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A better virtual reality experience – News Center – The University of Texas at Arlington – uta.edu

Monday, Apr 29, 2024 Brian Lopez : contact

A University of Texas at Arlington computer scientist hopes to understand the quality of users experiences in virtual reality (VR) by using artificial intelligence (AI) to quantify physiological reactions to immersive videos.

Ming Li, associate professor of computer science and engineering, earned a $600,000 grant from the National Science Foundation for her research. Yingying Zhu, assistant professor in the department, is co-principal investigator. Wei Li at Georgia State University (GSU) is also working with Li and will receive $250,000 from the grant to investigate how to protect user data privacy without compromising quantification accuracy.

Li and her team hope to build a novel system to assess users quality of experience when engaging with 360-degree VR immersive videos. The team will use eye gaze trackers, sensors and internal cameras on VR devices to capture behavioral and physiological data and create a model to assess users engagement with the content they are viewing.

For instance, according to Lis preliminary studies, users who are more engaged in a VR scene tend to look in one direction or focus on one object. The rate at which they blink, their pupil size, how fast they move their head and their facial expressions are also measured. The team will take the sensor and process data and build an AI model that will provide quantitative analysis of the experience, which could be provided in real time to service providers like Meta and YouTube.

This information could allow video service providers to enhance the end-user experience because they will be able to better engage with their users and render their videos better, Li said. If we can assess quality of experience in real time, providers can adjust how much network resource they assign to a particular user and make the quality better per an individual users need. Its not possible in the current framework, but we hope this can be a first step toward that kind of user interaction.

The GSU group will determine how to keep any shared data secure without sacrificing modeling accuracy.

Li said her work is part of a bigger vision that could impact online gaming, video conferencing and other networking services.

The classic network techniques are designed without thinking of the end users perspective or input, but what if user-centered networking is possible? Li asked. With this kind of measurement, we can give content providers insight into real-time user experiences. They can adjust their service-provisioning strategies accordingly and the user will play a greater role in future decisions.

- Written by Jeremy Agor, College of Engineering

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Baylor beefs up digital defense programming with new cybersecurity major – The Baylor Lariat

By Josh Siatkowski | Staff Writer

An expansion to Baylors major catalog is on the horizon, with a new cybersecurity major set to begin next fall.

According to Sean Hutton, a clinical associate professor in computer science and executive director of the Central Texas Cyber Range, the new major will address a huge need for more cybersecurity professionals around the globe.

We see a huge need, Hutton said. There are three and a half million jobs open globally in cybersecurity.

The new major is one of multiple ways that Baylor has recently added to its cybersecurity offerings. Since Huttons arrival at Baylor in fall 2020, growth in this area has occurred through the introduction of a cybersecurity concentration in 2021 and the opening of the Central Texas Cyber Range a cybersecurity education facility for Baylor and McLennan Community College in 2023. As Baylors cybersecurity programs continue to develop, they have solidified the universitys status as a National Center of Academic Excellence in Cyber Defense Education.

Students with a cybersecurity major will select one of four concentrations in order to develop talents beyond their computer and technical skills. Each concentration will require six courses, many of which are outside the department of computer science.

The first of these concentrations is business and entrepreneurship. Hutton said business skills are crucial for anyone wanting to start their own cybersecurity company.

Maybe you want to build your own app or develop your own cyber company when you graduate, Hutton said. Youll probably need some business classes and entrepreneurship classes to take your cyber knowledge and build your own business out of it.

For those interested in government work, Hutton said the policy, law, and geopolitical issues concentration will suit them best.

Maybe you want to help one of our government agencies in developing strategy and policy related to cyber[security], Hutton said. Well, you need classes to understand that, like political science or history classes.

Thirdly, theres an option for students who strictly want to improve their technical skills within cybersecurity: the analytics concentration.

Maybe you want to be really awesome at analysis, machine learning, statistics, things like that, Hutton said. Thats what the analytics concentration is for.

Finally, there will be an interdisciplinary concentration, which combines aspects of the prior three into a single concentration.

Hutton said the major will bring with it five new computer science courses. The courses range from 2000- to 4000-level and will start entering the registrar in fall 2025. However, some of these courses are not planned to be released until 2027 or 2028.

Because the major is still being developed, the earliest that someone could earn a degree with a cybersecurity major is spring 2028. This means that current students who wish to earn a degree on time cannot declare a cybersecurity major.

Although current students in the computer science department wont be able to fully experience the benefits of the new major, that doesnt mean they arent happy about it.

Garland junior Misty Kurien is a computer science major with a concentration in cybersecurity. She also competes for Baylors nationally ranked cyber-defense team.

Kurien said shes grateful to have the opportunity to learn important cybersecurity skills and excited to see those opportunities grow for future students.

Our cybersecurity concentration itself is new, Kurien said. I think I will be in the first graduating class to graduate with a cybersecurity concentration, so just to see how thats expanded to a major itself, Im just happy to see how much more recognition cybersecurity is getting.

And this recognition has paid off. Last summer, Kurien interned with a defense company, and she is preparing for a cyber analyst internship this summer. She said her experience at Baylor has been instrumental in securing these competitive positions.

Being able to talk about the club and the concentrations really gives me a leg up in interviews, Kurien said.

As the major is finalized, remember that all dates and course offerings are subject to change. The new major has been supported with grant funding. The costs associated with planning and developing the new major have been paid for by grants from the U.S. Department of Education (Grant Awards: P116Z220034 and P116Z230151).

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Calculating the future: Meet 2024 PNW graduate Collin Garmon – Purdue University Northwest

April 29, 2024

Collin Garmons interest and aptitude for math led him to a double major and degrees in both Mathematics and Applied Statistics from the College of Engineering and Sciences at Purdue University Northwest (PNW).

Garmon realized in first grade that he was good at math; by third grade he was taking advanced math classes and in middle school and high school was competing in math competitions. That passion for numbers led him to PNW and a major in mathematics. He added a second major in Applied Statistics after taking a few classes on the subject sparked his interest.

Garmon was a member of PNWs Honors College, a teaching assistant for algebra courses, a tutor in math and statistics and a Nils Nelson Endowed Scholarship recipient. During his time at the university, he participated in a research assistantship with Grethe Hystad, associate professor of statistics, where he conducted research using R, a computer programming language for statistical computing.

He will be listed as a co-author, along with Hystad, on a research paper to be published later this year detailing a study and findings on using machine learning to determine the biogenicity of samples obtained from pyrolysis-gas chromatography-mass spectrometry and finding the best machine learning method for the process. The article will also interpret the features that are responsible for distinguishing biotic from abiotic samples.

At the Geographic Society of Americas 2023 conference, Garmon presented a poster on that research entitled, Applying Machine Learning for Molecular Biosignatures Detection. He also participated in the 2024 Days of Discovery presenting a poster on the same topic.

After graduation, Garmon plans to continue his education in mathematics. He has been applying to graduate programs with the goal of earning a doctorate in the field. While his ultimate goal is to teach, he admits there is a lot of interesting advanced math out there, including abstract algebra which is an area of research he might consider.

It was my passion for mathematics, more than other subjects, that led me to major in it. Its really quite interesting to me. I have always had a knack for numbers and they just seem to connect very nicely in my brain. I like seeing how all the numbers work together to create and explain different things. Statistics is nice to use math and numbers to try to explain certain phenomena, although my greater interest is mathematics.

The diversity of the student body, the great faculty and the smaller class sizes are a few of the great things about this university. The faculty are more than willing to help you succeed and the smaller class sizes make it much easier to make connections.

Dont be afraid to ask for help...Faculty are always very helpful as well. If youre reaching out for help that shows you want to succeed.

Collin Garmon, 24, Mathematics and Applied Statistics

The experience I was able to get as a tutor, student researcher, supplemental instruction leader and an Honors College student have all helped me grow professionally and academically. Ive also been able to improve my communications and time management skills.

I had a computer science minor which I dropped. I took a class in programming languages and didnt do well in that course. Part of the problem was I put things off a little too long and didnt ask for help sooner. I learned I needed to stay on top of things, not to procrastinate and to ask for help more often. It also helped me realize I wasnt as interested in studying advanced topics in computer science and that helped guide me to the subjects I am interested in. It was a bit of a stressful experience but a necessary part of growing and learning about yourself.

Dont be afraid to ask for help. PNW has a tutoring service and for some courses, supplemental instruction. Faculty are always very helpful as well. If youre reaching out for help that shows you want to succeed.

The faculty in the Mathematics and Statistics Department.

Its difficult to name just one. The faculty in math and stats are all very approachable and very good at teaching their subject matter. They helped me improve my mathematical maturity, transitioning from more computational-based to more theoretical math. The statistics courses and research helped me see exactly what data can say about many things.

assistant professor of Practice and director of PNWs Writing Center

Professor Triller helped me grow as a writer and Professor Augustyn helped me grow as a reader, which are very important skills to have.

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Computer Science Professional Development for Teacher Preparation Faculty – Georgia State University News – Georgia State University News

story by Claire Miller

To ensure all students get a quality computer science (CS) education, its important for K-12 teachers and the faculty in teacher education who prepare them to understand how to integrate CS into all classrooms.

Assistant Professor Yin-Chan Janet Liao and colleagues at California State University, Dominguez Hills conducted a study to learn how professional development for faculty and staff members in a college of education could affect how they think about CS education and how they could integrate CS concepts and skills into all teacher preparation programs.

Integrating CS into teacher education programs prepares future educators to effectively teach these crucial computing skills, ensuring that all students, regardless of background, develop the computational thinking and digital literacy needed to thrive in a technology-driven world, Liao said.

Faculty and staff members at a southern California university participated in the study, where they took a two-day, six-hour CS professional development workshop. They learned definitions and misconceptions around computer science, discussed K-12 CS education at the state and national levels, highlighted issues of equity in CS education and discussed how to add this content to teacher preparation courses.

Liao and her colleagues gave participants pre- and post-surveys and collected data from the recorded Zoom meetings and chats, participants digital whiteboards from Google Jamboard and facilitators reflections on the course.

The researchers found that participants had a general knowledge of CS and had some misconceptions about it before the study, but they developed a more nuanced understanding of CS after participating in the professional development.

Similarly, participants shifted from a general interest in incorporating CS into their teacher preparation classes to outlining specific, detailed reasoning for teaching future teachers about it. And all participants showed an interest in ensuring that pre-service teachers from different backgrounds could engage in quality computer science education.

Ensuring equity and access in computer science education isnt just about preparing career-ready learners, but building a future-ready society where everyone has the tools and skills to thrive in the digital age, Liao explained. This requires expanding the CS education pipeline in teacher preparation and recognizing the need for computational literacy for all learners.

These findings, published in the Journal of Research on Technology in Education, offer a blueprint for how colleges of education can ensure their faculty are prepared to teach CS education to all future teachers, regardless of discipline.

Colleges of education must make faculty development for CS education and integration a top priority. But it's not enough to focus solely on CS education experts, Liao said. Interdisciplinary collaboration around CS learning and integration into classrooms should be actively encouraged by leadership in teacher education. By recognizing the importance of promoting equity and access in CS education across all teacher preparation programs, educators in every subject can help expand learning opportunities, prepare digital and computational-literate learners and bridge existing equity gaps.

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The $8M project bringing computer science teaching to Maine’s rural schools – Bangor Daily News

A new project aims to turn a dozen Maine school districts into regional computer science hubs that will train neighboring districts how to prepare students for the modern workforce.

The Maine Mathematics and Science Alliancehas received an $8.2 million grant from the Harold Alfond Foundation to train about 1,000 educators in the state and reach 20,000 students over the next five years. Some of the teachers will tour businesses relying on computer science and find ways to fuse the discipline with their classroom lessons. Those might include activities where elementary students learn the basics of algorithms or programmotorized Lego blocks.

The Augusta-based nonprofit hopes those involved in the regional hubs will train 30 districts over the next five years.

The STEM Workforce Readyproject builds on Maines efforts to expand computer science education across grade levels, which includes sending more than 1,000 mobile labs for coding, robotics and other subjects to 166 districts since mid-2022. As more industries rely on technology, students need to be equipped with relevant skills to contribute to the workforce, said Ruth Kermish-Allen, executive director at the Maine Mathematics and Science Alliance.

Were trying to open up an understanding of what the future STEM workforce in rural Maine is going to look like and the kinds of skills needed for those roles, she said.

The project isnt about getting more computers into rural schools, but rather leveraging technology to learn in more engaging ways that align with a modern workforce, she said. That will prepare students for jobs ranging from engineering at Texas Instruments to running saw mills at Hammond Lumber Co.

Jennifer Trowbridge, who teaches fourth grade at Ellsworth Elementary Middle School, is among the educators experimenting with how to build more computer science into everyday lessons. Her students are particularly drawn to Sphero indi, a robotic toy car that uses colored tiles to teach students how to give instructions to a computer. They are tasked with telling the car to speed up or slow down, travel a certain distance and drive around a table.

Trowbridge likes seeing her students get excited about using various tools because even when a problem is difficult to solve, they are motivated to find answers rather than intimidated by a task. Thats a skill that theyll need as they go through life, and its important to develop it early on, she said.

One of the biggest benefits to doing this is letting kids be problem solvers, she said. Dont just let the computer solve the problem for me, but figure out how to use the computer to help me solve the problem.

Eighth-grade students in Bar Harbor made a 3D mitochondria cell out of styrofoam, then programmed different parts to light up as ribosomes travel through the cell, Kermish-Allen said. In Bethel, a kindergarten class was given a grid with different characters. By drawing arrows pointing up, down, left and right, they had to demonstrate how a money bag would get to each character, which was a simplified way of writing an algorithm.

Businesses arent necessarily looking for young people who are experts in coding, but they want people who can think critically, solve problems and collaborate, which is what these activities are designed to do, she said.

The Maine Mathematics and Science Allianceswork on the project began before the COVID-19 pandemic, when the organization received a small grant from the National Science Foundation to study how computer science could take off in Maines rural schools, where resources and funding for a position dedicated to STEM or computer science tends to be limited.

More urban parts of the state, like Bangor and Portland, have bigger tax bases and resources that allow their students more opportunities. But some rural communities havent had any access to computer science in their classrooms, Kermish-Allen said.

It was a topic that other states were doing work on, but it was minimally researched and understood in Maine, Kermish-Allen said. We knew we needed to find ways to integrate computer science into the existing curriculum.

In 2021, the organization used a $1 million grantfrom the Harold Alfond Foundation to dive into solutions. About 40 teachers met in-person and virtually to look at how schools around the country have incorporated computer science into their curriculum. Then they designed their own lessons for students in pre-kindergarten through eighth grade and began testing them.

The program, which launches this summer, will expand those efforts by training more teachers and including high school students. There will be 50 lead educators who will be responsible for training 1,000 others over the next five years.

Seven school districts in Bethel, Ellsworth, Lincoln, Mount Desert Island, Rangeley, Rumford and Turner have committed to becoming regional hubs that will train from two to three nearby districts over time.

Educators will network, share ideas and participate in workshops during a CS Summer of Funevent from July 29 through Aug. 2 at the University of Maine in Orono. The Maine Mathematics and Science Alliance and Portland-based Educate Maine are hosting the week of professional development.

Educate Maine is also organizing trips for teachers to visit employers around the state, which are likely to start in October. They will tour the facilities and hear from leaders about the qualities and skills theyre looking for when hiring. Some teachers may even be assigned to a company for a two-week externship where they shadow workers and find a way to use what theyve learned in the classroom, said Angela Oechslie, a program director at Educate Maine.

Access to computer science in K-12 classrooms levels the playing field for students, increases their confidence and gives them a pathway to good jobs in Maine, she said.

As the project evolves, the idea is to make a lesson plan that works in Ellsworth accessible to a teacher in Presque Isle so nobody needs to reinvent the wheel, Kermish-Allen noted.

We hope this project is an initial step in whats going to become a much larger initiative for reform across the state, she said. We see this growing over time.

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New book explores gay, queer and feminist community at the heart of early advances in computer science – The UCSB Current

This broader community of collaborators and contemporaries included software engineer Cicely Popplewell, who, Fancher writes, was hired as an assistant to Turing but she had a long career and deep expertise especially with early computer programming. Theres also gay men, such as Christopher Strachey, whose excitement for gaming, artificial intelligence and how computers may someday express emotion kept him up at night.

For scholars who study technical writing and the history of computers, my book adds an element of intimacy and care, said Fancher, who has a PhD in rhetoric from Clemson University and has been teaching writing at UCSB since 2014. For my feminist and queer theory colleagues, I hope my book will open up new directions for research queer feminist communities are located in some unexpected places, including STEM fields that we associate with being very male-dominated and heteronormative.

Fancher will share research methods and highlights and field questions about the book starting at 1 p.m. on Friday, May 3, at the West Conference Center. The event is free and open to the public.

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Lenore Blum Elected to the American Academy of Arts & Sciences – Carnegie Mellon University

Lenore Blum(opens in new window), a foundational researcher in computer science at Carnegie Mellon University and a tireless advocate for women in math and science, has been elected to the American Academy of Arts & Sciences(opens in new window).

Blum, who retired from CMU in 2019, was a professor in the School of Computer Science(opens in new window), the founding director of Project Olympus(opens in new window), and co-director of the Center for Innovation and Entrepreneurship. Her research focused on developing a theory of computation and complexity over real and complex numbers, combining ideas from mathematics and computer science. She is currently working on a mathematical model of consciousness.

Blum also worked to increase the participation of women in math and science. She founded Women@SCS(opens in new window) and was a founder and past president of the Association for Women in Mathematics. In 2004, President George Bush presented her with the Presidential Award for Excellence in Science, Mathematics and Engineering Mentoring(opens in new window).

Blum was one of 250 new members elected to the academy this year. Members are recognized for their excellence and invited to uphold the academy's mission of engaging across disciplines and divides. She joins the world's most accomplished scholars, scientists, writers, artists and civic leaders.

"We honor these artists, scholars, scientists and leaders in the public, nonprofit and private sectors for their accomplishments and for the curiosity, creativity and courage required to reach new heights," said Academy President David Oxtoby. "We invite these exceptional individuals to join in the academy's work to address serious challenges and advance the common good."

Induction ceremonies for new members will take place in September in Cambridge, Massachusetts.

Learn more(opens in new window) about the American Academy of Arts & Sciences.

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BHS student awarded for Aspirations in Computing – Daily Leader – Dailyleader

Published 9:00 am Monday, April 29, 2024

A Brookhaven High School student is one of five high school students to be honored at the Aspirations in Computing (AiC) Award ceremony recently.

Makiya Wilson, a senior at BHS, was one of two 2024 NCWIT-Mississippi AiC Award winners. Passionate about technology, Wilson plans to major in computer science and promote diversity and inclusion in STEM fields. She is committed to inspiring underrepresented groups, especially women and people of color, to pursue STEM careers.

The University of Southern Mississippis (USM) School of Computing Sciences and Computer Engineering and the National Center for Women and Information (NCWIT) Mississippi Affiliate, recognized students at the AiC Award Luncheon at the Hattiesburg campus last week.

As part of an effort to encourage a diverse range of students to choose careers in computing and technology, the AiC Awards honor 9th-12th grade women, genderqueer, and non-binary students for their computing-related achievements, aspirations, abilities, and influential guidance.

Award recipients were selected from more than 3,300 applicants from across the U.S. and Canada. In Mississippi, recipients included: two Winners, two Honorable Mentions, and a Rising Star.

It is such an honor to recognize these amazing women, said Dr. Sarah Lee, director of the School of Computing Sciences and Computer Engineering. Our School is committed to providing programs like Aspirations in Computing to broaden and engage more Mississippi students with computing and cybersecurity.

Mercy Jaiyeola, assistant teaching professor of computer science added: The AiC Award plays a pivotal role in inspiring students, especially those from historically marginalized groups, to persist in their computing aspirations. It provides them with access to a supportive community with numerous professional development opportunities, igniting their passion and fostering greater diversity within the industry.

The other AiC winner was Sara Sinha, a Madison Central High School junior. Sinha plans to attend Yale University and become an active member of the Women in Science at the Yale community. Her commitment extends to advocating for gender equality in STEM. She envisions a career in biotechnology, driven by a passion to enhance the quality of human life.

The two Honorable Mentions were senior Sydney Smith, of the Blair Center at Hattiesburg High; and Emily Jia, a junior at Madison Central. The Rising Star award was presented to Sadie Seal, a sophomore at Forest County Agricultural High School.

The NCWIT AiC High School Award is sponsored by Apple, AT&T, Bank of America, Bloomberg, U.S. Department of Defense STEM, Jane Street, Match Group, Microsoft, Motorola Solutions Foundation, and Shopify.

For more information on The National Center for Women & Information Technology (NCWIT), visit http://www.ncwit.org.

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UCLA Computer Scientist Elected to American Academy of Arts and Sciences – UCLA Samueli School of Engineering Newsroom

Jason Cong, UCLAs Volgenau Professor for Engineering Excellence, was one of five UCLA faculty members elected to the American Academy of Arts and Sciences, one of the nations most prestigious honorary societies.

Cong is a distinguished professor of computer science and of electrical and computer engineering whose research interests include electronic design automation, customized computing for machine learning and big-data applications, quantum computing, and highly scalable algorithms. He directs UCLAs Center for Domain-Specific Computing and leads the VLSI Architecture, Synthesis and Technology lab.

The academy serves as an independent research center convening leaders from across disciplines, professions and perspectives to address significant challenges, with the aim of producing independent and pragmatic studies that inform national and global policy and benefit the public.

New members were elected for their accomplishments and for the curiosity, creativity and courage required to reach new heights, said David Oxtoby, the academys president. We invite these exceptional individuals to join in the academys work to address serious challenges and advance the common good.

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AI should be considered a UCC course | Opinion – PantherNOW

Sim Sitzer | Contributing Writer

FIU is a leading institution for artificial intelligence education, however there needs to be more initiative for students to take AI courses. This would fundamentally shift it from being a niche subject to one that is understood university wide.

FIU currently offers an MS In Data Science & AI and a concentration in AI and Big Data within the BS in Electrical Engineering or Computer Engineering. Additionally, masters programs are in the incubator such as an MBA in Business Analytics and AI, MS in Health Informatics and AI, and an AI track in the MS in Information Systems.

Yet, as AI becomes ever more important and relevant to almost every single industry and field, most students are still graduating with zero education in it.

A course that is worth students attention is IDC 2002: Artificial Intelligence for All. It describes itself as a non-Computer Science course with no high-level math or programming required. Strangely, it has only one student currently enrolled for its sole offering this Fall.

The course section is taught by Dr. Mark A. Finlayson, an Eminent Scholar Chaired Associate Professor of Computer Science. He holds a Ph.D. in Computer Science and Cognitive Science from MIT and was named Edison Fellow for Artificial Intelligence for 2019-2021 at the US Patent and Trademark Office.

So what explains students disinterest in this course? A lack of requiring and incentivizing students to take it.

Making IDC 2002 a University Core Curriculum course option would drive interest in this vital course in this digital age.

It is also worth considering creating a non-technical Undergraduate Certificate in AI or even a minor in AI, which would enable students to study the topic in-depthly.

Although the College of Arts, Sciences & Education already offers an Undergraduate Certificate in Ethics, Big Data and Artificial Intelligence, it is too focused on general ethics and statistics to attract students just interested in AI.

And while the Jack D. Gordon Institute for Public Policy offers an Undergraduate Certificate in Cybersecurity Intelligence & Information Policy, I think there is space to create an undergraduate certificate in AI policy, or even an undergraduate certificate in technology policy which could include AI policy within it.

By the same token, the Office of Micro-Credentials offers a micro-credential called Artificial Intelligence: How it Works and its Impact. But as with many micro-credentials, this wont appear on your transcript or reward any credits, even while carrying the workload of a one-credit course.

Even though these programs are predominant in their own ways, they dont fulfill the need for comprehensive undergraduate programming in AI.

Nonetheless, FIU has taken significant steps to lay the groundwork for it to become an international leader in ensuring that its graduates come away with an understanding of AI.

The College of Engineering and Computing boasts 16 labs and centers dedicated to AI and Big Data thats extremely impressive.

As students use AI tools such as ChatGPT more and more for their classwork, not only should professors be restructuring their classes to ensure students are learning the course material, but also teaching students how to ethically and proficiently harness the power of AI.

AI has already begun to change the world. FIU needs to make sure they are fully promoting students to learn about this emerging field from transdisciplinary perspectives.

DISCLAIMER:

The opinions presented on this page do not represent the views of the PantherNOW Editorial Board. These views are separate from editorials and reflect individual perspectives of contributing writers and/or members of the University community.

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