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Bioenergy experts welcome commitment to sustainability in UK’s new Biomass Strategy

New strategy outlines role of biomass in UK’s transition to net zero, with sustainability as major theme Supergen Bioenergy Hub experts worked with government departments to provide scientific evidence and insight They welcome the holistic view of sustainability in the Biomass Strategy and call for action to deliver its ambitions. A group of bioenergy experts have welcomed the Government’s new UK Biomass Strategy, but say urgent action is now vital to shape its ambitions into deliverable policies. Researchers at the Supergen Bioenergy Hub - led by Aston University - worked closely with government departments to provide scientific evidence to inform the strategy, which outlines the role biomass will play in supporting the UK’s transition to net zero and how this will be achieved. Professor Patricia Thornley, who leads the Hub, says: “This is a comprehensive and considered biomass strategy that, rightly, places sustainability at the heart of UK bioenergy development. The challenge is now to produce actions that can deliver the sustainable system of biomass required to achieve net zero.” Sustainability is a major theme within the new strategy. It includes a review of how existing sustainability policies could be improved, as well as a commitment to developing a cross-sectoral sustainability framework (subject to consultation) to ensure sustainability across the many different applications of biomass. This follows previous work led by Dr Mirjam Rӧder, Systems Topic Group Lead in the Supergen Bioenergy Hub, calling for harmonised sustainability standards across different biomass applications, which is referenced in the strategy. Dr Rӧder says: “We need rigorous approaches to sustainability governance that go beyond emissions. Considering wider environmental, social and economic trade-offs is essential for true sustainability and building trust in bioenergy projects.” The strategy considers the amount of biomass resource that might be available to the UK in the future, highlighting the importance of both imported and domestically produced biomass resources. Professor Thornley comments: “It is important that the strategy recognises the potential of imported as well as indigenous biomass in achieving global greenhouse gas reductions. Sustainable systems should grow, convert and use biomass in the locations where they can deliver most impact, ensuring we take account of all supply chain emissions. We shouldn’t shy away from imports where the source is sustainable and the overall system makes environmental, economic and social sense.” The strategy also considers how biomass should be prioritised across a variety of applications to best support the transition to net zero. Biomass applications ranging from transport fuels and hydrogen to domestic and industrial heating are recognised as important, but in the medium to long term the focus is on integration of bioenergy with carbon capture and storage (BECCS). BECCS is an emerging technology where the CO2 that may be released during the production and use of electricity, fuels or products derived from biomass is captured and stored, potentially resulting in negative emissions. Professor Thornley comments: “The priority use framework outlined in the Biomass Strategy makes eminent sense. The UK (and the global energy system) needs carbon dioxide removals to deliver net zero. BECCS has an absolutely key role to play, as reflected in the strategy. Again, while this is encouraging to see, we must not underestimate the challenges of moving towards such a radically different system at scale.” “Relying on future BECCS deployment alone to counterbalance the current excess of greenhouse gas emissions would not enable the full potential and benefits of BECCS. BECCS should be deployed alongside measures to transition away from the use of fossil fuels, not instead of them,” adds Dr Joanna Sparks, Biomass Policy Fellow at the Supergen Bioenergy Hub, who engaged closely with government departments as they developed the strategy. Dr Sparks led an extensive policy engagement and knowledge transfer process to ensure that those developing the strategy had full access to the breadth and depth of UK scientific and engineering academic expertise, ensuring a robust, independent scientific base. Professor Thornley believes continued engagement between policymakers, academics and the wider sector is vital in achieving the next steps in the delivery of the Government’s strategy. She says: “The key to successful long-term results is a close partnership between academia, industry and policy stakeholders so that we can anticipate problems and plan the pathways to success.”

Aston University crisis management expert aids disaster relief whilst on holiday

Dr Komal Aryal has been supporting mountain tribal communities in Taiwan after a typhoon hit the country, causing US$15m of damage He has been working with various groups to aid civil disaster relief Typhoon Khanun caused debris flows, floods and landslides that blocked transport links affecting thousands of farmers and hundreds of tourists. Aston University crisis management expert Dr Komal Aryal has been helping a humanitarian effort in Asia following a typhoon. Dr Aryal was touching down in Taiwan as part of his holiday when heavy rain, in the wake of Typhoon Khanun, hit the mountainous areas of the country on Saturday 5 August 2023. The typhoon caused debris flows, floods and landslides that blocked transport links affecting over 22,000 mountain farmers and left hundreds of tourists stranded. It’s estimated around US$15m worth of damage has been done following the disaster. Dr Aryal has been working with the Presbyterian Church in Taiwan (PCT) to manage a local humanitarian support camp based at the Wugong Village Puli Township and aid Taiwan's civil disaster relief. He called on his expertise in crisis and disaster management to begin coordinating the humanitarian response to the typhoon, before meeting with the Taiwanese president, Tsai Ing-wen, through the PCT at the local humanitarian response site. He has also helped in the clean-up at houses that have been affected by the typhoon-induced debris flow. Dr Aryal said: “As I was landing in Taiwan on Saturday night, a typhoon hit the country. “The initial disaster incident report came to Taipei from a remote mountain location and my colleagues from PCT informed me about it, so I offered my help for the initial local humanitarian repose coordination and spontaneous volunteers management. “Since then, I have helped to provided technical assistance to set up a local crisis/disaster/humanitarian coordination office and humanitarian logistic management system for immediate crisis response. “It has provided me a great opportunity to transfer Aston University’s crisis and disaster management knowledge to real crisis and disaster situation to help mountain tribe communities in Taiwan.” Dr Aryal has now returned to Taipei after handing over all the technical coordination to local experts.

Study reveals how stereotypes undermine diversity efforts in the workplace

Although they were released well before the "Barbie" movie crushed it at the box office, recent findings by a group of University of Delaware researchers could have been used as fodder for a scene in the film. Kyle Emich, a professor of management at the Alfred Lerner College of Business and Economics, along with former UD colleagues Rachel Amey and Chad Forbes, wanted to know why women’s knowledge often gets ignored in the workplace, and how to improve that situation. Drawing on both a problem-solving group exercise and measurements of brain activity, their findings, published by the journal Small Group Research, illustrate ways stereotypes and attitudes can stifle the benefits of diversity efforts. At the same time, the study also offers hope for solutions. Key takeaways: While women are often urged to fight for status, the onus should actually be placed on high-status men to respect and accept women’s expertise. - Teams in the group exercise made up of two men and one woman were less effective. Women often struggled to speak up when they were in the minority. Also, the more minority women on these teams shared key information, the less respect they got from their team. The findings, Emich and his team said, confirm the idea that a lack of respect for minorities undermines the benefit of diversity. They also argue that while the burden is often put on women to make sure they have a voice, men in power should also bear this responsibility. Emich, who studies group dynamics and performance in work settings and examines how emotions influence cognitive processing, is available for interviews. Click on his profile below to set one up.

Optical research illuminates a possible future for computing technology

Nathaniel Kinsey, Ph.D., Engineering Foundation Professor in the Department of Electrical and Computer Engineering (ECE), is leading a group to bring new relevance to a decades-old computing concept called a perceptron. Emulating biological neuron functions of the messenger cells within the body’s central nervous system, perceptrons are an algorithmic model for classifying binary input. When combined within a neural network, perceptrons become a powerful component for machine learning. However, instead of using traditional digital processing, Kinsey seeks to create this system using light with funding from the Air Force Office of Scientific Research. This “nonlinear optical perceptron” is an ambitious undertaking that blends advanced optics, machine learning and nanotechnology. “If you put a black sheet outside on a sunny day, it heats up, causing properties such as its refractive index to change,” Kinsey said. “That’s because the object is absorbing various wavelengths of light. Now, if you design a material that is orders of magnitude more complex than a sheet of black plastic, we can use this change in refractive index to modify the reflection or transmission of individual colors – controlling the flow of light with light.” Refractive index is an expression of a material’s ability to bend light. Researchers can harness those refractive qualities to create a switch similar to the binary 1-0 base of digital silicon chip computing. Kinsey and collaborators from the U.S. National Institute of Standards and Technology, including his former VCU Ph.D. student Dhruv Fomra, are currently working to design a new kind of optically sensitive material. Their goal is to engineer and produce a device combining a unique nonlinear material, called epsilon-near-zero, and a nanostructured surface to offer improved control over transmission and reflection of light. Kinsey’s prior research has demonstrated that epsilon-near-zero materials combine unique features that allow their refractive index to be modified quite radically – from 0.3 to 1.3 under optical illumination – which is roughly equivalent to the difference between a reflective metal and transparent water. While an effective binary switch, the large change in index requires a lot of energy (~1 milli-Joules per square centimeter). By combining epsilon-near-zero with a specifically designed nanostructure exhibiting surface lattice resonance, Kinsey hopes to achieve a reduction in the required energy to activate the response. The unique response of a nanostructure exhibiting surface lattice resonance allows light to effectively be bent 90 degrees, arriving perpendicular to the surface while being split into two waves that travel along the surface. When a large area of the nanostructure is illuminated, the waves traveling along the surface mix, where they interfere constructively or destructively with each other. This interference can produce strong modification to reflection and transmission that is very sensitive to the geometry of the nanostructure, the wavelength of the incident light and the refractive index of the surrounding materials. The mixing of optical signals along the surface can also selectively switch regions of the epsilon-near-zero material thereby performing processing operations. A key aspect of Kinsey’s work is to build nonlinear components, like diodes and transistors, that use optical signals instead of electrical ones. Transistors and other traditional electronic components are nonlinear by default because electrical charges strongly interact with each other (for example, two electrons will tend to repel each other). Creating optical nonlinear components is challenging because photons do not strongly interact, they just pass through each other. To correct for this, Kinsey employs materials whose properties change in response to incident light, but the interaction is weak and thus requires large energies to utilize. Kinsey’s device aims to reduce that energy requirement while simultaneously shaping light to perform useful operations through the use of the nanostructured surface and lightwave interference. The United States Department of Defense sees optical computing as the next step in military imaging. Kinsey’s work, while challenging, has potential to yield an enormous payoff. “Let’s say you want to find a tank within an image,” Kinsey said, “Using a camera to capture the scene, translate that image into an electrical signal and run it through a traditional, silicon-circuit-based computer processor takes a lot of processing power. Especially when you try to detect, transfer, and process higher pixel resolutions. With the nonlinear optical perceptron, we’re trying to discover if we can perform the same kinds of operations purely in the optical domain without having to translate anything into electrical signals.” Linear optical systems, like metasurfaces and photonic integrated circuits, can already process information using only a fraction of the power of traditional tools. Building nonlinear optical systems would expand the functionality of these existing linear systems, making them ideal for remote sensing platforms on drones and satellites. Initially, the resolution would not be as sharp as traditional cameras, but optical processing built into the device would translate an image into a notification of tanks, troops on the move, for example. Kinsey suggests optical-computing surveillance would make an ideal early warning system to supplement traditional technology. “Elimination or minimization of electronics has been a kind of engineering holy grail for a number of years,” Kinsey said, “For situations where information naturally exists in the form of light, why not have an optical-in and optical-out system without electronics in the middle?” Linear optical computing uses minimal power, but is not capable of complex image processing. Kinsey’s research seeks to answer if the additional power requirement of nonlinear optical computing is worthwhile given its ability to handle more complex processing tasks. Nonlinear optical computing could be applied to a number of non-military applications. In driverless cars, optical computing could make better light detection and ranging equipment (better known as LIDAR). Dark field microscopy already uses related optical processing techniques for ‘edge detection’ that allows researchers to directly view details without the electronic processing of an image. Telecommunications could also benefit from optical processing, using optical neural networks to read address labels and send data packets without having to do an optical to electrical conversion. The concept of optical computing is not new, but interest (and funding) in theory and development waned in the 1980s and 1990s when silicon chip processing proved to be more cost effective. Recent years have seen many advancements in computing, but the more recent slowdown in scaling of silicon-based technologies have opened the door to new data processing technologies. “Optical computing could be the next big thing in computing technology,” Kinsey said. “But there are plenty of other contenders — such as quantum computing — for the next new presence in the computational ecosystem. Whatever comes up, I think that photonics and optics are going to be more and more prevalent in these new ways of computation, even if it doesn’t look like a processor that does optical computing.” Kinsey and other researchers working in the field are in the early stages of scientific exploration into these optical computing devices. Consumer applications are still decades away, but with silicon-based systems reaching the limit of their potential, the future for this light-based technology is bright.

ChristianaCare expands Health Literacy Partnership through Support from Highmark Health

ChristianaCare has received an $80,000 grant from Highmark Blue Cross Blue Shield (BCBS) Delaware to support the Health Literacy Council of Delaware. Funded through Highmark’s BluePrints for the Community grant program, the money will be used to fund education and awareness for clinicians and other caregivers on best practices in making health care information much easier for patients to understand. “Health literacy is essential to good health,” said Greg O’Neill, MSN, APRN, AGCNS-BC, director of Patient & Family Health Education at ChristianaCare. “Personal health literacy is the degree to which individuals are able to find, understand and use information and services to inform their health-related decisions and actions. At ChristianaCare we are committed to communicating with our patients in ways that enable them to understand so that they can make informed decisions and achieve their best health. “We are deeply grateful that Highmark Health Options shares our commitment to health literacy. Their generous grant will enable us to support our caregivers in their efforts to deliver clear, consistent communication to every patient in every interaction, improving their lives.” In addition to work within health care in Delaware through the Health Literacy Council, the grant also will be used by ChristianaCare to provide education in the community to support increased health literacy and enable people to make informed, healthy choices. Housed by the Delaware Community Foundation, Highmark’s BluePrints for the Community has contributed over $35 million to the community since its inception in 2007. It was established to increase access to care and reduce health care disparities in Delaware. In addition to ChristianaCare, the Health Literacy Council of Delaware is supported by the Delaware Division of Public Health and the University of Delaware’s Partnership for Healthy Communities. “Highmark Blue Cross Blue Shield Delaware and Highmark Health Options are actively engaged with statewide literacy improvement efforts and are pleased to support the Health Literacy Council of Delaware,” said Nick Moriello, president of Highmark Blue Cross Blue Shield Delaware. “By ensuring Delawareans have the tools and resources they need to understand their health information, while simultaneously making inclusive accommodations as health care organizations, we can promote better health decisions and ultimately improve health outcomes.”

Is AI Censoring Us?

Artificial intelligence has been hogging headlines around the world in recent months. In late March 2023, an unprecedented coalition of tech CEOs signed an open letter calling for a moratorium on AI training. The race to empower powerful artificial minds should be paused, argued signatories (including Elon Musk) to give humanity time to review and reassess the potential risks of developing “human-competitive intelligence”–intelligence that “no one–not even their creators–can understand, predict, or reliably control.” Concerns about the unchecked rise of AI are not new, and global media is increasingly sounding the alarm, citing concerns that range from invasion of privacy to an existential threat to human existence. Weighing in on this with compelling new evidence around the “unintended consequences” of AI is research by Goizueta’s Ramnath Chellappa and Information Systems PhD candidate, Jonathan Gomez Martinez. Uncovering the Threat Their paper, Content Moderation and AI: Impact on Minority Communities, takes a hard look at how the use of AI in social media could disadvantage LGBTQ+ users. And what they find is worrying. Chellappa, who is Goizueta Foundation Term Professor of Information Systems & Operations Management, explains that he and Gomez Martinez homed in on Twitter to explore how unchecked artificial language moderation might (mistakenly) censor the use of “otherwise toxic” language by failing to understand the context or nuanced use of the LGBTQ+ lexicon. Examples of this include “reclaimed language”—verbiage that would be a slur in other contexts—but is reclaimed and prosocial if used by the originally targeted community. Their paper, Content Moderation and AI: Impact on Minority Communities, takes a hard look at how the use of AI in social media could disadvantage LGBTQ+ users. And what they find is worrying. Chellappa, who is Goizueta Foundation Term Professor of Information Systems & Operations Management, explains that he and Gomez Martinez homed in on Twitter to explore how unchecked artificial language moderation might (mistakenly) censor the use of “otherwise toxic” language by failing to understand the context or nuanced use of the LGBTQ+ lexicon. Examples of this include “reclaimed language”—verbiage that would be a slur in other contexts—but is reclaimed and prosocial if used by the originally targeted community. “This is a community that has ‘reclaimed’ certain words and expressions that might be considered offensive in other contexts. Terms like ‘queer’ are used within the community both in jest and as a marker of identity and belonging. But if used by those outside the community, this kind of language could be deemed inflammatory or offensive.” Gomez Martinez adds: “We wanted to measure the extent to which AI’s lack of a nuanced understanding of what is ‘acceptable’ affects minority users’ online interactions. As humans, we understand that marginalized communities have long used ‘reclaimed words’ both in jest and as a kind of rallying cry. Our intuition was that the machine simply wouldn’t understand this without context—context that is more immediately apparent to people.” Determining the Impact of AI-Based Moderation To test this, he and Chellappa looked at data from social media behemoth, Twitter. During the pandemic in 2020, the platform made a significant shift to AI-based content moderation to accommodate stay-at-home measures. Data from Twitter’s proprietary Academic Research API afforded Gomez Martinez and Chellappa access to a complete listing of historical tweets and replies before, during and after this period. Together they analyzed a total of 3.8 million interactions (1.8 million tweets and 2.0 million replies) from a panel of 2,751 users, of which 1,224 self-identified as LGBTQ+ in their Twitter bios. Their study ran over four months, from January to May 2020, before, during and after the switch to machine-based moderation. Using the same tools that Twitter moderators deploy to moderate interactions, Gomez Martinez and Chellappa were able to measure any increase or decrease in pro-social, in-group teasing and toxic language among LGBTQ+ users: terms such as “bitch” or “queer,” which research shows to be a form of ritualized insults—dubbed “reading” by the community—which can appear inappropriate or incoherent to outsiders, says Chellappa. “Analyzing the language, we find a notable reduction in the use of terms that could be considered toxic. When the AI moderation is in effect, you see these users’ language become more vanilla,” he adds. Quantifiably so, in fact. Chellappa and Martinez find a 27 percent reduction in the use of reclaimed language among LGBTQ+ users. And while that doesn’t sound like much, it’s significant for the community, says Gomez Martinez. Using in-language and reading each other is one way for this marginalized group to create a sense of community and social status. Not just that, we know from research that LGBTQ+ people use slurs and insults as a way of preparing themselves emotionally and psychologically for hostile interaction with heterosexual individuals. This kind of teasing and playing helps build resilience, so any reduction in it is significant.” Jonathan Gomez Martinez Good Intentions May Breed Unexpected Consequences So what does this mean for social media, for the LGBTQ+ community or any marginalized group for that matter, that might be prone to automated censorship? And how does any of this play out in the context of broader concerns around AI? For Chellappa and Gomez Martinez, there is a major hazard in granting technology any degree of control over how human beings interact. And it’s rooted in the mismatch between good intentions and unexpected consequences. Their paper, one of the first to dig into the impact of AI on actual business and society, lays bare some of the real-world impact AI has already had on marginalized people. While this study looks at the LGBTQ+ community, it could equally apply to any group that is prone to bias or exclusion—racial minorities or any other underrepresented demographic. “Wherever you have user-generated content, you are likely to find communities with their own, unique way of interacting. We looked at LGBTQ+ Twitter users, but you could also look at the African American community, for instance.” Ramnath K. Chellapa At a time when social media platforms have become almost newslike in their influence, this is a concern. On the one hand, censoring certain demographics might earn Twitter et al an unwanted reputation for being anti-LGBTQ+ or racist, he adds. But there are even bigger stakes here than bad publicity. “Twitter has long aspired to be a kind of global town square,” says Gomez Martinez. “But you end up pretty far from that scenario if only some voices are truly heard, or if you start reinforcing biases because you are using a time-saving technology that is not equipped yet to understand the complexity and nuance of human interaction.” AI isn’t there yet, say Chellappa and Gomez Martinez. And they caution against using AI indiscriminately to expedite or streamline processes that impact human communication and interchange. If we don’t keep track of it, their research shows that AI has the potential to start dictating and moving people into normative behavior—effectively homogenizing us. And that’s a problem. Looking to know more? Ramnath Chellappa is available to speak with media. Simply click on his icon now to arrange an interview today.

Home field advantage: Beneficial bacteria could protect turfgrass from damaging disease

Sports leagues from the pros on down use turfgrass because it's a hearty grass that can be mowed to exceedingly short heights and tolerates trampling foot traffic with ease.  But it does have a shortcoming: Turfgrass is vulnerable to a pathogen called dollar spot. UD researchers Harsh Bais and Erik Ervin and doctoral student Charanpreet Kaur are part of a team studying the beneficial properties of UD1022, a UD-patented beneficial bacteria, to see whether it can be effective in protecting turfgrass.  Left unchecked, dollar spot can result in huge economic losses for golf courses and other places where turfgrass must be managed and protected. Known as a growth promoter that can help plants flourish, the hope is that UD1022 can be a green alternative to complement existing turf-management processes already in use. Bais, a professor of plant and soil sciences, is available for interviews and can be contacted by clicking on his profile below this photo or via his ExpertFile profile.

Inspired by Palm Trees' Resilience, Florida Tech Researcher Seeks to Strengthen Made Materials

Inspired by the tiny, circular vessels in the trunks of palm trees that allow the iconic plants to bend but not snap in strong winds, an assistant professor of aerospace engineering is researching how to recreate Mother Nature’s handiwork in additive manufacturing. Mirmilad Mirsayar received a three-year, $200,627 research grant from the National Science Foundation’s highly competitive Mechanics of Materials and Structures program under the Division of Civil, Mechanical and Manufacturing Innovation to study the mechanics and physics of crack propagation in functionally graded cellular structures made by additive manufacturing. That’s the process of creating an object by building it one layer at a time. Mirsayar is the sole principal investigator of the project, “Understanding Mixed-Mode Fracture Mechanics in Additively Manufacturable Functionally Graded Microcellular Solids.” His research is inspired by cellular patterns seen in palm trees and butterfly wings. For example, unlike oak trees and some others, the palm tree’s center contains those vessels, distributed non-uniformly throughout the trunk, that help it survive in Florida’s windy environment. Other biological systems, such as bone, honeycombs and marine sponges, also serve as inspirations from nature. “I’m enjoying this research because I’m learning from nature and I’m applying fundamentals of physics and mathematics to solve a very important engineering problem while training the next generation of engineers and researchers,” Mirsayar said. Materials with cellular structures, such as aircraft wings and artificial bones, are widely used in industries such as aerospace and biomedical. As additive manufacturing has advanced, materials with cellular structures and increasingly complex geometrical patterns can be precisely manufactured. Mirsayar is looking at ways to optimize these strong and light cellular structures made by additive manufacturing to achieve the highest resistance against failure under complex operational loading conditions, such as bending tension, compression and torsion. What could this mean for additive manufacturing? How could stronger materials change what or how we build? Contact Florida Tech Media Communications Director Adam Lowenstein at adam@fit.edu to schedule an interview with Dr. Mirsayar.

Managed retreat: Could this "extreme" move be one of the best ways of dealing with climate change?

Climate change is wreaking havoc on every part of the world right now. Coastal towns are seeing more consistent floods, inland cities are being plagued by droughts and fires and regions unaccustomed to deadly high temperatures are struggling to adapt.  A.R. Siders, assistant professor in the Biden School of Public Policy and Administration and the Department of Geography and a core faculty member of the Disaster Research Center, looks at climate change and the impact it is having on communities.  One solution she poses for regions being pummeled by climate change is managed retreat. The idea is to plan an exit strategy for a community before these life-altering events occur. One such example is Valmeyer, Ill. In 1993, back-to-back floods swamped the town, officials simply moved their residents to higher ground. Siders can discuss the advantages to this seemingly extreme move and other ways communities can deal with climate change. She has been featured in multiple national outlets including The New York Times, NPR and Vice. She is available for interviews. Click "View Profile" to connect with her. 

Aston Business School announces strategic partnership with ISACA

It will help ABS graduates optimise their career potential with industry leading credentials in cyber security and risk management Aston University’s Cyber Security Innovation Centre has gained ISACA Accredited Training Organisation (ATO) status The partnership forms an Academic Centre of Excellence (ACoE) at Aston Business School. The Cyber Security Innovation (CSI) Centre at Aston University has announced a strategic partnership and the formation of an Academic Centre of Excellence with the Information Systems Audit and Control Association (ISACA). It will provide an added value for ABS graduates through taking ISACA certifications to optimise their career potential. Dr Anitha Chinnaswamy, a senior lecturer in cyber security management at the CSI Centre at Aston Business School, said: “There is an acute shortage of skills in the cyber security sector and we are delighted to be leading the field of executive education of future professionals under the recognition of a Centre of Excellence.” The CSI Centre and ISACA UK Central Chapter have been working together for the past four years, with both parties being ISACA ATOs (Accredited Training Organisations) in their own right, delivering high quality virtual and face-to-face instructor-led training which is helping delegates to achieve exam success and benefit from network membership of over 170,000 cyber professionals world wide. ISACA UK Central celebrated its 30 year anniversary in 2023. Their instructors are working consultants, with a wealth of experience as chief information security officers (CISOs), risk managers and IT audit directors, bringing the topic to life using real examples and practical knowledge. Professor Zoe Radnor, Pro-Vice-Chancellor and Executive Dean of the College of Business and Social Sciences at Aston University, said: “Taking our executive education in the cyber security direction is a strategic priority as Aston University has positioned itself as leader in digital technologies. The CSI Centre of Excellence underscores this priority.” Professor Helen Higson, deputy dean of Aston Business School, said: “The CSI Centre academics are always forward looking at the new demands in education and have created a dynamic set of postgraduate offering highly relevant in the market.” Professor Aleks Subic, Chief Executive and Vice-Chancellor of Aston University, said: “In line with our 2030 strategy focused on establishing Aston University as a leader in digital innovation, the Centre of Excellence represents an important step towards making Aston University a sector leader in cyber security.”