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Updated on 27 feb 202410 min read

Educational robotics – The new frontier in learning

Educational RoboticsEducationNAOPepper
Clarisse Le Guyader
Head of Marketing for public life robots - Hospitality & Retail, Healthcare and Education sectors.

The realm of education is undergoing a seismic shift driven by the integration of technology in learning environments. Among these technological advancements, educational robotics emerges as a pivotal force, redefining the essence of teaching and learning. This was the central theme at the URG's Acaday event roundtable, where experts from various fields converged to discuss the transformative potential of robotics in education. The discourse went beyond mere fascination with technology; it was a deep dive into how robotics could fundamentally alter the educational landscape. 

Recent studies underscore the growing significance of robotics in education. A systematic review published in Springer (2023) highlights educational robotics (ER) as an upcoming trend in classrooms, improving the learning environment by promoting knowledge-building activities. Another study from MDPI (2023) emphasises the effectiveness of educational robots in enhancing learning outcomes. These findings resonate with the discussions at the URG roundtable, where experts explored the numerous impacts of robotics on students' learning experiences. 

Educational robotics, in its essence, serves as a bridge between theory and practical application, bringing abstract concepts to life. It's a tool that not only teaches programming or engineering but also opens doors to a broader technological literacy. As Sophie Sakka, a participant in the roundtable, aptly noted, 'Robotics is where students first interact with future technologies'. This interaction is essential in an era where understanding and adapting to technology is as fundamental as learning to read and write. 

In this article, we will delve into how educational robotics is shaping the future of education. From its role in enhancing technological literacy to its impact on inclusive learning and the evolving roles of educators, the article will provide a comprehensive overview grounded in recent research and insights from URG's Acaday event. We will explore how educational robotics is not just an adjunct to the curriculum but a central element in the educational framework, preparing students for a future intricately woven with technology. 

Article Highlights

  1. Robotics as a catalyst for technological literacy
  2. Bridging gaps: robotics in inclusive education
  3. The evolving role of educators in a robotic-enhanced classroom
  4. Overcoming challenges: institutional support and policy for educational robotics
  5. Embracing the robotics revolution in education

Robotics as a catalyst for technological literacy:

Educational robotics stands at the vanguard of technological literacy, an important skill in the 21st-century educational landscape. The roundtable at URG's Acaday event illuminated how robotics in classrooms is not merely a tool for teaching coding or mechanical concepts but a comprehensive medium for fostering a deep understanding of technology. 

The role of robotics in developing technological literacy extends beyond the traditional confines of STEM education. According to a study by Springer, educational robotics has been introduced in classrooms to significantly improve the learning environment, offering young learners opportunities for knowledge-building activities that encompass a wide range of subjects. This aligns with the observations at the roundtable, where the integration of robotics was seen as a method to make technology more accessible and relatable to students across various disciplines. 

As Sophie Sakka emphasised, 'Robotics demystifies technology. It brings abstract concepts into the tangible world, making them more understandable and engaging for students. This hands-on experience with robotics allows students to grasp complex technological principles intuitively, fostering a learning environment where experimentation and exploration are encouraged. 

Another pivotal aspect discussed was how robotics prepares students for the future. A report from MDPI highlights the effectiveness of educational robots in improving learning outcomes, particularly in developing skills like problem-solving, creativity, and critical thinking. These skills are not only fundamental in understanding technology but also in applying it in real-world scenarios. As Birgit Koch-Sickman pointed out, 'With robotics, students learn to see technology not just as a subject, but as a tool for innovation and creation'. 

Moreover, educational robotics serves as a bridge between different learning styles. It offers a unique approach to cater to educational needs, making technological education more inclusive and effective. Giovanni Nulli reflected on this during the roundtable, noting, 'Robotics in education brings a new dimension to learning, accommodating different learning preferences and making technology education more inclusive'. 

#Key points to remember 

  • Educational robotics enhances technological literacy. 
  • Robotics transcends traditional STEM boundaries, making technology relatable.
  • Facilitates an intuitive understanding of complex tech principles. 

Bridging gaps: robotics in inclusive education 

One of the most significant discussions at URG's Acaday event roundtable was the role of educational robotics in fostering inclusive education. Robotics, as a versatile and adaptive tool, offers unique opportunities to cater to diverse learning needs, making education more accessible and engaging for all students. 

Inclusive education is a cornerstone in the evolution of modern teaching methodologies, where the focus is on accommodating the varied needs and learning styles of students. Robotics, with its tactile and interactive nature, can significantly aid in this endeavour. As highlighted in the Springer study, the introduction of robotics in classrooms has led to improved learning environments, especially for young learners. This development is particularly noticeable in the way robotics can tailor learning experiences to individual needs, thereby supporting students with different learning challenges. 

Sophie Sakka, reflecting on her experience with robotics in special education, shared, 'Robotics can be a game-changer for students with special needs. It offers a new way of engagement, breaking down barriers that traditional teaching methods might not address'. This perspective underscores the potential of robotics in creating a learning environment that is not only educational but also empathetic and supportive. 

The adaptability of robotics also plays a central role in inclusive education. As Birgit Koch-Sickman mentioned, 'Educational robotics is not limited to a single subject or teaching style. It can be integrated across various disciplines, offering diverse learning experiences'. This flexibility ensures that all students, regardless of their background or abilities, can benefit from robotics-based learning. 

Giovanni Nulli further elaborated on this, noting the importance of robotics in empowering students with different learning styles. 'Robotics encourages hands-on learning, which can be particularly beneficial for students who may struggle with traditional lecture-based teaching method', he said. This hands-on approach is particularly interesting for students who learn best through doing, allowing them to engage with and understand concepts in a more meaningful way. 

#Key points to remember 

  • Robotics is adaptable to diverse learning needs. 
  • Enhances engagement and accessibility in education. 
  • Break down barriers in traditional teaching methods. 

The evolving role of educators in a robotic-enhanced classroom 

The roundtable at URG's Acaday event illuminated the evolving role of educators in the context of a classroom enhanced by robotics. This change is not merely about adopting new tools but signifies a fundamental shift in the educational paradigm, where teachers transform from traditional sources of knowledge to facilitators of an interactive learning process. 

In the era of educational robotics, teachers are increasingly required to adopt roles that go beyond the traditional scope of instruction. They become guides, mentors, and collaborators in a learning journey that is significantly enriched by technology. As highlighted in the Springer study, the integration of robotics in education necessitates a shift in teaching methodologies, emphasising a more hands-on, exploratory, and student-centred approach. 

Sophie Sakka discussed this transformation in teaching dynamics, 'With robotics in the classroom, the role of the teacher evolves from being the sole disseminator of knowledge to a facilitator of learning experiences. It's about guiding students to explore and engage with technology creatively'. This shift is crucial for maximising the potential of educational robotics, allowing students to take a more active role in their learning. 

Birgit Koch-Sickman echoed these sentiments, emphasising the need for professional development for educators to adapt to these changes effectively. 'Teachers need not only to be familiar with the technical aspects of robotics but also understand how to integrate them pedagogically in a way that enhances learning', she stated. This requirement highlights the necessity for ongoing training and support for educators to navigate the challenges and opportunities presented by educational robotics. 

Moreover, the roundtable shed light on the collaborative aspect of this evolving role. As Giovanni Nulli pointed out, 'In a robotic-enhanced classroom, learning becomes a collaborative effort where teachers and students learn from each other. It's a partnership where both parties bring their strengths to the table'. This collaborative environment fosters a more engaging and dynamic learning experience, benefiting both students and teachers. 

#Key points to remember 

  • Educators transition from knowledge sources to learning facilitators. 
  • Professional development for educators is key. 
  • Emphasis on collaborative learning with robotics. 

Overcoming challenges: institutional support and policy for educational robotics 

The integration of educational robotics, while offering vast potential, also presents notable challenges, as was extensively discussed at URG's Acaday event roundtable. These challenges range from logistical and technical issues to the need for supportive policies and institutional backing. 

A critical concern highlighted in discussions and studies, like one published in the Journal of Educational Robotics, is the need for adequate infrastructure and resources. As Birgit Koch-Sickman from Germany pointed out, 'The successful integration of robotics in education requires not just the hardware but also a supportive infrastructure, including reliable internet access and technical support'. This need aligns with URG's advocacy for comprehensive educational ecosystems where robotics can thrive. 

Furthermore, the policy and institutional framework play a crucial role in the adoption and integration of educational robotics. As Sophie Sakka mentioned, 'While there's enthusiasm for educational robotics, there needs to be a concerted effort at the policy level to ensure its effective integration into curricula'. This statement underscores the need for policies that not only support the inclusion of robotics in education but also provide guidance on its effective use. 

Giovanni Nulli from Italy reflected on the challenges of curriculum integration, 'Autonomy in curriculum development is beneficial, but it also requires careful planning to ensure that educational robotics is effectively integrated and not just an add-on'. His comment highlights the importance of thoughtful integration of robotics into educational frameworks to maximise its benefits. 

The roundtable also emphasised the need for professional development and training for educators, as echoed by Birgit Koch-Sickman, 'Teachers play a crucial role in implementing robotics in education, and providing them with adequate training and resources is imperative'. This perspective highlights the importance of equipping educators with the skills and knowledge to effectively utilise robotics in their teaching. 

#Key points to remember

  • Need for infrastructure and supportive policies.
  • Robotics integration requires thoughtful curriculum planning.
  • Educator training and resources are crucial.

Embracing the robotics revolution in education

As we reach the end of our exploration into the role of robotics in education, one thing becomes crystal clear: educational robotics is not just a futuristic concept but a present-day necessity in reshaping the way we teach and learn. The discussions at URG's Acaday event, supplemented by recent research and studies, paint a vivid picture of an educational landscape where robotics is an indispensable tool.

Educational robotics serves as a bridge to new technologies, demystifying complex concepts and making them accessible to students from diverse backgrounds. This aspect of robotics is crucial in an era where technological literacy is as fundamental as traditional literacy. Robotics transforms classrooms into dynamic, interactive environments where learning is not just about absorbing information but about experiencing and applying knowledge in real-world contexts.

Inclusivity, a key theme that emerged from the roundtable discussions, highlights robotics' potential to cater to a wide spectrum of learning needs. The adaptive nature of educational robotics ensures that every student, regardless of their learning style or challenges, can benefit from this technology. This aligns with the broader educational goal of creating equitable and engaging learning experiences for all.

The evolving role of educators in a robotics-enhanced classroom underscores a shift from traditional pedagogical approaches to more facilitative and collaborative methods. This shift is vital in harnessing the full potential of educational robotics, as it empowers students to take charge of their learning journey, fostering skills like critical thinking, creativity, and problem-solving.

However, as we've discussed, the integration of robotics in education is not without its challenges. Institutional support, policy formulation, and professional development for educators are essential components in overcoming these hurdles. Collaborative efforts among educational institutions, policymakers, and industry leaders are necessary to ensure that the integration of robotics goes beyond mere technological advancement and truly enriches the educational experience.

To vividly showcase the impact of educational robotics, consider the NAO Challenge 2023, held in Florence, Italy. This event, organised by Scuola di Robotica alongside United Robotics Group and CampuStore, focused on harnessing humanoid robotics to address societal issues within the framework of the UN's Sustainable Development Goals. Students engaged in creating innovative solutions for challenges such as gender equality, clean energy, and climate action. This initiative not only enhanced their understanding of robotics but also promoted a deeper comprehension of global issues, demonstrating educational robotics' role as a comprehensive tool for fostering creativity, collaboration, and sustainable development.


Educational robotics stands at the forefront of a significant shift in education. Its integration is a step towards preparing students for a future intricately interwoven with technology. Embracing this robotics revolution in education means more than just keeping pace with technological advancements; it's about fostering a generation of learners equipped to navigate and shape the technological landscape of tomorrow.

#Key points to remember

  • Robotics is essential for modern education.
  • Prepares students for a technology-driven future.
  • Involves collaborative effort for effective integration.
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