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Course: 2025/2026

Cybersecurity in Robotics

(19114)

Bachelor in Robotics Engineering (Plan: 478 - Estudio: 381)

Coordinating teacher: MOURE GARRIDO, MARTA

Department assigned to the subject: Telematic Engineering Department

Type: Compulsory

ECTS Credits: 3.0 ECTS

Course: 4º

Semester: 1º

Objectives

· Knowledge and understanding of the concepts of network architecture, protocols and communications interfaces. · The ability to use communication applications to support development and utilization of telecommunication networks, services, and applications in robotics. · The ability to conceive, develop, organize, and manage telecommunication networks, systems, services and infrastructures in industrial contexts and robotics applications. · Knowledge and understanding of the techniques on which telematics networks, services and applications are based for security and content protection. · Ability to apply standards in communication applications in industrial contexts and robotics. COMPETENCES AND LEARNING OUTCOMES: Link to document

Description of contents: programme

1. Requirements and design of Secure Software 2. Requirements and design of secure networks 3. Symmetric and asymmetric encryption 4. Security Level 3, IPSec 5. TLS 6. SSL virtual private networks 7. IEEE 802.11 family security 8. Security of industrial control systems 9. Risk analysis

Learning activities and methodology

THEORETICAL PRACTICAL CLASSES. Knowledge and concepts students must acquire. Receive course notes and will have basic reference texts. Students partake in exercises to resolve practical problems. TUTORING SESSIONS. Individualized attendance (individual tutoring) or in-group (group tutoring) for students with a teacher. STUDENT INDIVIDUAL WORK OR GROUP WORK. WORKSHOPS AND LABORATORY SESSIONS.

Assessment System

% end-of-term-examination/test 30
% of continuous assessment (assigments, laboratory, practicals...) 70

Calendar of Continuous assessment

FINAL EXAM (30%)
- The exam will assess the students overall knowledge, skills, and competencies acquired throughout the course.
- A minimum score of 4 out of 10 on the final exam is required in order to pass the course.

CONTINUOUS EVALUATION (70%)
- Lab work and practical exercises: Assessment will be based on the completion and quality of exercises and activities carried out during lab sessions.

If the student does not follow the continuous assessment process, the final exam will count for 60% in the ordinary call and 100% in the extraordinary call.

Extraordinary call: regulations

Basic Bibliography

Charlie Kaufman, Radia Perlman, Mike Speciner, Ray Perlner. Network Security: Private Communication in a Public World. Pearson Education. 2022
William Stallings. Cryptography and Network Security: Principles and Practice. Pearson. 2023
William Stallings. Network Security Essentials: Applications and Standards. Pearson. 2017

Additional Bibliography

Eric Chou. Mastering Python Networking: Utilize Python Packages and Frameworks for Network Automation, Monitoring, Cloud, and Management. Packt Publishing. 2023
Pascal Ackerman. Industrial Cybersecurity - Second Edition. Packt Publishing. 2021
Seth James Nielson, Christopher K. Monson. Practical Cryptography in Python: Learning Correct Cryptography by Example. Apress. 2019

The course syllabus may change due academic events or other reasons.