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Higher Education Enters the Ring
Why it matters Yesterday’s announcement that Linda McMahon is President-elect Donald Trump’s pick to lead the Department of Education ushers in a new era for universities and colleges. This signals a sharp pivot toward decentralization and pro-business policies, and it's expected that McMahon’s leadership will focus on dismantling traditional federal education structures, expanding school choice, and aligning education priorities with a business-first agenda. Higher education faces funding uncertainties, new accountability pressures, and the need to demonstrate its relevance in supporting economic growth. The Big Picture McMahon’s appointment reflects Trump’s broader strategy to reframe education policy in a way that prioritizes state control, entrepreneurship, and conservative cultural values. This will likely have significant consequences for higher education, including: Decentralization: Shifting control of education policy and funding to the states. School Choice Expansion: Redirecting public funds to private, religious, and homeschooling options. Economic Alignment: Pressuring institutions to support industry, small business, and workforce development through research, partnerships, and entrepreneurship/startup programs. Cultural Shifts: Rolling back policies on diversity, equity, and inclusion while emphasizing “patriotic” education. What’s at Stake Federal Funding Cuts: Threat: Research funding, Pell Grants, and other federal supports may face cuts. Reality Check: Congressional approval is required to eliminate funding streams like Title I, making complete federal withdrawal unlikely but changes and funding disruptions possible. Policy Shifts: Threat: Federal oversight will likely weaken, and policies favoring vocational and workforce-aligned education will likely put increased pressure on programs such as liberal arts. Universities will also likely face increasing pressure to align with ideological goals, such as restricting DEI (diversity, equity, and inclusion) initiatives. The new administration could wield considerable control over the school accreditation process, which has been seen by some to force ideological changes on campuses. There has been a movement to decentralize accreditation authority, reduce federal oversight, and align educational standards with conservative values. According to the Council for Higher Education, many of the ideas put forward focus on empowering states to authorize accrediting agencies and even serve as accreditors themselves, shifting control from federal to state governments. Action: Institutions must better identify their options amidst a rapidly evolving agenda at both the state and federal levels, develop strategies and secure the resources necessary. For instance, there are calls to prohibit accreditors from requiring institutions to implement Diversity, Equity, and Inclusion (DEI) policies. Institutions also need to understand what the implications of a more diverse accreditation landscape could be, with standards varying significantly across states, potentially affecting the uniformity and transferability of academic credentials nationwide. Reputational Risks: Concern: Growing public skepticism toward higher education undermines enrolment and support. Impact: Conservative narratives favoring alternatives like apprenticeships and other programs that support the economy and job growth will likely gain traction. Preserving Institutional Independence: Pressure: Universities face increased scrutiny of their course curriculum and research priorities that may be deemed ideologically contentious. Opportunity: Institutions must tangibly demonstrate their value to society. The more they can do to break down barriers between “town and gown” and counter the narrative that paints them as too expensive, elitist, and out of touch. Demonstrating Economic Impact: Need: Universities must showcase their role in driving economic growth through research, commercialization, and support for small businesses and entrepreneurs. Opportunity: Institutions should communicate their relevance in relatable ways that engage with businesses, emphasizing tangible contributions to research innovation and job creation as a positive return on investment that can be messaged to taxpayers. Key Questions for Higher Ed Leaders Funding: How can we diversify revenue streams and reduce reliance on federal support? Advocacy: How should universities engage state and federal leaders to protect their interests? Reputation: How can higher education rebuild public trust and counter skepticism? Relevance: How do we better communicate the value of university research and its role in supporting a pro-business agenda? Adaptation: Can institutions innovate by expanding industry partnerships, online education, and workforce-aligned programs? Implications of Project 2025 Project 2025 is a comprehensive initiative spearheaded by the Heritage Foundation, a conservative think tank, aiming to reshape the U.S. federal government through a conservative lens. Launched in April 2023, it serves as a strategic blueprint for a potential conservative administration, detailing policy proposals, personnel strategies, training programs, and a 180-day action plan. Analysis from the Brookings Institution states that "many proposals in Project 2025 would require an unlikely degree of cooperation from Congress, though others could be enacted unilaterally by a second Trump administration.” While we don’t know the full extent to which Project 2025 will be implemented, its agenda seeks to reshape federal agencies, including the Department of Education, with a significant impact on the sector. Key areas of focus include: Title I and Student Aid Proposals to give parents more control over federal funds could deprioritize public education. Tax Credits for School Choice Incentives to support private school tuition may shift K-12 pipelines, impacting university enrolment. Economic Realignment Universities will need to align with business priorities, emphasizing innovation, commercialization, and job creation. Diversity Equity & Inclusion Project 2025 explicitly calls for reducing federal spending on what it deems unnecessary or politicized initiatives, and DEI programs are likely to fall under this categorization. This could have wide-ranging impacts, including changes to school ranking systems that have a DEI component. Ranking bodies such as US News & World Report may need to adjust their methodologies to account for changes in diversity initiatives and data availability. With potential reductions in diversity-related data, rankings might place greater emphasis on other factors such as academic performance, faculty qualifications, and post-graduate outcomes. This also could extend to endowments, which direct funding toward diversity programs through scholarships and fellowships. For institutions that rely heavily on DEI as a cornerstone of their fundraising and donor relations strategies, they may experience reduced donor enthusiasm, particularly from philanthropic organizations or alumni committed to these causes. Regulatory Rollbacks There is the potential for significant changes to Title IX protections and federal loan forgiveness programs, creating legal and financial uncertainty. What Universities Can Do Now: Secure Funding Build relationships with private donors, businesses, and industry partners. Strengthen advocacy efforts at the state level to safeguard funding & other resources. Adopt proactive strategies to mitigate potential policy impacts, such as diversifying revenue sources, engaging donors with aligned government priorities, and ensuring compliance with evolving regulations. Reinforce Public Trust Explain complex topics in accessible ways to help the public and policymakers make informed decisions. Help promote and support faculty who can serve as credible sources for the media, countering misinformation and fostering informed dialogue. Strengthen community connections with your experts through public speaking engagements, workshops, and local events. Position the university as a hub for knowledge and innovation that benefits the community. Capitalize on the reach and influence of alumni. Highlight their successes to show how they benefitted from educational programs and research. Position them as important role models and advocates in the community who are contributing to economic growth. Demonstrate Relevance Showcase faculty and their research breakthroughs. Demonstrate how their work benefits industries, supports entrepreneurship and addresses societal challenges. Speak to real-world outcomes in health, technology, the environment, and more. Use accessible language to connect with policymakers, business leaders and taxpayers. Strengthen Advocacy: Partner with peer institutions to shape policy discussions. Position universities and colleges as vital contributors to a pro-business agenda. Innovate: Expand stackable credentials and micro-credential programs that are aligned with private and public sector requirements and emerging skills-based models. Look at new online education options. Embrace partnerships that connect academic research to real-world economic impact. Universities must deliver a more compelling, data-driven, yet humanized story about their institution’s contributions, fostering stronger relationships with government, the private sector, and taxpayers. What's Next This new era will most certainly challenge higher education to rethink its approach to funding, policy, and public engagement. For all institutions, both public and private, there is no place to hide. As they step into the ring, Higher Education leaders will need lots of support as they look to forge new paths for research, teaching, and community service while engaging their stakeholders in ways that more powerfully communicate their vital contributions to society. The bell has rung—are you ready?
Consumers Face Elevated Prices Despite Waning Inflation
The years of high inflation appear to be over as inflation is now in line with the Federal Reserve’s target, though prices will likely remain permanently elevated, according to the Monthly Inflation Report produced by Florida Atlantic University’s College of Business. The Personal Consumption Expenditures Price Index (PCEPI), the Federal Reserve’s preferred measure of inflation, grew at a continuously compounding annual rate of 2.1% in September, up from 1.4% the prior month. Overall, PCEPI inflation has averaged 1.8% over the last three months and 2.1% over the last year. “The good news is that the period of high inflation appears to be in the rearview mirror. The bad news is that prices remain permanently elevated,” said William J. Luther, Ph.D., associate professor of economics in FAU’s College of Business. “The PCEPI is about nine percentage points higher today than it would have been had inflation averaged 2% since January 2020. This unexpected burst of inflation transferred wealth from savers and employees to borrowers and employers.” Core inflation, which excludes volatile food and energy prices, remains elevated. Core PCEPI grew at a continuously compounding annual rate of 3% in September. It has averaged 2.3% over the last three months and 2.6% over the last year. High core inflation is partly due to housing services prices, which grew at a continuously compounding annual rate of 3.8% in September. “If the Fed were committed to price stability, it would have helped bring prices back down to a level consistent with pre-pandemic inflation,” Luther said. Fed officials have projected another 25 basis points worth of rate cuts this year, a much smaller change than is required to return the policy rate to neutral. Since the data shows inflation is back on track, Luther says they should move more quickly. “As it stands, Federal Open Market Committee members intend to take some time reducing the policy rate to neutral, with policy likely to return to neutral sometime in 2026,” Luther said. “They might move more quickly if the economy shows signs of contraction or reduce the pace of rate cuts if they become concerned that inflation will pick back up.” William Luther, Ph.D., an assistant professor in FAU’s Economics Department, has expertise in economic growth, monetary policies, business cycles and cryptocurrencies. Luther’s research has obtained media interest across the nation, including recent coverage by The Wall Street Journal, Politico and Florida Trend. If you're looking to know more - let us help. Simply click on William's icon now to set up an interview today.
An Underwhelming October: The Latest Jobs Report
October brought disappointing news in the most recent U.S. jobs report. In the last jobs report before the U.S. presidential election, only 12,000 jobs were added. This is significantly lower than the expected number of 100,000, marking the slowest hiring month in years. This jobs report is reflective of the multiple hurricanes that ravaged the country this month and the ongoing Boeing strike. Dr. Jared Pincin, economic expert and associate professor at Cedarville University, has provided insight into the current economy of the U.S. and how announcements like this could affect the future. Here are three key takeaways from Pincin's recent interview: The October jobs report may have been skewed by the two major hurricanes and the Boeing strike that have hindered Americans from working temporarily. How will the Federal Reserve view this report as they consider future rate cuts? The stock market can have strong reactions to announcements such as this. What will the market do with these numbers that are unexpected but potentially untrustworthy? This jobs report is the last key piece of economic data to come out before the presidential election on November 5. Is there any chance that voters change their minds based on this news? If you are covering the recent jobs report or the U.S. economy and need to know more, let us help with your questions and stories. Dr. Jared Pincin is an expert on economics and is available to speak to media regarding the job market, inflation, and what this means for families in the United States – simply click on his icon or email mweinstein@cedarville.edu to arrange an interview.
Enhancing environmental governance in the Caribbean
The University of Delaware's Island Policy Lab has launched a first-of-its kind initiative to ensure that future development projects in the Caribbean are equipped to adapt to climate risks effectively. When completed, this work will set a new benchmark for sustainable development across the region. The research initiative is led by Professor Kalim Shah, Director of the UD Island Policy Lab, with colleagues at the University of the West Indies. The collaborative effort, which kicked off this month in Barbados, will integrate climate services into Environmental Impact Assessments (EIA) and bring together key stakeholders from public agencies, academic institutions and private organizations. Funded by NOAA and the U.S. Department of State, the project aims to strengthen environmental governance by embedding scientific climate data into regulatory frameworks. The work will cover multiple Caribbean islands chosen for their contrasting regulatory frameworks, with the aim of addressing critical gaps in how climate risks are incorporated into EIA processes, which often lack consistent and actionable climate data. On this first Barbados leg, the project has drawn support from the Barbados Meteorological Services, the Ministry of Environment and National Beautification, the Coastal Zone Management Unit and international financial institutions such as the Caribbean Development Bank and the Inter-American Development Bank. Private sector project developers are working alongside regulatory bodies and academic institutions to ensure the success of the initiative. Minister of Planning and Development William Duguid emphasized the importance of the project during the launch event, held at the Savannah Beach Club in Christ Church. “Our very survival as a nation depends on building climate resilience,” Duguid said, highlighting the vulnerability of Barbados’ key infrastructure — such as airports, seaports, and hospitals — located along the coast. He stressed the significance of using climate data in EIA processes to mitigate risks such as sea-level rise and storm surges, which threaten the island’s long-term sustainability. The initiative follows a phased approach, beginning with assessments of the existing institutional frameworks in Barbados, Dominica, Trinidad and Tobago, with other countries following in the future. The research team will evaluate how well current climate services align with the needs of both public agencies and private developers. In subsequent phases, stakeholders will participate in co-designing tailored climate tools to enhance EIA processes, leading to the development of Climate Services Implementation Plans. These plans will provide a roadmap for integrating climate services sustainably across sectors and jurisdictions. “This project is about more than just collecting data – it’s about turning scientific insights into practical tools for decision-makers,” Shah explained. The co-design process, which involves collaboration with local stakeholders and international partners, aims to reduce conflicts between regulators and developers by embedding climate considerations early in the project approval process. This alignment will ensure that new developments are both environmentally sound and climate-resilient. The research is expected to deliver several key outcomes, including enhanced coordination among regulatory bodies, improved access to climate data, and greater institutional capacity to manage environmental risks. Dr. Sylvia Donhert, Chief of the Inter-American Development Bank’s Compete Caribbean program, endorsed the project saying that it reflects the growing urgency for climate action across the region. “Embedding climate science into development planning is essential not just for policy but for the economic well-being of the region."
Digital Contracting Is Broken. A Little "Friction" Could Go a Long Way in Fixing It
In mid-October, the Federal Trade Commission (FTC) announced a final “click-to-cancel” rule, which, after its provisions go into effect, will make it easier for consumers to cancel recurring memberships and subscriptions. The rule is an undoubtable victory for consumers who have run into roadblocks attempting to protect their wallets amid the flurry of oversubscription in today’s world, but it also begets an important question: Why is oversubscription occurring in the first place? “One important reason for that problem is that getting into contracts is frictionless, it’s too easy,” said Brett Frischmann, JD, the Charles Widger Endowed Professor in Law, Business and Economics in Villanova University’s Charles Widger School of Law. “The FTC is addressing a real concern in making it easier for people to exit agreements of this sort. But while making it as easy to unsubscribe as to subscribe sounds great – we all like even playing fields and symmetry – it might be better to also make subscribing a little more burdensome, so people understand what they are getting themselves into in the first place.” This idea is the focus of Frischmann’s recent paper, titled "Better Digital Contracts with Prosocial Friction-in-Design," the publication of which coincides with public dissatisfaction over digital contracting processes. In August, Disney attempted to have a wrongful death lawsuit blocked, citing print in terms and conditions from a one-month Disney+ free trial the plaintiff signed up for in 2019. Since then, other companies have succeeded in recently blocking the commencement of similar lawsuits. In the research, Frischmann and his co-author, Rice University computer scientist Moshe Vardi, describe these contracts as “dehumanizing” and that they “undermine human autonomy and sociality, by design,” citing how they elicit behavior in a pre-determined manner (such as clicking on cue) and often include side agreements with other entities, unbeknownst to the users. “One-click” contracts rely on legal fictions, such as presuming that clicking an “I have read the terms and conditions” button actually means that they have. They are structured this way intentionally. “The idea behind digital contracting is ‘Let’s make the contract as quick as possible before people leave or change their mind,” Frischmann said. “They only want to do the minimum that the law requires, and all the law requires is notice of terms and action that says, ‘I agree.’” For these reasons, he argues, modern digital contracting contradicts the purpose of contract law in the first place; enabling people to reach genuine agreements and cooperate. “It’s antithetical to the underlying values of a contract,” Frischmann said. “Autonomy is undermined because people are not able to exercise autonomy in a meaningful way when they are not actually capable of deliberating about the terms to which they are agreeing. As for being cooperative, there is no relationship. Digital contracts are completely one-sided.” So what can be done to combat this? “Speedbumps,” Frischmann says, referring to measures that can cause friction in the contracting process to better protect the user. Physical road speedbumps represent a useful analogy, because while they make things slightly more inconvenient for the user, they are deployed strategically where other values are at stake, like the safety of children playing outside. “People tolerate speedbumps,” Frischmann says, “because they serve a social purpose. Friction in digital contracts is similar.” With respect to improving digital contracting, there are multiple measures that can be taken that inherently have such friction, but not all of them are always appropriate. Completely Automated Public Turing Test to Tell Computers and Humans Apart (CAPTCHAs), for example, are a type of friction-in-design that serve a useful social purpose (security) and have become normalized and tolerated, but some CAPTCHAs are ableist and others may generate proprietary data. Where he sees the most beneficial friction existing is in comprehension, which in software form could be completing a task or passing a test to prove an individual understands the agreement. Comprehension is the basis for one of Frischmann’s proposed alterations to contract law. Currently, the oft-criticized concept of informed consent is utilized. He argues it should be replaced with demonstrably informed consent, in essence requiring entities to further show that people truly comprehend what they are agreeing to. “Right now, individuals assent to contracts, going along with terms someone else insisted upon,” he said. “But assenting to terms is very different than being informed and consenting. To demand demonstrably informed consent shifts the burden on the provider to generate evidence showing in fact a person understood and agreed.” In the recent Disney case, for example, demonstrably informed consent would have required not just clicking an agreement when signing up for Disney+, but that Disney somehow explained to an individual that if they sign up for a free trial, they cannot take the company to court, and further generating reliable evidence that the individual understood that. If that were the case, perhaps the individual would not have signed up. “Or, they may not have ever gone to the Disney park if they had [signed up],” Frischmann said. This proposed change in contract law, along with the various potential methods of engineered friction in digital contracts all circle back to the same goal: slowing down contracting where it affects people in ways they do not understand. “You can’t have digital contracting built like a highway, where it’s all as fast as possible all the time,” Frischmann said. “For our digitally networked environment, it needs to be built like a neighborhood.”
New light technique could revolutionise non-invasive medical diagnostics Orbital Angular Momentum could be harnessed to improve imaging and data transmission through biological tissues Could eventually have potential to make procedures such as surgery or biopsies unnecessary. An Aston University researcher has developed a new technique using light which could revolutionise non-invasive medical diagnostics and optical communication. The research showcases how a type of light called the Orbital Angular Momentum (OAM) can be harnessed to improve imaging and data transmission through skin and other biological tissues. A team led by Professor Igor Meglinski found that OAM light has unmatched sensitivity and accuracy that could result in making procedures such as surgery or biopsies unnecessary. In addition it could enable doctors to track the progression of diseases and plan appropriate treatment options. OAM is defined as a type of structured light beams, which are light fields which have a tailored spatial structure. Often referred to as vortex beams, they have previously been applied to a number of developments in different applications including astronomy, microscopy, imaging, metrology, sensing, and optical communications. Professor Meglinski in collaboration with researchers from the University of Oulu, Finland conducted the research which is detailed in the paper “Phase preservation of orbital angular momentum of light in multiple scattering environment” which is published in the Nature journal Light Science & Application. The paper has since been named as one of the year’s most exciting pieces of research by international optics and photonics membership organisation, Optica. The study reveals that OAM retains its phase characteristics even when passing through highly scattering media, unlike regular light signals. This means it can detect extremely small changes with an accuracy of up to 0.000001 on the refractive index, far surpassing the capabilities of many current diagnostic technologies. Professor Meglinski who is based at Aston Institute of Photonic Technologies said: “By showing that OAM light can travel through turbid or cloudy and scattering media, the study opens up new possibilities for advanced biomedical applications. “For example, this technology could lead to more accurate and non-invasive ways to monitor blood glucose levels, providing an easier and less painful method for people with diabetes.” The research team conducted a series of controlled experiments, transmitting OAM beams through media with varying levels of turbidity and refractive indices. They used advanced detection techniques, including interferometry and digital holography, to capture and analyse the light's behaviour. They found that the consistency between experimental results and theoretical models highlighted the ability of the OAM-based approach. The researchers believe that their study’s findings pave the way for a range of transformative applications. By adjusting the initial phase of OAM light, they believe that revolutionary advancements in fields such as secure optical communication systems and advanced biomedical imaging will be possible in the future. Professor Meglinski added: "The potential for precise, non-invasive transcutaneous glucose monitoring represents a significant leap forward in medical diagnostics. “My team’s methodological framework and experimental validations provide a comprehensive understanding of how OAM light interacts with complex scattering environments, reinforcing its potential as a versatile technology for future optical sensing and imaging challenges.” ENDS https://www.nature.com/articles/s41377-024-01562-7 Light: Science & Applications volume 13, Article number: 214 (2024) August 2024 https://doi.org/10.1038/s41377-024-01562-7 Authors: Igor Meglinski, Ivan Lopushenko, Anton Sdobnov & Alexander Bykov About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
Patients undergoing radiation therapy for certain types of cancer at ChristianaCare’s Helen F. Graham Cancer Center & Research Institute will be the first in Delaware to benefit from a cutting-edge treatment system that increases accuracy and precision, enhances patient comfort and minimizes side effects. ChristianaCare expects to begin scheduling patients in early 2026 to receive treatment with the Varian Ethos™ system equipped with HyperSight. The innovative radiotherapy system leverages artificial intelligence and the fastest on-table imaging in the field to enhance precision and increase the likelihood of effectively treating tumors. “As leaders in cancer treatment and care, we continually strive to stay at the forefront of medicine for our patients, and this new technology is a game-changer,” said Thomas Schwaab, M.D., Ph.D., Bank of America endowed medical director of ChristianaCare’s Helen F. Graham Cancer Center and Research Institute. “Adaptive radiation therapy enables members of the patient’s treatment team to create a new treatment plan every day in real-time based on the patient’s needs and anatomy in that moment as well as any changes observed during their therapy.” In traditional radiotherapy, a plan is established at the beginning of treatment and followed through the treatment course. Adaptive radiotherapy allows for real-time modifications to the plan based on periodic assessments while the patient is on the radiation table. Human anatomy changes quickly through normal bodily function even during treatment. In the context of radiation therapy, even slight shifts or alterations in the body while being treated can significantly impact effectiveness. The advanced technology in the system enables real-time imaging on the radiation table to be completed in seconds, rather than minutes – a dramatic improvement that transforms targeting accuracy and patient comfort. “This advancement will allow us to deliver personalized treatments, enabling radiation oncologists to make necessary treatment decisions even more quickly and accurately,” said Lindsay Romak, M.D., radiation oncologist at the Graham Cancer Center. “This will provide clinically meaningful benefits for patients who require radiotherapy for a wide range of cancers, including those of the prostate, bladder, abdomen and head and neck.” Artificial intelligence powers patient treatments Leveraging the power of artificial intelligence to capture and analyze rapid images in real time, the technology quickly detects changes in the patient’s anatomy and tumor size, shape or position. Using real-time imaging data, the system automatically suggests adjustments to the treatment plan to account for these changes, which is key to achieving better patient outcomes. The system also uses artificial intelligence when determining the distribution of the radiation dose, ensuring the tumor receives the optimal amount of radiation. This streamlines the workflow making the entire process of adaptive radiotherapy more efficient. "The integration of artificial intelligence into our treatment processes underscores our dedication to incorporating the most innovative treatments for our patients. With this technology, our patients can anticipate shorter treatment times and potentially fewer sessions, significantly enhancing their overall experience,” Laura Doyle, Ph.D., chief clinical physicist at the Graham Cancer Center said. Adaptive radiation therapy is covered by Medicare and most insurance carriers. The system will be located in the radiation oncology suite at the Graham Cancer Center. Equipment installation is expected in the fall of 2025 with patient use starting in early 2026. ChristianaCare’s Radiation Oncology Department is recognized by the American Society of Radiation Oncology Accreditation Program for Excellence. Its radiation oncologists are leaders in adapting the very latest imaging and treatment advances into clinical practice. The team also helps write the standards for best practices in care delivery and teaches other doctors and health care professionals in this specialty. With this latest advancement, ChristianaCare’s Helen F. Graham Cancer Center and Research Institute continues to solidify its position at the forefront of cancer care in Delaware and beyond, underscoring its commitment to improving patient outcomes and quality of life.
Villanova Professor Releases Study on Gender Dynamics in the Beer-Drinking Community
Earlier this month, thousands of revelers donned dirndls and lederhosen to mark Oktoberfest, the annual celebration of Bavarian fare, oompah music and, above all else, beer. The fall festival is just one of many occasions, including happy hours, brewery tours and sporting events, where Americans enjoy the beverage. In fact, based on a recent report by the Pew Research Center, the U.S. population consumes approximately 6.6 billion gallons of beer each year, which averages out to about 26.5 gallons per adult of legal drinking age. However, while ales, lagers and stouts remain popular choices that bring people together, not everyone feels equally included. A new study by Shelly Rathee, PhD, the Diana and James Yacobucci '73 Assistant Professor of Marketing and Business Law, highlights a gender-based divide within the beer-drinking community, with female consumers often feeling overlooked and left out. "Due to the structure of the beer industry and marketplace, there is reason to believe that firms overproduce products that appeal to male audiences and overly communicate masculine aspects of beer consumption," says Dr. Rathee. "As a result, female consumers are made to feel (and may continue to feel) excluded by beer culture, on average. From a business standpoint, the beer industry may be limiting its total market potential in the process." As Dr. Rathee explains, the beer industry and marketplace are predominately populated by men, and academic literature has long indicated that male dominance in a social or business setting can alter the behaviors of women in myriad ways. In her project, "The Female Consumer Response Implications of Male Dominance in a Product’s Online Community," the professor sought to understand how this trend might manifest itself in an internet forum for beer aficionados, hobbyists and critics. By examining customer review data from the online community BeerAdvocate and conducting tests aimed at assessing gender-based differences in contributions, Dr. Rathee found that female consumers are inclined to defer to the male majority in such settings. In general, women either refrain from sharing their perspectives on products or adopt language characterized by what are commonly referred to as "masculinity themes." "Masculinity and femininity themes were drawn from the text of the online reviews and were identified using dictionaries derived from previous research on these topics," shares Dr. Rathee. "For example, if the consumer liked the taste of the beer, a more feminine way of describing this might be 'pleasant,' while a more masculine way might be 'strong.'" In these terms, the difference in expression might seem subtle. However, as Dr. Rathee contends, the prevalence of tens of thousands of reviews that lean toward a more masculine tone, with few offering a counterbalance, can have noticeable effects. A quick look at the beer aisle in your local supermarket reveals its impact, with bottles and cans featuring images of axe-wielding warriors, dinosaurs and gargoyles. "We found in our research that male dominance in a marketplace leads to lower trial intentions [plans to try or buy something] and brand attitudes among women," elaborates Dr. Rathee. "Therefore, we can argue that companies are likely to produce products, and marketing appeals, that are more targeted at male audiences." Although men are currently more than twice as likely as women to name beer as their preferred alcoholic beverage, Dr. Rathee suggests that there is potential to create opportunities that encourage more female drinkers to engage with beer culture. By fostering environments where women can express their preferences and perspectives, she believes the beer industry can become more inclusive and representative, ultimately enriching the community as a whole. "When featuring reviews on websites, an effort to balance out the presentation of ideas from male and female voices could be helpful," Dr. Rathee says. "Special categories could also be created to drive interest based on demographic characteristics that may include gender, among other factors. A more extreme measure would be to simply avoid including gender as a reviewer characteristic that is publicly viewable." Much like opening tents beside a beer hall, these steps could provide the necessary space and conditions for a more open and robust discussion of products to take place—to the benefit of both consumers and the industry. In the event they're increasingly pursued, that's something to which we can all raise a toast.
Villanova Professor at the Forefront of Work to Tackle Quantum Threats
Securing Our Future Against Quantum Threats Security and privacy are values that everyone cherishes. No tech user wants their personal information getting into the wrong hands, which is why we have security measures in place to protect our private data: face ID to unlock our phones, two-factor authentication to log into banking apps and fingerprint technology to securely enter any system—from a computer to your front door. Encryption codes are used on each of these platforms to encode private data and allow only authorized users to access it. These measures are put in place to protect us, but new advancements in technology could soon challenge these secure systems that we have come to know and trust. Quantum computers are extraordinary machines capable of solving problems far beyond the scope of today’s standard computers. Although these computers are not commercially available, scientists harness their power for experimentation and data storage. Quantum computers excel in scientific development, but they may also prove to be a threat to existing technology that we use in our daily lives. Experts predict that by 2035, quantum computers could crack the very encryption codes that secure everyday transactions and data. Jiafeng Xie, PhD, associate professor of Electrical and Computer Engineering at Villanova University, is at the forefront of this battle, using his Security and Cryptography Lab to strengthen security measures against the threat of quantum computers. The Rise of Post-Quantum Cryptography Since quantum computer advancements are accelerating at an unprecedented pace, post-quantum cryptography (PQC) has emerged as a critical area of research and development. Scientists who study PQC are working to come up with new algorithms to encode our sensitive data, with a goal of being installed after quantum computers crack our current encryption systems. Without these new algorithms, once quantum computers break our current codes, sensitive data—whether personal, corporate or governmental—could be left vulnerable to malicious actors. The core problem of our current encryption system lies in the foundation of public-key cryptosystems. Public-key cryptography is a method of encryption where the user logs into a system using their own private “key”, and the back end of the system has a “key” as well. A “key” is a large numerical value that scrambles data so that it appears random. When a user logs in, their “key” can decrypt private information held by the public “key” in the system to ensure a secure login. This security method is safe right now, but these systems rely on mathematical principles that, while secure against classical computing attacks, are vulnerable to the immense processing power of quantum computers. At the heart of the vulnerability is Shor's algorithm, developed by MIT computer scientist Peter Shor in 1994. As Dr. Xie explained, “Shor invented an algorithm to solve prime factors of an integer that can supposedly run on a quantum computer. This algorithm, if run on a large-scale mature quantum computer, can easily solve all these existing cryptosystems' mathematical formulation, which is a problem." The realization of this potential threat has spurred an increased focus on the development of post-quantum cryptography over the past decade. The goal is clear: "We want to have some sort of cryptosystem that is resistant to quantum computer attacks," says Dr. Xie. In 2016, the National Institute of Standards and Technology (NIST) began the process of standardizing post-quantum cryptography. In July 2022, NIST selected four algorithms to continue on to the standardization process, where they are currently being tested for safety and security against quantum computers. The standardization process for these new algorithms is intensive, and two of the candidates that were announced for testing have already been broken during the process. Scientists are in a race against time to increase the diversity of their algorithms and come up with alternate options for standardization. The urgency of this shift to post-quantum cryptography is underscored by recent government action. The White House released a national security memo in 2022 stating that the U.S. government must transition to quantum-resistant algorithms by 2035. This directive emphasizes the critical nature of post-quantum cryptography in maintaining not just personal but national security. Villanova’s Security and Cryptography Lab Once a new algorithm is selected by NIST, it will need to be embedded into various platforms that need to be secured—this is where Dr. Xie’s Security and Cryptography Lab comes in. This lab is actively conducting research into how the newly selected algorithm can be implemented in the most effective and resourceful way. The lab team is working on developing techniques for this new algorithm so that it can be embedded into many different types of platforms, including credit cards and fingerprint technology. However, there are significant challenges in this process. As Dr. Xie explains, "Different platforms have different constraints. A chip-based credit card, for example, has limited space for embedding new encryption systems. If the implementation technique is too large, it simply won’t work.” Another arising issue from this research is security. During the application of this new algorithm, there's a risk of information or security leakage, so Dr. Xie is always on the lookout for developing security issues that could cause problems down the road. The Future of Post-Quantum Cryptography The implications of PQC are widespread and extend far beyond academic research. As Dr. Xie points out, "All existing cryptosystems, as long as they have some sort of function—for example, signing in or entering a password for login—all of these systems are vulnerable to quantum attacks." This vulnerability affects everything from banking systems to small-scale security measures like fingerprint door locks. The scope of this transition is massive, requiring updates to encrypted systems across all sectors of technology. His goal is to ensure that these new cryptographic systems are flexible enough to be applied to everything from small devices like credit cards and drones to large-scale infrastructure like data centers and military equipment. Although researchers are hard at work now, the future of post-quantum cryptography is not without uncertainties. Dr. Xie raises an important question: "When quantum computers become available, will the algorithms we develop today be broken?" While the newly developed algorithms will theoretically be secure, vulnerabilities can emerge when implementing any kind of new security system. These potential vulnerabilities highlight the importance of conducting this research now so that the new algorithms can go through intensive testing prior to being implemented. Despite these challenges, Dr. Xie emphasizes the importance of being prepared for this new reality. "Society as a whole needs to be prepared with this kind of knowledge,” he says. “A new era is coming. With our current security systems, we need to have revolutionized change. On the other hand, we should not be panicked. We just need continued support to do more related research in this field.” More extensive research is required to ensure that our privacy is protected as we enter a new era of quantum computing, but labs like the Security and Cryptography Lab at Villanova are a step in the right direction. Although the “years to quantum” clock is ticking down, researchers like Dr. Xie are well on their way to ensuring that our digital infrastructure remains secure in the face of evolving technological threats.
Aston University is leading a new £5.5 million EU research project Will focus on converting fibre-optic cables into sensors to detect natural hazards Could identify earthquakes and tsunamis and assess civil infrastructure. Aston University is leading a new £5.5 million EU research project to explore converting existing telecommunication fibre-optic cables into sensors which can detect natural hazards, such as earthquakes and tsunamis, and assess the condition of civil infrastructure. The project is called ECSTATIC (Engineering Combined Sensing and Telecommunications Architectures for Tectonic and Infrastructure Characterisation) and is part of the Horizon Europe Research and Innovation Action (RIA), which aims to tackle global challenges and boost the continent’s industrial competitiveness. Converting telecom fibres into sensors requires new digital signal processing to overcome the limited data storage and processing capabilities of existing communication networks. To address this the project will use localised, high performance digital processing that will integrate artificial intelligence and machine learning. The researchers’ goal is to minimise algorithms’ complexity while providing extremely accurate real-time sensing of events and network condition. The new laser interrogation and signal processing technologies will be tested using existing fibre optic networks, including those underwater, in cities, and along railway infrastructure to assess their potential. Delivered by a consortium of 14 partners across seven countries, from academic and non-academic sectors, the research will start in February 2025 and will last three and a half years. The Europe-wide team will be led by Professor David Webb who is based in the Aston Institute of Photonic Technologies (AIPT). Professor Webb said: “There are more than five billion kilometres of installed data communications optical fibre cable, which provides an opportunity to create a globe-spanning network of fibre sensors, without laying any new fibres. “These traverse the seas and oceans - where conventional sensors are practically non-existent - and major infrastructures, offering the potential for smart structural health monitoring.” Professor Webb will be joined by fellow researchers Professor Sergei Turitsyn, Dr Haris Alexakis and Dr Pedro Freire. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk