Aviation Cybersecurity Airworthiness Certification, Learn About The New And Mandatory Aviation Cybersecurity Regulation And standards

Aviation Cybersecurity Airworthiness Certification, Learn About The New And Mandatory Aviation Cybersecurity Regulation And standards

Aviation cybersecurity is a key priority for airlines and the entire industry. Increasing levels of digitization and connectivity are particularly helpful in transforming customer experience, aviation operations, service provider delivery, and the approach to regulatory frameworks.

However, this not only brings many advantages, but also brings risks related to the challenges of finding and managing network vulnerabilities in complex international operations such as airports, aircraft operators, air navigation service providers, and supply chains. This complexity makes the aviation sector interdependent on a global scale and vulnerable to hidden dangers and growing threats.

With the widespread adoption of emerging technologies such as machine learning and 5G telecommunications-as well as vertical electric take-off and landing (eVTOL) and autonomous aircraft-aviation cybersecurity risk management has become increasingly complex.

It can be expected that, like today, adversaries will continue to work hard to exploit loopholes in the system for financial gain, reputation and aviation disruption. Nevertheless, the threat of terrorism-related cyber attacks in the aviation industry is assessed as low. With the rapid expansion of the attack surface, continuous improvement and development measures are needed to strategically protect the industry from new threats.

Approximately all industries are concerned about cybersecurity vulnerabilities, but in the aviation industry, there are critical life safety issues. If successful, a cyber attack could kill countless people-causing a complete disaster.

Some of the major cyber threats facing the aviation industry include plane crashes. This can happen in a variety of ways, such as causing damage to living systems, or destroying information and changing data, which can cause pilots to make wrong decisions. Cybercriminals can also destroy information, causing false statements and forcing pilots to land the plane.

People are paying great attention to the industry’s Automatic Dependent Surveillance Broadcast (ADS-B) system, which is a modern preferred surveillance technology, in which the aircraft determines its position through satellite navigation and broadcasts it regularly, so that air traffic controllers can also Track it as a cyber criminal.

The Department of Defense is particularly concerned about the known cybersecurity risks that have become mandatory aircraft tracking systems.

One of the main defensive weapons against cyber security attacks is artificial intelligence. With AI, the system will be able to learn patterns and identify deviations in the way traditional systems or analysts dream of.

The use of encryption will also continue to be critical to the aviation industry to help protect air traffic control and flight traffic management system information as well as customer and employee information, which may include payment cards, national ID cards, passport numbers, bank accounts, and others Personally identifiable information (PII) and privacy.

As we enter a new era of aircraft sensors and processors, they will continue to input data throughout the aviation ecosystem, including connectivity, operations and predictive maintenance. Big data and predictive analytics will also play an important role.

Tonex provides "Aviation Cyber Security Airworthiness Certification, Cyber ​​Security Courses", introducing the best practices of the aviation industry to cyber security risk assessment, analysis, development, mitigation and assurance

Takeaways from this course include:

• The “DO-326/ED-202 Set” compliance, risks and costs
• Analyzing cyber-security levels for the development, deployment & in-service phases
• Aircraft security aspects of safety, systems-approach to security, security planning, the airworthiness security process, and security effectiveness assurance
• Aviation avionics software development
• Safety-oriented development process including the SAE standards ARP-4761 for Safety & ARP-4754A for Systems Development
• Software & Hardware development standards DO-178C & DO-254
• DO-356A/ED-203A: “Airworthiness Security Methods and Considerations”
• DO-355/ED-204: “Information Security Guidance for Continuing Airworthiness” (U.S. & Europe) and ED-201: “Aeronautical Information System Security (AISS) Framework Guidance”
• ED-205: “Process Standard for Security Certification / Declaration of Air Traffic Management / Air Navigation Services (ATM/ANS) Ground Systems” (Europe only)

Course Outline:

• The Airworthiness Security Process
• FAA and EASA Civil Aviation Certification
• FAA and EASA Airworthiness Security Certification
• Aviation Cybersecurity Principles
• The Airworthiness Security Process Steps, Activities & Objectives
• Cybersecurity and Safety Practices for Aircraft and Aircraft Systems
• Aeronautical Information System Security Design, Development, and Operation
• Workshop and Group Activities

In addition, Tonex offers nearly 3 dozen courses in the Cybersecurity Foundation. This includes cutting-edge courses such as:

• Cybersecurity Fundamentals
• Electric Grid Cybersecurity Master Certification
• Network Security Training
• Software Security Training
• ICS Cybersecurity Training

Learn More: 

Aviation Cybersecurity Airworthiness Certification