Diploma in Risk Assessment and Preventive Culture
Sobre nuestro Diploma in Risk Assessment and Preventive Culture
The Diploma in Risk Assessment and Preventive Culture delves into the identification, analysis, and management of risks in diverse work environments, promoting a strong preventive culture. It addresses the implementation of occupational health and safety management systems (OHSMS), including the assessment of psychosocial risks and the application of tools such as fault tree analysis (FTA) and hazard and operability analysis (HAZOP). It focuses on current legislation, accident investigation, and the development of emergency plans, integrating safety training methodologies and the promotion of safe behaviors.
The program trains participants in the design of preventive measures, the management of occupational risk prevention (ORP), the supervision of workplace safety, and the development of a proactive safety culture. It promotes worker participation, effective communication, and continuous improvement of safety processes, preparing professionals for roles such as occupational risk prevention technicians, safety auditors, health and safety coordinators, and OHSMS managers, with a focus on reducing accidents and occupational illnesses. Target keywords (natural occurrences in the text): risk assessment, preventive culture, workplace safety, occupational risk prevention, OHSMS, risk analysis, accident investigation, occupational health, safety diploma.
Diploma in Risk Assessment and Preventive Culture
- Modalidad: Online
- Duración: 8 meses
- Horas: 900 H
- Idioma: ES / EN
- Créditos: 60 ECTS
- Fecha de matrÃcula: 30-04-2026
- Fecha de inicio: 10-06-2026
- Plazas disponibles: 11
899 $
Competencias y resultados
Qué aprenderás
1. Comprehensive Risk Analysis and Management in Naval Environments: Prevention and Culture
- Identify and assess the specific risks inherent in naval operations, including operational, environmental, and safety risks.
- Apply risk analysis methodologies, such as HAZOP, FMEA, and fault tree analysis, to identify potential hazards and their consequences.
- Develop and implement comprehensive risk management plans, including prevention, mitigation, and emergency response measures.
- Foster a proactive safety culture within naval organizations, promoting awareness, accountability, and active participation of all personnel.
- Understand the relevant international regulatory frameworks and standards for risk management in the naval sector, such as SOLAS and the ISM Code.
- Utilize modern tools and technologies for risk management, including risk analysis software, geographic information systems (GIS), and simulations.
2. In-depth Maritime Risk Assessment: Strategies, Prevention, and Safety Culture
2. In-depth Maritime Risk Assessment: Strategies, Prevention, and Safety Culture
- Identify and assess the risks inherent in maritime operations, including environmental, technical, and human factors.
- Apply risk assessment methodologies, such as HAZID (Hazard Identification), HAZOP (Hazard and Operability Study), and FMEA (Failure Mode and Effects Analysis), to identify hazards and vulnerabilities.
- Develop risk prevention strategies based on operational safety management, including the implementation of safety barriers, safe work procedures, and safety management systems.
- Analyze the root causes of maritime incidents using accident investigation and failure analysis techniques.
- Understand the importance of a safety culture in the maritime environment and how to promote a positive and proactive safety culture through leadership, communication, and training.
- Assess and manage the risks associated with loading and unloading dangerous goods.
- Analyze the risks associated with navigation in congested waters and adverse weather conditions.
- Apply the principles of the International Convention for the Safety of Life at Sea (SOLAS) and other relevant international instruments.
- Develop maritime emergency response plans, including evacuation, firefighting, and damage control procedures.
- Implement continuous safety improvement programs and monitor and evaluate the effectiveness of risk prevention measures.
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. Diploma in Maritime Risk Assessment: Implementation of a Preventive Culture
4. **Diploma in Maritime Risk Assessment: Implementing a Preventive Culture**
* Identify and assess the risks inherent in maritime operations, including human, technical, and environmental factors.
* Analyze international maritime regulations and standards (IMO, SOLAS, MARPOL) and their application in risk management.
* Develop and apply risk assessment methodologies, such as HAZID, HAZOP, FMEA, and Bow-Tie.
* Implement Safety Management Systems (SMS) and a preventive culture in maritime organizations.
* Manage maritime incidents and accidents, including root cause analysis and corrective actions.
* Develop contingency and emergency response plans to mitigate risks and protect lives, property, and the marine environment.
* Utilize data analysis tools and technology for maritime risk assessment and management.
* Foster effective communication and collaboration among the various stakeholders involved in maritime operations. * Apply leadership and management principles to promote a proactive and sustainable safety culture.
* Analyze practical cases and case studies of maritime incidents to understand lessons learned and improve risk prevention.
5. Diploma in Risk Assessment and Naval Preventive Culture: Analysis, Modeling, and Prevention
Here is the requested content:
- Identify and assess the specific risks associated with naval operations, including environmental hazards, navigational risks, and security threats.
- Understand the principles of a preventative culture in naval environments, promoting a safety mindset at all levels of the organization.
- Apply risk analysis methodologies, such as HAZOP, FMEA, and fault tree analysis, to identify and quantify potential hazards.
- Develop risk assessment models using advanced tools and techniques, considering factors such as probability, severity, and vulnerability.
- Design and implement risk prevention strategies, including control measures, safety procedures, and emergency response plans.
- Analyze the root causes of naval incidents and accidents, using investigation and analysis techniques to identify lessons learned.
- Evaluate the effectiveness of risk prevention measures implemented, using key performance indicators (KPIs) and conducting safety audits.
Apply the knowledge acquired in risk assessment and the preventive culture to decision-making, operations planning, and naval project management.
6. Diploma in Naval Risks: Assessment, Preventive Culture, and Mitigation Strategies
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 Risk Assessment and Preventive Culture
- Marine industry professionals, including Navy officers and non-commissioned officers, as well as civilian personnel with responsibilities in maritime safety and operations.
- Naval, mechanical, electrical, and other technical professionals who wish to expand their knowledge of risk assessment applied to the maritime sector.
- Maritime safety experts, auditors, and consultants seeking to specialize in preventative culture and risk management in the naval environment.
- Personnel from shipping companies, shipyards, ports, and other organizations related to the maritime sector, interested in improving their safety practices and regulatory compliance.
- 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 Fundamentals of Maritime Safety and Risk Management
1.2 Legal and Regulatory Framework in the Shipbuilding Industry
1.3 Identification of Hazards and Threats in the Naval Environment
1.4 Introduction to Risk Assessment Methodology
1.5 Principles of a Preventive Safety Culture
1.6 Importance of Accident and Incident Prevention
1.7 Introduction to Safety Management Systems (SMS)
1.8 Basic Risk Assessment Tools and Techniques
1.9 Practical Examples and Case Studies
1.10 Role of Personnel in Naval Risk Management
1.10
2.2 Hazard Identification in Naval Environments: Initial Analysis
2.2 Risk Assessment Methodologies: Selection and Application
2.3 Data Sources for Assessment: Collection and Analysis
2.4 Qualitative Risk Analysis: Identification and Prioritization
2.5 Quantitative Risk Analysis: Modeling and Simulation
2.6 Risk Matrices: Creation and Use
2.7 Human Factors in Risk Assessment: Analysis and Mitigation
2.8 Specific Risks in Naval Operations: Identification and Assessment
2.9 Emergency Response Planning: Development and Testing
2.20 Risk Documentation and Registration: Maintenance and Updating
3.3 Introduction to Naval Risk Assessment: Definitions and Key Concepts
3.2 Types of Risks in the Maritime Sector: Classification and Examples
3.3 Importance of Risk Assessment: Benefits and Objectives
3.4 International Regulatory Framework: Relevant Conventions and Codes
3.5 Roles and Responsibilities in Naval Risk Management
3.6 The Risk Assessment Process: Stages and Methodology
3.7 Basic Risk Assessment Tools and Techniques
3.8 Case Studies: Practical Examples of Risk Assessment
2.3 Hazard Identification: Methodologies and Techniques
2.2 Sources of Hazards in the Naval Environment: Human, Technical, and Environmental Factors
2.3 Risk Analysis: Determining Probability and Severity
2.4 Risk Matrices: Application and Interpretation
2.5 Root Cause Analysis: Identifying the Underlying Causes of Incidents
2.6 Fault Tree Analysis (FTA) and Decision Tree Analysis (ETA)
2.7 Operational Risk Analysis: Procedures and Protocols
2.8 Case Studies: Analysis of Naval Incidents and Accidents
3.3 Risk Assessment Models: Types and Applications
3.2 Quantitative Risk Analysis: Statistical Methods
3.3 Consequence Analysis: Loss and Damage Estimation
3.4 Event Modeling: Simulation and Scenario Prediction
3.5 Risk Assessment Software: Tools and Functionalities
3.6 Cost-Benefit Analysis in Risk Management
3.7 Key Performance Indicators (KPIs) in Risk Assessment
3.8 Case Studies: Application of Models and Quantitative Analysis
4.3 Prevention Strategies: Proactive Measures
4.2 Mitigation Strategies: Reactive Measures
4.3 Engineering Controls: System Design and Modification
4.4 Administrative Controls: Procedures and Training
4.5 Personal Protective Equipment (PPE)
4.6 Contingency Plans: Emergency Response
4.7 Recovery Plans: Restoring Normalcy
4.8 Case Studies: Implementing Prevention and Mitigation Strategies
5.3 Concept of a Preventive Culture: Key Elements
5.2 The Role of Leadership in Promoting a Preventive Culture
5.3 Effective Communication in Safety Management
5.4 Staff Training and Development
5.5 Worker Participation in Risk Management
5.6 Evaluation and Continuous Improvement of a Preventive Culture
5.7 Performance Indicators for a Preventive Culture
5.8 Case Studies: Implementing a Preventive Culture
6.3 Integrated Risk Management: A Systematic Approach
6.2 Risk Management Planning: Objectives and Scope
6.3 Risk Management Implementation: Execution and Control
6.4 Risk Management Monitoring and Evaluation
6.5 Safety Audits: Types and Frequency
6.6 Incident and Accident Management: Investigation and Analysis
6.7 Continuous Improvement: PDCA Cycle (Plan, Do, Check, Act)
6.8 Case Studies: Implementation of Integrated Risk Management
7.3 International Legal Framework: IMO Conventions and Codes
7.2 National Legal Framework: Legislation and Regulations
7.3 Technical Standards and Maritime Safety Standards
7.4 Legal Liability in the Event of Incidents and Accidents
7.5 Maritime Accident Investigation: Procedures and Standards
7.6 Regulatory Compliance: Audits and Inspections
7.7 Trends in Maritime Safety Regulation
7.8 Case Studies: Compliance Analysis Regulatory Framework
8.3 Structure of a Naval Risk Management Plan
8.2 Hazard Identification and Risk Assessment
8.3 Development of Prevention and Mitigation Strategies
8.4 Establishment of Controls and Procedures
8.5 Assignment of Responsibilities and Resources
8.6 Implementation of the Risk Management Plan
8.7 Monitoring and Evaluation of the Risk Management Plan
8.8 Review and Updating of the Risk Management Plan
8.8 Review and Updating of the Risk Management Plan
4.4 Introduction to Risk Management in the Naval Sector
4.2 Definition and Types of Risks in Maritime Environments
4.3 International and National Regulatory Framework
4.4 Principles of Naval Safety Culture
4.5 Hazard Identification and Preliminary Risk Assessment
4.6 Human Factors in Maritime Safety
4.7 First Steps in Risk Prevention
4.8 Importance of Communication and Collaboration
4.9 Case Studies: Naval Incidents and Accidents
4.40 Introduction to Safety Standards and Regulations
5.5 Fundamental Principles of Naval Preventive Culture
5.5 Identifying Human Factors and Their Impact on Safety
5.3 Designing and Implementing Awareness Programs
5.4 Naval Safety Training
5.5 Fostering Open Communication and Feedback
5.6 Leadership and Commitment to Preventive Culture
5.7 Developing Safety Policies and Procedures
5.8 Evaluating and Measuring the Effectiveness of Preventive Culture
5.9 Integrating Preventive Culture into Risk Management
5.50 Case Studies and Best Practices in Naval Preventive Culture
6.6 Fundamentals of Risk Mitigation: Identification and Classification
6.2 Risk Assessment: Methodologies and Tools
6.3 Prevention Strategies: Safety Barriers and Controls
6.4 Naval Emergency Response Planning
6.5 Crisis Management: Communication and Coordination
6.6 Recovery and Business Continuity
6.7 Safety Culture: Fostering and Maintaining
6.8 Incident Analysis: Investigation and Lessons Learned
6.9 Relevant Maritime Legislation and Regulations
6.60 Advanced Mitigation Strategies: Practical Examples
6.60
7.7 Foundations of a Preventive Culture in Naval Environments
7.2 Strategies for Promoting Safety on Board
7.3 Leadership and Commitment to Risk Prevention
7.4 Design and Implementation of Effective Safety Programs
7.7 Training and Development of Personnel in Maritime Safety
7.6 Communication and Dissemination of a Preventive Culture
7.7 Evaluation and Monitoring of Safety Performance
7.8 Incident Management and Lessons Learned
7.9 Creating a Safe and Healthy Work Environment
7.70 Integrating a Preventive Culture into Naval Risk Management
8.8 Fundamentals of Strategic Naval Risk Management: Introduction and Scope
8.8 Hazard Identification and Analysis in the Naval Environment: Methodologies and Tools
8.3 Naval Risk Assessment: Quantitative and Qualitative Analysis
8.4 Development of Risk Mitigation Strategies: Action Plans and Controls
8.5 Implementation and Monitoring of Risk Management: Procedures and Monitoring
8.6 Preventive Safety Culture: Promotion and Development
8.7 Maritime Legislation and Regulations: Compliance and Updating
8.8 Crisis Management and Emergency Response: Plans and Protocols
8.9 Incident Analysis and Lessons Learned: Continuous Improvement
8.0 Leadership in Naval Risk Management: Responsibilities and Commitment
9. Introduction to Maritime Safety and Risk Management
9. Legal and Regulatory Framework in the Naval Industry
3. Hazard Identification in Naval Environments
4. Risk Analysis: Methodologies and Tools
5. Human Factors and Their Impact on Maritime Safety
6. Principles of a Preventive Safety Culture
7. Introduction to Risk Prevention in the Naval Sector
8. First Aid and Response to Maritime Emergencies
9. Introduction to Maritime Incident Investigation
90. Importance of Effective Communication in Naval Safety
1.1 Hazard Identification and Assessment in the Naval Environment
1.2 Risk Analysis: Methodologies and Tools
1.3 Implementation of Controls and Preventive Measures
1.4 Development of a Naval Safety Culture
1.5 Effective Risk Communication and Personnel Training
1.6 Incident Analysis and Lessons Learned
1.7 Development of Contingency and Emergency Response Plans
1.8 Key Performance Indicators (KPIs) in Naval Safety
1.9 Safety Leadership and Promotion of a Preventive Culture
1.10 Final Project: Creation of a Naval Safety Culture Implementation Plan
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.
¿Tienes dudas?
Nuestro equipo está listo para ayudarte. Contáctanos y te responderemos lo antes posible.