Diploma in Approval and Integration of Exterior Lighting
About us Diploma in Approval and Integration of Exterior Lighting
The Diploma in Approval and Integration of Outdoor Lighting focuses on the design, implementation, and certification of outdoor lighting systems. It addresses the application of regulations and technical standards for energy efficiency, road safety, and environmental sustainability in urban, road, and architectural lighting projects. It focuses on the use of LED technologies, intelligent control, and remote management systems, integrating lighting simulation and analysis tools to optimize performance and reduce environmental impact.
The program provides practical knowledge in lighting project design, equipment and material selection, compliance with current regulations (e.g., EN 13201, CIE), and project management. The training equips professionals for system homologation, light quality verification, and the integration of lighting systems with other infrastructure. Participants will be able to work as lighting designers, energy consultants, homologation technicians, and lighting project managers, contributing to the creation of safer and more efficient environments.
Target keywords (naturally occurring in the text): outdoor lighting, homologation, energy efficiency, road safety, lighting design, regulations, LED, lighting simulation, project management.
Diploma in Approval and Integration of Exterior Lighting
- Format: Online
- Duration: 8 months
- Hours: 900 H
- Language: ES / EN
- Credits: 60 ECTS
- Registration date: 04-07-2026
- Strat date: 14-08-2026
- Available places: 9
1.750 $
Competencias y resultados
Qué aprenderás
1. Mastery of Homologation and Efficient Integration of Outdoor Lighting
- Understand and apply homologation standards for outdoor lighting systems, ensuring regulatory compliance and safety.
- Master the processes of integrating outdoor lighting, optimizing energy efficiency and aesthetic functionality.
- Identify and evaluate different types of luminaires and outdoor lighting technologies, including LED, halogen, and intelligent systems.
- Design and plan the installation of outdoor lighting systems, considering factors such as location, height, orientation, and environmental impact.
- Use software tools to simulate and analyze the performance of outdoor lighting, optimizing light distribution and minimizing light pollution.
- Apply project management techniques for the implementation of outdoor lighting systems, including planning, budgeting, and supervision.
- Conduct tests and evaluations of outdoor lighting systems, ensuring their correct operation and compliance with standards.
- Learn about the latest trends and advancements in outdoor lighting technology, including smart control systems, renewable energy, and sustainable design.
quality.
2. You will master the homologation, integration, and efficiency of outdoor lighting.
Here is the requested content:
2. You will master the Homologation, Integration, and Efficiency of Outdoor Lighting
- You will understand international regulations and standards for outdoor lighting.
- You will learn to evaluate the energy efficiency of different lighting systems.
- You will master the homologation process for lighting equipment, including testing and certifications.
- You will design the integration of lighting systems in urban and architectural environments, considering aesthetics and functionality.
- You will optimize the performance of outdoor lighting, reducing costs and improving visibility.
- You will learn about the latest LED lighting technologies and their applications in outdoor settings.
- You will analyze the factors that affect the lifespan and maintenance of lighting systems.
- You will implement strategies for lighting management and control, including intelligent systems.
- You will evaluate the environmental impact of lighting exterior, promoting sustainable practices.
You will apply simulation software for the design and analysis of lighting systems.
3. Comprehensive user-oriented design and validation (from modeling to manufacturing)
You will learn to integrate the entire product development process, from initial model conception to final validation, applying user-centered methodologies. You will develop skills in parametric design, ergonomics, simulation, sustainable materials, 3D visualization, and manufacturing management, ensuring efficient, safe solutions that meet current industry standards.
4. Excellence in the Homologation and Integration of Exterior Lighting Systems
- Master international regulations and standards for outdoor lighting systems, ensuring legal and technical compliance.
- Interpret and apply manufacturers’ and suppliers’ technical specifications for proper homologation.
- Evaluate and select lighting components, including lamps, lenses, reflectors, and housings, considering energy efficiency, durability, and performance.
- Understand the principles of optical design and photometry, optimizing light distribution and minimizing glare.
- Analyze different types of outdoor lighting systems and their specific applications: road lighting, signage, architectural environments, etc.
- Manage the homologation process, including document preparation, laboratory testing, and coordination with regulatory bodies.
- Identify and resolve technical problems related to the integration of lighting systems in different environments and structures.
- Implement strategies for system integration
- Integrate lighting systems with other systems, such as energy management and remote control systems.
- Apply simulation and modeling techniques to evaluate the performance of lighting systems before implementation.
- Understand the latest trends in lighting technology, such as LED lighting, smart lighting, and the Internet of Things (IoT).
5. Expert in the Homologation and Advanced Integration of Outdoor Lighting
- You will master the key international regulations and standards for the homologation of outdoor lighting systems.
- You will understand the technical and legal requirements necessary for the certification of lighting projects in various contexts (road, urban, industrial, etc.).
- You will learn to evaluate and select the most efficient and sustainable lighting technologies, including LEDs, smart systems, and control solutions.
- You will specialize in the integration of outdoor lighting systems with other infrastructure, such as power grids, communication systems, and security systems.
- You will develop skills for the design and planning of lighting projects, including luminance calculations, simulation, and resource optimization.
- You will gain experience in the management of lighting projects, from the design phase to installation and maintenance.
- You will learn about the latest trends in outdoor lighting, such as people-centered lighting (HCL) and smart lighting.
- You will be trained to perform inspections and quality tests on outdoor lighting systems, ensuring their performance and safety.
- You will gain knowledge about optimizing energy consumption and reducing the environmental impact of lighting systems.
- You will learn to identify and resolve technical problems related to outdoor lighting, including system failures and regulatory compliance.
6. Comprehensive Analysis and Application of Homologation in Outdoor Lighting
You will learn to integrate the entire product development process, from initial model conception to final validation, applying user-centered methodologies. You will develop skills in parametric design, ergonomics, simulation, sustainable materials, 3D visualization, and manufacturing management, ensuring efficient, safe solutions that meet current industry standards.
Para quien va dirigido nuestro:
Diploma in Approval and Integration of Exterior Lighting
- Graduates in Aerospace Engineering, Mechanical Engineering, Industrial Engineering, Automation Engineering, or related fields.
- Professionals from OEM rotorcraft/eVTOL, MRO, consulting, technology centers.
- Flight Testing, certification, avionics, control, and dynamics seeking specialization.
- Regulators/authorities and UAM/eVTOL professionals requiring compliance skills.
Recommended qualifications: foundation in aerodynamics, control, and structures; ES/EN B2+/C1. We offer bridging tracks if needed.
- Standards-driven curriculum: you will work with CS-27/CS-29, DO-160, DO-178C/DO-254, ARP4754A/ARP4761, ADS-33E-PRF from the first module.
- Accreditable laboratories (EN ISO/IEC 17025) with rotor bench, EMC/Lightning pre-compliance, HIL/SIL, vibrations/acoustics.
- Evidence-oriented TFM: safety case, test plan, compliance dossierand operational limits.
- Mentored by industry: teachers with experience in rotorcraft, tiltrotor, eVTOL/UAM and flight test.
- Flexible modality (hybrid/online), international cohorts and support from SEIUM Career Services.
- Ethics and security: safety-by-design approach, cyber-OT, DIH and compliance as pillars.
1.1 International Standards and Regulations for Outdoor Lighting
1.2 Types of Approval: Certifications and Quality Seals
1.3 Specific Legislation: Local and Regional Regulations
1.4 Components of an Outdoor Lighting System: Analysis and Selection
1.5 Principles of Lighting Design: Distribution, Intensity, and Efficiency
1.6 Environmental Factors: Impact of the Environment on Approval
1.7 Technical Documentation: Manuals, Technical Data Sheets, and Certificates
1.8 Approval Process: Steps, Tests, and Verifications
1.9 Interpretation of Results: Data Evaluation and Analysis
1.10 Introduction to Systems Integration: Basic Concepts
1.10
2.2 International and national regulations on outdoor lighting
2.2 Regulatory bodies and their functions
2.3 Approval process: steps and requirements
2.4 Documentation required for approval
2.5 Interpretation of standards and regulations
2.6 Impact of legislation on design and installation
2.7 Updating and modification of regulations
2.8 Penalties for non-compliance with regulations
2.9 Case studies: analysis of real-world examples
2.20 Specific legislation by type of lighting installation
3.3 Design Fundamentals and Types of Outdoor Lighting
3.2 International and Local Standards for Outdoor Lighting
3.3 Lighting Calculations and Design Software
3.4 Energy Efficiency and Sustainability in Outdoor Lighting
3.5 Selection of Luminaires and Light Sources
3.6 Lighting Control and Management Systems
3.7 Integration of Outdoor Lighting with the Environment
3.8 Certification of Lighting Products and Systems
3.9 Implementation and Verification of Outdoor Lighting Projects
3.30 Case Studies and Current Trends in Outdoor Lighting
4.4 Fundamentals of Outdoor Lighting: Regulations and Standards
4.2 Selection and Specification of Luminaires: Types and Technologies
4.3 Lighting System Design: Calculations and Simulations
4.4 System Integration: Wiring, Mounting, and Connections
4.5 Control and Automation: Sensors, Dimming, and Programming
4.6 Energy Efficiency and Sustainability: Low-Consumption Design
4.7 Aesthetic and Functional Aspects: User-Centered Design
4.8 Project Management: Planning and Execution of Installations
4.9 Inspection and Maintenance: Protocols and Best Practices
4.40 Case Studies: Real-World Applications and Innovative Solutions
5.5 Fundamentals of Light and Visual Perception
5.5 ​​Units of Measurement and Key Concepts in Lighting
5.3 Types of Light Sources and Their Characteristics
5.4 International and Local Regulations on Outdoor Lighting
5.5 Energy Efficiency and Sustainable Lighting Standards
5.6 Environmental Impact of Outdoor Lighting: Light Pollution
5.7 Lighting Design and Planning: General Considerations
5.8 Software and Tools for Lighting Design
5.9 Introduction to Lighting System Certification
5.50 Legislation and Legal Requirements for Outdoor Lighting
6.6 Fundamentals of Lighting Certification: Regulations and Standards
6.2 Identification and Analysis of Certification Requirements
6.3 Evaluation and Selection of Lighting Technologies
6.4 Design and Planning of Certified Lighting Systems
6.5 Integration of Lighting Systems: Technical and Practical Aspects
6.6 Verification and Validation of Certification
6.7 Documentation and Regulatory Compliance
6.8 Case Studies: Analysis of Successful Projects
6.9 Risk Analysis and Solutions
6.60 Future Trends and Adaptation to New Regulations
6.7
7.7 Fundamentals of Light: Nature and Properties.
7.2 Photometric Quantities and Units: Flux, Intensity, Illuminance, Luminance.
7.3 Lighting Design Principles: Aesthetic and Functional Considerations.
7.4 International Lighting Standards: CIE, IES, ISO.
7.7 National and Local Regulations: Adaptation and Compliance.
7.6 Energy Efficiency in Lighting: Concepts and Metrics.
7.7 Environmental Impact of Lighting: Light Pollution.
7.8 Selection of Light Sources: Types and Characteristics.
7.9 Exterior Lighting Design: Special Considerations.
7.70 Case Study: Analysis of an Exterior Lighting Project.
8.8 Regulatory and Legislative Framework for Outdoor Lighting
8.8 Specific Approval Requirements by Installation Type
8.3 Selection of Light Sources and Their Impact on Approval
8.4 Lighting System Design: Integration and Energy Efficiency
8.5 Simulation and Calculation Tools for Approval
8.6 Certification and Validation Processes for Lighting Systems
8.7 Lighting Project Management: Implementation Strategies
8.8 Audits and Maintenance of Approved Systems
8.9 Innovation and Trends in Lighting Approval
8.0 Case Studies: Analysis of Successful Projects and Challenges
9.9 Regulations and Approval Standards for Outdoor Lighting
9.9 Selection of Light Sources and Energy Efficiency
9.3 Design of Control and Automation Systems
9.4 Integration of Smart Technologies and Connectivity
9.5 Analysis of Light Distribution and 3D Modeling
9.6 Environmental Impact Assessment and Sustainability
9.7 Implementation of Energy-Efficient Lighting Solutions
9.8 Application of Safety and Visual Comfort Regulations
9.9 Case Studies: Design and Optimization of Real-World Projects
9.90 Future Trends in Approval and Integration of Outdoor Lighting
1.1 Key Concepts in Outdoor Lighting Certification
1.2 International Standards and Regulations
1.3 Selection and Design of Light Sources
1.4 Integration of Control and Management Systems
1.5 Energy Efficiency and Sustainability
1.6 Lighting Design and Light Distribution
1.7 Practical Applications: Design and Calculation
1.8 Project Evaluation and Validation
1.9 Safety and Accessibility Considerations
1.10 Case Study: Successful Implementation
1.10
- Hands-on methodology: test-before-you-trust, design reviews, failure analysis, compliance evidence.
- Software (depending on licenses/partners): MATLAB/Simulink, Python (NumPy/SciPy), OpenVSP, SU2/OpenFOAM, Nastran/Abaqus, AMESim/Modelica, acoustics tools, planning toolchains DO-178C.
- SEIUM Laboratories: scale rotor bench, vibrations/acoustics, EMC/Lightning pre-compliance, HIL/SIL for AFCS, data acquisition with strain gauging.
- Standards and compliance: EN 9100, 17025, ISO 27001, GDPR.
Proyectos tipo capstones
Admisiones, tasas y becas
- Profile: Background in Computer Engineering, Mathematics, Statistics, or related fields; practical experience in NLP and valued information retrieval systems.
- Documentation: Updated CV, academic transcript, SOP/statement of purpose, project examples or code (optional).
- Process: Application → Technical evaluation of profile and experience → Technical interview → Review of case studies → Final decision → Enrollment.
- Fees:
- Single payment: 10% discount.
- Payment in 3 installments: No fees; 30% upon registration + 2 equal monthly payments of the remaining 35%.
Monthly payment: available with a 7% commission on the total; annual review.
Scholarships: based on academic merit, financial need, and promoting inclusion; agreements with companies in the sector for partial or full scholarships.
See “Calendar & Calls for Applications,” “Scholarships & Grants,” and “Fees & Financing” in the SEIUM mega-menu.
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