Experts Matter. Find Yours.
Connect for media, speaking, professional opportunities & more.
AI-powered cruise control system may pave the way to fuel efficiency and traffic relief
The CIRCLES Consortium, consisting of Vanderbilt University, UC Berkeley, Temple University and Rutgers University-Camden, in coordination with Nissan North America and the Tennessee Department of Transportation, concluded a five-day open-track experiment on Nov. 18. Congestion Impacts Reduction via CAV-in-the-loop Lagrangian Energy Smoothing (CIRCLES) Researchers tested an AI-powered cruise control system designed to increase fuel savings and ease traffic using 100 specially equipped Nissan Rogue vehicles. The experiment—which ran from Nov. 14 through Nov. 18 on a sensor-filled portion of Interstate 24—is based on the results from an earlier, closed-track study where a single smart vehicle smoothed human-caused traffic congestion, leading to significant fuel savings. A single AI-equipped vehicle could influence the speed and driving behavior of up to 20 surrounding cars, causing a kind of positive ripple effect in day-to-day traffic. The CIRCLES Consortium will spend the next several months analyzing data collected on the AI-equipped vehicles and their impact on the flow of traffic over the duration of the experiment. The test was conducted on the recently opened I-24 MOTION testbed, the only real-world automotive testing environment of its kind in the world. Stretching for four miles just southeast of downtown Nashville, the smart highway is equipped with 300 4K digital sensors capable of logging 260,000,000 vehicle-miles of data per year. The CIRCLES Consortium research is supported by the National Science Foundation and the U.S. Departments of Transportation and Energy. Support was also provided by Toyota North America and General Motors. The experiment included Toyota RAV4 and Cadillac XT5 vehicles. Preliminary vehicle and traffic flow detection in the I-24 Mobility Technology Interstate Observation Network (MOTION). “On November 16 alone, the system recorded a total of 143,010 miles driven and 3,780 hours of driving. The I-24 MOTION system, combined with vehicle energy models developed in the CIRCLES project, provided an estimation of the fuel consumption of the whole traffic flow during those hours. The concept we are hoping to demonstrate is that by leveraging this new traffic system to collect data and estimate traffic and applying artificial intelligence technology to existing cruise control systems, we can ease traffic jams and improve fuel economy,” the CIRCLES team said in a joint statement. “Nissan has always been a pioneer in automotive innovation, and with our long-term vision, Nissan Ambition 2030, we know our future is autonomous, connected and electric,” said Liam Pedersen, deputy general manager at the Nissan Alliance Innovation Lab in California’s Silicon Valley. “CIRCLES shares our common goal of building a safer, cleaner world by empowering mobility.” “When it comes to transportation and mobility in Tennessee, we are at a critical juncture,” said Deputy Governor and TDOT Commissioner Butch Eley. “Traffic congestion is now becoming more prominent throughout Tennessee, and not just in urban areas. Addressing these challenges will force us to think critically about solutions, as transportation infrastructure projects traditionally are not identified nor completed before traffic congestion more dramatically affects our quality of life. One of these solutions is greater use of technology to enhance mobility. We are confident that this project and others like it will further strengthen Tennessee’s reputation for being a hub of automotive excellence.” “The I-24 MOTION project is a first-of-its-kind testbed, where we’ll be able to study in real time the impact connected and autonomous vehicles have on traffic in an open road setting,” said Meredith Cebelak, adjunct instructor in civil and environmental engineering at Vanderbilt and Tennessee transportation and transportation systems management and operations department leader at Gresham Smith. “The permanent infrastructure has been designed and installed, meaning the testbed will always be ‘on’ and available to researchers. By unlocking a new understanding of how these vehicles influence traffic, vehicle, infrastructure, and traffic management strategies, design can be optimized to reduce traffic concerns in the future to improve safety, air quality and fuel efficiency.” “Partnership across universities, government and the private sector is the key to pioneering projects like this one,” Vice Provost for Research and Innovation Padma Raghavan said. “From its earliest inception, all the partners in this effort have played vital roles. That trusted collaboration continues as the team analyzes results to seek new insights to address pressing challenges in transportation in Tennessee and beyond.”
Goizueta Faculty Member Uncovers Impact of Remote Learning on Educational Inequality
In 2020, the world went into lockdown. Learning in school became learning from the couch. Rather than listening to teachers in-person behind a desk, high school students had to find a computer to stream their lectures and lessons. What happens to educational inequality in a digital-first, remote-learning environment? Whereas students are traditionally bound by their brick-and-mortar schools and the limitations of funding in those areas, what happens when the walls are removed and students have access to the teachers, knowledge, and peers from other areas? Ruomeng Cui and co-researchers, Zhanzhi Zheng from University of North Carolina at Chapel Hill and Shenyang Jiang from Tongji University, decided to find out. In their 2022 paper, currently under review, Cui and her colleagues looked at the performance of high school students in developing and developed regions of China. We thought that remote learning might reduce the inequality gap in education because when students are learning off-line, they’re restricted by their local resources. “It’s quite obvious that developing regions don’t have good resources, experienced teachers, or competitive peers—they often have inferior educational resources in comparison to developed regions,” explains Cui, associate professor of information systems and operations management. “We thought the accessibility of remote learning could help reduce this knowledge gap and help students in developing regions improve their learning outcomes.” Analyzing Education in Developed and Developing Areas The idea for the paper, “Remote Learning and Educational Inequality,” published earlier this year, stemmed from another of Cui’s papers, which looked at the academic productivity of women as a result of the COVID-19 lockdowns. “We wanted to study whether the switch to remote learning impacts educational inequality. Does it make it better or worse?” says Cui. “We are the first ones to offer empirical evidence on such a granular level about a large-scale data set.” The group analyzed the Chinese college entrance exam from 2018 through 2020, which students take during the last few weeks of high school; the test score is a requirement for undergraduate admission in China. It’s common for high schools to announce the number of students who scored 600 or higher (out of 750 total points). Using 1,458 high school exam results from 20 provinces, the group found that in 2020, when remote learning became the norm, “the number of students scoring above 600 points in developing regions increased by 22.22 percent,” in comparison to developed regions. Remote learning significantly improved learning outcomes of students in developing regions. We should think about encouraging the adoption of remote learning in education However, Cui and her co-researchers wanted to go a step further. Because the entrance exams are summaries of student data, they surveyed 1,198 students to drill down and ensure that these results came from remote learning rather than other factors. Respondents were asked to rate aspects of their remote-learning experience, such as access to digital devices, their proficiency in using software, how reliable their internet was, how they interacted with peers and teachers, and their access to online educational resources. The researchers found that students in developing regions were able to better connect with peers and teachers, and the students believed that “their learning efficiency was greater” because of the remote learning. Education inequality is not only a problem in China. It’s everywhere. It’s across the world. Having access to better educational resources online can be applied anywhere. However, the one caveat to their findings: Remote learning is beneficial, but students need devices and the infrastructure to support online learning, which is often lacking in developing regions or underserved areas. “We need to support, build, and develop the digital technology capability that enables the effectiveness of remote learning,” says Cui. Are you a reporter looking to know more about the impact COVID had on education and how inequality plays a role in how we educate students during a pandemic? Then let us help with your coverage and questions. Ruomeng Cui is an Associate Professor of Information Systems & Operations Management at Emory University's Goizueta School of Business. Ruomeng is available to speak with media regarding this topic - simply click on her icon now to arrange an interview today.
Aston University AI expertise helps estimate daily transmission rates of infections such as Covid
Model used antibody data collected at blood donation centres Data obtained allowed academics to estimate the proportion of people who were going undiagnosed Current epidemiological models tend not to be as effective at estimating hidden variables such as daily infection rates. Aston University researchers have helped develop a mathematical model which can estimate daily transmission rates of infections such as Covid by testing for antibodies in blood collected at blood donation centres. Current epidemiological models that are usually used tend not to be as effective at adjusting quickly to changes in infection levels. Working with researchers at the Universidade Federal de Minas Gerais in Brazil they conducted a large longitudinal study applying a compartmental model, which is a general modelling technique often applied to the mathematical modelling of infectious diseases, to results obtained from Brazilian blood donor centres. The testing was done by Fundacao Hemominas, one of the largest blood services in Brazil, which covers an area similar to that of continental France. They used the reported number of SARS-CoV-2 cases along with serology results (diagnostic methods used to identify antibodies and antigens in patients’ samples) from blood donors as inputs and delivered estimates of hidden variables, such as daily values of transmission rates and cumulative incidence rate of reported and unreported cases. The model discussed in the paper SARS-CoV-2 IgG Seroprevalence among Blood Donors as a Monitor of the COVID-19 Epidemic, Brazil gave the experts the ability to have a more refined view of the infection rates and relative rate of immunity compared to official measurements. The testing started at the beginning of the pandemic and involved 7,837 blood donors in seven cities in Minas Gerais, Brazil during March–December 2020. At that point testing wasn’t widely available and there was a high proportion of undetected asymptomatic or light symptomatic cases. The data obtained allowed the experts to estimate the proportion of people who were going undiagnosed. Dr Felipe Campelo, senior lecturer in computer science at Aston University, said: “Public communication about the COVID-19 epidemic was based on officially reported cases in the community, which strongly underestimates the actual spread of the disease in the absence of widespread testing. “This difference underscores the convenience of using a model-based approach such as the one we proposed, because it enables the use of measured data for estimating variables such as the total number of infected persons. “Our model delivers daily estimates of relevant variables that usually stay hidden, including the transmission rate and the cumulative number of reported and unreported cases of infection.” In Brazil in July 2020 there was a sharp increase in the number of people tested as new infrastructure became available, which allowed the experts to further validate their methodology by observing how officially recorded data became closer to the model predictions once testing became more widespread, including for asymptomatic or mildly symptomatic people. They applied the model to antibodies found in blood given by donors and used it to estimate the proportion of undiagnosed cases, and to analyse changes in the infection rate, that is, how many people each case infected on average. Previously this has been viewed as a fixed value or a fixed value over a long duration of time, but the dynamics of the spread of Covid change much faster than that. This aspect was very important in early days of the pandemic and could also be applied to similar diseases. Looking forward, the experts aim to improve the accuracy of the model by introducing changes to account for vaccination effects, waning immunity and the potential emergence of new variants. The paper SARS-CoV-2 IgG Seroprevalence among Blood Donors as a Monitor of the COVID-19 Epidemic, Brazil has been published in Volume 28, Number 4—April 2022 of Emerging Infectious Diseases.
Aston University to help power Indonesia with affordable energy made from rice straw
Project to convert unwanted rice straw into cheap energy on a commercial scale Most rice straw in Indonesia is burned causing pollution and health problems Project will almost double affordable energy captured from waste. Scientists at the Energy and Bioproducts Institute at Aston University are to start a project to convert Indonesia’s unwanted rice straw into low-cost energy on a commercial scale. Each year the country produces 100 million tonnes of the rice waste, of which 60% is burned in open fields, causing air pollution and has even been linked to lung cancer. The amount burned is equivalent to approximately 85 Terawatts of electricity, which is enough to power Indonesia’s households 10 times over. A consortium which includes Aston University aims to develop processes to capture more affordable energy from rice straw than ever before - and demonstrate that it can be done on a commercial scale. Part of the process involves a biomass conversion technology called pyrolysis. This involves heating organic waste materials to high temperatures of around 500 °C to break them down, producing vapour and solid products. Some of the vapour may be condensed into a liquid product called pyrolysis oil or pyrolysis bio-oil. Both the pyrolysis vapour and liquid bio-oil can be converted to electricity. Current methods convert just 35% of the thermal energy of rice straw to affordable electricity. However, a newly patented combustion engine designed by consortium member, UK-based Carnot Limited, could see that doubled to 70%. Energy extracted this way could help low and middle-income countries create their own locally generated energy, contribute to net zero by 2050, create new jobs and improve the health of locals. The project will help develop a business model which could support companies and local authorities to produce local, cheap energy in Indonesia, and other countries with biomass capacity. Three academic experts from different disciplines at Aston University are involved in this initial project, which focuses on Indonesia’s Lombok Island. Dr Jude Onwudili, Dr Muhammad Imran and Dr Mirjam Roeder are based at Aston University’s Energy and Bioproducts Research Institute (EBRI). Dr Jude Onwudili who is leading the team said: “This project has huge potential - commercialisation of this combined technology will have significant economic benefits for the people of Indonesia through direct and indirect job creation, including the feedstock supply chain and electricity distribution and sales. “About one million Indonesian homes lack access to energy and Indonesia's 6,000 inhabited islands make sustainable infrastructure development challenging in areas such as Lombok Island. “The new techniques being explored could reduce environmental pollution, contribute to net zero and most importantly, provide access to affordable energy from sustainable local agricultural waste. “Aston University is a global leader in bioenergy and energy systems, and I am delighted we received funding to explore this area.” Over a power plant’s life, the project team have calculated that biomass produces cheaper electricity (approx. $4.3$/kWh) compared to solar (approx. $6.6/kWh), geothermal (approx. $6.9/kWh), coal (approx.$7.1/kWh), wind (approx. $8/kWh) and subsidised gas (approx.$8.4ckWh). The project will start in April 2023 with a total of £1.5 million funding for the four partners from Innovate UK. Alongside Carnot Limited, the Aston University scientists will be working with two other UK-based businesses to deliver the project, PyroGenesys and Straw Innovations. PyroGenesys specialises in PyroChemy technology which will convert 70% of the rice straw into vapour or bio-oil for electricity production, with the remainder converted into nutrient-rich biochar, which can be sold back for use as fertiliser on the rice farms. Straw Innovations will contribute their rice straw harvesting and collection expertise, with their many years of similar operations in Asia.
ChristianaCare Named a Most Wired Health Care Technology Leader for 7th Consecutive Year
For the seventh consecutive year, ChristianaCare has earned the “Most Wired” designation from the College of Healthcare Information Management Executives (CHIME), which assesses how effectively health care organizations apply core and advanced technologies to improve health and care in their communities. Among the more than 38,000 organizations surveyed by CHIME, ChristianaCare ranked above peers in categories such as analytics and data management, population health, infrastructure and patient engagement. The survey assessed the adoption, integration and impact of technologies in health care organizations at all stages of development, from early development to industry leading. “At ChristianaCare we are curious and continuously looking for ways to innovate,” said ChristianaCare President and CEO Janice E. Nevin, M.D., MPH. “Embedding that behavior in our organization has led to brilliant planning and extraordinary execution of new, technology-enabled models of care as our patients demand greater service and convenience, including greater access from home.” ChristianaCare was recognized with a Performance Excellence Award for Most Wired’s acute and ambulatory categories. That level is reserved only for organizations that are considered leaders in health care technology who “actively push the industry forward” and are “realizing meaningful outcomes, including improved quality of care, improved patient experience, reduced costs, and broader patient access to healthcare services.” “We are on the cutting edge of health care innovation, yet we have only scratched the surface of digital care,” said Randy Gaboriault, MS, MBA, chief digital and information officer at ChristianaCare. “We have embarked on building a digital distribution network of health care that strengthens every day. And we are guiding a digital thread that weaves together all the components in and outside the walls of the hospital and provider’s office to improve the health of every person we touch.” The Most Wired recognition highlights ChristianaCare’s success in the launch of the Hospital Care at Home program, which is transforming the very nature of how acute care is delivered, as well as the creation of digital platforms that radically improve the patient experience. Launched in December 2021, ChristianaCare’s Hospital Care at Home program offers the highest level of in-home acute care in Delaware. The program combines virtual and in-person care provided by a team of physicians, nurse practitioners, registered nurses and other providers, and has to date cared for more than 200 patients. These in-person and virtual visits from the health care team mean that a patient doesn’t need to leave home to get better. Virtual technology and home health equipment brought into the patient’s home ensure around-the-clock monitoring and care that mirror a traditional hospital setting. ChristianaCare’s digital patient engagement capabilities have streamlined nearly every aspect of the patient experience. Through these digital tools, the registration, check-in and intake of patients are becoming more streamlined, improving both patient experience and efficiency at ChristianaCare practices. The digital platform also enables patients to self-schedule appointments, easily complete their medical histories and check in to appointments by simply scanning a QR code with their digital device. “These digital offerings have placed our patients in the driver’s seat,” said Lynne McCone, MBA, chief applications officer and vice president of IT at ChristianaCare. “The benefits of a conducive, consistent patient journey and experience in turn improves practice operations and efficiency and dismantles administrative burdens for both patients and caregivers. It’s a huge win for consumers, patients and providers.” The Digital Health Most Wired survey and recognition program serves as a comprehensive “digital health check-up” for health care organizations across the world, according to CHIME. As success in digital health increasingly determines the quality of patient care, the scope of the CHIME Digital Health Most Wired survey reflects the progress of leading health systems, like ChristianaCare, as they reinvent health care for a new century. “We are proud to honor your team’s exceptional dedication to excellence in digital health,” said CHIME President and CEO Russell P. Branzell of ChristianaCare. “Your pioneering performance in the industry inspires other organizations by example. Patients in communities around the world receive better care when you drive change through digital transformation, as you have proven through your success in this rigorous program.”
Expert Q & A: Florida Tech faculty experts discuss the Artemis mission and why it matters
Artemis 1 Launch Starts New Lunar Exploration and Research The Artemis 1 mission has hit its halfway point. The uncrewed capsule Orion is orbiting the moon in the first spaceflight of NASA’s Artemis program. Over the entire Artemis program, NASA plans to establish the first long-term lunar presence via a base camp on the moon, then will use what was learned from the moon development for a mission to send the first astronauts to Mars. Founded as a school providing classes for the pioneering space technicians at what would become NASA, Florida Tech has been closely associated with the space program since its inception. The Artemis mission is no different, as over 25 Florida Tech alumni are working on the mission as part of the Exploration Ground Systems crew. We spoke with Florida Tech aerospace, physics and space sciences assistant professor Paula do Vale Pereira, Ph.D., and Don Platt, Ph.D., associate professor of space systems, about the Artemis mission, what it could mean for future missions and more. Q: What makes the Artemis rocket and mission significant? Pereira: The Space Launch System (or SLS for short) is the rocket that is central to the Artemis mission. The SLS will be the third rocket in history to be capable of launching humans to the Moon. Previously, the American Saturn V and Soviet N1 had that capability – none of the four N1 launch attempts were successful, though. Thus, the SLS could become the second rocket to ever fly humans to the Moon. The SLS has been under development for over a decade and one of its key technological differences from Saturn V is the focus on long-term, sustained access to the lunar surface. The SLS will power the Orion capsule to lunar orbit, where it will dock to the Lunar Gateway (currently under development). The Gateway will be a small space station orbiting the Moon and will have docking ports for the Orion capsule and different lander modules, such as SpaceX’s Starship. This coordinated infrastructure means that the SLS needs to carry only the Orion capsule and the crew, instead of having the carry the lander, command and service modules, as the Saturn V did. Because they don’t need to bring all these other modules with them, a larger quantity of useful equipment and extra crew members can be brought along, opening doors for a longer and even more productive human presence on the Moon. The SLS rocket also has other architectures which, instead of carrying humans, can carry large amounts of cargo to the Gateway, which can then be transferred to the lunar surface. This cargo capacity will be fundamental in building the infrastructure necessary for humans to strive on the Moon. Platt: Indeed, the SLS will be the largest launch vehicle ever flown and will put on a spectacular show on the Space Coast. This Artemis I mission will also test out the Orion capsule in deep space for an extended mission. The capability for the capsule to support human life in deep space will be demonstrated. As well, there are mannequins onboard Orion with radiation sensors in them. They will measure the radiation exposure in deep space and around the Moon to help verify how much radiation human astronauts may be exposed to. And I would add, much like the shuttle opened up Low Earth Orbit for all of humanity, Artemis will do the same for lunar exploration. Q: What is the significance of Artemis to NASA-sponsored space exploration? Platt: Artemis is the next major NASA human space program. It is also NASA’s first program to go back to the Moon since Apollo. It is designed to be the first in multiple efforts to expand human presence in space beyond Low Earth Orbit. It is also significant in that it has a goal to land the first woman and first person of color on the Moon. So, this is an inclusive program to hopefully involve all of humanity in future human space exploration and one day settlement. Q: How can moon-orbiting mission of Artemis help future space exploration? Platt: We need to demonstrate modern capabilities to get large spacecraft that can support human exploration to the Moon. The first step is to place them in orbit to test them out and soon to get astronauts experience in that environment as well. Much like Apollo 8 first orbited the Moon before humans landed on the Moon in Apollo 11 we are now testing and demonstrating new technology and capabilities first in lunar orbit. Pereira: I personally think the most important development in the Artemis mission is the coordination between different providers, especially the commercial partnership with companies such as SpaceX, Blue Origin and Lockheed Martin. The commercial partners will provide the lander systems which will take the astronauts from the Lunar Gateway to the lunar surface, a level of dependable trust that has only recently started to be common in NASA’s history. If you're a reporter looking to know more about this topic, let us help. Dr. Platt is available to speak with media regarding this and related topics. Simply click on his icon now to arrange an interview today. Contact Director of Media Communications Adam Lowenstein at adam@fit.edu to schedule an interview with Dr. do Vale Pereira.
New approach to help ease poor countries’ debt burden Many face having national credit rating downgraded Aston University expert coins the term the ‘credit rating impasse’ in new book. An Aston University financial regulation expert has suggested a new approach to help ease poor countries’ debt burden. Currently many poorer countries face having their credit rating downgraded if they ask private investors for loans. Dr Daniel Cash, senior lecturer in law and founder of the Credit Rating Research Initiative, has suggested that a temporary change to the way ratings are decided could help these countries avoid a damaging credit rating, which would prevent them borrowing money in the future. His theory is explored in his new book Sovereign Debt Sustainability: Multilateral Debt Treatment and the Credit Rating Impasse. The study details the history of multilateral debt treatment in Africa, whilst also looking at the impact of the pandemic. When vulnerable countries try to negotiate new lending terms with their lenders their credit rating is immediately downgraded, in some cases they could be labelled as in default - failing to repay a loan. Dr Cash calls this situation the ‘credit rating impasse’. To avoid this happening, he argues that other factors should be temporarily taken into account, making it easier for them to borrow money in the future to spend on improvements such as healthcare or infrastructure. The UN has identified 54 developing economies with severe debt problems. While accounting for little more than 3% of the global economy, they represent 18% of the world’s population, and more than 50% of people living in extreme poverty. The book sets out a new framework which could be used to overlie the existing credit rating system. The book suggests considering factors such as ESG (Environmental, Social and Governance) – which indicates a country’s impact on society, the environment, and how transparent and accountable it is. Taking ESG and sustainability factors into account indicates if a nation has the potential to grow while benefiting the environment and communities. Dr Cash said: “The credit rating impasse is a systemic problem, and a cure is needed to prevent the bankruptcy of countries around the world. “Lower-income states are being forced to prioritise debt payments over public spending on healthcare or access to food. “Instead, they should be offered help to enable borrowing to make vital improvements.” The book is free to read via Open Access Book and was funded by the Open Society Foundations (OSF).
West Grove Campus Awarded $2.5M Grant from Chester County for Capital Improvement Projects
Funds earmarked for information technology, medical equipment and facility upgrades The ChristianaCare West Grove campus has received a $2.5 million American Rescue Fund Plan Act (ARPA) grant from the Chester County Government for capital improvement projects related to information technology, medical equipment and facility renovation. ChristianaCare finalized the purchase of its West Grove campus (formerly Jennersville Hospital) from Tower Health in June 2022. The hospital has been closed since Dec. 31, 2021. “We are enormously grateful to the Chester County Commissioners for this generous grant,” said Douglas Azar, MHA, ChristianaCare senior vice president, Strategic Clinical Integration. “Our assessment and inventory of the facility indicate that while it contains some usable equipment, including hospital beds and some imaging and diagnostic equipment, there is a lot of work to be done in many key areas. For example, the building currently contains no information technology infrastructure and no laboratory equipment. This funding will provide much-needed help as we build out these critical areas,” he said. “This grant is a tremendous resource as we plan next steps for the West Grove campus,” said Heather Farley, M.D., MHCDS, FACEP, ChristianaCare’s co-lead for the campus development strategy. “Ensuring that the facility has the very best technology and medical equipment will enable us to provide expert care to our neighbors in southern Chester County for many years to come.” The Chester County Commissioners approved ARPA grants to 73 groups and organizations totaling close to $40 million last month, following recommendations by six independent review teams. The teams, comprised of county residents and county government staff, developed a system that followed ARPA guidelines to review proposals and address priorities for funding. “These funds represent a substantial investment in much-needed local programs and services including support for public health,” said County Commissioners’ Chair Marian Moskowitz. “Being able to financially assist ChristianaCare as they work toward bringing hospital services back to southern Chester County firmly met ARPA guidelines and was very important to us.” (From left) Bettina Tweardy Riveros, Chief Health Equity Officer and Senior Vice President, Government Affairs and Community Engagement at ChristianaCare, Marian Moskowitz, Chair of the Board of Commissioners of Chester County, Michelle Kichline, Chester County Commissioner, Heather Farley, M.D., MHCDS, FACEP, ChristianaCare’s co-lead for the campus development strategy and Douglas Azar, MHA, ChristianaCare senior vice president, Strategic Clinical Integration Commissioner Josh Maxwell added that “when ChristianaCare stepped up to take over Jennersville Hospital and bring health care services back to the county, we pledged to support them in those efforts in ways that we, as county government, can. The ARPA program has provided us with the opportunity to fulfill that pledge, with funding that might otherwise be cost-prohibitive.” ChristianaCare is reimagining health care at the West Grove campus and is taking a phased approach to the opening of services. The first phase will be to re-establish emergency services. Subsequent phases are still under consideration. Due to required facility upgrades and plan development, it is unlikely that any services will open within the next 12 months. Since June, Azar, Farley and others at ChristianaCare have participated in meetings and listening sessions with community leaders and small groups to gain input into planning for services at the campus. They have met with local and state government officials, school officials, chambers of commerce, nonprofit organizations, emergency responders, faith leaders and employers in the area. Commissioner Michelle Kichline noted the correlation between ChristianaCare’s focus on meeting community needs and the county’s focus on community involvement in the ARPA grant review process. “Having county residents involved in reviewing and recommending our ARPA applications has been exciting and rewarding,” she said. “They know their local communities best and evaluated and selected projects that address needs across the county. “We know that ChristianaCare is doing the same and see the $2.5 million ARPA grant as a smart investment in restoring crucial health care services to our residents.” The West Grove campus represents a significant expansion and commitment of ChristianaCare to provide health services to communities in southern Chester County. Since 2020, ChristianaCare has added three primary care practices located in Jennersville, West Grove and Kennett Square. Combined, these three practices are now the “medical home” for 22,000 residents in these communities.
Can you be hacked while using your mobile device? In a word, yes — here’s how to protect your data
October is Cybersecurity Awareness Month and being aware of all your devices is as important as ever before. Most people are online every day, which opens themselves up to a threat of being hacked. Whether it be a mobile device, laptop, or personal computer, everyone needs to have cyber awareness. Steven Weldon, director of the Cyber Institute at Augusta University’s School of Computer and Cyber Sciences said many straightforward things that can be done to protect devices, such as having lock screens, making sure operating systems are up to date and simply recognizing how, when and where devices are being used. “Smart phones today are probably the most capable computing device that we have and we have it on us all the time,” said Weldon. “The data that can be extracted from these devices can be put together to build a pattern of life on us: where we go, what we do and when we do it. All of this data is potentially at risk if we’re not being careful about who gets access to our smart phones. That’s a great reason to lock the screen and require at least a password or pin to unlock the phone.” Gokila Dorai, PhD, assistant professor in the School of Computer and Cyber Sciences, suggests using biometrics to enhance security. “I would strongly recommend for women, young adults even teenagers, if it’s possible for you to have biometrics as a way to unlock your device, then go for that. These unique ways of unlocking a device would add a layer of protection,” said Dorai. Dorai is one of the growing experts in the field of mobile forensics and her research projects are federally funded. In addition, several SCCS faculty are mentoring undergraduate and graduate students working on cutting edge research related to mobile device security and digital forensics. She also suggested adding a two-factor authentication or multi-factor authentication to add an extra layer of security. When out in the public, it’s easy to connect a mobile device to an unprotected Wi-Fi network. Doing so could open up sites you visit to a hacker. Weldon suggests people should be careful of what apps are used when on public Wi-Fi, since they may expose a lot of personally identifiable information. His suggestion is to use a virtual private network to help protect data that’s being transmitted and received. “We should recognize the data on our smart phones and protect them accordingly,” added Weldon. “Recognizing the value and sensitivity of the data on our smart phones can guide us in how we protect these devices. We may not think as much about the security and privacy of our smart phones as we do about our laptops and desktops. When we think about everything we use our smartphones for, how ubiquitous they are in our lives, we come to realize just how central they are to today’s lifestyle in the digital age.” It’s tough to identify when a mobile device has been hijacked, so both Weldon and Dorai suggest paying close attention to any unusual behavior, even small things such as a battery draining faster than usual. Both are indicators you may need to take corrective actions. Dorai added the government can do more to protect a person’s privacy. “With the introduction of more and more Internet of Things devices in the market, with several different manufacturers, there’s a lot of user data that’s actually getting exchanged. These days, the most valuable thing in the world is data. So stricter measures are required,” she said. She indicated it needs to be a collaborative effort between industry, academia, government, and practitioners to come together and work on ideas to strengthen security. “Yes we want security. We are willing to put up with a little bit of friction for additional security. We want it easy and we generally want it free,” said Weldon. “We don’t read licensing agreements, but we would generally be willing to take certain actions, make certain tradeoffs, to be more secure.” One other major concern are apps in general. While Google Play Store and Apple routinely remove some apps that may be out of date or have security vulnerabilities, they may still be running on a user’s device. “Mobile applications may also hide from you in plain sight in the sense the app icons may not be showing up on the screen, but still they are running in the background,” added Dorai. In essence, the device user is the first line of defense. Taking all the necessary steps to prevent a third party from getting your information is of the utmost importance in the digital age. “I believe a big part of it this discussion is about user awareness. We want that free app but that app is asking for a lot of permissions. There’s an old saying in cybersecurity: if you are not paying for the product, you are the product. There’s also another saying: if it’s smart, it’s vulnerable,” said Weldon. Are you a reporter covering Cybersecurity Awareness Month? If so - then let us help with your stories. Steven Weldon is the Director of Cyber Institute at the School of Computer and Cyber Sciences at Augusta University and is an expert in the areas of cellular and mobile technology, ethics in computer science, scripting and scripting and automation. Gokila Dorai is an Assistant Professor in the School of Computer and Cyber Sciences at Augusta University and is an expert in the areas is mobile/IoT forensics research. Both experts are available for interviews - simply click on either icon to arrange a time today.
MEDIA RELEASE: Manitoba’s Worst Road for 2022 is…
Winnipeg, MB, May 24, 2022 – A provincial road that connects Seven Sisters Falls through Manitoba’s Whiteshell Provincial Park is the province’s Worst Road. Provincial Road 307 is the dubious “winner” of CAA Manitoba’s Worst Roads contest for 2022, says Heather Mack, Manager, Government and Community Services. “This is the first time a rural road has made the top of our list,” says Mack. “But it’s not a surprise – more rural roads have been making our Top 10 list as the annual contest goes on.” A resident who lives near Otter Falls, which is in the Whiteshell off of PR 307, tells CAA Manitoba that the road is even worse in the winter – thanks to how much the road heaves in the cold. “It just comes up and if you aren’t careful, you go flying,” he says, noting the province has erected warning signs, but has not fixed the heaving. Last week, the road was closed due to overland flooding, which should be a wake-up call to governments, says Mack. “Climate change affects our infrastructure as much as anything else,” she says. “We need to be pro-active in preparing our roads so these vital community links, especially in rural Manitoba, are not cut off.” Winnipeg’s Saskatchewan Avenue came in second due to its numerous patches and potholes – including one pothole that was so deep, a local man took a photo of himself standing waist-deep inside it. It’s not just potholes that CAA Manitoba asked Manitobans to think about when voting for their worst road. Lack of active transportation paths, lack of safe and accessible access, poor or no signage, bad design or poor maintenance all went into this year’s voting. This year’s Top 10 list for Manitoba: 1. Provincial Road 307 2. Saskatchewan Avenue, Winnipeg 3. Waller Avenue, Winnipeg 4. Provincial Trunk Hwy 34, Pilot Mound/Crystal City 5. 18th Street, Brandon 6. Provincial Trunk Hwy 44, Lockport to Whiteshell 7. Leila Avenue, Winnipeg 8. Kenaston Boulevard, Winnipeg 9. Dawson Road North, Winnipeg 10. Goulet Street, Winnipeg Last year’s winner, Taylor Avenue, dropped off the provincial Top 10 list thanks to recent reconstruction efforts by the City of Winnipeg, but is still in the Top 10 list for Winnipeg. “This contest provides a snapshot of what Manitobans are experiencing out on our roads. We are pleased to see some of the usual roads on our list get moved down or fall off as local governments take action,” says Mack. “We are here to advocate for the safest roads possible for Manitobans – no matter whether they drive, bike, use transit or walk.” Photos and video of Manitoba’s Worst Road: https://bit.ly/3yP1wNl Other Regional “Winners” Winnipeg’s worst: 1. Saskatchewan Avenue 2. Waller Avenue 3. Leila Avenue 4. Kenaston Boulevard 5. Dawson Road North 6. Goulet Street 7. Taylor Avenue 8. Portage Avenue 9. Narin Avenue 10. Empress Street Southern Manitoba’s worst: 1. Provincial Road 307 2. Provincial Trunk Hwy 34 3. 18th Street, Brandon 4. Provincial Trunk Hwy 44 5. Provincial Road 250 6. Main Street, Selkirk 7. Trans-Canada Highway, Brandon 8. Provincial Trunk Hwy 23, Morris 9. Provincial Trunk Hwy 12 10. Provincial Road 450 Portage La Prairie’s Worst: 1. Lorne Avenue West. 2. Saskatchewan Avenue Brandon’s Worst: 1. 18th Street. 2. Trans-Canada Highway Thompson’s Worst: 1. Provincial Trunk Hwy 6. 2. Hayes Road Morden’s Worst: 1. Provincial Road 432. 2. 1st Street Selkirk’s Worst: 1. Main Street 2. Manitoba Avenue Steinbach’s Worst: 1. Loewen Boulevard 2. Park Road West
