through the necessary treatments.

The estimated cost for Athena would be around €1,000, according to Olivia, which is significantly less than industry machines which start at around €20,000. Athena has the potential to make hair-loss prevention more accessible and affordable for both patients and healthcare providers – Olivia’s ideal scenario would involve partnering with hospitals and charities to offer Athena through a rental or loan scheme.

To take Athena to the next level, extensive research and development is required, and the James Dyson Award prize money will kickstart this. Long term, Olivia is exploring novel technologies for future hair loss prevention methods beyond scalp cooling.

James Dyson, Founder of Dyson, said: “I haven’t had cancer, but members of my family have had cancer and hair loss is a particularly depressing and debilitating part of chemotherapy treatment. You can freeze your scalp which you have to do in special facilities, but these aren’t always available, are costly and it’s very painful. This year’s Medical Winner, Olivia Humphreys, has tackled this problem by designing Athena, for portable scalp cooling. You can wear it while you travel, you can wear it in the car to and from hospital, you can use it at home – it’s a low-cost alternative available to everybody, with the potential to make a real difference.

Speaking about the development of Athena, Olivia Humphreys said: “I decided to build a working prototype to test the capabilities of the Peltier semiconductors. Using a Peltier computer cooling fan system, a diaphragm pump, my mum’s old suitcase, and my dad’s plane battery, I was able to create a strong proof of concept to gather valuable feedback to develop the concept. Following this, I focused on the product’s form, creating cardboard and foam models and determining functionality aspects and touchpoints to ensure the best user experience. Ultimately, I arrived at my final model, Athena, which was crafted using SolidWorks 3D CAD modelling.”

On winning the James Dyson Award, Olivia said: “I’m incredibly proud of the hard work, ambition, and commitment that went into creating Athena. The recognition from the James Dyson Award validates not just my efforts, but also the stories and insights shared by people who’ve experienced cancer treatment. My mum inspired this journey, and it’s incredibly emotional and rewarding to have my project reach this level. The Award has motivated me to recognise my potential, and it opens up exciting opportunities for me as a young designer and innovator.”

Professor Mark Beresford, Consultant Oncologist at the Royal United Hospital Bath, said: Hair loss is one of the most outward and distressing side effects of chemotherapy. Current scalp cooling techniques can reduce the risk or extent of hair loss, but need to be attached in the chemotherapy unit for a period of time before and after the chemotherapy infusion, committing patients to a long day in hospital. This new mobile version will allow patients more freedom, reclaiming some of their day, and also free-up valuable chemotherapy chair time for other patients to receive treatment.

Liz Yeates, CEO of the Marie Keating Foundation, said: “I want to congratulate Olivia for creating the mobile scalp cooling device and being awarded this year’s global winner of the James Dyson Award. Any invention that can help prevent hair loss for cancer patients undergoing chemotherapy would be so positively received. When I went through cancer, there was no option for me to use a scalp cooling device, and losing your hair can be one of the most devastating impacts for most people. This device offers new hope, and it could make a real difference for those facing chemotherapy in the future. Any use of scalp cooling should always be under the guidance and direction of the patient’s oncology or cancer care team.”

Sustainability Winner – airXeed Radiosonde, by Shane Kyi Hla Win and Danial Sufiyan Bin Shaiful from Singapore.

The problem

Every day, weather stations worldwide launch devices via weather balloons that gather critical atmospheric data for accurate weather forecasting. These small devices, called radiosondes, measure air pressure, temperature, humidity, wind speed and direction and transmit this data back to ground stations, helping meteorologists track weather patterns and forecast conditions. However, current devices are single-use and contribute to tonnes of plastic and e-waste globally.

After reaching high altitudes, the balloon carrying the device bursts, and the sensor descends rapidly, often crashing in remote and costly-to-retrieve locations, without collecting further atmospheric data as it falls.

There are 1,300 weather stations around the world, and it’s predicted they release at least two single-use radiosondes per day. So, over a year, almost one million radiosondes are released, costing $190million and estimated to cause 48 tonnes of e-waste.

These devices are crucial to the rapidly growing weather forecasting industry, valued at over $2.25 billion in 2023 and projected to reach approximately $5.23 billion by 2032. This growth is driven by the rising demand for precise weather forecasting across sectors like agriculture, energy, transportation, and aviation. Extreme weather events have increased the demand for better forecasting systems too.​

The solution

This year’s global Sustainability Winner aims to make weather forecasting more eco-friendly. AirXeed Radiosonde is a reusable device tackling the amount of e-waste created by single-use radiosondes on the market. It also aims to increase the amount of atmospheric data these devices collect, improving quality of forecasting.

Young engineers Shane Kyi Hla Win and Danial Sufiyan Bin Shaiful, from the Singapore University of Technology and Design, drew inspiration from nature to create airXeed Radiosonde. Their focus was to improve the descent and end-of-life of a radiosonde to make them reusable, reducing e-waste and minimising pollution in remote areas.

The team used the autorotation of maple seeds in their solution. A maple seed’s asymmetrical shape creates lift and drag, allowing it to spin like a helicopter as it falls. Shane and Danial applied this principle to their radiosonde design, enabling it to spiral during descent. This not only slows the device, preventing damage upon impact with the ground, but also increases the likelihood of it landing in an accessible location, making retrieval and reuse easier. The team used machine learning to optimise this design for the best flight performance. AirXeed’s controlled descent allows it to collect and transmit more atmospheric data to weather stations, as traditional radiosondes cannot do this.

To avoid collision with aircraft, and very windy conditions that could deviate the descent, Shane and Danial’s device stops auto rotating when passing through aircraft cruise altitude. It enters a dive mode to increase its speed. The team have also added an onboard controller to manage the device’s stability and flight path to land without impact near the closest collection zone for reuse.

This controller is enhanced by machine learning to estimate wind speed and direction onboard, as well as select the best landing location. Collection zones would be established based on weather patterns and local government collaboration. Equipped with GPS and flight navigation, the radiosonde would select the optimal collection zone from multiple options at each weather station, ensuring a smooth return based on weather and flight trajectory.

Shane and Danial prioritised sustainability in their material choice, using balsa wood and foam for the lightweight wing and cowling. Modular components allow for easy replacement and recycling of worn parts, catering to industry needs.

After winning the James Dyson Award, Shane and Danial hope to collaborate with more weather stations and weather sensor manufacturers for real-world trials to gather data and feedback to improve their invention, to ultimately bring airXeed Radiosonde to market.

James Dyson, Founder of Dyson, said: “Weather balloons that collect atmospheric information fall back to Earth and pollute the environment with electronic waste. Shane and Danial, our Sustainability Winners, have found a way of returning these devices to Earth highly intelligently to where the operators want them to land. AirXeed Radiosonde uses the maple seed principle, helicoptering down gently but also plummeting in areas where there are likely to be planes. This is a reusable weather detector, saving environmental waste and saving money. I think it’s a very clever idea.”

On winning the James Dyson Award, Shane said: “Winning the James Dyson Award global sustainability prize is a huge step forward for us. It shows that our design has potential and gives us a platform to showcase how airXeed Radiosonde can positively improve the weather industry – hearing it from James Dyson himself makes it even more special. It’s incredibly motivating to see such a prominent figure in innovation take the time to encourage young inventors like us, developing solutions that are sustainable and address critical global challenges”.

On what’s next for the team, Danial said: “With the Award’s recognition, we hope to connect with experts in the weather industry, secure partnerships and attract funding to further test and develop our design. It’s a huge boost in our journey towards turning airXeed Radiosonde into a fully realised solution that can reduce electronic waste and make weather monitoring smarter

Other Dyson news

Irish winner of James Dyson Award 2024 announced

Limerick woman Olivia Humphreys (24) witnessed how upsetting it is for patients who face losing their hair during chemotherapy when her mother went through it in 2019.

65-99% of patients going through chemotherapy will be affected by hair loss*. Scalp cooling can help prevent this by shrinking the blood vessels and is done by applying cold temperatures to the scalp during chemotherapy treatment. Scalp cooling is intended to help prevent hair loss, known as chemotherapy-induced alopecia, for people undergoing chemotherapy. It works by limiting blood flow to the scalp. This can reduce the amount of the chemo treatment that reaches your head, protecting your hair follicles from the chemo drugs.

Olivia noticed the shortage of scalp-cooling machines aimed to minimise hair loss in the hospital her mother was in, as well as how limited the existing solutions were.

Current products require the patient to arrive 30 minutes early and stay for 90 minutes after infusion for pre and post scalp cooling. With Athena, patients can manage this aspect of treatment themselves and seamlessly integrate into an infusion appointment with no extra time or attention required, using this device from the comfort of their own homes.

The Problem:

Current chemotherapy scalp cooling devices are either heavy duty hospital-only machines which cannot be moved easily and require patients to sit in a ward for long periods of time.

On the other hand, there are cheaper, manual cooling alternatives available used to cool the heads of chemo patients to prevent hair loss, yet these prove to be less powerful, ineffective and they don’t last long enough for maximum benefit. Athena aims to offer an effective hospital standard device that gives control to a patient in a time of little control.

The Invention:

University of Limerick graduate Olivia Humphreys, witnessed firsthand how much of an impact chemotherapy induced hair loss can have on a person, when her mother was sadly affected by cancer in 2019 and from spending time with her during treatment experience, was inspired to reimagine the way scalp-cooling can be done.

How does it work?

Athena works by utilising low-cost thermoelectric semiconductors called peltiers, and these cool a tank of water, which circulates the cold water around the head with the smartly designed headpiece. The battery powered device allows patients to bring the device home and control it themselves, making it more accessible to the consumer market.

The estimated cost for Athena would be around €1000, according to Olivia Humphreys, compared to industry machines which come in at around €40,000 or more.  Weighing around 3kg, Athena is more portable than the current leading products on the market, which use refrigeration technology requiring constant plugged in power. Athena, at full battery power, can run for 3.5 hours, allowing the patient to commute to and from the hospital while cooling and move around during infusion for bathroom visits, etc.

Speaking about Athena, Olivia Humphreys said: “I decided to build a working prototype to test the capabilities of the Peltier semiconductors. Using a Peltier computer cooling fan system, a diaphragm pump, my mum’s old suitcase, and my dad’s plane battery, I was able to create a strong proof of concept to gather valuable feedback to develop the concept. Following this, I focused on the product’s form, creating cardboard and foam models and determining functionality aspects and touchpoints to ensure the best user experience. Ultimately, I arrived at my final model, Athena, which was crafted using SolidWorks 3D CAD modelling.”

The future of Athena:

Speaking about what is next for this invention, Olivia says: “To elevate Athena to the next level, extensive research and development is required. While working on this project, I have been fortunate to network with Luminate Medical, a company in Galway, Ireland, dedicated to building a better future for cancer care. They have extended an internship offer to me as a research and development engineer. I have accepted and am very eager to apply the insights gained from my own research and development to contribute to their mission.”

Speaking about Athena, Lead Design Engineer at Dyson James Gilchrist who was part of the judging panel, said: “Hair is a deeply rooted symbol of our identity. Losing it can be one of the most difficult side effects of chemotherapy. Currently, only 8 of Ireland’s 26 hospitals offer scalp cooling as a treatment[1], partly due to the expense of the equipment and the additional time required to deliver the treatment.

The genius of Athena isn’t just in increasing access; it’s in taking the patient out of the clinic. Instead of spending an extra two hours in the treatment centre, Athena allows patients to precool their scalp on the way there and continue the cooling process post-treatment in the comfort of their own home. That’s not just a win for patients but also for clinics, enabling them to treat more patients each day.

Olivia impressed us with her first prototype—a ‘cut and shut’ computer cooling fan and diaphragm pump built into her mum’s old suitcase. Once that proved the concept, she went on to develop a high-fidelity prototype, leveraging recent innovations in battery-powered coolers.”

Olivia is eager to see how her work can inspire further innovation in cancer treatment and patient care and continue contributing to advancements in the industry.

Athena will now progress to the international stage of the James Dyson Award and Olivia will aim to commercialise this product by producing a fully functional, technologically integrated prototype.

The Runners Up:

Suas designed by Ko Kallewaard, a student in the University of Limerick

The Problem: People with reduced mobility who need to travel with their wheelchair, encounter problems such as having to check in their wheelchair at the gate and get assigned the airline wheelchair, which is often not suitable and doesn’t offer independence to people with disabilities. On landing, many wheelchair users have experienced lost wheelchairs or worse, completely broken wheelchairs, leaving them in a terrible predicament.

The Solution:

Suas enables wheelchair users to travel with their own chair and is encouraging airlines to fit specially engineered seats with Suas’s universal wheelchair lock as well as offering a connecting lock to the wheelchair user for their chair. Any plane supporting SUAS allows you to board and fly in your own wheelchair meaning no more damage to customer equipment, no more discomfort or humiliation for wheelchair users– just the freedom to travel independently. SUAS consists of two parts- the lock on the wheelchair and the redesigned seating system on the plane. The lock is a tool steel part that attaches to the rigidizer bar situated on the back of all rigid manual wheelchairs.

The newly designed seating system is a plane seat that can be set up in two ways – a traditional seat or a wheelchair space. There is a small stainless steel and aluminium lock inside the frame of the seat that automatically locks into either the traditional seats or the SUAS lock. The frame is designed so that any sized wheelchair can fit over it and lock into the space.

The SUAS system is equipped with a turbulence control module which uses a pendulum to trigger the adjustable arm to tighten, keeping the wheelchair or the seats in place.

Swoop created by Sean-Jameson Galvin from the University of Limerick

The Problem:

Many people have conditions such as dyslexia, dysmusia and dysgraphia, making music more difficult and meaning a lot of people just give up if they can’t engage creatively in music practice at foundation level. Swoop is a way of connecting early music learners with the music by making it more visually interesting, accessible through sight, sound and sensation by way of a projector on a wall or screen. Music is then learned through hand movements and colour codes.

The Solution:

Swoop is a new and accessible way of learning and creating music. Using hand movement, it enables the user to create, feel and learn music both individually and in group settings. Swoop aids in helping to bridge the gap between traditional and digital music. The product includes two gloves with embedded haptic motors . These motors provide haptic feedback relative to the note and volume intensity and aid gesture recognition software in distinguishing the user’s hand from the background. all works in tandem with a companion app allowing the user to change parameters based on their experience.

 The product system enables learners to engage with music concepts transferrable to traditional music learning. It functions using 3 axes of movement:

– X Axis (Octave Displacement): Moving the hand left and right shifts the octave, mimicking guitar or piano movements. The accompanying parameter app controls the number of octaves.

– Y Axis (Note Pitch): Moving hands left and right transitions between seven notes, with the left hand for lower and the right for higher notes, mimicking a traditional music stave.

– Z Axis (Volume Variation): Moving hands forward and back adjusts volume, teaching sound intensity through pressure.

Speaking about creating Swoop, Sean-Jameson Galvin said:

“Throughout the development of Swoop, I learned so much about accessibility when it comes to music. What works for one may not work for another in a linear learning system. It is for that reason I believe the user should have autonomy over their learning direction. It is with this principle in mind that I aim to further the development of Swoop by making music learning and creation a more enjoyable and expressive experience.”

The international top 20 shortlist will be announced on October 16th  and the international winners on November 13th.

How to enter

Candidates enter through an online application form via the James Dyson Award website.

New EU project focusses on fighting online manipulation and interference

Researchers from ADAPT, Dr. Brendan Spillane (UCD) and Prof. Owen Conlan (TCD), have announced their involvement in a new Horizon Europe project named ATHENA. This €3.1 million Horizon Europe project, titled “An exposition on THe forEign informatioN mAnipulation and interference,” aims to detect and analyse disinformation associated with Foreign Information Manipulation and Interference (FIMI). The work of the ATHENA project is crucial for the protection of democratic processes in Europe in light of recent FIMI campaigns using disinformation and the surge in cyber-attacks originating from countries like Russia and China.

The project’s primary goal is to understand the Tactics, Techniques, and Procedures employed by perpetrators in these activities and to provide policymakers and stakeholders with ATHENA the necessary tools for combating FIMI and disinformation. This will enable the project to develop countermeasures and evaluate their impact.

ADAPT researchers contributions to ATHENA include in depth case study explorations of known FIMI campaigns in Europe, the creation of a FIMI detection platform including a toolbox for analysis, a knowledge graph to store the data, and a dynamic dashboard to enable European policy makers to monitor FIMI activities to devise effective counter-strategies. ATHENA will additionally conduct a comparative legal and regulatory analysis of how eight EU Member States address FIMI, identifying areas where policy enhancement is feasible. The consortium will devise an accessible questionnaire for public utilisation, enabling individuals to recognise encounters with FIMI in their daily lives.

Dr Brendan Spillane highlighted ADAPT’s significant experience of research into disinformation: “The research being undertaken by ADAPT researchers in ATHENA builds on their coordination from another Horizon Europe VIGILANT project (https://www.vigilantproject.eu/) which will equip European Police Authorities with technology to detect, analyse and combat disinformation linked to criminal activities, and a previous H2020 project called PROVENANCE which developed technology to warn end users of disinformation when using the Internet or social media.

Engagement with stakeholders is a key aspect of the project, as ATHENA will engage a diverse range of stakeholders in interviews and workshops. Additionally, ATHENA will focus on knowledge dissemination and training in universities and schools, amplifying widespread awareness of FIMI and fostering defences against it.

Dr. David Wright from Trilateral Research, coordinator of the Project said: “The ATHENA project is not just a response to current threats but a proactive step towards a more secure digital future for Europe”.

“Disinformation spread as part of FIMI campaigns has the potential to negatively impact societal values and undermine political processes. ATHENA will develop advanced AI-informed countermeasures and playbooks to help policy makers combat FIMI.”, said Prof. Owen Conlan from Trinity College Dublin and ADAPT.

ATHENA involves 14 partners including Foundation for Research and Technology – Hellas (FORTH, Greece), the University of Cyprus (UCY), the Bavarian Police Academy (Germany), the Research Institutes of Sweden (RISE), Laurea University of Applied Sciences (Finland), Fundació Eurecat (Spain), Storyzy (France), Trinity College Dublin (Ireland), the European Organisation for Security (Belgium), Maldita (Spain), EU-Disinfo (Belgium) and University College Dublin (Ireland).

Review – The Groov-e Athena Alarm clock with wireless charging. #Tech #Athena #Clocks

Alarm clocks come in all shapes and sizes but with tech changing as it is today we should expect some more and here is what we get with the Athena alarm clock from Groov-e. Missing a radio though…. Would have been nice but it is what it is but still it is a really nice piece of kit to have in your bedroom and ideal if you have a phone that has wireless charging built in.

Giving you a retro look to it is a simplistic clock with an alarm too and a dim mode for the clock face itself and the light underneath which is also ideal for some light in your personal space beside your bed on your locker. It is simple to set up with controls on the underside and also a back up battery should you need to move it or a powercut it will revert to the current time and date etc which is hand, I have had some alarm clocks in my day when the power or battery goes you have to set up again but not the case here.

Wireless charging comes in at 5W which is the low end of the scale but will charge your device overnight and no cables needed, Wireless charging has its benefits no matter the speed, it saves your port and cable and in this instance another plug so its a win if you have got on board the wireless charging game, Having said that there is not many phones out there with it and any that is out there is more expensive but there is still enough out there to make use of this timepiece should you wish to look for something new for the bedroom. And for the snooze button fans there is a touch to snooze area on top, Yes I am one of those…

BUY HERE