Cybersecurity Systems Engineering
Cybersecurity systems engineering is a sector with a very high need for qualitied cybersecurity systems engineers.
That should be no surprise considering rampaging IoT massive connectivity and associated risks brought on by security issues of IoT devices.
Unfortunately, because of the specialized skills in the field of cybersecurity systems engineering and the serious increase in cyber-attacks, organizations have been unable to keep up with demand for cybersecurity systems engineers due to a lack of qualified applicants.
Many analysts contend that cybersecurity systems engineering has been overlooked, or underdeveloped, in addressing cybersecurity risks and vulnerabilities among industrial control systems and other Internet of Things networks and devices.
Job forecasters believe there will be a rampaging need for cybersecurity systems engineering specialists as technology evolves.
When systems were predominantly hardware-based, components were built to specification. Systems engineers defined and verified component functions and interfaces that together provided total system capability.
Today, system capability is largely supplied through software components and network connectivity. This increases the system’s flexibility and adaptability along with its cyber risk.
Cybersecurity is important for any organization that collects sensitive information.
Cybersecurity systems engineering has become a valuable vocation that covers cybersecurity, information assurance, and compliance design, integration, implementation, modification, and coordination of the installation, testing, operation, and disposition of hardware and software systems.
Cybersecurity systems engineers identify threats and vulnerabilities in computer systems and software. These professionals are experts who implement secure network solutions to protect organizations’ networks and data systems from hackers, cyberattacks and other forms of computer crime.
Cybersecurity systems engineers are typically involved in developing, assessing and initiating security systems and subsystems, and they may work with other IT professionals to modify or improve computer codes to address vulnerabilities.
In addition, cybersecurity systems engineers may work with other departments in an organization to ensure continuous network security. This allows them to address rising threats more quickly.
And other responsibilities:
- Penetration testing: Cybersecurity systems engineers often evaluate an organization’s computer networks, applications and data systems for vulnerabilities
- Network maintenance: Cybersecurity systems engineers may also install, test and configure networks
- IT system security: Cybersecurity systems engineers often spend time defining protocols and installing and configuring security devices
Cybersecurity Systems Engineering by Tonex
Tonex offers many courses in Cybersecurity Systems Engineering. Some of our more popular courses include:
Participants are provided with an interdisciplinary approach of system engineering in order to achieve a secure information system in cyber world.
This course covers system development and architecture of IoT devices, embedded systems analysis, design, development, verification and validation (V&V), trade-offs between software, firmware and hardware. Participants will also learn the foundation of IoT connectivity and cybersecurity.
This finely specialized course covers requirements for cybersecurity risk management regarding engineering for concept, analysis, development, production, operation, maintenance, and decommissioning for road vehicle electrical and electronic (E/E) systems, including their subsystems, components and interfaces.
With rampaging digitalization and increased cyber concerns, cybersecurity systems engineers are in tremendous demand. In fact, job specialists report that cybersecurity systems engineers have topped the list of five most in-demand cybersecurity jobs for the past three years running.
That’s not surprising when you consider that the cost of cybercrime has steadily risen from $3 trillion in 2015 to $6 trillion in 2021. By 2025, cybercrime is expected to cost the world $10.5 trillion.
Leaders in the industry have been unable to keep up with demand for cybersecurity systems engineers due to a lack of qualified applicants.
Like all Tonex courses, our world class instructors emphasize contemporary, relevant material in Cybersecurity Systems Engineering courses. They also bring real world experience into the classroom to help bring even more perspective to curriculums.
Need a course tailored to your particular needs? We do that also. Just let us know how we can help.
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Cybersecurity Systems Engineering