The Cybersecurity in Industrial Control Systems in Singapore is a specialized training course for engineers, IT, and industrial security professionals.
From:
29-06-2026
From:
03-08-2026
Course Overview
Industrial Control Systems (ICS) and Supervisory Control and Data Acquisition (SCADA) networks are essential for energy, oil & gas, utilities, and manufacturing. However, their increasing connectivity makes them vulnerable to cyberattacks. This Cybersecurity in Industrial Control Systems Training Course provides participants with the knowledge and practical skills to safeguard critical assets, identify vulnerabilities, and respond effectively to incidents.
The course covers ICS architecture, threat landscapes, defense-in-depth strategies, regulatory frameworks, and incident response. Participants will engage in case studies of real-world cyber incidents to understand both technical and organizational approaches to ICS security.
By the end of the program, attendees will be able to design cybersecurity strategies tailored to industrial environments, ensuring operational safety, reliability, and compliance.
Course Benefits
Understand ICS and SCADA security fundamentals.
Identify vulnerabilities and threats to industrial systems.
Apply defense-in-depth and layered security measures.
Strengthen incident response and recovery capabilities.
Ensure compliance with cybersecurity regulations and standards.
Course Objectives
Explain ICS/SCADA architecture and security challenges.
Identify common threats, attack vectors, and vulnerabilities.
Implement security controls for OT and IT convergence.
Apply NIST, IEC 62443, and other industry standards.
Develop monitoring, detection, and incident response frameworks.
Conduct risk assessments for industrial environments.
Build resilience and continuity in critical infrastructure.
Training Methodology
The course uses lectures, hands-on labs, simulations, and real-world case studies. Participants will practice identifying threats, applying defenses, and responding to industrial cyber incidents.
Target Audience
ICS/SCADA engineers and operators.
Cybersecurity and IT/OT professionals.
Risk and compliance officers in energy and utilities.
Managers responsible for critical infrastructure protection.
Target Competencies
ICS and SCADA cybersecurity.
Threat identification and risk management.
Incident response in industrial systems.
Regulatory and compliance knowledge.
Course Outline
Unit 1: Introduction to ICS and SCADA Security
ICS and SCADA system architecture.
Key differences between IT and OT security.
Importance of securing critical infrastructure.
Case examples of industrial cyberattacks.
Unit 2: Threats and Vulnerabilities in Industrial Systems
Common attack vectors (malware, ransomware, insider threats).
Vulnerabilities in legacy systems and protocols.
Risk of IT/OT convergence.
Assessing threat landscapes.
Unit 3: Defense-in-Depth Strategies
Layered security approach for ICS.
Network segmentation and firewalls.
Access control and identity management.
Intrusion detection and monitoring.
Unit 4: Incident Response and Recovery
Developing incident response plans.
Detection, containment, and eradication steps.
Forensics and post-incident analysis.
Building resilience into operations.
Unit 5: Regulatory Frameworks and Standards
Overview of NIST Cybersecurity Framework.
IEC 62443 for industrial cybersecurity.
Regional and sector-specific regulations.
Compliance requirements for critical infrastructure.
Unit 6: Emerging Technologies in ICS Security
AI and machine learning in threat detection.
Security for IIoT and smart grids.
Cloud and edge computing challenges.
Future trends in ICS cybersecurity.
Unit 7: Building a Cyber-Resilient Organization
Aligning cybersecurity with business strategy.
Workforce training and awareness programs.
Vendor and supply chain security considerations.
Roadmap for sustainable ICS security.
Ready to protect critical infrastructure from cyber threats?
Join the Cybersecurity in Industrial Control Systems Training Course with EuroQuest International Training and gain the skills to secure OT and SCADA environments.
The Cybersecurity in Industrial Control Systems Training Courses in Singapore provide professionals with a specialized understanding of how to protect critical operational technologies from emerging cyber threats. Designed for control engineers, cybersecurity specialists, operations managers, IT/OT convergence teams, and industrial risk professionals, these programs focus on safeguarding industrial control systems (ICS), supervisory control and data acquisition (SCADA) networks, and other essential automation infrastructures that support modern industrial and energy operations.
Participants gain a strong foundation in ICS cybersecurity principles, including threat identification, vulnerability assessment, network segmentation, intrusion detection, and secure system architecture. The courses explore how cyberattacks can disrupt industrial processes, compromise safety systems, and impact organizational resilience. Through case studies and hands-on simulations, attendees learn to analyze attack scenarios, monitor system integrity, and apply mitigation strategies that reduce operational risk and enhance cyber readiness across complex industrial environments.
These industrial cybersecurity training programs in Singapore also highlight best practices for securing communication protocols, implementing incident response plans, and integrating cybersecurity measures into operational workflows. Participants examine emerging threats, advanced persistent threats (APTs), supply-chain vulnerabilities, and the importance of continuous monitoring and compliance in protecting critical infrastructure. The curriculum emphasizes collaboration between IT and OT teams, promoting coordinated defense strategies supported by modern digital tools, predictive analytics, and automated monitoring technologies.
Attending these training courses in Singapore offers professionals access to a global hub known for its innovation in industrial automation, strong cybersecurity ecosystem, and advanced technology infrastructure. The interactive learning environment allows participants to engage with international experts, gain exposure to cutting-edge practices, and apply cybersecurity frameworks to real-world industrial scenarios. Upon completion, participants are equipped with the technical knowledge, strategic insight, and practical skills needed to secure industrial control systems, enhance operational resilience, and support safe, reliable operations in today’s increasingly interconnected digital landscape.