Master cybersecurity in smart cities and urban tech with the Cybersecurity in Smart Cities and Urban Tech course in Budapest. Safeguard your city's infrastructure today!
From:
30-03-2026
Course Overview
Smart cities integrate IoT devices, AI systems, cloud platforms, and critical infrastructure to deliver efficient urban services. However, these interconnected systems are highly vulnerable to cyberattacks, ranging from data breaches and ransomware to disruptions of energy grids and transport networks.
This Cybersecurity in Smart Cities and Urban Tech Training Course equips participants with strategies to protect urban systems, manage risks, and comply with international regulations. It emphasizes resilience, privacy, and secure governance in urban technology environments.
Through real-world case studies, simulations, and hands-on workshops, participants will develop the knowledge to defend urban infrastructure and build resilient cybersecurity strategies for smart cities.
Course Benefits
Understand cybersecurity challenges in smart cities.
Strengthen defense of IoT and connected infrastructure.
Develop governance frameworks for urban tech resilience.
Reduce risks to critical services and citizen trust.
Align urban tech with global cybersecurity standards.
Course Objectives
Explore the cybersecurity landscape of smart cities.
Assess vulnerabilities in IoT and critical infrastructure.
Apply best practices for smart grid and transport security.
Integrate privacy and data protection into urban tech.
Develop strategies for incident response in smart cities.
Examine case studies of urban cyberattacks.
Build long-term resilience in city cybersecurity planning.
Training Methodology
The course blends expert-led lectures, urban tech case studies, group discussions, and simulations of cyber incidents in smart city environments.
Target Audience
City planners and digital infrastructure leaders.
Cybersecurity professionals and SOC managers.
IoT and smart technology developers.
Government and regulatory officers.
Target Competencies
Smart city cybersecurity.
IoT and infrastructure security.
Cyber governance in urban environments.
Risk and resilience management.
Course Outline
Unit 1: Introduction to Smart Cities and Cybersecurity
Defining smart cities and urban technologies.
Cyber risks in connected urban environments.
Case studies of cyberattacks on cities.
Importance of resilience and trust.
Unit 2: Securing IoT and Connected Infrastructure
IoT vulnerabilities in urban tech.
Authentication and encryption for smart devices.
Securing smart grids and transport systems.
Hands-on IoT security exercise.
Unit 3: Critical Infrastructure Protection
Cyber risks in energy, water, and public services.
National and international frameworks for infrastructure security.
Incident response for critical systems.
Practical workshop on infrastructure resilience.
Unit 4: Privacy, Data Protection, and Governance
Data protection in smart city ecosystems.
GDPR, CCPA, and global privacy obligations.
Governance frameworks for smart city security.
Balancing innovation with compliance.
Unit 5: Building Resilient Cybersecurity Strategies for Cities
Designing cyber resilience plans for urban tech.
Cross-sector collaboration and governance.
Future trends: AI, 5G, and quantum threats in cities.
Roadmap for sustainable urban cybersecurity.
Ready to secure the future of smart cities?
Join the Cybersecurity in Smart Cities and Urban Tech Training Course with EuroQuest International Training and gain the expertise to protect urban infrastructure and digital services.
The Cybersecurity in Smart Cities and Urban Tech Training Courses in Budapest provide professionals with a comprehensive understanding of how to secure interconnected urban systems, digital infrastructure, and technology-enabled public services. These programs are designed for cybersecurity specialists, urban planners, IT managers, engineers, and decision-makers involved in developing or protecting smart city ecosystems. Participants explore the unique risks associated with connected sensors, data-sharing platforms, IoT devices, transportation systems, public utilities, and intelligent governance technologies.
The training introduces the core principles of smart city cybersecurity, emphasizing system resilience, network segmentation, identity and access control, and real-time monitoring. Participants learn how to assess vulnerabilities across complex and distributed infrastructures where physical and digital environments intersect. Through real-world case studies and practical scenario planning, attendees examine how to mitigate threats targeting critical services, public safety networks, urban data flows, and communication frameworks that support daily city operations.
These smart city cybersecurity programs in Budapest also focus on data protection, ethical governance, and cross-sector collaboration. The curriculum highlights how municipal authorities, private sector partners, technology vendors, and citizens must work together to uphold security, trust, and transparency. Participants learn to design policies and security architectures that support scalable innovation while safeguarding public assets and personal privacy. The training also addresses resilience planning and incident response strategies tailored for large-scale, interconnected systems.
Attending these training courses in Budapest provides an international learning environment enriched by the city’s growing involvement in digital transformation and urban innovation. Professionals gain valuable exposure to global best practices and emerging trends in smart city security. Upon completion, participants are equipped to evaluate risks, strengthen cyber resilience in urban infrastructures, and support the secure development of smart, sustainable, and technologically advanced urban environments.