Thanks to this 100% online Postgraduate diploma, you will master the most modern tools of Artificial Intelligence to create innovative and personalized architectural spaces”

A new report prepared by the United Nations reflects that the integration of Artificial Intelligence in architectural practice improves efficiency in the use of resources by 40%, while significantly reducing waste in construction processes. This advance not only optimizes the use of materials, but also allows for more effective project planning, resulting in more sustainable buildings. Therefore, it is essential for architects to adopt the most cutting-edge Digital Fabrication techniques to ensure that their projects are efficient and environmentally responsible.

In this context, TECH is launching a pioneering program in Digital Design and Fabrication with Artificial Intelligence. Devised by references in this field, the academic itinerary will delve into the automation of repetitive tasks such as report generation, budget tracking or schedules. Along the same lines, the syllabus will provide students with the keys to get the most out of specialized software such as Optimus, Geomagic Wrap or Autodesk Revit. In this way, graduates will develop advanced skills to implement sophisticated algorithms to optimize both the architectural and functional performance of spaces. In addition, course materials will discuss a variety of generative modeling methods that will enable students to efficiently customize designs and simulate key issues such as energy efficiency.

The curriculum is complemented by multiple multimedia pills including specialized readings and case study simulations. This will help architects enjoy a fully dynamic learning process. All graduates will need is a digital device with Internet access 
to access the Virtual Campus. And all of this without attendance or preset schedules, thus giving professionals the opportunity to better self-manage their study time and reconcile their personal activities with a quality program.

You will gain valuable lessons learned through real-world case studies in simulated learning environments”

This Digital Design and Manufacturing with Artificial Intelligencecontains the most complete and up-to-date program on the market. The most important features include: 

• Development of practical cases presented by experts in Artificial Intelligence
• The graphic, schematic and practical contents with which it is conceived provide practical information and complete on those disciplines that are essential for professional practice
• Practical exercises where self-assessment can be used to improve learning
• Its special emphasis on innovative methodologies
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
• Content that is accessible from any fixed or portable device with an Internet connection

Are you looking to implement Artificial Intelligence algorithms in your architectural practice to make decisions based on quantitative data? Achieve it with this program”

The program's teaching staff includes professionals from the sector who bring to this program the experience of their work, as well as recognized specialists from prestigious reference societies and universities.

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations.

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the course. For this purpose, students will be assisted by an innovative interactive video system created by renowned experts in the field of educational coaching with extensive experience.

You will delve into the use of Grasshopper, which will allow you to analyze aspects such as lighting, air flow and energy consumption"

With the disruptive Relearning system powered by TECH, you will enjoy a progressive and natural learning process. Forget about memorizing"

This program is designed by recognized experts in Design and Manufacturing with Artificial Intelligence. The curriculum will delve into issues ranging from advanced AutoCAD applications or the use of Fusion 360 to the optimization of architectural designs using Optimus. In this way, students will acquire advanced skills to implement algorithms in their daily practice, thus automating tasks such as predicting the behavior of structures under different conditions. At the same time, the syllabus will delve into the most sophisticated techniques to ensure optimal energy performance and the use of sustainable materials.

You will master the most modern Parametric Design software to automate repetitive tasks such as the generation of repeated structural elements or the calculation of spatial distributions”

Module 1. Artificial Intelligence-Assisted Design in Architectural Practice

1.1.    Advanced AutoCAD Applications with Artificial Intelligence

1.1.1.    Integration of AutoCAD with AI Tools for Advanced Design
1.1.2.    Automation of Repetitive Tasks in Architectural Design with Artificial Intelligence
1.1.3.    Case Studies Where Artificial Intelligence-Assisted AutoCAD Has Optimized Architectural Projects

1.2.    Advanced Generative Modeling with Fusion 360

1.2.1.    Advanced Generative Modeling Techniques Applied to Complex Projects
1.2.2.    Using Fusion 360 to Create Innovative Architectural Designs
1.2.3.    Examples of Applying Generative Modeling in Sustainable and Adaptive Architecture

1.3.    Optimizing Designs with AI in Optimus

1.3.1.    Optimization Strategies for Architectural Design Optimization Using AI Algorithms in Optimus
1.3.2.    Sensitivity Analysis and Exploration of Optimal Solutions in Real Projects
1.3.3.    Review of Industry Success Stories Using Optimus for Artificial Intelligence-Based Optimization

1.4.    Parametric Design and Digital Fabrication with Geomagic Wrap

1.4.1.    Advances in Parametric Design with Artificial Intelligence Integration Using Geomagic Wrap
1.4.2.    Practical Applications of Digital Fabrication in Architecture
1.4.3.    Outstanding Architectural Projects Using Artificial Intelligence-Assisted Parametric Design for Structural Innovations

1.5.    Artificial Intelligence-Assisted Parametric Design for Structural Innovations

1.5.1.    Adaptive and Context Sensitive Design with Artificial Intelligence Sensors
1.5.2.    Implementing Adaptive Design Using Artificial Intelligence and Real-Time Data
1.5.3.    Examples of Ephemeral Architecture and Urban Environments Designed with AI

1.6.    Analysis of How Adaptive Design Influences the Sustainability and Efficiency of Architectural Projects

1.6.1.    Simulation and Predictive Analytics in CATIA for Architects
1.6.2.    Advanced Use Artificial Intelligence CATIA for Architectural Simulation
1.6.3.    Implementing Predictive Analytics in Significant Architectural Projects

1.7.    Personalization and UX in Design with IBM Watson Studio

1.7.1.    IBM Watson Studio's AI Tools for Architectural Personalization
1.7.2.    User-Centered Design Using Artificial Intelligence Analytics
1.7.3.    Case Studies of AI Use Cases for Personalization of Architectural Spaces and Products

1.8.    Collaboration and Collective Design Powered by Artificial Intelligence

1.8.1.    AI-Powered Collaborative Platforms for Design Projects
1.8.2.    AI Methodologies that Foster Creativity and Collective Innovation
1.8.3.    Success Stories and Challenges in Artificial Intelligence-Assisted Collaborative Design

1.9.    Ethics and Responsibility in Artificial Intelligence-Assisted Design

1.9.1.    Ethical Debates in the Use of Artificial Intelligence in Architectural Design
1.9.2.    Study on Biases and Fairness in Artificial Intelligence Algorithms Applied to Design
1.9.3.    Current Regulations and Standards for Responsible Artificial Intelligence Design

1.10.    Challenges and Future of Artificial Intelligence-Assisted Design

1.10.1.    Emerging Trends and Cutting-Edge Technologies in Artificial Intelligence for Architecture
1.10.2.    Analysis of the Future Impact of Artificial Intelligence on the Architectural Profession
1.10.3.    Foresight on Future Innovations and Developments in Artificial Intelligence-Assisted Design

Module 2. Space Optimization and Energy Efficiency with Artificial Intelligence

2.1.    Optimizing Spaces with Autodesk Revit And Artificial Intelligence

2.1.1.    Using Autodesk Revit And Artificial Intelligence for Spatial Optimization and Energy Efficiency
2.1.2.    Advanced Techniques for Improving Energy Efficiency in Architectural Designs
2.1.3.    Case Studies of Successful Projects Combining Autodesk Revit with Artificial Intelligence

2.2.    Analysis of Energy Efficiency Metrics and Data with SketchUp and Trimble

2.2.1.    Applying SketchUp and Trimble Tools for Detailed Energy Analysis
2.2.2.    Developing Energy Efficiency Metrics Using Artificial Intelligence
2.2.3.    Strategies for Setting Energy Efficiency Goals for Architectural Projects

2.3.    Bioclimatic Design and Artificial Intelligence-Optimized Solar Orientation

2.3.1.    Artificial Intelligence-Assisted Bioclimatic Design Strategies for Maximizing Energy Efficiency
2.3.2.    Examples of Buildings Using Artificial Intelligence-Guided Design to Optimize Thermal Comfort
2.3.3.    Practical Applications of AI in Solar Orientation and Passive Design

2.4.    AI-Assisted Sustainable Materials and Technologies with Cityzenit

2.4.1.    Innovation in Sustainable Materials Supported by Artificial Intelligence Analysis
2.4.2.    Using Artificial Intelligence to Develop and Apply Recycled and Low-Environmental-Impact Materials
2.4.3.    Study of Projects Using Renewable Energy Systems Integrated with AI

2.5.    Urban Planning and Energy Efficiency with WattPredictor and AI

2.5.1.    AI Strategies for Energy Efficiency in Urban Design
2.5.2.    Implementing WattPredictor to Optimize Energy Use in Public Spaces
2.5.3.    Successful Cases of Cities Using AI to Improve Urban Sustainability

2.6.    Intelligent Energy Management with Google DeepMind's Energy

2.6.1.    Applications of DeepMind Technologies for Energy Management
2.6.2.    Implementing Artificial Intelligence for Energy Consumption Optimization
2.6.3.    Assessment of Cases Where Artificial Intelligence Has Transformed Energy Management in Communities and Buildings

2.7.    Artificial Intelligence-Assisted Energy Efficiency Certifications and Regulations

2.7.1.    Using AI to Ensure Compliance with Energy Efficiency Standards (LEED, BREEAM)
2.7.2.    Artificial Intelligence Tools for Energy Audit and Certification of Projects
2.7.3.    Impact of Regulations on Artificial Intelligence-Supported Sustainable Architecture

2.8.    Life Cycle Assessment and Environmental Footprint with Enernoc

2.8.1.    Artificial Intelligence Integration for Life Cycle Analysis of Building Materials
2.8.2.    Using Enernoc to Assess Carbon Footprint and Sustainability
2.8.3.    Model Projects Using AI for Advanced Environmental Assessments

2.9.    Energy Efficiency Education and Awareness with Verdigris

2.9.1.    Role of AI in Energy Efficiency Education and Awareness
2.9.2.    Using Verdigris to Teach Sustainable Practices to Architects and Designers
2.9.3.    Initiatives and Educational Programs Using Artificial Intelligence to Promote a Cultural Change Toward Sustainability

2.10.    Future of Space Optimization and Energy Efficiency with ENBALA

2.10.1.    Exploration of Future Challenges and the Evolution of Energy Efficiency Technologies
2.10.2.    Emerging Trends in Artificial Intelligence for Spatial and Energy Optimization
2.10.3.    Perspectives on How Artificial Intelligence Will Continue to Transform Architecture and Urban Design

Module 3. Parametric Design and Digital Manufacturing

3.1.    Advances in Parametric Design and Digital Fabrication with Grasshopper

3.1.1.    Using Grasshopper to Create Complex Parametric Designs
3.1.2.    Integrating AI into Grasshopper to Automate and Optimize Design
3.1.3.    Flagship Projects Using Parametric Design for Innovative Solutions

3.2.    Algorithmic Optimization in Design with Generative Design

3.2.1.    Application of Generative Design for Algorithmic Optimization in Architecture
3.2.2.    Using AI to Generate Efficient and Novel Design Solutions
3.2.3.    Examples of How Generative Design Has Improved the Functionality and Aesthetics of Architectural Projects

3.3.    Digital Fabrication and Robotics in Construction with KUKA PRC

3.3.1.    Implementing Robotics Technologies such as KUKA PRC in Digital Fabrication
3.3.2.    Advantages of Digital Manufacturing in Precision, Speed and Cost Reduction
3.3.3.    Digital Manufacturing Case Studies Highlighting Successful Integration of Robotics in Architecture

3.4.    Adaptive Design and Manufacturing with Autodesk Fusion 360

3.4.1.    Using Fusion 360 to Design Adaptive Architectural Systems
3.4.2.    Implementing AI in Fusion 360 for Mass Customization
3.4.3.    Innovative Projects Demonstrating the Potential for Adaptability and Customization

3.5.    Sustainability in Parametric Design with Topology Optimization

3.5.1.    Applying Topology Optimization Techniques to Improve Sustainability
3.5.2.    Integrating Artificial Intelligence to Optimize Material Usage and Energy Efficiency
3.5.3.    Examples of How Topological Optimization Has Improved the Sustainability of Architectural Projects

3.6.    Interactivity and Spatial Adaptability with Autodesk Fusion 360

3.6.1.    Integrating Real-Time Data and Sensors to Create Interactive Architectural Environments
3.6.2.    Using Autodesk Fusion 360 in Adapting Design in Response to Environmental or Usage Changes
3.6.3.    Examples of Architectural Projects Using Spatial Interactivity to Improve User Experience

3.7.    Efficiency in Parametric Design

3.7.1.    Applying Parametric Design to Optimize Sustainability and Energy Efficiency of Buildings
3.7.2.    Using Simulations and Life Cycle Analysis Integrated with AI to Improve Green Decision-Making
3.7.3.    Cases of Sustainable Projects Where Parametric Design Has Been Crucial

3.8.    Mass Customization and Digital Manufacturing with Magic (Materialise)

3.8.1.    Exploring the Potential of Mass Customization through Parametric Design and Digital Manufacturing
3.8.2.    Applying Tools such as Magic to Customize Architectural and Interior Design
3.8.3.    Outstanding Projects Showcasing Digital Manufacturing in the Customization of Spaces and Furniture

3.9.    Collaboration and Collective Design Using Ansys Granta

3.9.1.    Using Ansys Granta to Facilitate Collaboration and Decision Making in Distributed Design
3.9.2.    Methodologies to Improve Innovation and Efficiency in Collaborative Design Projects
3.9.3.    Examples of How Artificial Intelligence-Enhanced Collaboration Can Lead to Innovative and Sustainable Results

3.10.    Challenges and the Future of Digital Manufacturing and Parametric Design

3.10.1.    Identifying Emerging Challenges in Parametric Design and Digital Manufacturing
3.10.2.    Future Trends and the Role of Artificial Intelligence in the Evolution of These Technologies
3.10.3.    Discussion of How Continuous Innovation Will Affect Architectural Practice and Design in the Future

Discover Relearning, a system that abandons conventional linear learning, to take you through cyclical teaching systems: a way of learning that has proven to be extremely effective, especially in subjects that require memorization"