Secure Development Lifecycle for Connected Vehicles Essentials Training by Tonex
Connected vehicles are vulnerable to cyber threats due to their reliance on digital systems. This training provides a structured approach to securing the development lifecycle of connected vehicles. Participants learn risk assessment, threat modeling, and secure coding principles. The course covers regulatory compliance, security testing, and vulnerability management. Strong security practices reduce attack surfaces and enhance vehicle safety. Cybersecurity professionals play a critical role in safeguarding vehicle networks from exploitation. Understanding security risks in automotive development strengthens resilience against cyber threats.
Audience:
- Cybersecurity professionals
- Automotive engineers
- Software developers
- Compliance officers
- Security architects
- Risk management specialists
Learning Objectives:
- Understand secure development practices for connected vehicles
- Identify threats and vulnerabilities in automotive systems
- Apply risk assessment techniques in vehicle security
- Implement security controls in software development
- Ensure compliance with industry standards and regulations
Course Modules:
Module 1: Introduction to Secure Development for Connected Vehicles
- Overview of connected vehicle security challenges
- Importance of a secure development lifecycle
- Automotive cybersecurity regulations and frameworks
- Understanding attack surfaces in connected vehicles
- Role of cybersecurity professionals in vehicle security
- Best practices for securing vehicle software
Module 2: Threat Modeling and Risk Assessment
- Fundamentals of threat modeling in automotive security
- Identifying risks in connected vehicle components
- Risk assessment methodologies for automotive systems
- Prioritizing threats and vulnerabilities
- Applying mitigation strategies in development
- Case studies on automotive threat scenarios
Module 3: Secure Software Development for Vehicles
- Secure coding principles for automotive applications
- Implementing security in embedded systems
- Best practices for software supply chain security
- Common software vulnerabilities in vehicle systems
- Secure firmware and update management
- Preventing unauthorized access to vehicle software
Module 4: Security Testing in Vehicle Development
- Importance of security testing in automotive software
- Penetration testing techniques for connected vehicles
- Static and dynamic analysis for software security
- Identifying and fixing security flaws
- Security validation in automotive software lifecycle
- Case studies on security testing in vehicles
Module 5: Compliance and Regulatory Requirements
- Overview of automotive cybersecurity regulations
- ISO/SAE 21434 and its impact on development
- UNECE WP.29 cybersecurity requirements
- Ensuring compliance in vehicle software development
- Industry best practices for regulatory adherence
- Challenges in meeting compliance standards
Module 6: Incident Response and Vulnerability Management
- Developing an automotive cybersecurity incident response plan
- Detecting and responding to security breaches
- Managing vulnerabilities in vehicle software
- Security patching strategies for connected vehicles
- Coordinating with stakeholders during incidents
- Lessons learned from past automotive cyber incidents
Join Tonex’s Secure Development Lifecycle for Connected Vehicles Essentials Training to gain expertise in automotive cybersecurity. Strengthen your skills in threat modeling, secure coding, and regulatory compliance. Protect vehicle systems from evolving cyber threats. Enroll today!