Ideally, bring your laptop and charger. WIFI will be provided for free at the venue. You will also need your printed ticket or an ID card to get in. Other than that, you just need yourself, a fresh mind, and the passion to get involved.
Ideally, bring your laptop and charger. WIFI will be provided for free at the venue. You will also need your printed ticket or an ID card to get in. Other than that, you just need yourself, a fresh mind, and the passion to get involved.
Mariel Leclère is a neuropsychologist with expertise in CBT, EMDR, neurofeedback, and hypnosis. She earned her master’s degree in Psychology and Neuropsychology of Cognitive Disturbances from Aix-Marseille University in 2009 and completed her Ph.D. in 2012, focusing on cognitive strategies in aging. She later worked as a lecturer and assistant researcher, deepening her knowledge in clinical psychology and psychopathology.
Mariel has held key roles at the Madeleine Rémuzat Clinic, leading cognitive rehabilitation programs, and at the HIA of Laveran, assessing neuropsychological functions in older adults and soldiers. She also founded NeuroPsy.Co in 2019, offering consultations in France. Currently, she is a Mental Health Consultant at RIT Kosovo, teaching psychology and conducting neuropsychological assessments for children and adolescents. Her work continues to advance cognitive rehabilitation and mental health support across different age groups.
Melos Kuqi has been passionate about technology, business, and innovation from an early age. While pursuing higher education in Information Systems, he balanced academics with hands-on experience, launching ventures that merged technical expertise with business applications. His proactive approach to learning—through freelance projects, collaborations, and deep dives into AI, blockchain, and software development—laid the foundation for his entrepreneurial journey.
Melos has founded and managed several companies, including EONIX, a software outsourcing firm; Spare, a peer-to-peer car-sharing platform; and DeepLens, an AI-powered analytics company. His ventures leverage technology to solve real-world problems, optimize efficiency, and create scalable solutions. With a strong focus on innovation and strategic growth, he continues to explore emerging industries like AI-driven automation and blockchain applications, aiming to expand his impact internationally while driving meaningful advancements in tech and business.
Background
Vlera, a 25-year-old mother, gave birth in a private hospital in Kosovo. While the environment was clean and comfortable, key postnatal practices were missing. She wasn’t encouraged to have skin-to-skin contact with her baby, and without explanation, her newborn was given a bottle, delaying the start of breastfeeding.
Once home, breastfeeding became a struggle. Her baby refused to latch, her husband relied on formula, and her mother-in-law questioned whether she had enough milk. Without proper guidance, Vlera felt overwhelmed and unsupported, increasing her risk of mastitis. She was also unaware of the Ministry of Health’s Home Visiting program—a crucial service hospitals failed to connect her to.
Problem
Many mothers in Kosovo miss out on essential early breastfeeding support. While public postnatal home visits exist, they depend on hospitals sharing patient information—something that doesn’t always happen. As a result, early formula use, missed skin-to-skin contact, and lack of professional support can lead to breastfeeding complications, maternal anxiety, and weakened mother-baby bonding.
Challenge
How can we bridge this gap and provide instant, personalized breastfeeding support when traditional systems fall short?
Your task is to design an digital solution that ensures new mothers receive accurate, real-time guidance, even when hospitals fail to connect them to postnatal care. Can technology empower families with reliable, culturally sensitive information, fostering confidence instead of doubt?
Create a smart breastfeeding support tool that helps mothers navigate their journey with ease—offering reassurance, practical advice, and timely interventions when they need them most.
Almost 20 years of experience in law working in both academic and professional environments. Specialised in IP law and demonstrated experience in business & contract law and ADR. Solid academic background, with experience in teaching civil law courses. A dedicated individual with a passion for the law.
Shkumbin Saneja is an experienced systems implementation professional with over 20 years in Cybersecurity, IT Governance, and Digital Transformation from Prishtina, Kosovo. Adept at risk assessment frameworks, and robust compliance programs (ISO 27001, NIST, C2M2) across critical sectors, he has a proven track record in elevating cybersecurity and IT services. Previously, he led cybersecurity capability maturity assessments and regulatory compliance initiatives for critical infrastructure sectors, including health sector. With his expertise in research and analysis, Shkumbin has successfully formed and managed cross-functional working groups, developed strategic work plans, and overseen solution implementation.
Andrej Stephan looks back on two major career stages: After studying history and political science, he worked at the chair for contemporary history at the University of Halle-Wittenberg from 2008 to 2015, where he researched the early history of the Federal Criminal Police Office (Bundeskriminalamt) and the political field of internal security. He then worked for ten years as head of office for the noted member of the German Bundestag Karamba Diaby (2013-2025). In this role, he was responsible for press relations, personnel management, fundraising and the organization of events.
Background
Meet Nora, a 32-year-old mother of two who works full-time and often relies on the internet to find health information. When her youngest child develops a persistent cough, she searches online for answers. She comes across a mix of medical advice, home remedies, and alarming misinformation. Unsure of what to trust, she decides to visit a doctor, but by the time she gets an appointment, the symptoms have worsened.
Nora’s struggle is not unique. Many people turn to digital platforms for health advice, yet almost half of Europe’s population has limited health literacy. With the rise of social media, health apps, and AI-driven tools, navigating digital health information has become both easier and riskier. Misleading advice, fake news, and complex medical jargon often leave individuals confused rather than informed.
Problem
Despite the growing presence of health-related digital tools, many individuals lack the necessary skills to evaluate and use them effectively. People like Nora need guidance to critically assess online health information, make informed decisions, and use digital tools safely. How can we empower them to navigate the overwhelming world of digital health?
Challenge
Your mission is to design an engaging and accessible solution that helps individuals improve their digital health literacy. Whether it’s an interactive learning platform, a smart application, or an AI-driven tool, your solution should equip users with the skills to critically assess and apply health information in their daily lives. Make it simple, make it impactful, and most importantly—make it something Arta would trust.
Dr. Asllani is the author of many books and articles published internationally. As a leader in civic education, he has extensive experience in networking projects. He is the founder of the Kosova Center for Human Rights, working with UNESCO in Human Rights Education. In addition, Dr. Asllani led the coordination team for Kosovo admission to Rotary International in 2005, marking the first international recognition of our country.
He has served for seven years on the board of the Kosovo American Education Fund – KAEF and two years as the Co-Chair at KAEF, an important organization that has granted full scholarships to 117 young Kosovars to study at top Universities in the U.S.
Susann Homann builds on her extensive experience in digital transformation and healthcare innovation as Chief Digital Officer at Universitätsklinikum Halle. Her work focuses on the strategic implementation of digital health solutions, including AI-driven process optimization, a digital patient portal, and a medication management system. With a background in IT and business, she bridges the gap between technology and patient-centered care, ensuring that digitalization enhances efficiency and clinical outcomes. Additionally, she fosters interdisciplinary collaboration between healthcare professionals, data scientists, and IT experts to drive sustainable digital transformation in the medical sector.
Andres Mellik is a digital health entrepreneur with a robust background in embedded systems and e-learning solutions. He is dedicated to delivering impactful solutions to all participants in the care continuum and beyond, focusing on unique care and learning pathways supported by evidence-based guidance and robust digital support.
As the CEO and Founder of Cognuse, Andres leads the development of software solutions aimed at enhancing critical disease management, emergency medicine, and disaster preparedness. Under his leadership, Cognuse has been at the forefront of integrating digital tools to improve patient outcomes and streamline healthcare processes.
Before establishing Cognuse, Andres amassed extensive experience in the technology sector, particularly in embedded systems and e-learning. His career includes roles such as a Software Engineer at TietoEnator and a Project Manager at Skype, where he honed his skills in software development and project management.
Andres holds a Master’s degree in Computer Science from Tallinn University of Technology, reflecting his strong academic foundation in technology and innovation. His diverse background and commitment to leveraging technology for healthcare advancement have positioned him as a notable figure in the digital health landscape.
A future-of-work enthusiast, deeply committed to helping individuals embrace portfolio career management as a strategy for growth and adaptability in an ever-evolving job market. As a lifelong advocate for women’s empowerment, she is dedicated to creating opportunities for women, uplifting them through research, activism, and collaboration.
With extensive experience as a strategic thinker across startups, initiatives, and board leadership, she brings a wealth of knowledge to her current roles. She is the Co-Founder and Chief Growth Officer at Narwhal Network, a startup dedicated to supporting fractionals—professionals who take a portfolio approach to their careers by balancing multiple roles simultaneously. In addition, she serves as the Country Program Officer at the Swiss Entrepreneurship Project, where she helps startups scale globally by connecting them with international experts.
Beyond her work in startups, she shares her expertise as a Lecturer of Entrepreneurship and Innovation for Healthcare, inspiring the next generation of innovators in this rapidly evolving field.
Teresa S. Schick serves as Executive Assistant to the Managing Director of “Die TUM Campus Heilbronn gGmbH”. The TUM Campus Heilbronn gGmbH supports the academic operations of the Technical University of Munich at the Heilbronn Education Campus and its anchoring in the region.
Before joining the TUM Campus Heilbronn gGmbH Teresa worked on various research projects at Rechts der Isar Hospital at Technical University of Munich and TUM School of Medicine and Health with a strong research focus on Digital Health, Health Promotion and Precision Prevention in worksite health. Her latest publications focus on climate-related health risks among outdoor workers and wearable-assisted interventions.
Teresa holds a Master’s degree (M.Sc.) in Management & Technology and Bachelor’s Degree in Health Sciences from the Technical University of Munich. Additionally, she holds a Bachelor’s degree in International Business (B.A.) which she completed at Aalen University, Germany and California State University Fullerton, USA.
Werner Gold is a visionary technologist and digital transformation expert with nearly three decades of experience in developing innovative IT solutions. As CTO for Cloud Healthcare at T-Systems International, he is driving the digitalization of healthcare with cutting-edge cloud services. With a broad background in telecommunications, finance, retail, and the automotive industry, he specializes in designing secure, scalable, and future-ready IT infrastructures. He has also been actively engaged in the Linux and open-source community for over 30 years—from developing the first mainframe Linux distribution to representing the German Linux industry as Vice President of an industry association.
Dr. Tobias Gantner, MD, is an eminent authority with profound expertise in the realms of healthcare and medicine. His scholarly proficiency encompasses health management, medical law, healthcare research, and digital health, positioning him at the forefront of these interdisciplinary fields.
With an extensive portfolio of publications in prestigious academic journals and keynote presentations at globally renowned conferences, Dr. Gantner has firmly established himself as a luminary in the industry. His groundbreaking research delves into the integration of artificial intelligence in healthcare, the democratization of medical services, and the digital metamorphosis of the health sector.
Endowed with an exceptional talent for elucidating intricate medical and legal concepts, Dr. Gantner
masterfully contextualizes these within the broader narrative of contemporary healthcare advancements.
This rare ability renders him an in-demand keynote speaker and strategic advisor to leading corporations and institutions within the healthcare domain.
Dominik Behr worked as a research assistant in the field of robot programming from 2017 to 2020. Since 2020, he has been a research assistant in the ERDF-funded FORMAT project as well as in the follow-up project FORMAT continuum. Both are the reference project for ICR in Pristina. Its core task is the conception, realisation and implementation of robotic scenarios in health care. Robotic systems from Softbank Robotics in the form of Pepper and NAO are available. In addition, the complex service robot TIAGo from PAL-Robotics and the SPOT from Boston Dynamics. In the current ICR project, he teaches programming skills of the Pepper robot model to Pristina and supports the implementation of demand-oriented scenarios.
After studying business informatics, Karsten Schwarz completed his doctorate on the topic: A data-driven system based on clinical pathways to support decisions on resource planning in hospitals: process mining, optimization and simulation. From October 2016 to December 31, 2019, he worked on the FORMAT project, where he set up a future laboratory for nursing and developed training modules to raise awareness of assistive technologies in an interdisciplinary team of nursing, medicine and computer science. As part of his work for the FORMAT project, he has worked on a large number of funding applications and built up a broad network in business, science and society. The greatest success of the application work so far is the acquisition of the WIR! funding for the translation region for digitalized healthcare.
Krzysztof (Kris) Szyszkiewicz is a certified expert in pricing, revenue, and margin management within B2B and e-commerce sectors. As a Partner and Co-founder of Valueships, he leads consulting projects aimed at enhancing client profitability. His tenure at McKinsey & Company in pricing and strategy further bolstered his expertise. Krzysztof is also a member of the Professional Pricing Society, reflecting his commitment to the field.
Jenny-Victoria Steindorff studied speech therapy (B.Sc.) at the IB Hochschule für Gesundheit und Soziales and then ‘Health Professions Education’ (M.Sc.) at the Charité in Berlin. Building on this and her professional experience as a speech therapist, teacher and research assistant, she now works in the Health Services Research Group at the University Medical Centre Halle (Saale). As a research assistant and doctoral candidate, she is involved in the BMBF-funded projects ‘DigiCare’ and ‘Dys-Phappgy’ as well as the international project ‘ICR – Innovative Care Robotics’. The focus of these projects is on a participatory and co-creative approach to ensure that the development and implementation of digitally, virtually and robotically supported applications in the respective therapeutic and educational contexts is not only practice-orientated, but also scientifically monitored and evaluated.
In addition to a critical, reflective, physical and holistic view of healthcare, the scientific interest in a sustainable and needs-based design of teaching and practice in the healthcare professions is its main focus.
Anne (Ulvestad) is a purpose driven health agent committed to empowering people and patients with innovative health & care solutions!
Anne has +25 years of experience in life sciences and healthcare. She has worked in the traditional healthcare verticals of biotech/pharma, IVD/medtech and digital health and had roles of increasing responsibility across the value chain from research to commercialisation throughout her career. Anne has worked at the interfaces of the verticals and sees herself as a strategic but hands-on translator and bridgebuilder in the complex healthcare ecosystem. Most of her career she worked at Novartis, until she left for a role as the CEO of a Norwegian biotech. Now she is the Founding Executive Director of INNOSIAMO, a boutique strategy consultancy in life sciences and healthcare innovation.
Anne has a master in biochemistry from the University of Oslo, Norway, and an MBA from University of New South Wales, Australia. She is a Korean-adopted Norwegian (soon also to be Swiss) living in Basel, Switzerland, with her teenage son. Anne also sets own health as a priority and finds energy and inspiration outside in nature!
Jamie Reynolds is a seasoned Product Coach and startup mentor with a strong background in product strategy, agile development, and capital markets. Based in London, he has worked extensively with startups, financial institutions, and accelerator programs, helping founders and product teams refine their ideas, build traction, and scale effectively.
With a deep understanding of Tech, AI, and enterprise applications, Jamie combines hands-on experience with strategic guidance to drive innovation. He is passionate about mentorship, investment, and empowering non-technical teams to develop impactful solutions. His work spans across coaching, advising, and supporting emerging businesses, making him a key player in the startup and financial technology space.
Background
Five-year-old Lira loves holiday decorations, but the moment she sees Santa at the mall, she clings to her mother in terror. Meanwhile, Andi, a seven-year-old, dreads doctor visits, his anxiety skyrocketing at the sight of a stethoscope. Like many children, their fears feel overwhelming, and avoiding them only makes things worse. Traditional exposure therapy can help, but it often lacks the engagement and playfulness needed to make the process feel safe and fun.
Problem
Children struggle to overcome fears when exposure happens too suddenly or without control. A rigid, one-size-fits-all approach may increase anxiety rather than reduce it. Parents and caregivers want to help, but they often lack structured tools to guide children through gradual, low-stress exposure in an engaging way. Without an adaptive and playful method, these fears can persist and interfere with daily life.
The Challenge
How can AI create a safe, interactive environment where children can gradually overcome their fears? Your task is to develop a digital prototype that allows children to engage with fear-inducing characters or situations—like a friendly, animated clown or a virtual doctor—at their own pace. Could AI adapt difficulty levels based on their comfort? Can playful elements like soft voices, gentle animations, or small rewards make the experience feel like a game? Design a solution that helps children like Lira and Andi build confidence, step by step, in a way that feels safe, fun, and empowering.
Background
In many regions, access to timely healthcare remains a pressing issue. Whether due to distance, lack of transportation, or overloaded medical facilities, patients often face significant barriers to receiving the care they need. Rural communities struggle with a shortage of healthcare professionals, while urban centers battle long wait times and inefficiencies. For individuals with mobility challenges, chronic conditions, or urgent but non-emergency needs, navigating the healthcare system can be frustrating and, at times, overwhelming.
The Problem
Despite advances in digital health and telemedicine, millions of people still experience delays in receiving medical attention. Scheduling an appointment, traveling to a clinic, and waiting for a consultation can take hours—time that many individuals, particularly those juggling work, childcare, or physical limitations, simply do not have. Emergency services are often overburdened with non-critical cases, further straining healthcare resources. Meanwhile, many qualified healthcare professionals operate independently or have availability gaps that could be better utilized to serve those in need. The challenge is not just about having healthcare services available; it’s about making them accessible in the right place, at the right time.
The Challenge
How can we leverage technology to create a seamless, efficient, and patient-centered healthcare access system? Imagine a solution that connects people in need of medical assistance with available healthcare providers in a way that is fast, reliable, and easy to use. Your challenge is to design a scalable and inclusive model that allows patients to receive the right care when and where they need it—whether at home, in a remote area, or on-demand in an urban setting. Consider factors such as data security, provider availability, cost-effectiveness, and user experience as you develop an innovative solution that redefines accessibility in healthcare.
Background
Kosovo’s healthcare system is undergoing significant transformation, with a focus on improving infrastructure, access, and quality of care. One of the country’s most valuable but untapped resources lies within its diaspora of healthcare professionals and researchers. Many Kosovars who have pursued healthcare careers abroad are eager to contribute their expertise to the development of the healthcare system back home. However, there is currently no streamlined way to identify these professionals or connect them with local healthcare initiatives.
Problem
Local healthcare projects in Kosovo, such as initiatives aimed at improving access to healthcare in rural areas or advancing digital health solutions, often struggle to find experts with the relevant specialized knowledge. While there are many Kosovo-born healthcare professionals abroad with expertise in areas like telemedicine, rural health systems, and medical research, they remain largely out of reach for the local teams due to a lack of effective communication channels. Additionally, there is no centralized platform that helps identify these professionals or facilitates direct collaboration with ongoing projects in Kosovo.
The Challenge
This challenge invites participants to develop a digital interface that can identify healthcare professionals and researchers within Kosovo’s diaspora and connect them to local healthcare projects in need of their expertise. The platform should allow project coordinators in Kosovo to easily search for and reach out to professionals who match specific project requirements, while also providing a space for diaspora professionals to stay informed about opportunities to contribute to local initiatives.
Background
After undergoing surgery, Besnik is eager to recover quickly but struggles to follow the hospital’s generic dietary recommendations. Meanwhile, Liridona, who manages diabetes, often receives broad nutritional advice that doesn’t fully align with her lab results. At Olive Hospital, doctors and nutritionists rely on diagnostic tests to guide treatment, yet tailoring dietary plans to individual needs remains a challenge. Proper nutrition is vital for managing chronic diseases, supporting post-surgical healing, and preventing complications—but translating medical advice into personalized, actionable meal plans remains difficult.
Problem
Many patients lack clear, practical guidance on what to eat based on their medical conditions and test results. Doctors and nutritionists spend significant time manually creating dietary plans, often without the tools to continuously adapt them to a patient’s changing health status. A smarter, more dynamic approach to medical nutrition is needed—one that personalizes meal plans while remaining flexible and accessible.
The Challenge
How can we bridge the gap between medical data and personalized nutrition? Your task is to develop an innovative solution that helps patients make informed dietary choices based on their health needs. The solution should consider medical test results, evolving health conditions, and individual preferences while offering adaptable and practical guidance. How can technology, AI, or digital health tools make nutrition an integral part of personalized care.
Background
Arjan, a 58-year-old teacher, has no symptoms but worries about his risk of prostate cancer due to his father’s history with the disease. His doctor recommends screening, but Arjan is unsure if he really needs it. Meanwhile, Blerim, a 65-year-old retired mechanic, was diagnosed at a late stage, despite having regular check-ups. Advances in AI and data science offer the potential to change these stories—by identifying high-risk individuals earlier and ensuring timely interventions.
Problem
Despite medical advancements, many men still face late diagnoses due to limited screening accessibility, resource constraints, and gaps in existing risk prediction models. Some models lack accuracy across diverse populations, while others fail to integrate smoothly into clinical workflows, making them less effective in real-world settings. A more inclusive, data-driven solution could help bridge these gaps and improve early detection efforts.
The Challenge
How can AI-driven risk prediction improve prostate cancer detection and prevention? Your task is to develop a robust and inclusive machine-learning model that analyzes patient data—such as genetic profiles, lifestyle habits, and clinical records—to identify individuals at risk. The model should prioritize accuracy, fairness, and usability while ensuring patient privacy. Can your solution seamlessly integrate into clinical settings, helping doctors make better-informed decisions? Design a tool that brings early detection within reach for more people, improving health outcomes one step at a time.
Background
Erion, a 45-year-old accountant, was diagnosed with type 2 diabetes last year. Despite his best efforts, he struggles to keep his blood sugar levels stable. His busy schedule makes it difficult to track his diet, exercise, and medication. Meanwhile, 16-year-old Nora, newly diagnosed with type 1 diabetes, feels overwhelmed by all the information she has to process. She often forgets to check her glucose levels and isn’t sure what foods affect her the most. Both Erion and Nora need more than just reminders—they need a smart, personalized approach to managing their condition.
Problem
Diabetes management requires constant monitoring, lifestyle adjustments, and adherence to treatment plans. However, many individuals lack real-time feedback, personalized recommendations, and engaging educational resources to stay on track. Without tailored support, they may struggle with fluctuating glucose levels, inconsistent habits, and long-term health risks. Digital solutions have the potential to bridge this gap, but they must be user-friendly, adaptable, and seamlessly integrated into daily life.
The Challenge
Can AI revolutionize diabetes management by making it more personalized, engaging, and effective? Your task is to develop a digital solution that offers tailored recommendations based on individual health data, real-time monitoring of glucose levels, activity, and diet, and interactive educational resources. Could gamification, social features, or AI-driven feedback motivate users like Erion and Nora to stay on track? How can your solution ensure privacy while seamlessly integrating with healthcare systems? Design a tool that helps individuals take control of their health—one smart decision at a time.
Background
Arta, a first-year nursing student, excels in the classroom but freezes during her first clinical rotation. The theory she learned feels distant as she faces real patients. She hesitates before starting a procedure, unsure if she’s doing it right. Her supervisor is busy, and she struggles to find clear, structured guidance when she needs it most. Like many students, Arta wishes she had a reliable way to reinforce her skills, track her progress, and build confidence in real-world scenarios.
Problem
For nursing students like Arta, the transition from theory to practice can be overwhelming. Performing procedures under pressure, remembering key clinical guidelines, and gaining confidence all require continuous support. Yet, feedback is often limited, learning resources are scattered, and students have no real-time way to track their skill development. Without structured guidance, they risk feeling unprepared for patient care.
The Challenge
How can AI bridge the gap between classroom learning and hands-on practice? Your task is to develop a digital tool that provides nursing students with step-by-step guidance on procedures, personalized study recommendations, and real-time skill tracking. Could AI-powered quizzes, interactive feedback, or structured access to essential resources make clinical training more effective? Design a solution that helps students like Arta gain confidence, improve their skills, and feel prepared for their future in healthcare.
Background
Leona, a 52-year-old teacher, suffered a stroke six months ago. While her recovery has been steady, she struggles with speaking clearly, making everyday conversations frustrating. She attends speech therapy, but with limited sessions and generic exercises, progress feels slow. Meanwhile, 10-year-old Arian, who has a speech delay, finds traditional speech therapy dull and difficult to follow. For both, practicing at home is a challenge—motivation fades, feedback is scarce, and tracking improvements is complicated.
Problem
Speech therapy is essential for millions of people like Leona and Arian, yet accessibility remains a major barrier. Not everyone can attend frequent in-person sessions, and existing digital solutions often lack personalized feedback, leaving patients uncertain about their progress. Many lose motivation, making consistent practice difficult. Therapists, too, struggle to monitor improvements remotely.
The Challenge
Your task is to design an AI-powered tool that transforms speech therapy into a more engaging and effective experience. How can AI provide real-time feedback on pronunciation and articulation? Can it personalize exercises based on individual progress? Could gamified or interactive elements make practice more enjoyable? And how might patients and therapists easily track improvements over time?
Create a solution that helps Leona, Arian, and countless others gain confidence in their speech—one word at a time.
Background: In an era where healthcare is rapidly evolving, digital clinics like Klinika Digjitale are transforming the way patients access and engage with medical services. However, many patients still face barriers when navigating these digital platforms, including limited technical skills, physical limitations, or anxiety when using unfamiliar tools. While digital clinics promise convenience and accessibility, there is a growing need for innovative solutions that bridge the gap between patients and these services, creating a more personalized and supportive healthcare experience.
Problem: As healthcare becomes increasingly digitized, patients often struggle to adapt to digital platforms due to isolated systems, technical complexity, and a lack of human-centric support. Many digital clinics focus on technological efficiency but fall short of addressing patients‘ emotional and cognitive needs. This gap can create frustration, reduce trust, and limit the accessibility of these services- especially for patients with little technical understanding or those who are elderly.
Actual Challenge: Design a humanoid robot solution that serves as an empathetic, efficient, and personalized companion for Klinika Digjitale. This robot should simplify the way patients access and use the clinic’s digital services by creating an intuitive, supportive, and inclusive experience. The solution should focus on Patient Orientation, Accessibility, Empathy and Communication.
Background: In the fast-paced healthcare field, sharing knowledge between labs in different countries is crucial to ensure that new technologies are ready for development and testing. While traditional labs play an important role, they often struggle to connect experts and teams in real-time. This makes it harder to share ideas, collaborate across borders, and quickly spread important findings to the right people.
Problem: As healthcare technologies become more advanced, creating efficient and connected testing environments is increasingly important. Sharing knowledge between labs and teams is essential for innovation, but it is often slowed down by isolated workflows, delayed communication, and a lack of real-time collaboration tools. These challenges prevent experts from working together effectively, slowing progress and limiting the global impact of potentially life-changing healthcare innovations.
Challenge: Your task is to design a platform that improves knowledge transfer and allows real-time collaboration for testing healthcare technologies. This platform should create an interactive space where researchers, practitioners, and developers from various fields and locations can work together, share ideas, and test technologies in real-time. Consider using tools like VR, AR, or mixed reality to create immersive environments that make it easier to collaborate and learn
how to develop and use specific technologies in different healthcare contexts. The goal is to
make the platform inclusive, accessible, and efficient, helping to break down barriers in
healthcare research and accelerate innovation.
Background: Air pollution contributes to over 7 million deaths annually, with significant impacts on respiratory, cardiovascular, and mental health. Despite growing awareness, many people are unaware of how air quality directly affects their day-to-day health or what they can do to mitigate its impact.
Advances in digital health and technology provide opportunities to better understand, monitor, and combat air pollution’s effects, empowering individuals and communities to make healthier choices.
Problem: The problem isn’t just the pollution—it’s the lack of accessible tools to interpret air quality data and provide actionable guidance. Many citizens are unaware of what the numbers mean, how pollution impacts their health, or what steps they can take when air quality is poor.
Actual challenge: We want to reclaim the outdoors as a space for health while addressing the challenges of air pollution. Using the possibilities of digital transformation in the health sector, how can we create solutions that: