How higher education is reimagining student experiences with Azure OpenAI Service

Two higher education students look at the screen of a laptop while sitting at a table and collaborating.
Learn how using Azure OpenAI Service in higher education can help leaders reimagine learning models and reduce administrative burdens.

Imagine a future where every student has a personalized learning path, where faculty can focus on teaching instead of administrative tasks, and where academic research accelerates breakthrough discoveries. This is not a distant vision—generative AI is making it possible today. AI-driven innovations empower higher education leaders to reimagine learning models, reduce administrative burdens, and advance academic research, positioning institutions to not only enhance student success but also lead in educational innovation, securing a competitive edge in an evolving landscape.

A July 2024 Forrester report commissioned by Microsoft found that education institutions using Azure OpenAI Service saw improved student outcomes, streamlined operations, and increased access to technology. By Year 3, they are expected to boost content generation efficiency by 30% to 60% and improve chatbot resolution rates by 20% to 50%, driving positive impacts on graduation and employment rates.

As AI adoption accelerates, institutions must also prioritize trust by focusing on scalable security, data privacy, and governance measures. Microsoft supports this transition with AI solutions that integrate built-in protections, addressing risks such as prompt injections and bias, while maintaining data privacy and compliance to safeguard institutions.

Join us as we explore five key use cases of generative AI in higher education, along with examples of institutions that have successfully implemented AI to deliver more equitable and personalized student experiences.

1. Around-the-clock real-time campus support

As student expectations evolve, meeting their demand for around-the-clock support has become a critical factor in student satisfaction and institutional efficiency. For example, Tecnológico de Monterrey’s TECgpt is an AI platform that offers quick access to information like tuition, scholarships, and campus services, allowing users to retrieve personal details, such as scholarship status, within minutes.

Similarly, the University of South Florida improved response times and reduced staff workloads by automating IT ticketing with Azure OpenAI, launching an AI-powered Help Desk in just one week. The University of Hong Kong has also deployed several Azure OpenAI-powered chatbots to handle IT queries, administrative tasks, and course selection, freeing staff to focus on more complex issues. Education leaders are automating routine tasks and delivering personalized academic assistance at scale, boosting retention and accelerating graduation rates while streamlining operations.

I can invest more time in people now that I don’t have to worry about those recurring repetitive tasks because people are what it’s all about. It is revolutionizing all our workflows, our teaching, and our learning spaces quite rapidly. With Copilot, we’re able to do things bigger, better, but also equitably across the university space. It’s changing the way we do everything, and that is a big deal.

Tim Henkel, Assistant Vice Provost for Teaching and Learning, University of South Florida (USF)

AI innovations are reshaping how institutions engage with students by offering around-the-clock support for inquiries about housing, student life, and campus services, significantly enhancing the overall student experience. These AI tools also provide personalized academic and career guidance, helping students select courses, optimize degree plans, and receive tailored advising.

Additionally, AI-powered virtual assistants streamline the financial aid process, guiding students through eligibility requirements, deadlines, and submissions, ensuring timely completion. Through AI integration, institutions can deliver responsive, student-centered services while improving operational efficiency, ultimately enriching the campus experience.

With Azure OpenAI, USF can rapidly classify and summarize IT tickets, eliminating that first level of eyes on an issue.

2. Personalize learning experiences at scale

In an environment where institutional success depends on student engagement and outcomes, personalized learning is becoming a strategic priority. With Data Science in Microsoft Fabric and Azure AI Services, institutions can integrate real-time data analysis from their LMS, leveraging AI to customize lessons, content, and pacing based on student performance.  AI tutors provide personalized, instant feedback, helping students make continuous progress and tackle challenging tasks with confidence. These tools empower institutions to deliver adaptive learning tailored to each student’s needs.

The Azure OpenAI Service provided remarkably high-quality hints generated by GPT-4 from a robust and scalable API that reliably handled heavy loads from hundreds of students working simultaneously near homework deadlines.

John DeNero, Faculty Director and Associate Teaching Professor, UC Berkeley

Universities around the world are leveraging AI to improve student outcomes and streamline administrative tasks. At the University of Sydney, the Cogniti platform utilizes AI teaching assistants to tailor feedback and adjust learning paths, boosting student engagement and academic success. IU International University of Applied Sciences in Germany offers an AI study buddy, Syntea, with always-available multilingual support and enhanced student engagement through personalized feedback. It also reduces course completion times by 27%, all while seamlessly integrating across platforms like myCampus and Microsoft Teams.

Similarly, UC Berkeley’s 61A-Bot, a specialized AI assistant powered by Azure OpenAI Service, has significantly enhanced student learning by providing real-time support and reducing homework completion times in their computer science courses. As institutions worldwide adopt AI-driven solutions, education leaders are transforming both learning personalization and operational efficiency, driving significant improvements in student success.

3. Accelerate learning for all with multi-language support

AI improves educational access by offering multi-language support through real-time translation, note-taking, and content delivery, enabling all students to engage fully in their preferred language. Flexible learning options allow students to review materials at their own pace, while chatbots offer seamless language transitions and targeted support to enhance comprehension and engagement.

By utilizing the advanced language models in Azure OpenAI Service, Cool English is taking an innovative step for English education in Taiwan, helping students reach their learning goals and overcome the challenges of limited opportunities for real-life conversational and writing practice.

Dr. Hao-Jan Howard Chen, Professor, Department of English at National Taiwan Normal University

This potential is already being realized through initiatives like National Taiwan Normal University’s “Cool English” platform, powered by Azure OpenAI, which has helped over 1.4 million students enhance their English skills through adaptive, conversational practice. Similarly, the Korea Advanced Institute of Science and Technology (KAIST) developed a multilingual chatbot to help EFL students write essays in English, offering seamless language switching and personalized guidance outside class hours. Powered by Azure OpenAI’s advanced models, the chatbot provides feedback and answers questions to help students improve their writing without generating essays for them. AI-powered language tools help create inclusive learning environments, enhance student outcomes, and attract a diverse international student body.

A group of higher education students and their professor looking at the screen of a laptop together.
AI can help higher education institutions provide multi-language support to students.

4. Accelerate academic research

AI is transforming academic research by accelerating discovery and innovation, and automating tasks like literature reviews, data analysis, and report generation. In April 2023, Microsoft Research launched the Accelerating Foundation Models Research (AFMR) initiative to accelerate the use of large-scale AI models in academia. Through Azure AI Services, AFMR provides universities with access to powerful foundation models, supporting research in fields such as healthcare, scientific discovery, and multicultural empowerment. With over 200 projects in 15 countries, AFMR is building a global AI research community.

If you have a really good idea, it’s very hard to just search the literature and try to find everything. This is sort of like having a super adviser, a brilliant astronomer with an encyclopedic memory who can say, ‘Well, that could be a very good idea and here’s why,’ or ‘That’s likely a bad idea and here’s why.’

Alyssa Goodman, Robert Wheeler Wilson Professor of Applied Astronomy, Harvard University

Universities are harnessing foundation models to accelerate scientific discovery and hypothesis generation. A collaboration between astronomers at Harvard University and The Australian National University has led to the development of an astronomy-focused chat application that utilizes GPT-4. This tool draws from over 300,000 astronomy papers, helping researchers extract key information and analyze data to develop new theories.

At Georgia Tech, researchers are utilizing Microsoft’s Azure OpenAI Service to analyze global EV charging data, uncovering insights for policy development and improving infrastructure reliability to support sustainable and equitable EV adoption. With AI solutions like Azure OpenAI Service, higher education institutions can automate repetitive tasks, improve collaboration, and scale research efforts, all while ensuring data security and focusing on high-impact academic work.

5. Trustworthy AI for education

There is a critical need for organizations to deploy AI responsibly. As AI transforms education, decision makers must ensure these systems are secure, private, and fair. A key strategy is to choose AI platforms with built-in safeguards, like content filtering and bias detection. For example, South Australia’s Department for Education successfully piloted EdChat, an AI chatbot powered by Azure AI, which protects 1,500 students across eight schools from harmful content while empower educators to focus on the benefits.

AI-powered content safety

Download the free e-book

Equally important is the protection of sensitive student information. With built-in features to safeguard text content, including moderation and groundedness detection, institutions can ensure responsible AI deployment while protecting student data with enterprise-grade security and robust privacy measures to prevent breaches.

South Australia’s Department for Education successfully piloted EdChat, an AI chatbot using Azure AI.

Key principles of trustworthy AI:

  • Security: AI systems must be resilient against threats.
  • Safety: AI must operate reliably in sensitive environments like classrooms.
  • Privacy: Protecting personal data is essential to maintain trust.

AI is not just a tool—it’s the catalyst for a new era in education. By enhancing student support, personalizing learning, and accelerating academic research, AI empowers institutions to break down barriers, expand access, and create more inclusive and innovative learning environments. Those who embrace AI today will lead the future of education, building adaptable, forward-thinking institutions focused on student success.

The question is no longer if AI should be integrated, but how quickly it can be implemented to unlock its full potential. The future of education is here—is your institution ready to lead it?

Ready to transform your institution with AI? Partner with Microsoft to unlock new possibilities and drive educational success: