A 100% online format that will adapt to your personal and professional possibilities with the support of a teaching team that will guarantee your education"

Advances in e-Health have created possibilities for personalized and automated healthcare. In this case, medical artificial intelligence makes it possible to monitor patients remotely or thanks to diagnostic imaging. Today, among the optimal advantages offered by telemedicine, they manage to save lives not only of patients, but also of healthcare professionals. 

To create tools that project the usefulness of artificial intelligence in this field, expert engineers are required to master technological infrastructures, diagnostic, surgical and biomechanical devices, and to be able to create industrial diagnostic instruments. TECH offers this program to engineering graduates who want to develop their career towards the future of healthcare. This orientation will be guided in an exhaustive way by expert teachers in the area, who will guarantee their education. 

The 100% online modality applied by TECH to investigate in this field, creates new online learning formulas, which provide facilities to the students. This postgraduate diploma in Applications of Artificial Intelligence, IoT, and Medical Devices in Telemedicine will be taught through audiovisual content that will be available to students whenever and wherever they need it, even at the end of the program.

Enroll in a program that will not only teach you to understand the operation of healthcare devices, but will also focus you on the technological perspective required for telemedicine"

This postgraduate diploma in Applications of Artificial Intelligence, IoT, and Medical Devices in Telemedicine contains the most complete and up-to-date scientific program on the market. Its most notable features are:

• The development of practical cases presented by experts in artificial intelligence and medical devices in telemedicine
• 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

Remote patient monitoring is now possible, explore its benefits against infectious diseases and become an expert in interactive telemedicine"

The program’s teaching staff includes professionals from the sector who contribute their work experience to this educational 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, the student will be assisted by an innovative interactive video system created by renowned and experienced experts.  

Still think artificial intelligence is our competitor? Sign up to become an expert in this area with GUP professionals.

Thanks to the knowledge that TECH will transmi, you will learn about the multiple advantages that IoT brings by communicating devices with each other.

In order to create an effective learning process, TECH has developed an educational content that will bring you closer to the technological infrastructure in telemedicine. Thanks to the audiovisual content and its downloadability, students will have all the tools at their disposal to study this postgraduate diploma. This program will enable students to find new solutions in computer applications and telemedicine. In this way, the graduate in Engineering will become an expert in information and communication technologies (ICT) in the health field and being considered competitive in terms of employability in the e-Health market.

A program designed to make you part of the experts of the future and be able to predict COVID-19 outbreaks through artificial intelligence"

General Objectives

• Develop key concepts of medicine that serve as a vehicle to understand clinical medicine
• Determine the major diseases affecting the human body, classified by apparatus or systems, structuring each module into a clear outline of pathophysiology, diagnosis, and treatment
• Determine how to obtain metrics and tools for healthcare management
• Understand the basics of basic and translational scientific methodology
• Examine the ethical and best practice principles governing the different types of research in health sciences
• Identify and generate the means of funding, assessing and disseminating scientific research
• Identify the real clinical applications of the various techniques
• Develop the key concepts of computational science and theory
• Determine the applications of computation and its implication in bioinformatics
• Provide the necessary resources to practically apply all the concepts in the modules
• Develop the fundamental concepts of databases
• Determine the importance of medical databases
• Delve into the most important techniques in research
• Identify the opportunities offered by the IoT in the field of e-Health
• Provide specialized knowledge of the technologies and methodologies used in the design, development and assessment of telemedicine systems
• Determine the different types and applications of telemedicine
• Delve into the most common ethical aspects and regulatory frameworks of telemedicine
• Analyze the use of medical devices
• Develop the key concepts of entrepreneurship and innovation in e-Health
• Determine what a business model is and the types that exist
• Collect e-Health success stories and mistakes to avoid
• Apply the knowledge acquired to an original business idea

Specific Objectives 

Module 1. Applications of Artificial Intelligence and the Internet of Things (IoT) in Telemedicine

• Propose communication protocols in different scenarios in the healthcare field 
• Analyze IoT communication, as well as its application areas in e-Health 
• Substantiate the complexity of artificial intelligence models in its use in healthcare
• Identify the optimization brought by parallelization in GPU-accelerated applications and its use in healthcare
• Present all the Cloud technologies available to implement e-Health and the IoT products, both in computing and communication

Module 2. Telemedicine and Medical, Surgical and Biomechanical Devices

• Analyze the evolution of telemedicine 
• Assess the benefits and limitations of telemedicine
• Examine the different types, use and clinical benefits of telemedicine 
• Assess the most common ethical issues and regulatory frameworks surrounding telemedicine
• Establish the use of medical devices in healthcare in general and in telemedicine specifically
• Determine the use of the Internet and the medical resources it provides 
• Delve into the main trends and future challenges in telemedicine

Module 3. Business Innovation and Entrepreneurship in E-Health

• Analyze the e-Health market in a systematic and structured way 
• Learn the key concepts of innovative ecosystems 
• Create businesses using the Lean Startup methodology 
• Analyze the market and competitors 
• Find a solid value proposition in the marketplace 
• Identify opportunities and minimize rates of error 
• Handle practical tools to analyze the environment and to quickly test and validate business ideas

TECH objective is to provide you with knowledge that will position you at the top of the e-Health market thanks to the Lean Startup methodology"