Diploma in Takt Planning and Continuous Flow
Sobre nuestro Diploma in Takt Planning and Continuous Flow
The Diploma in Takt Planning and Continuous Flow trains participants in the application of agile methodologies for project planning and control, focusing on workflow optimization and waste elimination. It centers on the implementation of Takt Planning and continuous flow techniques to improve efficiency, productivity, and quality in the management of construction, engineering, and manufacturing projects. Tools and strategies for resource management, reducing delivery times, and maximizing customer value are covered.
The diploma provides practical knowledge in work visualization and management, bottleneck analysis, and continuous improvement, facilitating adaptation to market demands. It aims to develop skills in the application of Lean Construction and other agile methodologies to optimize processes, minimize rework, and increase customer satisfaction. Participants will be prepared to implement and lead projects with a focus on efficiency and operational excellence.
Target keywords (natural occurrences in the text): Takt Planning, continuous flow, project management, Lean Construction, agile planning, flow optimization, operational efficiency.
Diploma in Takt Planning and Continuous Flow
- 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: 3
1.550 $
Competencias y resultados
Qué aprenderás
1. Optimizing Naval Workflow: Takt Planning and Continuous Flow
- Understand and apply Takt Planning principles to optimize task sequencing in naval operations.
- Identify and eliminate workflow bottlenecks, improving efficiency and reducing cycle times.
- Utilize continuous flow tools and techniques to minimize waste and maximize value delivery in naval projects.
- Analyze and model naval operational processes, from planning to execution, to identify areas for improvement.
- Apply Lean methodologies in the naval context to optimize resources, reduce costs, and improve work quality.
- Develop skills in naval project management, including planning, scheduling, monitoring, and controlling tasks.
- Utilize specialized naval workflow management software for process simulation, analysis, and optimization.
- Improve data-driven decision-making and performance management in operations naval.
2. Strategic Mastery in Naval Tactical Planning: Continuous Flow and Optimization of Takt Planning
2. Strategic Mastery in Naval Tactical Planning: Continuous Flow and Takt Planning Optimization
- Understand the fundamental principles of Takt Planning and its application in naval planning.
- Identify and analyze the key components of an efficient naval tactical planning process.
- Apply methodologies for workflow optimization and reducing planning bottlenecks.
- Master the use of tools and techniques for time management and resource allocation in naval scenarios.
- Develop skills in creating and monitoring realistic and effective naval tactical schedules.
- Analyze and mitigate the risks inherent in naval tactical planning, including uncertainty and variability.
- Integrate Takt Planning with other naval project management methodologies, such as Agile and [the following text appears to be unrelated and possibly from a different source:] Lean.
- Simulate and evaluate naval tactical scenarios using specialized software and modeling tools.
- Develop strategies for the continuous improvement of naval tactical planning processes.
- Apply Takt Planning to strategic and operational decision-making in the naval field.
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. Tactical Planning and Continuous Flow Strategies for Naval Excellence
4. Tactical Planning and Continuous Flow Strategies for Naval Excellence
- Master strategic tactical planning, including defining clear objectives and efficiently allocating naval resources.
- Implement continuous flow methodologies to optimize operational processes, reducing cycle times and improving responsiveness.
- Evaluate and optimize naval supply chain management, ensuring the timely availability of critical materials and equipment.
- Develop and apply simulation models for tactical decision-making, including risk scenarios and vulnerability analysis.
- Analyze and improve coordination and communication between different naval units and with external organizations.
- Apply risk management principles to identify and mitigate potential threats, both in peacetime operations and conflict scenarios.
- Utilize data analysis tools to monitor operational performance, identify areas for improvement, and facilitate data-driven decision-making. evidence.
Understand and apply best practices in leadership and team management in dynamic and challenging naval environments.
Integrate technological innovation into operational strategies, including the use of information systems, advanced communications, and defense technologies.
Continuously evaluate and adapt tactical strategies and workflows in response to changing naval environment conditions and lessons learned.
5. Advanced Naval Tactical Planning: Integrating Takt Planning and Continuous Flow for Operational Efficiency
Here is the requested content:
5. Advanced Naval Tactical Planning: Integrating Takt Planning and Continuous Flow for Operational Efficiency
- Master the fundamental principles of Takt Planning and continuous flow applied to naval operations.
- Understand how to optimize the sequence of activities and resource allocation to minimize waste and maximize efficiency in the naval environment.
- Learn to identify and eliminate bottlenecks in naval operational processes, using analysis and visualization tools.
- Develop skills for capacity planning and demand management in dynamic naval environments.
- Apply Takt Planning and continuous flow to complex naval tactical scenarios, including mission planning and real-time resource management.
- Integrate Takt Planning with other project and operations management methodologies, such as Agile and Lean, for greater adaptability and Efficiency.
Continuously evaluate and improve naval operational processes through performance measurement, data analysis, and the implementation of corrective actions.
Understand the application of cutting-edge technologies, such as simulation and predictive analytics, to optimize naval tactical planning.
Study successful case studies of Takt Planning and continuous flow implementation in naval operations around the world.
Acquire skills to lead teams and facilitate the implementation of cultural changes necessary to adopt Takt Planning and continuous flow in naval organizations.
6. Master's Degree in Naval Tactical Planning: Takt Planning and Continuous Flow for Operational Sustainability
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 Takt Planning and Continuous Flow
- Professionals with experience in the naval sector, including officers, petty officers, and civilian personnel.
- Naval, mechanical, and electronic engineers, and other professionals related to ship construction and operation.
- Personnel from shipping companies, shipyards, maritime service companies, and government agencies related to the sector.
- Those seeking to acquire advanced knowledge in tactical planning and workflow management in complex naval environments.
- 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.
Module 1 — Introduction to Takt Planning and Continuous Flow
1.1 Fundamentals of Takt Planning in the Naval Context
1.2 Principles of Continuous Flow Applied to Naval Operations
1.3 Introduction to Operational Synchronization and Rhythm
1.4 Identifying Waste in Naval Processes
1.5 Benefits of Implementing Takt Planning and Continuous Flow
1.6 Initial Tools and Methodologies for Tactical Planning
1.7 Analysis of the Current State of Naval Processes
1.8 Introduction to Workflow Visualization
1.9 Case Studies: Examples of Successful Naval Applications
1.10 Initial Planning for Takt Planning Implementation
2. Introduction to Takt Planning in the Naval Context
3. Definition of Takt Time and its Application in Naval Operations
4. Identification and Analysis of Tasks in the Naval Workflow
5. Design of Optimized Workflows with Takt Planning
6. Resource and Personnel Allocation According to Takt Time
7. Implementation of Key Performance Indicators (KPIs) for Monitoring Takt Planning
8. Tools and Techniques for Workflow Visualization
9. Managing Bottlenecks and Delays in the Workflow
20. Adapting Takt Planning to Different Types of Naval Operations
22. Case Studies: Successful Application of Takt Planning in the Naval Industry
3.3 Fundamentals of Takt Planning in the Naval Context
3.2 Continuous Flow Principles Applied to Naval Operations
3.3 Identifying and Mapping the Naval Value Stream
3.4 Designing Takt Time and Calculating Capacity
3.5 Implementing Takt Planning in Specific Processes
3.6 Visualizing and Managing Workflow
3.7 Identifying and Eliminating Bottlenecks
3.8 Integrating Continuous Flow and Takt Planning
3.9 Key Performance Metrics and Continuous Improvement
3.30 Case Studies: Practical Application in Naval Scenarios
3.4
4.4 Introduction to Naval Tactical Planning and Continuous Flow: Key Concepts
4.2 Analysis of Takt Planning in the Naval Context: Identifying Bottlenecks
4.3 Implementing Continuous Flow in Naval Operations: Waste Reduction
4.4 Designing Efficient Naval Processes: Mapping and Optimization
4.5 Tools and Techniques for Naval Tactical Planning: Kanban and Scrum
4.6 Managing Capacity and Demand in Naval Environments: Balancing Flow
4.7 Continuous Improvement in Naval Tactical Planning: PDCA Cycle
4.8 Case Study Analysis: Applying Takt Planning and Continuous Flow in Practice
4.9 Performance Evaluation and Key Metrics in Naval Operations
4.40 Strategies for Operational Sustainability: Adapting to Change and Continuous Improvement
5.5 Introduction to Naval Tactical Planning
5.5 Importance of Takt Planning in Naval Operations
5.3 Benefits of Optimizing Naval Workflow
5.4 Fundamental Principles of Takt Planning
5.5 Initial Applications of Takt Planning in the Navy
5.6 Key Concepts: Takt Time and Cadence
5.7 Basic Tools for Naval Planning
5.5 Fundamentals of Continuous Flow in Naval Operations
5.5 Key Principles of Continuous Flow: Waste Minimization
5.3 Identifying and Eliminating Bottlenecks
5.4 Process Optimization in the Naval Value Chain
5.5 ​​Adapting Continuous Flow to Naval Environments
5.6 Implementing Continuous Flow in Tactical Operations
5.7 Continuous Improvement and Sustainability in Naval Flow
3.5 Application of Takt Planning in the Naval Context
3.5 Defining Specific Takt Time for Naval Operations
3.3 Implementing Takt Planning in Different Scenarios
3.4 Resource and Personnel Planning in Takt Planning
3.5 Real-Time Monitoring and Control of Takt Planning
3.6 Adjustments and Adaptations of Takt Planning in Response to Contingencies
3.7 Case Studies: Takt Planning in Successful Naval Operations
4.5 Integrating Continuous Flow into Naval Strategy
4.5 Designing Continuous Flow Processes for Efficiency
4.3 Implementing Continuous Flow Strategies in the Field
4.4 Demand and Supply Management in Naval Continuous Flow
4.5 Key Performance Indicators (KPIs) for Continuous Flow
4.6 Continuous Improvement of Continuous Flow in the Navy
4.7 Risk Analysis and Mitigation in Continuous Flow
5.5 Strategic Integration of Takt Planning and Continuous Flow
5.5 Synergy between Takt Planning and Continuous Flow for Efficiency
5.3 Tools and Technologies for Integration
5.4 Creating an Integrated Implementation Plan
5.5 ​​Optimizing the Naval Supply Chain with Takt & Flow
5.6 Performance Measurement in Takt and Flow Integration
5.7 Case Studies: Successful Integration in Naval Operations
6.5 Operational Sustainability through Takt Planning and Flow
6.5 Sustainable Process Design in Naval Operations
6.3 Waste Reduction and Resource Optimization
6.4 Improving Long-Term Operational Resilience
6.5 Implementing a Sustainable Management System
6.6 Life Cycle Assessment (LCA) in Naval Operations
6.7 Strategies for Sustainability in the Naval Environment
7.5 Operational Excellence with Takt Planning and Continuous Flow
7.5 Continuous Improvement and the Pursuit of Excellence
7.3 Implementing a Quality Management System
7.4 Using Data and Analysis for Continuous Improvement
7.5 Leadership and Culture for Operational Excellence
7.6 Innovation and Adaptation in Naval Environments
7.7 Benchmarking and Best Practices in Operations
8.5 Takt Planning for Naval Operational Efficiency
8.5 Optimizing Takt Time for Different Operations
8.3 Implementing a Process Management System
8.4 Measuring and Controlling Performance in Takt Planning
8.5 Managing Change and Resistance to Change
8.6 Case Studies: Success and Failure Analysis
8.7 Scalability and Adaptation of Takt Planning
8.7
6.6 Fundamentals of Naval Takt Planning
6.2 Advantages of Takt Planning in Naval Operations
6.3 Introduction to Naval Tactical Planning
6.4 Key Concepts: Cadence and Operational Rhythm
6.5 Designing the Naval Workflow
6.6 Takt Planning Tools and Methods
6.7 Case Studies: Application of Takt Planning
6.8 Challenges and Solutions in Takt Planning Implementation
2.6 Principles of Continuous Flow in Naval Operations
2.2 Eliminating Waste in Naval Processes
2.3 Identifying and Eliminating Bottlenecks
2.4 Capacity and Bottleneck Management
2.5 Optimizing Naval Cycle Time
2.6 Continuous Flow and the Naval Supply Chain
2.7 Tools and Techniques for Continuous Flow
2.8 Implementing Continuous Flow in Different Naval Scenarios
3.6 Implementing Takt Planning in Scenarios Naval Operations
3.2 Determining Takt Time for Naval Operations
3.3 Designing Naval Processes for Takt Planning
3.4 Synchronizing Activities with Takt Time
3.5 Managing Variability in Takt Planning
3.6 Monitoring and Controlling Takt Planning
3.7 Continuous Improvement in Naval Takt Planning
3.8 Case Studies: Takt Planning in Specific Operations
4.6 Developing Continuous Flow Strategies for Naval Operations
4.2 Designing Efficient Naval Processes
4.3 Implementing Flow Control Systems
4.4 Inventory Management in Naval Continuous Flow
4.5 Optimizing Waiting Time and Delays
4.6 The Role of Technology in Naval Continuous Flow
4.7 Key Performance Indicators (KPIs) for Continuous Flow
4.8 Case Studies: Continuous Flow Strategies in Naval Practice
5.6 Integration 5.1 Takt Planning and Continuous Flow
5.2 Synergy between Takt Planning and Continuous Flow
5.3 Designing Hybrid Processes for Efficiency
5.4 Optimizing Capacity and Resources
5.5 Managing Variability and Bottlenecks
5.6 Implementing Integrated Control Systems
5.7 Integrated Performance Monitoring and Control
5.8 Case Studies: Successful Integration in Naval Operations
6.6 Takt Planning for Operational Sustainability
6.2 Improving Efficiency and Reducing Costs
6.3 Optimizing the Use of Naval Resources
6.4 Managing the Life Cycle of Naval Assets
6.5 Reducing Waste and Environmental Impact
6.6 Long-Term Capacity Planning
6.7 Operational Resilience and Adaptability
6.8 Case Studies: Operational Sustainability through Takt Planning
7.6 Applying Takt Planning for Excellence Operational
7.2 Improving Operational Performance
7.3 Optimizing Cycle and Delivery Times
7.4 Quality and Reliability Management
7.5 Improving Naval Customer Satisfaction
7.6 Innovation and Continuous Improvement
7.7 Culture of Operational Excellence
7.8 Case Studies: Achieving Operational Excellence with Takt Planning
8.6 Implementing Takt Planning for Operational Efficiency
8.2 Optimizing Processes and Workflows
8.3 Eliminating Waste and Reducing Costs
8.4 Capacity and Resource Management
8.5 Improving Response Time and Flexibility
8.6 Monitoring and Controlling Operational Performance
8.7 Adapting to Change and Continuous Improvement
8.8 Case Studies: Operational Efficiency through Takt Planning
7.7 Introduction to Naval Tactical Planning
7.2 Importance of Workflow in Naval Operations
7.3 Key Concepts of Takt Planning
7.4 Benefits of Workflow Optimization
7.7 Naval Planning Methodologies
7.6 Tools and Software for Naval Project Management
7.7 Practical Examples of Takt Planning Applications
7.8 How Takt Planning Improves Operational Efficiency
2.7 Fundamental Principles of Continuous Flow
2.2 Application of Continuous Flow in Naval Environments
2.3 Identifying and Eliminating Waste
2.4 Principles of Quality Management in Naval Operations
2.7 The Importance of Standardization
2.6 Capacity Management and Bottlenecks
2.7 Creating a Just-in-Time Production System
2.8 Practical Examples of Continuous Flow in the Shipbuilding Industry
3.7 Implementing Takt Planning in Operations Naval
3.2 Determining Takt Time
3.3 Process Design and Optimization
3.4 Resource and Personnel Allocation
3.7 Workload and Productivity Management
3.6 Implementing Visual Control Systems
3.7 Continuous Improvement and Feedback
3.8 Case Studies: Takt Planning in Action in the Navy
4.7 Continuous Flow Strategies for Naval Efficiency
4.2 Value Stream Mapping
4.3 Inventory Management and Waste Reduction
4.4 Implementing Kanban Systems
4.7 Optimizing the Decision-Making Process
4.6 Developing High-Performance Teams
4.7 Adapting to Change and Continuous Improvement
4.8 Performance Evaluation and Key Metrics
7.7 Integrating Takt Planning and Continuous Flow
7.2 Designing a Hybrid Takt-Flow System
7.3 Process Synchronization and Tasks
7.4 Managing Variability and Uncertainty
7.7 Simulation and Modeling Tools
7.6 Risk Management and Mitigation
7.7 Creating a Culture of Continuous Improvement
7.8 Case Studies: Successful Integration in the Navy
6.7 Tactical Planning for Operational Sustainability
6.2 Integrating Takt Planning into Long-Term Strategy
6.3 Cost-Benefit Analysis
6.4 Change Management and Resilience
6.7 Leadership Development and Team Building
6.6 Implementing Sustainability Indicators
6.7 System Evaluation and Continuous Improvement
6.8 Case Studies: Operational Sustainability in the Navy
7.7 Takt Planning and Continuous Flow for Operational Excellence
7.2 Establishing Performance Standards
7.3 Optimizing Workstation Design
7.4 Knowledge Management and Process Improvement
7.7 Implementation of Feedback Systems
7.6 Change Management and Adaptation
7.7 Implementation of a Continuous Improvement System
7.8 Examples of Operational Excellence in the Navy
8.7 Tactic Planning and Operational Efficiency
8.2 Identifying Waste in Naval Operations
8.3 Implementing Lean Tools in the Navy
8.4 Developing a Continuous Improvement System
8.7 Data Analysis and Evidence-Based Decision Making
8.6 Creating a Culture of Continuous Improvement
8.7 Performance Measurement and Monitoring
8.8 Case Studies: Operational Efficiency
8.9
8.8 Fundamentals of Takt Planning in Naval Operations
8.8 Identifying and Mapping the Naval Value Stream
8.3 Designing Takt Times to Optimize Operational Pace
8.4 Implementing Naval Key Performance Indicators (KPIs)
8.5 Applying Continuous Flow in Naval Processes
8.6 Visual Management and Effective Communication in the Naval Environment
8.7 Tools and Technologies for Tactical Planning
8.8 Case Studies: Practical Applications of Takt Planning in the Navy
8.8 Evaluation and Continuous Improvement of the Planning Process
8.80 Operational Sustainability Strategies with Takt Planning
9.9 Introduction to Takt Planning and its Naval Application
9.9 Identifying Bottlenecks in Naval Workflow
9.3 Designing and Optimizing Continuous Flow in Naval Operations
9.4 Tools and Techniques for Workflow Optimization
9.5 Case Studies: Successful Implementation in Naval Scenarios
9.9 Fundamentals of Naval Tactical Planning
9.9 Integrating Takt Planning into Strategic Planning
9.3 Analyzing and Optimizing Naval Processes
9.4 Developing Scenarios and Simulating Naval Operations
9.5 Risk Assessment and Tactical Decision-Making
3.9 Methodology for the Efficient Implementation of Takt Planning
3.9 Designing and Implementing Flow Control Systems
3.3 Managing Capacity and Demand in Naval Operations
3.4 Monitoring and Continuously Improving Flow Performance
3.5 Practical Case Studies: Implementation and Results
4.9 Analyzing Naval Tactical Planning Strategies
4.9 Applying Continuous Flow in Different Operational Scenarios
4.3 Developing Key Performance Indicators (KPIs) Naval
4.4 Resource Management and Cycle Time Optimization
4.5 Decision-Making Analysis and Problem Solving
5.9 Advanced Integration of Takt Planning and Continuous Flow
5.9 Modeling and Simulation of Complex Naval Operations
5.3 Optimizing the Naval Supply Chain
5.4 Adapting Planning to Dynamic Environments
5.5 Risk Analysis and Mitigation in Complex Scenarios
6.9 Applying Takt Planning for Operational Sustainability
6.9 Managing Variability and Uncertainty
6.3 Optimizing Resource Allocation and Efficiency
6.4 Developing Operational Resilience
6.5 Strategies for Continuous Improvement and Adaptation
7.9 Trends in Naval Planning and Takt Planning
7.9 Integrating Emerging Technologies into Planning
7.3 Designing Flexible and Adaptive Naval Operations
7.4 Analyzing Data Intelligence for Planning
7.5 Leadership and Change Management in Naval Operations
8.9 Analyzing Continuous Flow Strategies in Scenarios Naval
8.9 Applying Takt Planning to Optimize Flow
8.3 Capacity Management and Operational Efficiency
8.4 Developing Operational Resilience
8.5 Case Studies: Analysis of Efficient Naval Operations
9.9 Introduction to Takt Planning and its Fundamentals
9.9 Principles of Takt Planning and their Application
9.3 Practical Implementation of Takt Planning
9.4 Advanced Takt Planning Techniques
9.5 Optimizing Workflow with Takt Planning
9.6 Continuous Improvement and Sustainability with Takt Planning
9.7 Takt Planning Tools and Technologies
9.8 Case Studies and Practical Examples
9.9 Results Analysis and Performance Evaluation
9.90 Takt Planning in Complex Operating Environments
1.1 Introduction to Naval Tactical Planning and Continuous Flow
1.2 Fundamentals of Takt Planning in Naval Environments
1.3 Principles of Continuous Flow in Naval Operations
1.4 Identifying and Eliminating Waste in Naval Planning
1.5 Initial Implementation of Takt Planning and Continuous Flow
2.1 Analysis of Current Naval Tactical Planning
2.2 Designing Optimized Workflows with Takt Planning
2.3 Key Performance Indicators (KPIs) for Naval Continuous Flow
2.4 Real-Time Workflow Monitoring and Control
2.5 Tools and Technologies for Tactical Planning
3.1 Case Studies: Applying Takt Planning in Specific Naval Operations
3.2 Adapting Takt Planning to Different Types of Missions
3.3 Implementing Continuous Flow in Naval Maintenance
3.4 Optimizing Resource Use with Takt Planning Planning
3.5 Change Management: Adapting to Continuous Flow
4.1 Tactical Planning Strategies for Decision Making
4.2 Development of Protocols for Continuous Flow Management
4.3 Simulation and Modeling of Naval Workflow
4.4 Risk Management in Tactical Planning and Continuous Flow
4.5 Evaluation of Operational Efficiency
5.1 Integration of Takt Planning with Operations Management Systems
5.2 Data Analysis and Continuous Workflow Improvement
5.3 Implementation of Information Technologies for Continuous Flow
5.4 Capacity Planning and Bottleneck Management
5.5 Strategies for Adapting to the Dynamic Naval Environment
6.1 Developing a Culture of Continuous Improvement in Naval Planning
6.2 Cost-Benefit Analysis of Takt Planning and Continuous Flow
6.3 Operational Sustainability through Flow Continuous
6.4 Leadership and Change Management in Naval Environments
6.5 Planning for Resilience and Adaptability
7.1 Innovation in Naval Tactical Planning
7.2 The Future of Takt Planning and Continuous Flow in the Navy
7.3 Analysis of Technological Trends in Naval Operations
7.4 Developing Strategies for Operational Excellence
7.5 Case Study: Transformation of a Naval Unit
8.1 Advanced Takt Planning Strategies for Operational Efficiency
8.2 Implementing Rapid Response Systems in Planning
8.3 Knowledge and Experience Management in Continuous Flow
8.4 Developing Predictive and Anticipation Capabilities
8.5 Auditing and Continuous Improvement of Operational Performance
- 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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