This program offers you immense possibilities for professional growth. Enroll today”

R+D+I is the basis of evolution in any area. In the field of Information and Communication Technologies, this program covers the newest technologies and areas of study, as well as the most disruptive and surprising practical applications that can be found. It is difficult to find a professional master’s degree that addresses the topic of Smart Cities and Digital Twins or Blockchain in the same program. This is precisely what makes this program one of a kind in the market, since engineers who take it will be unique professionals in their field.

Under the guidance of accredited professionals who use them on a daily basis, students will develop a highly specialized vision that will allow them to focus on advanced technological projects using the latest technologies in an appropriate manner. This will generate a differential added value for the good use and correct application of these technologies. Students will also have a global vision of the different technologies involved in global digitalization and will have the ability to successfully apply them.

Over the course of 12 months, students will gain an in-depth understanding of each technology's scope of application, understanding the competitive advantages they provide, positioning them at the technological forefront and enabling them to lead ambitious projects in the present and the future. Additionally, this program has the best 100% online study methodology, which eliminates the need to attend classes in person or have to comply with a predetermined schedule.

Companies are constantly looking for experts in disruptive technologies to drive their market and you could be the perfect candidate”

This professional master’s degree in Research and Innovation in Information and Communication Technology contains the most complete and up-to-date program on the market. The most important features include:

• The development of practical cases presented by experts in Research and Innovation in Information and Communication Technologies
• The graphic, schematic, and practical contents with which they are created, provide practical information on the 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

This specialization program will allow you to identify technology application cases and approach the different practical cases from a broad perspective”

The program includes, in its teaching staff, professionals from the sector who bring to this program the experience of their work, in addition to recognized specialists from prestigious reference societies and universities.

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

The design of this program focuses on Problem-Based Learning, by means of which professionals must and develop to solve the different professional practice situations that arise during the program. For this purpose, the student will be assisted by an innovative interactive video system created by renowned and experienced experts.

Develop the ability to be innovative in the market and change people's lives as an active part of the real digital transformation"

Position yourself at the cutting edge of technology and lead ambitious present and future projects"

This program's main objective is for students to update their knowledge and specialize in the latest technologies and areas of study, as well as in the most disruptive practical applications. In this way, it covers topics ranging from cloud computing, the Internet of Things and Digital Twins, to smart cities, Blockchain and Artificial Intelligence. If there is something that differentiates this professional master’s degree from any other on the market, it would be, firstly, that it addresses the 6 most innovative technologies of today and, secondly, that it approaches them from a practical and innovative business perspective.

Give your career a boost by addressing today's latest technologies from a practical and innovative business perspective”

General Objectives

• Establish the basis for a correct foundation in the IoT, EIoT and IIoT field
• Acquire a global vision of the IoT project, as the project as a whole provides greater added value
• Analyze the current landscape of Digital Twins and associated technologies
• Generate specialized knowledge on Blockchain technology.
• Develop specialized knowledge of NLP and NLU
• Examine the operation of Word Embeddings
• Analyze the mechanism of Transformers
• Develop case studies where NLP can be applied
• Demonstrate the differences between quantum and classical computing by analyzing their mathematical foundations
• Develop and demonstrate the advantages of quantum computing in application solving examples (games, examples, programs)

Specific Objectives

Module 1. Communication Innovation with Cloud Computing

• Examine the different Cloud providers and Microsoft's specific offer with Azure
• Analyze the six ways in which MS Azure provides access to the administration and configuration of its services
• Examine the various computing services Azure has to offer
• Generate specialized knowledge on Azure web services platforms
• Develop the features and advantages of the “On Cloud Storage offered by Azure
• Determine which storage options are most beneficial in each case
• Delve into Azure IoT cloud services and MS Azure AI services
• Gain further understanding of Azure Security features and acquire advanced knowledge to ensure Data Security in the Cloud

Module 2. IoT. Service Applications from I 4.0 (4.0 Industries)

• Establish the appropriate criteria to start and manage a project in an IoT environment
• Analyze the most relevant IoT architecture techniques
• Develop thinking skills from start to finish Methodology (CRISP_DM)
• Examine, in-depth, the existing free software options
• Delve into all areas where technology can be added to connected objects
• Monitor projects through a Dashboard
• Acquire the ability to quantify not only the IoT value contribution to society, but also to quantify economically this type of technology

Module 3. Digital Twins. Innovative Solutions

• Acquire a detailed view of the influence of the Digital Twins on the future of product and service development
• Pinpoint the applications of the Digital Twins
• Demonstrate the utility of Digital Twins in the value chain
• Determine specific uses of Digital Twins
• Assess the feasibility of implementing a Digital Twin
• Identify concrete cases of application of the Digital Twins
• Justify uses and models of the Digital Twins
• Generate interest in the implementation of models

Module 4. Smart Cities as innovation tools

• Analyze the technological platform
• Determine what a City Digital Twin is (Virtual Model)
• Establish which are the monitoring layers: density, movement, consumptions, water, wind, solar radiation, etc
• Carry out a comparative analysis of the following variables
• Integrate the different sensor networks (IoT/M2M) as well as the behavioral parameters of the inhabitants of the city (treated as human sensors)
• Develop a detailed vision of how Smart Cities will influence the future of people
• Establish new uses of Smart Cities
• Generate interest in the implementation of smart city models

Module 5. R&D in Complex Software Systems. Blockchain. Public and Private Nodes

• Analyze requirements for solution definition
• Develop solutions based on Blockchain technologies (C#/Go)
• Optimize the performance of already implemented solutions
• Establish the basis for enabling the scalability of such solutions
• Fundamentalize the application of different tools, algorithms, Frameworks or platforms in the implementation of Blockchain solutions

Module 6. Data Operations in Blockchain. Innovation in Information Management

• Identify improvement points within existing architectures
• Evaluate the costs of applying the improvements to be implemented
• Fundamentalize the application of different tools in the implementation of Blockchain solutions

Module 7. R&D and AI NLP/NLU. Embeddings and Transformers

• Develop specialized knowledge of NLP (Natural Language Processing)
• Determine what is NLU Natural Languge Understanding
• Differentiate between NLP and NLU
• Understanding the use of Word Embedings and examples using Word2vec
• Analyze Transformers
• Examine examples of various Applied Transformers
• Delve into the NLP/NLU field through common Case Studies

Module 8. R&D and AI Computer Vision. Object Identification and Tracking

• Analyze what Computer Vision is
• Determine typical computer vision tasks
• Analyze, step by step, how convolution works and how Transfer Learning works
• Identify what mechanisms we have available to create modified images, from original to have more training data
• Compile typical tasks that can be performed with computer vision
• Examine commercial computer vision use cases

Module 9. Quantum Computing. A New Model of Computing

• Analyze the need for quantum computing and identify the different types of quantum computers currently available
• Specify the fundamentals of quantum computing and its characteristics
• Examine the applications of quantum computing, advantages and disadvantages
• Determine the basic fundamentals of quantum algorithms and their internal mathematics
• Examine Hilbert space of dimension 2n, n-Qubits, states, quantum gates and their reversibility
• Demonstrate Quantum Teleportation
• Analyze Deutsch's Algorithm, Shor's Algorithm and Grover's Algorithm
• Develop examples of applications with quantum algorithms

Module 10. Quantum Machine Learning. Future Artificial Intelligence

• Analyze quantum computing paradigms relevant to machine learning
• Examine the various ML algorithms available in quantum computing, both supervised and unsupervised
• Determine the different DL algorithms available in quantum computing
• Develop pure quantum algorithms for solving optimization problems
• Generate specialized knowledge on hybrid algorithms (quantum computation and classical computation) to solve learning problems
• Implement learning algorithms on quantum computers
• Establish the current status of QML and its immediate future

 Immerse yourself in the most relevant technologies that will play a major role in the technological advances of the future”