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Professor Gina Rippon signs a copy of The Lost Girls of Autism for talk attendee Dr Georgie Agar Professor Gina Rippon’s new book, The Lost Girls of Autism, investigates why autism was thought to be a male condition for so long She gave a public talk at Aston University on 6 May 2025 exploring the central themes of the book Women and girls with autism have long been overlooked as they are better at masking and camouflaging so ‘fail’ standard tests. Autism in women and girls has been overlooked for decades, and Gina Rippon, professor emeritus of cognitive neuroimaging at Aston University Institute of Health and Neurodevelopment (IHN), has given a talk about her new book on the topic at Aston University. The book, The Lost Girls of Autism, was released on 3 April 2025, coinciding with Autism Acceptance Month, with the subtitle ‘How Science Failed Autistic Women and the New Research that’s Changing the Story’. Autism is characterised by a number of now well-known traits, including social awkwardness, extreme obsessions, and unusual movements and coping mechanisms known as ‘stimming’. It was (allegedly) first described in the 1940s separately by Austrian psychiatrists Leo Kanner and Hans Asperger. Originally identified as a rare developmental condition, since the 1980s, there has been an 800% increase in diagnoses, leading to concerns about an ‘autism epidemic’. There is a strong and enduring belief that it is a condition much more prevalent in males. Professor Rippon described her research as “looking at how brains get to be different and what that means for the owners of those brains”. This includes looking at the functions of different areas of the brain using scanners. During research into a number of brain conditions and diseases with obvious differences between the sexes, including how the disease progresses, such as Alzheimer’s in women, or prevalence in one particular sex, such as Parkinson’s in men, Professor Rippon also became interested in autism, also assumed to be largely a condition in males. However, during a research review, she found that many autism studies made no reference to sex differences. Amalgamated data from autism studies found that 80% of participants were male, and 25% of testing centres only tested males with autism. By only looking at males, Professor Rippon explained, the notion that autism is a male disorder became self-fulfilling. This does not just refer to scientific research. Even now, boys are ten times more likely to be referred for assessment for autism and twice as likely to be diagnosed than girls, even when they have exactly the same traits. 80% of autistic females have received multiple wrong diagnoses, including borderline personality disorder, social anxiety or obsessive-compulsive disorder (OCD). But why? The reason is the unchallenged belief that ‘autism is a “boy” thing’ causing a male spotlight problem in all aspects of the autism story. It could also be that females with autism express the condition differently. Professor Rippon said: “This took me back to [my previous book] The Gendered Brain when I was looking at the very clear view of what males should be like and what females should be like. If you look at the autistic population you have this clear idea that males are like this, but females, er, not so much? Females have poor social skills, but not as poor, or obsessive interests, but not as obsessive, so the trouble with females, is that they are not autistic enough.” The gold standard tests for autism are the Autism Diagnostic Observation Schedule (ADOS) and the Autism Diagnostic Interview (ADI) tests. Professor Rippon believes these are heavily biased towards how the condition manifests itself in males, such as social awkwardness or extreme obsessions. For example, parents may well be asked if their son has an unusual interest in weather patterns or train timetables, but they are not asked if their daughter has an unusual interest in Barbie dolls, because dolls are seen as socially acceptable. Research has shown that females with autism are more likely to ‘camouflage’ their symptoms, watching how ‘normal people’ behave, even practising social interactions, so they appear more normal. They are also more likely to ‘mask’ symptoms behind a persona, such as the ‘class clown’ or ‘star athlete’, in an effort to fit in. Autistic females describe this behaviour as a ‘survival strategy’ to avoid being spotted as different. It is also the case that girls are more likely to have sensory processing problems, such as aversion to strong smells, which can be enough to affect their day-to-day lives. This has only recently been added to the diagnostic criteria for autism. If the camouflaging or masking collapses, rates of other conditions such as disordered eating or anorexia, self-harm and gender dysphoria are disproportionately high, and it is these which will become identified as the underlying difficulty, rather than autism itself. Professor Rippon said: “The next stage should be asking why this group of individuals persists in hiding their autism, especially when autism has been defined as a lack of interest in social connection. There’s what I call the ‘born to be mild’ effect, where little girls are trained to socialise more, to behave, not to make a fuss, if you feel uncomfortable, don’t tell anyone else about it. There’s a lovely comment from one late-diagnosed female who rues the fact that she was so well behaved and wishes that she had just burned more cars so that someone would have spotted her carefully camouflaged distress!” The final slide in the presentation covered what Professor Rippon called “an ironic footnote”. While Leo Kanner and Hans Asperger are described as the fathers of autism, writing in the 1940s, it was in fact a Soviet female psychiatrist, Grunya Sukhareva, writing in the 1920s, who first described autism, even clearly examining the differences in the condition between boys and girls. Why her research was ignored for so long is unclear, but the male spotlight problem may well have been avoided. For more information about The Lost Girls of Autism, visit https://www.panmacmillan.com/authors/gina-rippon/the-lost-girls-of-autism/9781035011629.
Fast-striking and unpredictable, tornadoes pose major challenges for emergency planners
At least 20 U.S. states have been hit with tornadoes – some of them deadly – over the past week. Experts from the University of Delaware's Disaster Research Center can speak to the difficulty of drawing up plans in advance of tornadoes, which can develop quickly and unexpectedly, as well as a variety of topics related to storm preparedness, evacuations and recovery. Those experts include: Jennifer Horney: Environmental impacts of disasters and potential public health impacts for chronic and infectious diseases. Horney, who co-authored a paper on the increase in tornado outbreaks, can talk about how impacts on the morbidity and mortality that result from tornadoes. Tricia Wachtendorf: Evacuation decision-making, disaster response and coordination, disaster relief (donations) and logistics, volunteer and emergent efforts, social vulnerability. James Kendra: Disaster response, nursing homes and hospitals, volunteers, response coordination. Jennifer Trivedi: Challenges for people with disabilities during disaster, cultural issues and long-term recovery. Sarah DeYoung: Pets in emergencies, infant feeding in disasters and decision-making in evacuation. A.R. Siders: Expert on sea level rise and managed retreat – the concept of planned community movement away from flood-prone areas. To reach these experts directly, visit their profile and click on the contact button.
When an invitation to sit on the Georgia Governor’s Council of Economic Advisers arrived in an informal email from a colleague, Michael Toma, Ph.D., welcomed the chance to share his ongoing research on the economic health of southeastern Georgia with Gov. Brian Kemp, the Georgia House of Representatives and Senate leadership and their constituents. However, when he joined a small group of colleagues from around the state in a legislative office near the capitol in Atlanta late last year, the opportunity felt far from casual. “It does seem like it’s an honor because I looked around the table and there were only 10 or so of us from the entire state of Georgia,” said Toma, the Fuller E. Callaway professor of economics in Georgia Southern University’s Parker College of Business. “It’s nice to be invited to join this council informing the executive and legislative branches of government about economic conditions in the state of Georgia. I know the southeastern part of the state, so it’s nice to be recognized and be invited to speak about this region to a state-level audience.” The Governor’s Council of Economic Advisers is a select group of mostly higher education economists from various University System of Georgia institutions, in addition to the chief economist from Georgia Power, who meet annually. Toma, who specializes in macroeconomics and regional economics, is well known for his expertise throughout Savannah and the surrounding region. Since 2000, he has written and distributed The Economic Monitor, a quarterly publication housed within Georgia Southern’s Economics Department and Center for Business Analytics and Economic Research. The economic analysis offers a snapshot of the Savannah Metropolitan Statistical Area economy, including Bryan, Chatham and Effingham counties, and informs business owners across the Coastal Empire. He also regularly speaks to chambers of commerce and business groups in the region. In the governor’s council meeting, which was televised to state legislators, the economists took turns speaking about their respective areas of expertise to Gov. Kemp as part of an educational process and annual update for the executive and legislative branches. “The academics from the different institutions discussed economic conditions in their regions of the state,” Toma said. “I highlighted the activity here in Savannah, the growing manufacturing base and the wages associated with the Hyundai plant being injected into the regional economy, and the build-out of the supply chain for the Hyundai plant. “I discussed manufacturing development in the context of broader economic growth within the region that’s layered on top of our normal growth pattern, and that the economic development initiative is starting to pay the dividends it was anticipated to pay.” Following each individual presentation, the governor held an open forum for all in attendance to speak more fluidly with the group. “He had questions for the panel in general about small business activity,” stated Toma. “So I was able to characterize the ecosystem for small businesses in Chatham County. “He said that was a great report.” Toma holds a Ph.D. in economics from George Mason University. He joined Georgia Southern on the Armstrong Campus in Savannah in 1997. If you're interested in learning more about this topic and want to book time to talk or interview with Michael Toma then let us help - simply click on his icon now or contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
Georgia Southern’s Shainaz Landge receives Regents’ Scholarship of Teaching and Learning Award
For Shainaz Landge, Ph.D., pushing boundaries in the classroom and the laboratory isn’t just a professional pursuit, it’s a passion. As an associate professor of organic chemistry at Georgia Southern University, Landge has spent more than a decade inspiring students to soar beyond traditional learning by blending research, mentorship and hands-on experiences that extend far beyond textbooks. That commitment to innovation has earned Landge the Regents’ Scholarship of Teaching and Learning Award, an honor from the University System of Georgia (USG) that recognizes faculty who contribute to the scholarship of teaching and learning through research, leadership and instructional excellence. “Receiving the Regents’ Scholarship of Teaching and Learning Award is a true honor,” said Landge. “It reinforces my passion for teaching and research, inspiring me to strive for excellence every day. My goal is to cultivate an engaging, positive learning environment where students are actively involved and genuinely excited about the learning process.” Landge’s work is grounded in synthetic organic, medicinal and supramolecular chemistry. Her research focuses on developing novel synthetic methodologies with applications in medicinal chemistry and materials science, creating compounds with potential therapeutic properties and supramolecular systems with unique functionalities. “This award is a reflection of Dr. Landge’s deep passion for education and research, and her ability to inspire students to think critically and engage meaningfully with the world around them,” said Provost and Executive Vice President for Academic Affairs Carl Reiber, Ph.D. “At Georgia Southern, we are dedicated to fostering an environment of discovery and innovation, and her work continues to elevate that mission, both in and out of the classroom. We are fortunate to have her as part of our academic community.” This isn’t the first time Landge’s dedication to student engagement and scientific inquiry has garnered recognition. Previously, she earned a University Award of Excellence for Student Success in 2021 and the College of Science and Mathematics Award of Excellence in Research in 2023. “This award is a testament to Dr. Landge’s exceptional contributions to the Scholarship of Teaching and Learning,” said Michael Huggins, Ph.D., dean of the College of Science and Mathematics. “Her innovative approach has not only deepened our understanding of effective teaching but has also led to measurable improvements in student outcomes across the College of Science and Mathematics.” In addition to her research and teaching, Landge has served as a Service-Learning Faculty Fellow (2023-2024) and is a current Research Advocate, reinforcing her commitment to bridging the gap between academic learning and real-world problem-solving. For more information about the Regents’ Scholarship of Teaching and Learning Award, visit : If you're interested in connecting with Shainaz Landge and learning more about her work then let us help - simply contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
UD researchers launch open-source tool to boost global food security and water sustainability
Efficient water usage in agriculture is crucial for sustaining a growing human population. A better understanding of the systems that support agriculture, farmers and farmlands allows for food production to become more efficient and prosperous. That's what makes the Monthly Irrigated and Rainfed Cropped Areas Open Source (MIRCA-OS) dataset so important. MIRCA-OS offers high-resolution data on 23 crop classes — including maize, rice and wheat — and helps researchers, students and farmers examine irrigation, rainfall and croplands and how they interact with global water systems. Co-authored by Endalkachew (Endi) Kebede, a doctoral student in University of Delaware’s Department of Geography and Spatial Sciences, a recent paper focused on MIRCA-OS was published in Nature Scientific Data. Kyle Davis, assistant professor in the Department of Geography and Spatial Sciences and the Department of Plant and Soil Sciences, served as a co-author on the paper and coordinated the study. “We first developed a comprehensive data library of crop-specific irrigated and rainfed harvested areas for all countries,” Kebede said. “This involved two years of gathering data from a wide range of international, national and regional sources. Through this process, we produced a tabulated crop calendar, annual harvested area grids and monthly harvested area grids for all irrigated and rainfed crops.” “The amount of effort that Endi put in to gather, process and harmonize all of this data is truly incredible,” Davis said. “His effort is a very important contribution to the scientific and development communities.” Doctoral student Endalkachew Kebede (left) and Assistant Professor Kyle Davis. (Photo credit: University of Delaware) Cropland accounts for 13% of Earth's total habitable land, and the preservation of cropland is important in feeding the growing global population. “Crop production has been a widespread human activity for a few thousand years, and it has a huge role in global food security,” Kebede said. “But it also has unintended impacts on the environment, such as overutilization of water resources, pollution through rivers or the effects on soil and the environment.” MIRCA-OS can play a crucial role in helping to better understand croplands and agriculture, allowing the global population to be successfully fed while minimizing the agricultural effects on the environment. In addition to the data included on cropland and water resources, MIRCA-OS allows researchers to view social aspects like poverty and unemployment through an agricultural lens, creating a better understanding of the interconnectivity of agriculture and social issues. MIRCA-OS is an updated version of the earlier MIRCA2000 dataset. Kebede said the MIRCA2000 was released nearly two decades ago, so renewing the data gives users more accurate and timely information. Both datasets specialized in examining irrigation and rainfall, but the MIRCA-OS added two new complexities to their data. First, MIRCA-OS is open source, meaning it is publicly available for anyone to use, download, or modify. Kebede said the added accessibility allows the technology to contribute to anyone's work, whether it be a student, a researcher or a farmer. “Anybody can use, update it, or upscale it to the special skill they’re interested in,” Kebede said. “Some might use it for research, some might use it to create policies and some might use it to practice agriculture.” To arrange an interview with Davis, visit his profile and click on the contact button.
How college graduates can find success in a tough job market
Commencement season is an exciting time for soon-to-be college graduates – at least for those who will jump into a job once the caps are tossed. For others, it's a time of stress and uncertainty. Jill Gugino Panté, director of the Lerner Career Services Center at the University of Delaware, identified three areas where concerned graduates should focus to boost their chances of scoring interviews and potentially securing employment this summer. • Stay industry-informed: Keeping up with skills, trends and news in your field to stay current and competitive. • Network with purpose: Because many jobs are landed through connections, use LinkedIn to engage with others and grow your brand. • Leverage AI Smartly. Use tools like ChatGPT, Microsoft Copilot or Google Gemini to refine your resume, prep for interviews or analyze job descriptions. One key: Remember to maintain your authentic self. To arrange an interview with Panté visit her profile and click on the "contact" button.
When Luis Quiroga-Nuñez, Ph.D was appointed director of Florida Tech’s Ortega Observatory and its primary tenant – a non-functioning, 32-inch telescope – in 2023, he decided it was time to provide astronomy students and others a window to space. The observatory is already a base for research across a spectrum of cosmic exploration through disciplines such as astronomy and astrophysics, heliophysics, planetary science and astrobiology. However, current students have yet to see the stars up close, as the aging telescope, commissioned in 2008, has sat dormant for the last several years. With restoration, the telescope could be a powerful tool to train students to use professional telescopes and make observations – critical skills that will help prepare them for their future careers. It soon became apparent, however, that this was no simple task. The restoration would necessitate reverse engineering on a large scale to even understand how to fix and upgrade the telescope, much less actually repair it. It would also, as Quiroga-Nuñez wisely recognized, be its own powerful educational opportunity, providing unique hands-on learning opportunities for students in the College of Engineering and Science. “We are an institute of technology. We have perfectly capable people, like these young students, ready to join hands-on projects, get crazy and start to be creative.” Luis Quiroga-Nuñez With various issues to tackle and eager to support home-grown expertise, Quiroga-Nuñez and Lee Caraway, Ph.D, an instructor in the department of electrical engineering and computer science, recruited students with varied backgrounds, from astronomy to electrical engineering and computer science. Students could apply what they learned in class and grow their portfolios with a real-world project, the sort of experiential learning that is a hallmark of a Florida Tech education. Some improvements have been made, but the project remains an exciting puzzle for students and faculty alike. Here’s how they are doing it. An Interdisciplinary Project In January 2023, Quiroga-Nuñez partnered with Caraway to rebuild the telescope from the inside out. They say the conversation started over lunch, sketching ideas on a napkin. With various issues to tackle and eager to support home-grown expertise, Caraway and Quiroga-Nuñez recruited students with varied backgrounds, from astronomy to engineering to computer science. “This is about as real-world as you can get without leaving school. We have this giant piece of technology that is not working. Figure out why,” said recent graduate Adrianna Agustin ’24, who helped update the telescope’s communication system. “All of those problem-solving skills will directly translate to wherever we go in the future.” The project’s multidisciplinary nature also boosts collaboration between both sides of the college. “We keep integrating different parts of the university and involving students in a project that we were blinded by,” Quiroga-Nuñez says. “We sit between the scientists and the engineers.” And there’s no shortage of tasks. In addition to the refurbishment, Quiroga-Nuñez and Caraway are also completing routine telescope maintenance, with students taking on adjacent projects around the observatory. With the telescope repair, each student is given their own task, such as redesigning a small clip that supports the dome’s electric current, reviewing the conditions of the finder’s lens or understanding how analog devices control the telescope’s focus. This allocation allows each student to claim their own individual contribution to the greater telescope puzzle. Opening a Time Capsule The telescope’s biggest issues were mechanical and electrical, all exacerbated by age. Its motors were decades old and naturally failing, Caraway said. These motors controlled the telescope’s right ascension and declination – essentially, its ability to move. The chaotic interior also involved multiple individual systems with dozens of wires. And the circuits controlling the motors, which dated back to the 1980s, were also failing due to age. As Caraway noted, his students are sweeping off “dust older than them.” “The technology back then simply did not exist to control the motors, run the diagnostics and make it all happen,” Caraway explained. “They’re not designed to run 30 years.” Additionally, the computer program that controlled the motors was outdated and did not meet to the university’s security requirements. Given all this, the team needed to develop a new communication system for the telescope, starting with the computer software. They decided instead of purchasing an upgraded computer system, they could build and program their own in-house from scratch. Next, once the new computer was up and running, it needed motors to command. Marisa Guerra ’24 worked on a senior design project involving a robotic arm whose motor structure was the same as the telescope’s. She crafted a blueprint for the telescope’s new motors using what she learned for her capstone project. At the same time, Agustin worked on developing a cleaner communication system between the computer to the motors. Her senior design research focused on electric vehicles and their internal circuit systems, and she could replicate something similar within the telescope – but not without digging through the decaying electronics first. “We had to reverse engineer and actually redraw the circuits, which was good practice because a lot of the time, for senior design at least, you don’t really have to design a new circuit. You are just kind of puzzle-piecing it together,” Agustin said. “But with this circuit, all of them were bad.” Using Guerra’s and Agustin’s senior design research, the team reprogrammed the telescope’s circuits. What once took 20 wires to operate now only takes two. They also reduced the weight of the telescope’s motors from 40 pounds to just 2 pounds. Once the communication system was finished, the team was just waiting for mobility. And on a day in Spring 2024, thanks to the refurbished system, they were able to create movement within the telescope for the first time in years. “I didn’t even know if that device could move internally,” Quiroga-Nuñez says. The moment was celebrated, but the team knew this success triggered a new challenge. It was time to tackle high astrometric precision – a crucial element of properly tracking movement in space. “We are pointing to tiny points in the sky. If we do not track that properly, we are going to be lost in the universe,” Quiroga-Nuñez says. The Value of Time Perfecting precise movement is expected to take some time, but that’s not a bad thing, Quiroga-Nuñez says. He believes that a lengthy timeline will offer more value in the long run because it will give even more students a chance to get involved. Besides, its primary purpose will be to teach students how to use a telescope and allow them to make observations and prepare for their future careers. Ultimately, Quiroga-Nuñez predicts that the telescope could pick up its first image from space in about a year if everything stays on track. However, the team still has a lot of ground within the telescope to uncover, with an unpredictable number of potential troubleshooting challenges. For example, while rebuilding the motor, they discovered that the internal mirror that illuminates the telescope’s visuals was in poor condition – it needed cleaning and new aluminum to reflect enough light to see the telescope’s imagery, Agustin explains. So, the team had to remove the mirror and ship it to New York for refurbishment – a process that took several months. Once the mirror is reinstalled, they can return to their quest for better precision. The mirror is just one example of unpredictability in reverse-engineering. Ultimately, dedicating more time to understanding and solving the unforeseen challenges allows more students to participate in the telescope’s journey, Quiroga-Nuñez says. “This is like a big Lego for them,” he says. “They are learning the process, and the students, I think, will have found a very valuable life experience.” If you're interested in connecting with Luis Quiroga-Nuñez, director of Florida Tech’s Ortega Observatory - simply contact Adam Lowenstein, Director of Media Communications at Florida Institute of Technology at adam@fit.edu to arrange an interview today.
University-wide mental health services strengthened by Georgia Southern’s JED Campus initiative
As a result of Georgia Southern’s commitment to increasing student awareness and access to mental health resources, the University has recently been named a full JED Campus (JED) Member university. Georgia Southern recently completed a four-year partnership with JED, a national collegiate mental health program that guides colleges through a collaborative process of building comprehensive systems, programs and policy development with customized support to build upon existing student mental health, substance use and suicide prevention efforts. Along with the JED efforts, Georgia Southern has significantly increased student awareness and access to mental health resources. A recent report shows that 83% of Georgia Southern University students agree that the administration is listening to the concerns of students around health and wellness. This is a 15% increase since 2020. In 2020, the University System of Georgia launched several system-wide initiatives and resources to increase the mental health awareness and resources for all of its institutions. One of these initiatives was to fund the enrollment of all institutions in the JED Campus program. This included the creation of a JED campus team, an initial campus mental health climate study conducted by the Healthy Minds Institute on behalf of JED, the completion of a Georgia Southern self-study, a campus site visit by JED and the development and completion of a four-year strategic plan. “Engaging in the four-year JED Campus process has enabled Georgia Southern to strengthen and expand its university-wide commitment to the mental health of our students, faculty and staff,” said Jodi K. Caldwell, Ph.D., Counseling Center executive director & JED Campus team lead. “The JED team remains committed to growing Georgia Southern’s efforts in providing awareness, education, resources and support for the well-being of our community. We are grateful to the University System of Georgia, whose support funded this opportunity for all USG institutions and to the support of our Georgia Southern administration.” Recently, the University has increased awareness and resources through programs like the H.E.R.O. Folder. Students aware of mental health outreach efforts grew from 40% to 60%, and those knowing where to seek professional help increased from 78% to 84%, according to the JED feedback report. Additional findings can be found in the full report at the bottom of this article. Georgia Southern will now be considered an alumni of the program, and will continue several of the programs and initiatives launched with JED. If you're interested in learning more about Georgia Southern's partnership with JED and want to book time to talk or interview with Jodi Caldwell then let us help - simply click on her icon now contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
NASA Asks Researchers to Help Define Trustworthiness in Autonomous Systems
A Florida Tech-led group of researchers was selected to help NASA solve challenges in aviation through its prestigious University Leadership Initiative (ULI) program. Over the next three years, associate professor of computer science and software engineering Siddhartha Bhattacharyya and professor of aviation human factors Meredith Carroll will work to understand the vital role of trust in autonomy. Their project, “Trustworthy Resilient Autonomous Agents for Safe City Transportation in the Evolving New Decade” (TRANSCEND), aims to establish a common framework for engineers and human operators to determine the trustworthiness of machine-learning-enabled autonomous aviation safety systems. Autonomous systems are those that can perform independent tasks without requiring human control. The autonomy of these systems is expected to be enhanced with intelligence gained from machine learning. As a result, intelligence-based software is expected to be increasingly used in airplanes and drones. It may also be utilized in airports and to manage air traffic in the future. Learning-enabled autonomous technology can also act as contingency management when used in safety applications, proactively addressing potential disruptions and unexpected aviation events. TRANSCEND was one of three projects chosen for the latest ULI awards. The others hail from Embry-Riddle Aeronautical University in Daytona Beach – researching continuously updating, self-diagnostic vehicle health management to enhance the safety and reliability of Advanced Air Mobility vehicles – and University of Colorado Boulder – investigating tools for understanding and leveraging the complex communications environment of collaborative, autonomous airspace systems. Florida Tech’s team includes nine faculty members from five universities: Penn State; North Carolina A&T State University; University of Florida; Stanford University; Santa Fe College. It also involves the companies Collins Aerospace in Cedar Rapids, Iowa and ResilienX of Syracuse, New York. Carroll and Bhattacharyya will also involve students throughout the project. Human operators are an essential component of aviation technology – they monitor independent software systems and associated data and intervene when those systems fail. They may include flight crew members, air traffic controllers, maintenance personnel or safety staff monitoring overall system safety. A challenge in implementing independent software is that engineers and operators have different interpretations of what makes a system “trustworthy,” Carroll and Bhattacharyya explained. Engineers who develop autonomous software measure trustworthiness by the system’s ability to perform as designed. Human operators, however, trust and rely on systems to perform as they expect – they want to feel comfortable relying on a system to make an aeronautical decision in flight, such as how to avoid a traffic conflict or a weather event. Sometimes, that reliance won’t align with design specifications. Equally important, operators also need to trust that the software will alert them when it needs a human to take over. This may happen if the algorithm driving the software encounters a scenario it wasn’t trained for. “We are looking at how we can integrate trust from different communities – from human factors, from formal methods, from autonomy, from AI…” Bhattacharyya said. “How do we convey assumptions for trust, from design time to operation, as the intelligent systems are being deployed, so that we can trust them and know when they’re going to fail, especially those that are learning-enabled, meaning they adapt based on machine learning algorithms?” With Bhattacharyya leading the engineering side and Carroll leading the human factors side, the research group will begin bridging the trust gap by integrating theories, principles, methods, measures, visualizations, explainability and practices from different domains – this will build the TRANSCEND framework. Then, they’ll test the framework using a diverse range of tools, flight simulators and intelligent decision-making to demonstrate trustworthiness in practice. This and other data will help them develop a safety case toolkit of guidelines for development processes, recommendations and suggested safety measures for engineers to reference when designing “trustworthy,” learning-enabled autonomous systems. Ultimately, Bhattacharyya and Carroll hope their toolkit will lay the groundwork for a future learning-enabled autonomous systems certification process. “The goal is to combine all our research capabilities and pull together a unified story that outputs unified products to the industry,” Carroll said. “We want products for the industry to utilize when implementing learning-enabled autonomy for more effective safety management systems.” The researchers also plan to use this toolkit to teach future engineers about the nuances of trust in the products they develop. Once developed, they will hold outreach events, such as lectures and camps, for STEM-minded students in the community. If you're interested in connecting with Meredith Carroll or Siddhartha Bhattacharyya - simply click on the expert's profile or contact Adam Lowenstein, Director of Media Communications at Florida Institute of Technology at adam@fit.edu to arrange an interview today.
From spacesuits to style icons: University of Delaware fashion grads make their mark on the industry
One of the best measures of a college program is where their alums land after graduation and beyond. In addition to the impressive list of soon-to-be degree holders who have already landed excellent jobs, the University of Delaware's fashion and apparel studies program can boast a roster of alums who now have prominent positions with some of the industry's most iconic companies as well as major retailers. Faculty at UD can talk about the materials that make up the proverbial fabric of their hidden gem of a program on the campus in Newark, Delaware. A quick snapshot of what some of the alums are up to: • Two students who have developed materials for space programs, including one who developed spacesuit textiles for future lunar missions. • A fashion merchandising graduate degree holder who now is a point person for sustainability at Tapestry, the home of iconic brands like Coach and Kate Spade. • High ranking executive at Target Brands. • An alum with a resume that includes Ralph Lauren and now Steve Madden. • Textile assistant with The Kasper Group, whose portfolio includes Nine West, Anne Klein, Kasper, Le Suit and Jones New York. Among this year's graduates is a star field hockey player from Argentina who landed a job at fashion retailer Moda Operandi; an award-winning student who will continue her pursuit of "changing the world" and making the fashion industry more sustainable as a graduate student at UD; and an entrepreneurship minor who paired her experience playing volleyball with design research that resulted in more comfortable apparel for athletes. To speak to one of these past or future graduates, contact mediarelations@udel.edu. Faculty from the program are also available for interviews: Huantian Cao, professor and department chair; Sheng Lu, professor and graduate director; and Brenda Shaffer, associate chair and undergraduate director.
