Boom Launch New ‘Box Of Tricks’ To Simply Conferencing Connectivity

Conferencing manufacturer Boom Collaboration has developed a powerful new multi-connectivity hub designed to create better meetings, simply.

The Boom ZYGO offers one cable connection, multiple 4K screen and camera connectivity plus the ability to charge individual devices.

The compact docking station has been developed to address growing demand for BYOD (Bring Your Own Device) and plug-and-play conferencing trends, as well as in-room PC deployments.

Boom Co-Founder, Fredrik Hörnkvist, is hailing the ZYGO as the ultimate connectivity hub, from simple to more sophisticated room installations.

Excellence

It combines ease of use with triple 4K display connections plus legacy options. It’s platform agnostic, helps cut cable clutter and boasts extensive device capacity of 2x USB-C 10G ports and 4x USB-A 5G ports. A 1GbE LAN port ensures fast internet connection.

“Our whole ethos is around creating better meetings simply and the ZYGO is another important step forward in what is a continuing pursuit of excellence,” he added.

“It’s the ultimate hub for seamless meeting connectivity and in many ways the missing link for simple and streamlined conferencing deployments, with a wealth of connectivity. Furthermore the ZYGO gives the user complete control rather than being locked into a specific system with a narrow set of options.”

Instant

The ZYGO comes with a mounting kit and ensures wherever people are working they have quick and instant access to high performance collaboration. 

That’s the view of fellow founder Holli Hulett who emphasised: “Gone are the days of a big clunky piece of conferencing hardware sat gathering dust in the corner of a boardroom because no one knew how to use it.

“The market is definitely maturing now with some organisations having to replace their previous equipment bought during the mad rush of Covid. USB connectivity is the way forward for many and is becoming widespread across our product portfolio.

“We like to bring something different to the table and are ideally suited to help customers capitalise on the latest market trends. Easy connectivity and high performance hardware helps create better meetings, simply.”

See our boom collaboration reviews

A Dive into the Technology Used in Solar PV

In a world where the consequences of climate change are increasingly apparent, the push to reduce greenhouse gases, mainly by burning fossil fuels, is in full swing. Investment in green energy, such as solar energy, is increasing with each passing year, and for good reasons.

Switching to green solar energy is now economically feasible. While there has always been an abundance of solar energy to tap into, the technology to harness ample solar energy for typical household or commercial use cases was cost-prohibitive. 

It’s estimated that the amount of sunlight that hits the earth’s surface in just one hour and a half is enough to meet the world’s full-year energy consumption. On average, 342 watts of solar energy hit every square meter of earth yearly (https://www.nasa.gov/wp-content/uploads/2015/03/135642main_balance_trifold21.pdf). This is a huge amount of energy, which, if tapped into by using solar PV, can make a significant difference in reducing carbon emissions. Recently, harnessing solar energy to generate electricity has become a viable option.

Solar PV technology such as pvgeneration.ie used in harnessing solar energy has improved tremendously in the past decade, improving the efficiency of commercially available solar panels. With increased efficiency, typical solar panels can generate more electricity and meet our needs, reducing reliance on fossil fuels.

Let’s dive into the solar PV technology that’s making harnessing solar energy possible.

Solar Photovoltaic Technology: How PV Cells Convert Sunlight into Electricity

A photovoltaic cell is a non-mechanical device that converts sunlight to electricity. Every PV cell is made of a semiconductor material. Semiconductor materials conduct electricity better than insulators but not as well as conductors, such as metals, can. When sunlight strikes PV cells, the photons can provide enough energy to dislodge negatively charged particles called electrons.

The dislodged electrons also attain energy to flow through the material, creating an electrical current that can be harvested to power electrical appliances. The front of the PV cells are treated to attract the dislodged electron or current of electricity. With the electrons moving to the surface of the PV cell, an electrical imbalance between the front and the back surfaces of the PV cell is created, thereby creating a voltage potential that allows the current to flow.

The vast majority of PV cells are made using silicone semiconductor material. The abundance of material and the longevity of silicon-based PV cells makes it commercially viable to produce silicon PV cells.

Every PV cell can produce as much as 1 to 2 watts, which is insufficient to power household or commercial appliances. However, when the cells are connected in a package to form a panel, they produce usable electricity. Typically, solar panels are connected to create an array, further enhancing the electricity-generating potential of the PV cells.

Once the electron reaches the surface of the PV cells, the current is extracted through a conductive metal and transferred to external loads – appliances that use electricity or storage batteries. 

PV cells generate direct current (DC) electricity. You can charge storage batteries directly with DC electricity. However, nearly all devices use alternating current electricity. As such, homeowners and businesses that invest in solar panels must also invest in an inverter, which converts the DC electricity that PV cells generate to AC command devices.

PV Efficiency 

One of the most essential measurement metrics for solar PVs is their efficiency. Understanding what happens to sunlight when it hits the PV cells is important to understand PV efficiency. When solar radiation hits the PV cell, it can either be reflected by the cell, pass through it, or be absorbed by it. The absorbed sunlight is the proportion of sunlight that generates electricity. As such, PV cell efficiency is the measure of the amount of electrical power generated by a PV cell compared to the energy of sunlight that hits the cells. 

The efficiency of PV cells depends on the intensity of solar radiation and the wavelengths of light the PV cell can utilise to generate electricity. The semiconductor bandgap indicates the wavelength of light the materials can absorb and use to dislodge electrons to generate electricity. As such, the efficiency of a solar PV cell depends on the bandgap matching with the wavelength of the light. 

Commercially available PV cells from companies such as NFC Energy in Meath typically have an efficiency of 15% to 25%. However, niche PV cells such as those used in satellites and experimental cells can achieve about 50% efficiency.

Other Types of Solar Cell Technology 

While the solar PV industry is dominated by silicon solar cells, there is an array of other types of solar cells. They include:

#1: Thin-Film Solar Cells – Thin-cell PV cells are made using a micrometre thick layer of semiconductor materials such as copper indium gallium diselenide (CIGS) or cadmium telluride (CdTe). Consequently, these PV cells are flexible and lightweight, which makes them ideal for portable applications. Thin cell PVs are also easier to manufacture than traditional silicon-based PV cells. 

#2: III-IV Solar Cells – The III-IV Solar PV Cells can be considered the most advanced currently available PV cells. They are named after the group of elements they are made of – that is, Group III materials such as indium and gallium and Group V elements such as antimony and arsenic. These types of solar cells are more challenging to manufacture and, therefore, more expensive. As such, they are typically used in high-tech environments where high power-to-weight ratios are essential, and their high cost is not a prohibiting factor, such as satellites and high endurance UAVs.

Additionally, research is ongoing to develop new types of solar cells that are cheaper and easier to produce while retaining high levels of efficiency (or even improving efficiency). Various national laboratories and private organisations are pursuing new PV technologies such as quantum dot PV cells, concentration PVs, multijunction PV cells, PV cells made of organic materials, and PV cells made of hybrid organic-inorganic materials (such as Perovskite Photovoltaics, which are a type of thin-film PV cells).

 

Tech Review – iWALK Portable Charger 4800mAh Power Bank

The iWALK Portable Charger 4800mAh Power Bank is a handy piece of kit if you suffer from battery anxiety and not only that it is portable and small and will fit in any travel bag or pocket and has enough power to give your smartphone a full days charge.

This comes in several colours too which is nice and gives the consumer choice which is something I always like to see over standard two colour launches.

This is essentially a docking battery and sits in the port where you traditionally charge your device be it the newer iPhones and Android phones with USC-C ports

It comes with a LED display and a tethered cap to keep the dirt out and one power switch on the side and is so simple to use and has a nice solid feel to it too with a matt Black finish in our unit.

There is also a USB-C port to charge the device too and this can also charge other USB-C products such as earbuds and headphones.

Check the video below for more.

 

  • High-Speed Charging:Output delivers maximized 12W to power bank, deliver the fastest possible charge for Phone.
  • Upgraded built-in Cable:Supports thicker cases ,no longer need to remove the case first to charge your iPhone.
  • LED Display:LED display shows current battery charge ,input and output status, no more guessing whether you need to charge it or not.
  • Upgraded Capacity: Light weight but big Capacity, an ideal charging companion for travel,4800mAh is big enough to fully charge your iPhone x 1 times.

See our other iWalk reviews

BUY

Video Review

Tech Industry Alliance Leaders Awards 2024

Tech Industry Alliance (TIA) is delighted to announce the 2024 Leaders’ Awards, taking place at the prestigious Great Southern Hotel, Killarney, on 29th November.

This year’s ceremony marks a pivotal moment as the awards debut in County Kerry, a region that is swiftly becoming a powerhouse of technological innovation. The decision to host the event in Kerry highlights TIA’s commitment to recognising the achievements of the entire South-West’s tech and STEM communities and the vital role that collaboration plays in driving this regional success.

The Tech Industry Alliance Leaders’ Awards, now in their 17th year, have become the benchmark for celebrating those who are shaping the future of technology in the South-West. From emerging startups to established multinational companies, these awards honour the leaders whose contributions are making a significant impact on the region’s growth. Former winners of Tech Person of the Year include Frank Madden, Founder & CEO, Crest Solutions, and Andrew O’Shaughnessy, Founder of Poppulo.

Building on a Legacy of Leadership and Collaboration

The Leaders’ Awards represent nearly two decades of unwavering dedication to fostering innovation, collaboration, and excellence within the tech sector. Since their inception, the awards have shone a spotlight on the extraordinary achievements of a wide range of organisations, from pioneering startups to leading educational institutions across the entire STEM spectrum.

Sean Ryan, TIA Board Member and Chairperson of Aspen Grove, shared his excitement about this year’s event: “Bringing our flagship event to Kerry isn’t just a milestone; it’s a statement. It underscores our commitment to driving tech innovation and collaboration across every corner of the South-West. County Kerry and Cork’s tech scene is thriving, and it’s only right that we celebrate these achievements in a region that plays such a crucial role in Ireland’s economy”.

The Power of Partnership

This year marks the third Leaders’ Awards under the Tech Industry Alliance, a collaboration formed in 2022 through the merger of it@cork and KerrySciTech. This partnership has been instrumental in expanding the reach and impact of the South-West tech sector. Partnerships like these are the bedrock of our success, fuelling innovation and fostering growth across the region.

Ogie Sheehy, TIA Board Member and CEO of ViClarity, urged the community to get involved: “There’s a real buzz around this year’s awards. I encourage everyone in the tech community of the South-West to join us — nominate those who are making waves and helping to build the vibrant ecosystem that collaboration has brought to life in our region.”

Recognising Leaders and Innovators

The 2024 Leaders’ Awards categories include Tech Start Up of the Year, Tech Scale Up of the Year, and Tech Person of the Year, among others. These awards not only recognise innovative use of technology but also highlight the resilience, creativity, and social impact of businesses and individuals who are driving progress in the region.

Gerry Murphy, TIA Chairperson, emphasised the significance of collaboration: “These awards are about more than just celebrating success—they’re about showcasing the innovation and determination that push our region forward. Thanks to the partnerships that underpin our work, we’re able to shine a light on the cutting-edge technologies and resilient businesses that make the South-West a leader in tech. We owe a great deal to our sponsors and partners, including Kerry County Council, Cork County Council, and Cork City Council, whose support is essential to our ongoing success.”

Mayor of Kerry, Breandán Fitzgerald, commented that he is “very pleased to welcome the TIA awards to Kerry for the first time, and Kerry County Council is delighted to be associated with the event, as well as collaborating with our counterparts in Cork”.

Join Us in Celebrating Excellence

Nominations for the Tech Industry Alliance Leaders Awards 2024 are now open, with submissions accepted until 11th October 2024. The awards night promises to be an inspiring celebration of the best and brightest in South-West tech. Don’t miss your chance to be part of this event—reserve your tickets by contacting info@techindustryalliance.ie. For more information, visit www.techindustryalliance.ie.

Ringke Google Pixel 9 Pro and Pro XL Onyx cases review

The Google Pixel 9 Pro and Pro XL are my current daily drivers the last while now and the first thing to do is pick up a case and the next in our case lineup is from Ringke for both devices from the Onyx range.

We have done several other brands and more to come so stay tuned for more cases for your new shiny Pixel 9 series over the next while.

The Ringke Onyx range are simple and to the point and look well on the phone giving you extra grip all round, these are not Magsafe compatible however do a good job regardless.

There is a tapered lip up front meaning you can easily navigate your phones screen and place it face down on any flat surface and on the rear the camera bar is also protected really well with the camera bar recessed in the case and again stops it getting marked and again lets you put it down on a flat surface in confidence, the keys are tactile too and work well as does wireless charging and you can also use a lanyard strap if you wish to do so.

Overall these cases do a good job and will give you some peace of mind should you drop your device and not expensive either.

 

Google Pixel 9 Pro XL Case | Onyx – Dark Green

Features

  • Tough heavy-duty protection case for the Google Pixel 9 Pro XL
  • Made of slim & lightweight TPU for protection against impact and scratches
  • Anti-slip & anti-fingerprint granulate texture on the back and frame
  • Duo-QuikCatch lanyard holes on each side for accessories (Additional accessories not included)
  • Supports wireless charging and screen protector compatibility

Other pixel 9 case reviews

BUY

Google Pixel 9 Pro Case | Onyx – Black

Features

  • Tough heavy-duty protection case for the Google Pixel 9 Pro
  • Made of slim & lightweight TPU for protection against impact and scratches
  • Anti-slip & anti-fingerprint granulate texture on the back and frame
  • Duo-QuikCatch lanyard holes on each side for accessories (Additional accessories not included)
  • Supports wireless charging and screen protector compatibility

BUY

Video Review

Irish Tech Inventions That Went Global

While it is well known that Ireland has been the birthplace of numerous exceptional poets, writers, singers, and actors, a number of fantastic inventors were also born and raised in the country. 

The inventions that came forth from the minds of these men and women not only affected things in Ireland but spread to become standards worldwide. Below, we’ve found the greatest Irish tech inventions that, at the time, revolutionised industries and opened new avenues to things nobody knew existed. 

Submarine (1881)

Modern submarines are a marvel of technological innovation. They can stay beneath the choppy waters for weeks on end, generate their own power, travel freely at impressive speeds, and pop up out from the ocean at a moment’s notice.

These submarines, however, would likely not exist today if it weren’t for the work of John Philip Holland. 

Born in Liscannor, Ireland, he battled health problems before moving to the United States in 1873. At the time of his immigration, John had already begun working on preliminary designs for an underwater vessel that could have leisure and military applications. 

After slipping and breaking his leg, he had time to refine his designs, submitting many to the US Navy. All of these were, however, rejected. In 1881, John designed and built the Holland, the world’s first working submarine. Various tweaks were made until 1897 when the Holland VI launched, which the US Navy purchased three years later; it then became the blueprint for further development of sleeker and more capable subs. 

Transatlantic Cable (1858)

Although the first telegraph sent via transatlantic cables resulted from the work of inventors from various nations, the input of numerous Irish inventors and engineers made it a success. There was an attempt to lay the cable, which actually consisted of seven cables, in 1857 from White Strand in County Kerry, Ireland.  

In 1858, a successful cable run from Count Kerry to Newfoundland, Canada, was completed. Although not the first permanent transatlantic cable, since a more durable one was laid between North America and Europe in 1866, it was the first time a telegraph was successfully sent across the Atlantic, paving the way for more accessible communication between the two continents.

Seismology Instrumentation (1840s)

Born in Dublin in 1810, Robert Mallet shook things up by entering university at 16 and graduating by 20. After his studies, he worked as an engineer, helping design and build lighthouses. He had a particular interest in geology and became a member of the Royal Geological Society of Ireland in 1838. 

By 1846, Robert had developed a unique understanding of earth movements and presented a paper to the Royal Irish Academy. In the paper, he outlined basic seismology as we understand it today and coined terms such as epicentre.

Guided Missile/Torpedo (1874)

Moving from Ireland to Australia in 1861, Louis Brennan grew up being groomed to be a respected engineer and inventor. His first job was as a watchmaker, during which he honed his engineering skills. This was until he went to work for a renowned mechanical engineer called Alexander Kennedy Smith.

While working, Brennan came up with the idea of designing a torpedo that could be steered. The idea came from experiments using a thread and reel and seeing how the two interacted when used together. 

After developing his idea for years, Louis finally received a government grant and began working on a prototype. This he completed in 1877, shortly after which he filed a patent. In 1880, Brennan returned to England, where the UK military purchased his patent for over £100,000 (more than £12 million today). 

From here, his design was perfected while he worked as a factory superintendent dedicated to manufacturing his torpedo.

Jet Ejector Seat (1946)

Born in County Down, Sir James Martin worked as an engineer before starting his own firm in 1929 alongside his friend Captain Valentine Baker. The two worked on the design and manufacture of multiple fighter aircraft, the most famous being the MB 3.

As part of the design of these aircraft from 1934, Sir James experimented with the idea of an ejector seat that could launch a pilot to safety. However, the idea did not evolve until 1944. During a test flight of their new MB 3, Captain Baker, who was acting as the test pilot, fell out of the sky to his death after an engine failure.

With the death of his partner severely affecting him, Sir James redoubled his efforts to focus on pilot safety. After developing a new design, the Martin-Baker system was tested in a Gloster Meteor Mk III jet on 24 July 1946. The test was successful and led to further developing systems used in almost all military aircraft available today. 

Induction Coil (1834)

Even though most of us rarely need more electricity in modern times, Nicholas Callan certainly did in the 19th century. A physicist and Catholic priest by profession, Nicholas began teaching natural philosophy and became fascinated with the concept of electricity.

Needing more than what was available, he began playing with the idea of using coiled wire to create an intermittent high-voltage alternating current using a low-voltage direct current. In 1834, he perfected his design using a bar of iron and lengths of variously sized strands of copper wire.

Although he referred to his invention as an electromagnet, it was actually the world’s first induction coil. The coil became commonly used in X-ray equipment and is still used in some internal combustion engines. 

Conclusion

From fantastic inventions that allow us to travel across the world to great resources like Bonusfinder Ireland that make it easier to try our luck online, the origins of some of yesteryear’s creations may seem forgotten. However, many of them set the stage for items and concepts still used today.

The Irish inventors above not only changed the times and regions they lived in, but their inventions have gone on to be incorporated into modern life and spread to every corner of the planet—something that every inventor dreams of.

Tech Review – Samsung Galaxy Buds3 Pro

The Samsung Galaxy Buds3 Pro are quite simply put the best earbuds on the market right now and some might say that is a bit of a stretch even from me having the biggest collection of earbuds reviewed here in Ireland but I know what I am talking about when it comes to earbuds.

There of course is more earbuds to drop later this year and we of course have others to review but for now these are getting their well deserved first place on my list at the time or writing this review. You can see an unboxing and first look of all of the latest tech from Samsung here if you missed it.

The design of the buds is nice and comes with a nice clear top case that looks well with a nice snappy closure which will keep them safe they have a great fit with the right tips and a small stem with a pointed edge and we also get a light strip which some might find a gimmick, I have seen similar on other earbuds before and headphones so it is not new per-say. To set up the lights can be a task and has to be done each time you take them out. They do make them stand out especially at night.

The touch sensitive controls will take time to get use to if you are not familiar with such if you are one to wear them in bed you will find it a problem but that is me I use earbuds in bed all the time and due to the triangular shape of the stem well you can see what will happen.

Having said that after that these earbuds sound fantastic and for me the best out there right now and once you get comfortable with the controls you will be fine and you can see how they work in the video review below.. These also come with voice commands which is super useful and a feature again I have tried before on some Skullcandy earbuds many times and I find it excellent and keeps your hands free which is a bonus.

The app as seen below only work with Samsung devices but offers a huge array of features and it has a great UI with plenty of customisation and this is what users want when they splash out on expensive earbuds which these are but worth every cent, again we go through this in the video review below..

The Audio, OK I have said it these are the best you can get right now super ANC and Ambient mode clear audio and also these put you right in the center of what you are listening too, for example if you are listening to a podcast you now it is a podcast it feels like you are there same for movies you can easily pick out say if you are sitting in coffee shop or store you think you are there same for vehicles passing by etc etc they are simply great here and you must try the spatial audio and play with the EQ to get the best effects here do not just stick them in your ears without the app full stop.

The App

Click to enlarge

Wear App Buds3 Pro
Wear App Buds3 Pro

 

Galaxy AI is here for your all-new Galaxy Buds3, ready to help you discover the details in your favourite songs. Re-engineered with an angled design to bring sound closer to your ears, you can feel the beat with a new 11mm speaker for strong, dynamic sound. Hear the distinct timbre and clarity in each note with 24-bit CODEC, giving you the ultimate Hi-Fi sound experience. Fine-tune the details with Galaxy AI enhancements for ANC and real-time translation that give you an edge.

Overall for me forget the usual Benchmarks Apple fanboys tend to gauge everything with, I use Apple products but to this date I do still not own any of Apple’s earbuds, they have decent battery life too which will vary on your settings and of course can be used with two devices at once which I am a daily user of and switching between both is a breeze.. These are the best earbuds on the market today but only if you own a Samsung device however they are still great if you do not own one.

BUY from Samsung or Harvey Norman 

Video review

Dublin Portal expands to include 2 cities in Poland and Lithuania

Dublin City Council is delighted to announce that 2 extra cities have been added to the Portal.

So now as well as connecting with New York, people on North Earl St will be able to see Vilnius in Lithuania and Lublin in Poland.

The livestreams will rotate every 180 seconds, beginning from today and forming a global network.

“The Portal in Dublin has attracted over 340,000 visitors since its launch in May and has brought a new lease of life to North Earl Street,” said the Lord Mayor of Dublin, James Geoghegan. “We are delighted to see the network of cities expand to Vilnius and Lublin and look forward to seeing more people enjoy the Portals experience.”

The Vilnius Portal is positioned adjacent to the city’s central station, and the Lublin Portal is located on the central city square, Litewski Square. “We are delighted today to welcome Dublin and New York – the next cities to join this unique project. We are excited that our Portal is growing in reach and popularity, opening up unlimited opportunities for communication and collaboration on an international scale. Thanks to the installation, we can now peek into New York’s Manhattan and Dublin’s city centre, share culture, experiences and initiate new projects together” said Beata Stepaniuk-Kuśmierzak, Deputy Mayor of the City of Lublin for Culture, Sport and Participation.

Having been at the centre of global media attention, Portals have emerged as iconic landmarks, generating billions of online impressions and attracting an average of 25,000 weekly visitors onsite in Dublin. On the Flatiron South Plaza in New York City, foot traffic surged by 47% over the 2023 monthly average.

Previously connected in pairs (NYC to Dublin, and Vilnius to Lublin) the sculptures have fostered diverse interactions across the cities, including vibrant dance competitions, cultural performances and successful marriage proposals. This next chapter of the Portals journey realizes the original mission of the project by evolving from two-city connections to a first-of-its-kind, global artwork that invites people from multiple countries to meet in a spirit of unity.

“We can discover how similar we all are through the use of portals, which connect us to a shared network that brings people from different places and cultures closer together. I hope that this idea, which originated in Lithuania, will continue to grow and connect the entire world, allowing people to better understand each other.” said Aušrinė Armonaitė, Minister of the Economy and Innovation of Lithuania

We are thrilled to finally connect all four Portal sculptures together,” said Benediktas Gylys, founder and artist of portals.org. “The Portals mission is about building multiple Portals, which together form a global entity – a bridge to a united planet that invites people of distant cultures to meet above borders, differences and narratives. It took us eight years to arrive at this special day and we are grateful for the consistent support from our partners in Dublin, New York City, Vilnius, and Lublin. The current four Portals form the foundation of a network that will expand later this year, bringing Portals to even more countries around planet Earth.” 

Visitors to the Portals will be able to meet each other in real time across four different time zones and engage in this global artwork. The network rotation is active daily from 1pm to 8pm in Dublin/ 8am to 3pm in NYC/ 2pm to 9pm in Lublin / 3pm to 10pm in Vilnius. More Portal locations are being added to the network later this year.

Lero partners with Arm to build prototype car cameras for enhanced road safety

Lero, the Science Foundation Ireland (SFI) Research Centre for Software, has today announced an innovative new partnership with Arm, the global semiconductor and software leader. The research project, valued at €566,000, is designed to explore new technologies that will enable cars to see and react to their surroundings faster, more intelligently and more effectively.

A four-year collaboration between Lero and Arm, the ARMADAS1 project is focused on the development of next-generation car camera systems. The project will explore the optimisation of artificial intelligence to enhance how vehicles perceive their surroundings.

The research is being led by Professor Patrick Denny of Lero, who is Associate Professor in Artificial Intelligence, Machine Learning and Imaging at University of Limerick and an expert in automotive imaging.

The ambitious project is designed to help reduce road accidents by modelling advanced imaging systems for vehicles that are more responsive than existing technology.

“As car camera systems become increasingly sophisticated and AI is deployed across the vehicle, this research aims to explore the potential of smarter, more responsive imaging systems optimised for computers rather than humans. The collaboration between Lero and Arm could revolutionise the way vehicles perceive their environments by optimising cameras and sensing systems for AI processing, enabling cars to sense and react faster to their environment,” explained Prof. Denny.

“The automotive market is going through an unprecedented transformation and as part of this, we’re seeing an explosion in the demand for AI across the vehicle,” said Andy Rose, VP Technology Strategy and Fellow, Arm. “Bringing together Arm’s technical expertise and market knowledge with Lero’s internationally recognised software and computer imaging research capabilities, this project has the potential to drive exciting new developments for next-generation automotive vision systems.”

This research will benefit drivers, the public, and vulnerable road users. The project’s advancements have the potential to not only help make cars smarter but also empower chip manufacturers to develop innovative new products for this market.