Diploma in CDE, Data Governance and BIM Traceability

2.2 Introduction to CDE and its importance in naval projects
2.2 Principles of Data Governance: organization and management
2.3 Structure and standards for CDE in the naval sector
2.4 Document management and version control
2.5 Data security and protection in CDE
2.6 CDE tools and platforms for the naval industry
2.7 Introduction to BIM and its relationship with CDE
2.8 Benefits of integrating CDE and Data Governance

2.2 Introduction to BIM in shipbuilding
2.2 3D modeling and BIM model creation
2.3 Data integration in BIM models
2.4 Collaborative design and coordination in naval projects
2.5 Analysis and simulation in BIM models
2.6 Conflict detection and design optimization
2.7 BIM applications in the different project phases
2.8 BIM and its impact on naval efficiency and productivity

3.2 Traceability concepts in shipbuilding
3.2 Implementation of traceability in CDE and BIM
3.3 Naval Asset Lifecycle Management
3.4 Process Optimization and Cost Reduction
3.5 Data Analysis for Continuous Improvement
3.6 Integrating Traceability into Project Management
3.7 Use of Technologies for Traceability: RFID, QR Codes
3.8 Naval Optimization Case Studies

4.2 Advanced Strategies for CDE Implementation
4.2 Integrating BIM with Project Management Systems
4.3 Change Management and Advanced Version Control
4.4 Risk Analysis and Mitigation in Naval Projects
4.5 BIM and its Application in Modular Naval Construction
4.6 Simulation and Optimization of the Construction Process
4.7 Integration of Maintenance and Operation Data
4.8 Collaboration and Communication Strategies in Projects

5.2 Advanced Naval Project Management Methodologies
5.2 Integrating CDE, Data Governance, and BIM
5.3 Leadership and Team Management in Naval Projects
5.4 Risk Management and Control Quality
5.5 Data Analysis and Data-Driven Decision Making
5.6 Innovation Strategies and Process Optimization
5.7 Naval Asset Lifecycle Management
5.8 Successful Case Studies in Naval BIM and CDE Management

6.2 Fundamentals of Traceability in Shipbuilding
6.2 Integrating Traceability into the Project Lifecycle
6.3 Implementing Tools and Technologies for Traceability
6.4 Information and Knowledge Management in Naval Projects
6.5 Traceability Auditing and Control
6.6 Continuous Improvement and Process Optimization
6.7 Naval Supply Chain Management
6.8 Practical Cases of Traceability Implementation

7.2 BIM Applications in the Design and Construction Phases
7.2 Parametric Modeling and Generative Design
7.3 Multidisciplinary Coordination and Clash Detection
7.4 Optimizing the Construction Process
7.5 Integrating Construction and Operation Information
7.6 BIM and Sustainability in Construction Naval
7.7 Case Studies in Shipbuilding
7.8 BIM Project Management

8.2 Planning and Implementation of CDE and BIM
8.2 Data Structure and Workflow Design
8.3 Systems and Platform Integration
8.4 Staff Training and Development
8.5 Change Management and Resistance to Change
8.6 Progress Monitoring and Control
8.7 Best Practices and Lessons Learned
8.8 Implementing Traceability in the Naval Industry

8.2

3.3 CDE Fundamentals: Understanding the Common Data Environment in Naval Projects
3.2 Data Governance: Key Principles for Managing and Controlling Naval Information
3.3 BIM in Shipbuilding: Applications and Benefits of Information Modeling
3.4 CDE and BIM Integration: Optimized Workflows for Naval Projects
3.5 BIM Traceability: Tracking and Controlling Information Throughout the Project Lifecycle
3.6 Data Quality: Ensuring Information Accuracy and Reliability
3.7 Change Management: Controlling Modifications and Updates in Naval Projects
3.8 Collaboration: Tools and Strategies for Effective Communication in Projects
3.9 Process Optimization: Improving Efficiency through the Integration of CDE, Data, and BIM
3.30 Case Studies: Successful Applications of CDE, Data, and BIM in Naval Projects

4.4 Strategic Framework for the Implementation of CDE, Data Governance, and BIM
4.2 Assessment of the Specific Needs of the Naval Project
4.3 Development of a Detailed Implementation Plan
4.4 Integration of CDE with Existing Systems and Workflows
4.5 Data Governance Strategies for Naval Information Management
4.6 Application of BIM for Traceability in Shipbuilding
4.7 Design and Configuration of the Data Infrastructure
4.8 Change Management and Version Control in Naval Projects
4.9 Optimization of BIM Processes and Workflows
4.40 Evaluation of Return on Investment and Success Metrics

5.5 Introduction to CDE, Data Governance, BIM, and the Shipbuilding Industry
5.5 Fundamentals of Data-Driven Collaboration (CDE)
5.3 Principles of Data Governance: Quality, Security, Accessibility
5.4 BIM: Key Concepts and Applications in Naval Projects
5.5 BIM Traceability: Definition and Benefits in Shipbuilding
5.6 Digital Workflows and Industry Standards
5.7 CDE Tools and Platforms for Naval Projects
5.8 Data Integration: CDE, Data Governance, and BIM
5.9 Case Study: Implementation in Pilot Projects
5.50 Challenges and Opportunities in the Adoption of CDE and BIM

5.5 CDE Implementation Strategies for Naval Projects
5.5 Developing the Data Governance Plan
5.3 BIM Execution Plan (BEP) and its Importance
5.4 Selecting and Configuring CDE Platforms
5.5 Role Management and Permits in the CDE
5.6 BIM Integration with Project Management Systems
5.7 BIM Traceability Process in Shipbuilding
5.8 Measuring and Evaluating Implementation Performance
5.9 Case Studies: Successful Implementations in the Naval Sector
5.50 Common Challenges and Best Practices

3.5 Process Optimization in Naval Projects with CDE and BIM
3.5 Analysis and Improvement of BIM Workflows
3.3 Use of Data for Decision Making
3.4 Change Management and Version Control in the CDE
3.5 BIM Simulation and Analysis for Optimization
3.6 Integration of Manufacturing and Construction Data
3.7 Cost Reduction and Efficiency Improvement in Projects
3.8 Data Analysis and Visualization Tools
3.9 Case Studies: Optimization of Naval Projects
3.50 Measuring the ROI of Optimization

4.5 Advanced CDE Strategies and Data Governance
4.5 Integrating BIM with ERP Systems and Other Corporate Systems
4.3 Predictive and Prescriptive Data Analysis in Shipbuilding
4.4 Implementing Digital Twins in Naval Projects
4.5 Cybersecurity and Data Protection in CDE
4.6 Innovation Management and New Technologies
4.7 Collaboration with Suppliers and Subcontractors
4.8 Parametric Modeling and Generative Design
4.9 Case Studies: Advanced Strategies in Action
4.50 Future Trends and Adapting to Change

5.5 Leadership in Naval Digital Transformation
5.5 ​​Developing a Strategic Vision for BIM and CDE Implementation
5.3 Change Management and Resistance to Change
5.4 Developing Leadership Skills and Effective Communication
5.5 ​​Managing Complex BIM Projects
5.6 Managing Risks and Opportunities
5.7 Development of Data Governance Policies and Procedures
5.8 Performance Measurement and Continuous Improvement
5.9 Case Studies: Successful Leadership in Naval Digital Transformation
5.50 Strategies for Sustainability and Long-Term Success

6.5 Fundamentals of BIM Traceability in Shipbuilding
6.5 Creation and Management of a Robust Traceability System
6.3 Integration of Traceability with the CDE
6.4 Use of Identification Technologies (RFID, QR codes, etc.)
6.5 Auditing and Quality Control with Traceability
6.6 Supply Chain Optimization with Traceability
6.7 Integration of Traceability into Workflows
6.8 Asset Management and Maintenance with Traceability
6.9 Case Studies: Traceability in Shipbuilding
6.50 Challenges and Future Trends in the Traceability

7.5 BIM Software Selection for Naval Projects
7.5 Advanced 3D Modeling and Visualization Techniques
7.3 Coordination and Clash Detection in BIM
7.4 Development of Naval Component Families
7.5 Design of Naval Structures in BIM
7.6 Structural Simulation and Analysis in BIM
7.7 BIM Integration with Other Disciplines (Electrical, HVAC, etc.)
7.8 Generation of Documentation and Drawings from BIM
7.9 Case Studies: BIM Implementation in Specific Projects
7.50 Trends and Future of BIM Implementation in Shipbuilding

8.5 Detailed Planning of CDE, Data, and BIM Implementation
8.5 Selection of Appropriate Tools and Platforms
8.3 Systems and Data Integration
8.4 Development of Efficient Workflows
8.5 Change Management and Training Personnel
8.6 Implementation of Data Governance Processes
8.7 Measuring and Monitoring Progress
8.8 Continuous Improvement and Adaptation to New Technologies
8.9 Case Study: Comprehensive Implementation in a Naval Project
8.50 Keys to Long-Term Success and Sustainability

8.6 Implementation of Data Governance Processes
8.7 Measuring and Monitoring Progress
8.8 Continuous Improvement and Adaptation to New Technologies
8.9 Case Study: Comprehensive Implementation in a Naval Project
8.50 Keys to Long-Term Success and Sustainability

6.6 Fundamentals of CDE: Concepts and Benefits in Naval Projects.

6.2 Introduction to Data Governance: Principles and Best Practices.

6.3 BIM: Basic Concepts and Application in Shipbuilding.

6.4 The Intersection of CDE, Data Governance, and BIM: Synergies and Advantages.

6.5 Standards and Regulations: Relevant to Data Management in Naval Projects.

6.6 Case Studies: Examples of Successful CDE and BIM Implementation.

6.7 Essential Workflows in Naval Projects: Documents, Data, BIM Models.

6.8 CDE Tools and Platforms: Introduction and Comparison.

6.9 Introduction to BIM Traceability: Tracking Information in Naval Projects.

6.60 Getting Started: Implementing CDE and BIM in Small Projects.

2.6 Analysis of the Current Situation: Needs and Objectives Assessment.

2.2 Developing the CDE strategy: defining roles and responsibilities.

2.3 Planning BIM implementation: selecting software and standards.

2.4 Designing the data structure and data governance.

2.5 Data migration: strategies and best practices.

2.6 Integrating BIM with CDE: modeling and information management.

2.7 Change management: training and development.

2.8 Key performance indicators (KPIs): monitoring and evaluating progress.

2.9 Case study: Successful implementation of BIM and CDE in the naval sector.

2.60 Maintaining and continuously improving the strategy.

3.6 Identifying bottlenecks in current naval processes.

3.2 Optimizing workflow using CDE and BIM.

3.3 Integrating design, construction, and operation information.

3.4 Data analysis: identifying areas for improvement. 3.5 Data-driven decision-making: implementation of key indicators.

3.6 Asset management: lifecycle optimization.

3.7 Cost reduction: resource optimization.

3.8 Efficiency improvement: task automation.

3.9 Case studies: examples of naval optimization.

3.60 Tools and software for naval optimization.

4.6 Research and selection of advanced technologies for CDE and BIM.

4.2 Implementation of digital twins: simulation and data analysis.

4.3 Integration of artificial intelligence (AI) into data management.

4.4 Use of machine learning to predict failures and optimize performance.

4.5 Application of predictive analytics in naval project management.

4.6 Cybersecurity strategies for data protection in the naval sector.

4.7 Implementation of augmented reality (AR) and virtual reality (VR) for inspection and maintenance. 4.8 Development of information models for asset lifecycle management.

4.9 Case studies: advanced strategies in the naval sector.

4.60 The future of CDE, data, and BIM in the naval industry.

5.6 Analysis of existing BIM data management and processes.

5.2 Development of complex project management strategies.

5.3 Implementation of advanced CDE: permissions and access management.

5.4 Data governance: creation of policies and procedures.

5.5 Integration of BIM traceability into all processes.

5.6 Risk management: identification and mitigation of risks in naval projects.

5.7 Change management: planning and execution.

5.8 Leadership and team management: collaboration and communication.

5.9 Quality assessment and control: ensuring the quality of BIM data and models. 5.60 Case Studies: Application of Advanced Naval Management in Real-World Projects

6.6 Fundamentals of Traceability in Shipbuilding: Importance and Benefits

6.2 Process Design for Data Capture and Management

6.3 Use of Standards and Protocols for Traceability

6.4 Implementation of Real-Time Monitoring Systems

6.5 Integration of Data from Different Sources: Design, Construction, and Operation

6.6 Audits and Quality Control: Ensuring Data Accuracy

6.7 Change Management: Control and Monitoring

6.8 Data Analysis: Reports and Dashboards

6.9 Case Study: Successful Implementation of Traceability in Shipbuilding

6.60 The Future of Traceability in the Shipbuilding Industry

7.6 Assessment of Specific Naval Project Needs

7.2 Development of a BIM Implementation Plan 7.3 Designing efficient workflows.

7.4 Selecting specific software and tools.

7.5 Integrating design, construction, and maintenance data.

7.6 Change management: training and development.

7.7 Creating a collaborative environment.

7.8 BIM project management: cost, schedule, and quality control.

7.9 Case studies: Real-world applications of BIM in shipbuilding.

7.60 Continuous improvement: optimizing and adapting the strategy.

8.6 Planning the implementation of CDE, data, and BIM.

8.2 Designing the data architecture: models and databases.

8.3 Systems integration: design, construction, and operation.

8.4 Change management: training and development.

8.5 Information management: creating policies and procedures.

8.6 Data access control and security.

8.7 Asset lifecycle management.
8.8 Quality control and information assurance.

8.9 Case studies: Comprehensive implementation in naval projects.

8.60 Continuous improvement and optimization of implementation.

7.7 Introduction to CDE and its Foundations in Shipbuilding.

7.2 Data Governance: Principles and Applications in the Naval Context.

7.3 BIM: Key Concepts and Application in Naval Projects.

7.4 BIM Traceability: Importance and Benefits in the Naval Industry.

7.7 Interrelationship of CDE, Data Governance, BIM, and Traceability in Naval Projects.

7.6 Relevant Regulations and Standards in the Naval Sector.

7.7 Case Studies: Application Examples in Naval Projects.

7.8 Key Tools and Technologies for CDE, Data Governance, and BIM.

7.9 Information Management: Creation, Storage, and Sharing Process.

7.70 Challenges and Opportunities in the Implementation of CDE, Data Governance, and BIM.

2.7 Analysis of the Current Situation and Specific Needs of the Naval Sector.

2.2 Definition of Objectives and Strategies for BIM Implementation.

2.3 Selection and Configuration of Appropriate CDE Platforms.

2.4 Development of a Data Governance Plan: Roles and Responsibilities.

2.7 Implementation of BIM Models for Different Phases of the Naval Project.

2.6 Integration of BIM Traceability into Design and Construction Processes.

2.7 Change Management: Training and Adoption by Teams.

2.8 Key Performance Indicators (KPIs) for Monitoring Progress.

2.9 Integration of BIM with Existing Management Systems.

2.70 Evaluation of Implementation and Continuous Improvement.

3.7 Optimization of Naval Design and Construction Processes with CDE and BIM. 3.2 Reduction of Costs and Delivery Times through BIM Implementation.

3.3 Improved Collaboration and Communication Among Teams.

3.4 Efficient Management of Project Documentation and Information.

3.7 Early Detection and Resolution of Design Conflicts.

3.6 Optimization of Naval Project Planning and Scheduling.

3.7 Quality Control and Verification of Compliance with CDE and BIM.

3.8 Life Cycle Cost Analysis of Naval Assets.

3.9 Implementation of Lean Construction Methodology.

3.70 Success Stories and Lessons Learned in Naval Projects.

4.7 Development of CDE Implementation Strategies.

4.2 Data Governance Strategies: Security, Integrity, and Accessibility. 4.3 BIM: Advanced Strategies for Naval Design and Construction.

4.4 Parametric Modeling and Generative Design in Naval Projects.

4.7 Implementation of Augmented Reality and Virtual Reality in the Naval Sector.

4.6 Integration of BIM with Geographic Information Systems (GIS).

4.7 Sustainability and Energy Efficiency Strategies in Naval Design.

4.8 Risk Analysis and Mitigation in Naval Projects.

4.9 Collaboration and Communication Strategies with Suppliers and Clients.

4.70 Future Trends in CDE, Data Governance, and BIM for the Naval Industry.

7.7 Leadership in Naval Project Management with CDE and BIM.

7.2 Advanced Data Governance and Quality Control Strategies.

7.3 Naval Asset Lifecycle Management. 7.4 Strategic Project Planning with BIM.

7.7 Resource Optimization and Cost Reduction.

7.6 Implementation of Agile Methodology in Shipbuilding.

7.7 Risk Management and Regulatory Compliance in Naval Projects.

7.8 Data Analysis and Decision Making Based on BIM.

7.9 Development of a Data-Driven Culture within the Organization.

7.70 Implementation of a Comprehensive CDE Platform.

6.7 Fundamentals of BIM Traceability in Shipbuilding.

6.2 Integration of Traceability into the Design Process.

6.3 Traceability in Material and Component Management.

6.4 Real-Time Construction Monitoring.

6.7 Change Control and Version Management.

6.6 Verification of Conformity and Quality Control. 6.7 Documentation and Digital Archiving

6.8 Data Analysis and Traceability Report Generation

6.9 Integration with Maintenance Management Systems

6.70 Continuous Improvement of Traceability Processes

7.7 BIM Design and Modeling for Shipbuilding

7.2 BIM Implementation in Project Phases

7.3 Generation of 3D and 2D Documentation

7.4 BIM Simulation and Analysis

7.7 BIM Information Management

7.6 BIM Collaboration and Coordination

7.7 BIM Quality Control and Verification

7.8 BIM Integration with Traceability

7.9 BIM Implementation in Construction

7.70 BIM Implementation Case Studies

8.7 Selection and Implementation of a Comprehensive CDE Platform

8.2 Workflow and Role Design in the CDE

8.3 Data and Metadata Management in the CDE

8.4 Implementation of Standards and Protocols in the CDE

8.7 Information Traceability in the CDE

8.6 Integration of the CDE with BIM and Other Systems

8.7 Quality Control and Version Management in the CDE

8.8 Data Security and Protection in the CDE

8.9 Process Automation in the CDE

8.70 Optimization of the CDE for Decision Making

8.8 Fundamentals of CDE: Structure and Functionality for Naval Projects
8.8 Data Governance: Principles and Application in the Naval Industry
8.3 BIM: Modeling and its Integration with CDE and Data Governance
8.4 CDE Implementation: Strategies and Best Practices
8.5 Traceability in Naval Construction: Concepts and Applications
8.6 Data Management in Naval Projects: Quality and Security
8.7 Integration of CDE, Data, and BIM: Workflows and Examples
8.8 Tools and Software for CDE, Data, and BIM in the Naval Industry
8.8 Case Studies: Success Stories in Naval Traceability
8.80 Challenges and Future Trends in CDE, Data, and BIM for Naval Construction

9.9 Introduction to Naval Engineering and Project Management
9.9 Key Concepts of CDE: Structure, Functions, and Benefits
9.3 Data Governance: Principles and Applications in Naval Projects
9.4 BIM Traceability: Fundamentals and Benefits in Shipbuilding
9.5 Integration of CDE, Data Governance, and BIM: Overview

9.9 Strategic Planning for the Implementation of CDE in Naval Projects
9.9 Design and Implementation of an Effective Data Governance System
9.3 Integration of BIM into the Naval Workflow: Best Practices
9.4 BIM Traceability Management: Documentation, Control, and Auditing
9.5 Case Studies: Successful Implementation in the Naval Sector

3.9 Process Optimization in Naval Projects: CDE and BIM Approach
3.9 Data Analysis and Management for Decision Making
3.3 Tools and Technologies for Project Optimization
3.4 Improvement Continuous Improvement and KPIs in Naval Project Management
3.5 Return on Investment (ROI) Evaluation in CDE and BIM

4.9 Advanced CDE Strategies: Collaboration, Interoperability, and Security
4.9 Advanced Data Governance: Quality, Integrity, and Information Security
4.3 BIM for Simulation and Analysis: Design, Construction, and Operation
4.4 Integration of Emerging Technologies: IoT, Big Data, and Artificial Intelligence
4.5 Risk Management and Mitigation in Naval Projects

5.9 Naval Project Management with a BIM Approach: Leadership and Strategy
5.9 CDE and Data Governance in the Design Phase: Efficiency and Collaboration
5.3 BIM in the Construction Phase: Quality Control and Cost Reduction
5.4 Management of the Operation and Maintenance Phase: Lifecycle Optimization
5.5 ​​Success Stories and Trends in the Shipbuilding Industry

6.9 Fundamentals of Traceability in Shipbuilding
6.9 CDE as a Platform for Traceability: Integration and Data Flow
6.3 BIM for Traceability: 3D Modeling, Documentation, and Tracking
6.4 Tools and Technologies for Traceability: RFID, QR Codes, and Sensors
6.5 Quality Control and Traceability Assurance

7.9 Specialization in BIM for Shipbuilding: Modeling and Detailing
7.9 CDE and Information Management in Shipbuilding
7.3 BIM Collaboration: Design, Construction, and Project Delivery
7.4 Change Control and Version Management in BIM and CDE
7.5 Case Studies: Application of BIM and CDE in Shipbuilding

8.9 Detailed Planning for the Implementation of CDE and BIM
8.9 Configuration and Customization of CDE Platforms
8.3 Integration of BIM with the Workflow Existing
8.4 Training and Adoption: Strategies for Success
8.5 Monitoring, Evaluation, and Continuous Improvement

**Module 1: Mastering Data Enforcement, Data Governance, and BIM Traceability for Naval Projects**

1.1 Fundamentals of Data Management in Shipbuilding

1.2 Introduction to Data Enforcement: Concepts and Benefits in Naval Projects

1.3 Data Governance: Principles and Applications in the Naval Sector

1.4 BIM Traceability: Concepts, Importance, and Application in Naval Design

1.5 Integrating Data Enforcement, Data Governance, and BIM: An Integrated Approach

1.6 Document Management and Version Control in Naval Projects

1.7 BIM Modeling for Shipbuilding: Creating and Managing 3D Models

1.8 The Importance of Standards and Protocols in BIM Implementation

1.9 Practical Applications of Data Enforcement, Data Governance, and BIM in Naval Projects 1.10 Case Study: Best Practices in BIM Implementation in Naval Projects

**Module 2: Strategic Implementation of CDE, Data Governance, and BIM Traceability in the Naval Sector**

2.1 Strategic Planning for the Implementation of CDE and Data Governance

2.2 Definition of Roles and Responsibilities in Data Management

2.3 Selection and Configuration of Appropriate CDE Platforms

2.4 Development of a Detailed BIM Implementation Plan

2.5 Integration of BIM with Project Management Systems (PMIS)

2.6 Implementation of BIM Traceability in the Phases of a Naval Project

2.7 Change Management and Quality Control in BIM Models

2.8 Training and Development of Personnel in the Use of CDE and BIM 2.9 Monitoring and Evaluation of Implementation Success

2.10 Risk Analysis and Problem Mitigation in Implementation

**Module 3: Naval Optimization: CDE, Data Governance, and BIM for Project Excellence**

3.1 Process Optimization in Shipbuilding Using CDE and BIM

3.2 Improved Collaboration and Communication with CDE and BIM

3.3 Design and Engineering Optimization with BIM

3.4 Cost and Delivery Time Reduction with CDE and BIM

3.5 Efficient Project Information Management with CDE

3.6 Data Analysis for Decision-Making in Naval Projects

3.7 Use of BIM for Project Simulation and Analysis

3.8 Implementation of Lean Methodologies in Shipbuilding with BIM 3.9 Quality Improvement and Error Reduction with CDE and BIM.

3.10 Case Study: Optimization of a Specific Naval Project Using CDE and BIM.

**Module 4: Advanced Strategies in CDE, Data Governance, and BIM for the Naval Industry**

4.1 Integration of BIM and CDE with Manufacturing and Assembly Systems.

4.2 Implementation of Augmented Reality and Virtual Reality in Naval Projects.

4.3 Use of Artificial Intelligence and Machine Learning in Data Management.

4.4 Development of Dashboards and Advanced Reports for Decision Making.

4.5 Safety Management in Naval Projects with BIM.

4.6 Optimizing Sustainability in Shipbuilding with BIM.

4.7 Integration of BIM with Product Lifecycle Management (PLM) Systems. 4.8 Strategies for Asset Management and Maintenance with BIM.

4.9 Implementation of Digital Twins in Shipbuilding.

4.10 Future Trends in CDE, Data Governance, and BIM for the Naval Industry.

**Module 5: Mastery in CDE, Data Governance, and BIM Traceability: Transforming Naval Management**

5.1 Advanced Review of the Fundamentals of CDE, Data Governance, and BIM.

5.2 Advanced Strategies for Naval Project Lifecycle Management.

5.3 Implementation of Key Performance Indicators (KPIs) in CDE and BIM.

5.4 Risk Management and Regulatory Compliance in Naval Projects.

5.5 Strategies for Multidisciplinary Collaboration in Naval Projects.

5.6 Implementation of Digital Twins for Lifecycle Optimization.

5.7 Development of Digital Transformation Strategies in Shipbuilding.

5.8 Leadership and Change Management in the Implementation of CDE and BIM.

5.9 Analysis of Success Stories in the Implementation of CDE and BIM Worldwide.

5.10 Final Project: Development of a Comprehensive Implementation Plan for CDE, Data Governance, and BIM.

**Module 6: Expert in CDE, Data Governance, and BIM: Driving Traceability in Shipbuilding**

6.1 In-depth Study of the Fundamentals of BIM Traceability.

6.2 Implementation of BIM Traceability in the Design and Construction Phases.

6.3 Integration of BIM Traceability with Quality Management Systems.

6.4 Use of BIM Traceability for Change Management and Version Control. 6.5 Implementation of BIM Traceability for Maintenance and Operations.

6.6 Development of Key Performance Indicators (KPIs) for BIM Traceability.

6.7 Applications of BIM Traceability in Risk Management and Regulatory Compliance.

6.8 Design and Implementation of a BIM Traceability Strategy.

6.9 Case Studies of BIM Traceability in Successful Naval Projects.

6.10 Presentation and Defense of the Final Project: BIM Traceability Implementation Plan.

**Module 7: Specialization in CDE, Data Governance, and BIM: Transforming Shipbuilding with Traceability**

7.1 In-depth Analysis of Standards and Regulations in Shipbuilding.

7.2 Design and Management of an Advanced CDE for Data Traceability.

7.3 Development of Data Governance Strategies for Naval Projects.

7.4 Implementation of BIM Traceability in Naval Design and Manufacturing Projects.

7.5 Integration of Traceability Data with Asset Management Systems.

7.6 Optimizing Traceability for Naval Maintenance and Repair.

7.7 Design of Dashboards and Advanced Reports for Traceability.

7.8 Safety and Quality Management Using Traceability.

7.9 Case Studies: Best Practices in Traceability Implementation in the Naval Industry.

7.10 Final Project: Design and Implementation of a BIM Traceability System for a Specific Naval Project.

**Module 8: Comprehensive Implementation of CDE, Data Governance, and BIM for Traceability in the Naval Industry**

8.1 Assessment of Traceability Needs and Objectives in Naval Projects.

8.2 Design of the CDE Architecture and Data Infrastructure.

8.3 Definition of Data Governance Policies and Procedures.

8.4 Implementation of BIM Traceability in the Design, Construction, and Operation Phases.

8.5 Integration of Traceability with Project Management Systems and ERP.

8.6 Development of a Change Management Plan for Traceability Implementation.

8.7 Use of Traceability for Maintenance Optimization and Asset Management.

8.8 Implementation of Traceability to Improve Safety and Quality.

8.9 Measuring the Return on Investment (ROI) of Traceability in Naval Projects.

8.10 Final Presentation and Defense of the Traceability Implementation Project in a Real Naval Project.

**Final Project — Naval BIM Traceability: Strategic Implementation**

9.1 Definition of the Scope and Objectives of the BIM Traceability Project.

9.2 Selection and Configuration of the CDE and BIM Tools.

9.3 Development of the BIM Model and Definition of the Data Structure.

9.4 Implementation of BIM Traceability in the Project Phases.

9.5 Integration of BIM Traceability with Management Systems.

9.6 Testing and Validation of the Implemented BIM Traceability.

9.7 Training and Development of Personnel in the Use of BIM Traceability.

9.8 Monitoring and Control of BIM Traceability in the Project.

9.9 Performance Evaluation and Continuous Improvement of BIM Traceability.

9.10 Project Documentation and Presentation of Results.