Through this 100% online Postgraduate diploma, you will master the most innovative Artificial Intelligence techniques to maximize the efficient use of space and design more functional architectural projects.”

According to a recent report by the International Association of Building Sciences, the implementation of Artificial Intelligence-based Simulation technologies has been shown to improve efficiency in architectural design by 40%. The company also highlights that its tools lead to a 28% reduction in Heritage Preservation costs by enabling more effective predictive modeling. Faced with this reality, architects need to develop advanced skills to carry out more comprehensive simulations in order to significantly optimize the quality of their infrastructures.

In this fram Simulation, Optimization and Preservation of Spaces Using Artificial Intelligence. Simulation, Optimization and Preservation of Spaces using Artificial Intelligence. The academic itinerary will focus on issues such as spatial optimization using Autodesk Revit, the realization of energy performance metrics with SketchUp and bioclimatic design. In this way, students will develop advanced skills to maximize efficiency in the use of space, resulting in more functional and sustainable designs. In tune with this, the didactic materials will analyze the application of Machine Learning algorithms; which will allow graduates to design highly 
innovative constructions.

On the other hand, regarding the methodology of the university program, TECHoffers a fully online learning environment that gives architects the flexibility to adapt to their schedules. In addition, it employs its revolutionary Relearning system, based on the repetition of key concepts to fix the knowledge and guarantee long-lasting learning. The only thing students will need is an electronic device with Internet access to access the Virtual Campus. On this platform they will find a variety of multimedia resources such as explanatory videos, case studies or specialized readings. Undoubtedly, an immersive experience that will help architects improve their job prospects considerably.

You will have the support of the largest online academic institution in the world,TECH, with the latest educational technology at your disposal”

This Postgraduate diploma in Simulation, Optimization and Preservation of Spaces Using Artificial Intelligence  contains 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 complete and practical information on those disciplines that are essential for professional practice
• Practical exercises where the self-assessment process can be carried out 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 apply the latest photogrammetry and laser scanning techniques in documentation to preserve historical authenticity? Get it with this university program”

The program’s teaching staff includes professionals from the industry who contribute their work experience to this program, as well as renowned specialists from leading societies and prestigious 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.

With TECH disruptive Relearning methodology you will be able to consolidate the most complex concepts quickly and effectively, without the need to invest long hours of study"

You will delve into the simulation of construction processes with CityEngine to create detailed three-dimensional urban models"

This program has been developed by recognized experts in Simulation, Optimization and Preservation of Spaces through Artificial Intelligence. Therefore, the syllabus will go in depth on issues ranging from the optimization of spaces with Autodesk Revit or the use of Trimble to obtain detailed energy analysis to the most effective bioclimatic design strategies to make the most of natural resources. In this way, students will obtain advanced skills to model the behavior of infrastructures in different conditions and scenarios. In addition, the syllabus will provide the keys to implement algorithms to make data-driven decisions and create efficient designs.

You will develop the most effective strategies for the restoration of Historical and Cultural Spaces through comprehensive simulations”

Module 1. Space Optimization and Energy Efficiency with Artificial Intelligence

1.1. Optimizing Spaces with Autodesk Revit And Artificial Intelligence

1.1.1. Using Autodesk Revit And Artificial Intelligence for Spatial Optimization and Energy Efficiency
1.1.2. Advanced Techniques for Improving Energy Efficiency in Architectural Designs
1.1.3. Case Studies of Successful Projects Combining Autodesk Revit with AI

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

1.2.1. Applying SketchUp and Trimble Tools for Detailed Energy Analysis
1.2.2. Developing Energy Efficiency Metrics Using Artificial Intelligence
1.2.3. Strategies for Setting Energy Efficiency Goals for Architectural Projects

1.3. Bioclimatic Design and Artificial Intelligence-Optimized Solar Orientation

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

1.4. AI-Assisted Sustainable Materials and Technologies with Cityzenit

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

1.5. Urban Planning and Energy Efficiency with WattPredictor and AI

1.5.1. AI Strategies for Energy Efficiency in Urban Design
1.5.2. Implementing WattPredictor to Optimize Energy Use in Public Spaces
1.5.3. Successful Cases of Cities Using AI to Improve Urban Sustainability

1.6. Intelligent Energy Management with Google DeepMind's Energy

1.6.1. Applications of DeepMind Technologies for Energy Management
1.6.2. Implementing Artificial Intelligence for Energy Consumption Optimization
1.6.3. Assessment of Cases Where Artificial Intelligence Has Transformed Energy Management in Communities and Buildings

1.7. Artificial Intelligence-Assisted Energy Efficiency Certifications and Regulations

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

1.8. Life Cycle Assessment and Environmental Footprint with Enernoc

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

1.9. Energy Efficiency Education and Awareness with Verdigris

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

1.10. Future of Space Optimization and Energy Efficiency with ENBALA

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

Module 2. Simulation and Predictive Modeling with Artificial Intelligence

2.1. Advanced Simulation Techniques with MATLAB in Architecture

2.1.1. Using MATLAB for Advanced Architectural Simulations
2.1.2. Integrating Predictive Modeling and Big Data Analytics
2.1.3. Case Studies Where MATLAB Has Been Fundamental in Architectural Simulation

2.2. Advanced Structural Analysis with ANSYS

2.2.1. Implementing ANSYS for Advanced Structural Simulations in Architectural Projects
2.2.2. Integrating Predictive Models to Evaluate Structural Safety and Durability
2.2.3. Projects Highlighting the Use of Structural Simulations in High Performance Architecture

2.3. Modeling Space Use and Human Dynamics with AnyLogic

2.3.1. Using AnyLogic to Model the Dynamics of Space Use and Human Mobility
2.3.2. Applying AI to Predict and Improve the Efficiency of Space Use in Urban and Architectural Environments
2.3.3. Case Studies Showing How Simulation Influences Urban and Architectural Planning

2.4. Predictive Modeling with TensorFlow in Urban Planning

2.4.1. Implementing TensorFlow for Modeling Urban Dynamics and Structural Behavior
2.4.2. Using AI to Predict Future Outcomes in City Design
2.4.3. Examples of How Predictive Modeling Influences Urban Planning and Design

2.5. Predictive Modeling and Generative Design with GenerativeComponents

2.5.1. Using GenerativeComponents to Merge Predictive Modeling and Generative Design
2.5.2. Applying Machine Learning Algorithms to Create Innovative and Efficient Designs
2.5.3. Examples of Architectural Projects that Have Optimized Their Design Using These Advanced Technologies

2.6. Simulation of Environmental Impact and Sustainability with COMSOL

2.6.1. Applying COMSOL for Environmental Simulations in Large-Scale Projects
2.6.2. Using AI to Analyze and Improve the Environmental Impact of Buildings
2.6.3. Projects that Show How Simulation Contributes to Sustainability

2.7. Simulation of Environmental Performance with COMSOL

2.7.1. Applying COMSOL Multiphysics for Environmental and Thermal Performance Simulations
2.7.2. Using Artificial Intelligence to Optimize Design Based on Daylighting and Acoustics Simulations
2.7.3. Examples of Successful Implementations That Have Improved Sustainability and Comfort

2.8. Innovation in Simulation and Predictive Modeling

2.8.1. Exploration of Emerging Technologies and Their Impact on Simulation and Modeling
2.8.2. Discussion of How Artificial Intelligence Is Changing Simulation Capabilities in Architecture
2.8.3. Evaluation of Future Tools and Their Potential Applications in Architectural Design

2.9. Simulation of Construction Processes with CityEngine

2.9.1. Applying CityEngine to Simulate Construction Sequences and Optimize On-Site Workflows
2.9.2. AI Integration for Modeling Construction Logistics and Coordinating Activities in Real-Time
2.9.3. Case Studies Showing Improved Construction Efficiency and Safety through Advanced Simulations

2.10. Challenges and Future of Simulation and Predictive Modeling

2.10.1. Assessment of Current Challenges in Simulation and Predictive Modeling in Architecture
2.10.2. Emerging Trends and the Future of These Technologies in Architectural Practice
2.10.3. Discussion on the Impact of Continued Innovation in Simulation and Predictive Modeling in Architecture and Construction

Module 3. Heritage Preservation and Restoration with Artificial Intelligence

3.1. Artificial Intelligence Technologies in Heritage Restoration with Photogrammetry

3.1.1. Using Photogrammetry And Artificial Intelligence for Accurate Heritage Documentation and Restoration
3.1.2. Practical Applications in the Restoration of Historic Buildings
3.1.3. Outstanding Projects Combining Advanced Techniques and Respect for Authenticity

3.2. Predictive Analysis for Conservation with Laser Scanning

3.2.1. Implementing Laser Scanning and Predictive Analytics in Heritage Conservation
3.2.2. Using Artificial Intelligence to Detect and Prevent Deterioration in Historic Structures
3.2.3. Examples of How These Technologies Have Improved Accuracy and Efficiency in Conservation

3.3. Cultural Heritage Management with Virtual Reconstruction

3.3.1. Applying Artificial Intelligence-Assisted Virtual Reconstruction Techniques
3.3.2. Strategies for Digital Heritage Management and Preservation
3.3.3. Success Stories in the Use of Virtual Re-Enactment for Education and Preservation

3.4. Preventive Conservation and Artificial Intelligence-Assisted Maintenance

3.4.1. Using Artificial Intelligence Technologies to Develop Strategies for Preventive Conservation and Maintenance of Historic Buildings
3.4.2. Implementing Artificial Intelligence-Based Monitoring Systems for Early Detection of Structural Problems
3.4.3. Examples of How Artificial Intelligence Contributes to the Long-Term Conservation of Cultural Heritage

3.5. Digital Documentation and BIM in Heritage Preservation

3.5.1. Applying Advanced Digital Documentation Techniques, including BIM and Augmented Reality, Assisted by Artificial Intelligence
3.5.2. Using BIM Models for Efficient Heritage Management and Restoration
3.5.3. Case Studies on the Integration of Digital Documentation in Restoration Projects

3.6. Artificial Intelligence-Assisted Preservation Policies and Management

3.6.1. Using Artificial Intelligence-Based Tools for Management and Policy Making in Heritage Preservation
3.6.2. Strategies for Integrating Artificial Intelligence into Conservation-Related Decision-Making
3.6.3. Discussion of How AI Can Improve Collaboration Among Institutions for Heritage Preservation

3.7. Ethics and Responsibility in Artificial Intelligence Restoration and Preservation

3.7.1. Ethical Considerations in the Application of Artificial Intelligence in Heritage Restoration
3.7.2. Debate on the Balance between Technological Innovation and Respect for Historical Authenticity
3.7.3. Examples of How Artificial Intelligence Can Be Used Responsibly in Heritage Restoration

3.8. Innovation and the Future of Heritage Preservation with Artificial Intelligence

3.8.1. Perspectives on Emerging Artificial Intelligence Technologies and Their Application in Heritage Preservation
3.8.2. Assessing the Potential of Artificial Intelligence to Transform Restoration and Conservation
3.8.3. Discussion on the Future of Heritage Preservation in an Era of Rapid Technological Innovation

3.9. Cultural Heritage Education and Awareness with GIS

3.9.1. Importance of Public Education and Awareness in Cultural Heritage Preservation with GIS
3.9.2. Using Geographical Information Systems (GIS) to Promote the Valuation and Knowledge of Cultural Heritage
3.9.3. Successful Education and Outreach Initiatives Using Technology to Teach about Cultural Heritage

3.10. Challenges and the Future of Heritage Preservation and Restoration

3.10.1. Identification of Current Challenges in Cultural Heritage Preservation
3.10.2. Role of Technological Innovation and Artificial Intelligence in Future Conservation and Restoration Practices
3.10.3. Perspectives on How Technology Will Transform Heritage Preservation in the Coming Decades

The teaching materials of this program, elaborated by these specialists, have contents that are completely applicable to your professional experiences"