DEGREE

DEGREE

Higher University Technologist in Occupational Safety and Risk Prevention

CES Resolution

RPC-SO-43-No.655-2025

DURATION

3 years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train University Technologists of excellence, creative, humanistic with leadership capacity to solve problems in workplace safety, psychosocial risks, industrial hygiene and applied ergonomics, with technical professional judgment and social responsibility, to promote safe and healthy work environments.

By 2030, to be a benchmark in the training of higher university technologists in occupational safety and risk prevention, recognized nationally for their high technical level with ethical, civic, and community service values.

To train professionals qualified to identify, analyze, evaluate, and manage occupational risks in various productive sectors, ensuring safety and health, with technical and practical competencies that enable the implementation of preventive and corrective measures, based on Ecuadorian legal regulations and standards, to reduce workplace accidents, occupational diseases, and improve working conditions in the country. Additionally, it focuses on promoting a culture of safety and well-being in the work environment.

To develop in students technical competencies for the identification, measurement, and evaluation of occupational risks through the application of methodologies, instruments, and current standards, enabling the diagnosis of unsafe conditions and risk factors in different work environments.

To strengthen the capacity to design, implement, and supervise occupational risk prevention programs, integrating technical, administrative, and personal protection control measures, in accordance with Ecuadorian legal regulations and international occupational safety and health standards.

To foster the training of professionals with critical thinking and a preventive approach, capable of promoting an organizational safety culture through training, awareness, and continuous improvement processes that contribute to workplace well-being and the reduction of accidents and occupational diseases.

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Learn about the foundations of the program

Profiles and outcomes

The professional we train and the competencies you will develop

To develop competencies and attitudes that enable the future technologist to improve quality of life, the work environment, safety, and sustainability, emphasizing respect for life, physical integrity, and the safety of individuals, and valuing the work environment as a space to protect.
To promote a sociocultural transformation oriented toward creating safer, healthier, and more supportive work environments, based on ethical, innovative practice committed to research, respect for cultural diversity, and ancestral knowledge.
To participate in responsible actions that protect people and the environment, acting autonomously, collaboratively, and supportively in implementing strategies to reduce occupational risks and improve safety.
To act with responsibility, empathy, and respect, integrating ethical and bioethical principles in safety management, defending the rights of workers and vulnerable groups in the workplace.
To actively participate in projects and programs aimed at improving workplace safety, aligning with sustainable development and accident prevention strategies, combining ethical, legal, intercultural, gender, and equity knowledge to manage innovative projects that improve safety and quality of life in the work environment.
To integrate values of continuous improvement through constant learning and the application of the scientific method in their professional field.

The graduate profile of the Occupational Safety and Risk Prevention program comprises the set of integrated knowledge organized coherently and consistently oriented toward understanding the various problems and thematic areas of the profession’s object. To this end, the knowledge and skills that students must deepen are selected in a theoretical-practical relationship, with the purpose of developing competencies that will be applied in the workplace. These are detailed below:

To implement agile management methodologies (5S) integrated with digital tools for classification, order, cleanliness, standardization, and discipline, contributing to the reduction of accidents and occupational diseases, and improving operational efficiency.
To apply industrial safety standards, protocols, and procedures, in accordance with current legislation, ensuring safe conditions in operations and production processes.
To apply standardized methodologies and appropriate technologies in the identification, measurement, analysis, evaluation, and control of occupational risks, promoting continuous improvement in occupational safety and health management systems.
To monitor the requirements of regulatory entities related to workplace safety, ensuring regulatory compliance and strengthening the preventive culture in organizations.
To record and interpret standardized risk matrices, identifying hazards in different work environments and proposing appropriate corrective and preventive measures.
To apply emerging technologies and specialized software for risk management, preparation of technical reports, and data analysis in workplace safety.

Apply methods and methodologies for risk identification

Design and apply safety management models

Develop and implement safety protocols

Optimize risk prevention processes

Implement emergency response procedures

Develop research capabilities for workplace safety

Develop continuous improvement procedures in OSH

Train and educate personnel in safety procedures

Monitor and evaluate processes through safety audits

Curriculum Structure

Academic structure of the program

Current Curriculum

Program Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

Article 356 of the Constitution of the Republic establishes, among other principles, that third-level public higher education shall be tuition-free, and that this gratuity is linked to the academic responsibility of students.

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Higher University Technology in

Occupational Safety and Risk Prevention

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Sangolquí

DEGREE

Bachelor’s Degree in International Relations

CES Resolution

RPC-SO-07-No.116-2022

DURATION

4 Years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train outstanding professionals and researchers in International Relations—creative, humanistic, with leadership skills, critical thinking, and a strong sense of civic responsibility—committed to contributing to national development and addressing the needs of society and the Armed Forces.

To be an International Relations program recognized at the national and regional levels for excellence in academic training, knowledge production, and its contribution to the analysis and management of global affairs, strategically supporting the strengthening of security and defense, in alignment with the ethical, civic, and community service values that guide the Armed Forces University ESPE.

To train graduates in International Relations with integrity, critical thinking, analytical breadth, and academic rigor, committed to the primacy of the State’s interests. To prepare professionals capable of analyzing the international context by identifying actors and processes—particularly those related to security—and of designing strategies and plans at the political-strategic level. All of this is grounded in the integration of basic and advanced theoretical and practical knowledge of the discipline, aimed at achieving national objectives.

a. Knowledge:

To organize learning environments based on the epistemological foundations and fundamental principles of International Relations, as well as the fields of security, conflict, and cooperation among States, applying the postulates of political science, economics, history, and law. This is achieved through processes that enable students to demonstrate integrity, critical thinking, breadth of perspective, and academic rigor, prioritizing the interests of the State over individual interests.

b. Relevance:

To integrate the dynamics of theory and practice through the design of research and projects involving advanced analytical assessment of strategic and security components, aiming to identify conflict-related processes associated with decision-making in strategic and international security sectors, in order to contribute to the transformation of the country’s cognitive and social framework.

c. Learning:

To manage learning environments that enable students to bridge theory and practice, designing analytical scenarios that integrate commercial, political, and cultural ties—and their consequences at the national and international levels—from a strategic and geopolitical perspective.

d. Interculturality:

To integrate the International Relations program with the community and societal stakeholders, addressing social, cultural, ecological, ancestral, and gender diversity through the practical application of development theories, as an ethical commitment.

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Profiles and outcomes

The professional we train and the competencies you will develop

The Bachelor’s graduate in International Relations from the Armed Forces University ESPE is a well-rounded professional with a solid academic background, critical thinking, and a strategic vision, oriented toward understanding and managing international phenomena. They possess the ability to analyze the global environment by identifying actors, dynamics, and political, economic, and security groups, with an emphasis on those that impact national defense and the interests of the State.

Has the competencies to design, implement, and evaluate strategies and policies in the political-strategic field, as well as to provide advisory support in decision-making within public institutions, international organizations, and entities related to security and defense. Their education integrates theoretical and practical knowledge of International Relations, along with advanced analytical and methodological tools.

They are characterized by leadership, professional ethics, civic commitment, and a vocation for service, contributing to national development, the country’s international projection, and the preservation of security and State sovereignty.

Describes and analyzes reality based on the fundamental principles of International Relations, linking fields such as security, conflict, and cooperation among States, as well as the principles of political science, economics, and law; demonstrating integrity, critical thinking, breadth of perspective, and academic rigor, prioritizing national interests over individual ones.

Designs analytical scenarios that incorporate aspects related to trade relations and their consequences at both national and international levels, from a strategic and geopolitical perspective; demonstrating integrity, critical thinking, breadth of perspective, and academic rigor, prioritizing national interests over individual ones.

Designs research and projects involving advanced analytical assessment of strategic and security components, through the identification of conflict-related processes associated with decision-making in strategic and international security sectors; demonstrating integrity, critical thinking, breadth of perspective, and academic rigor, prioritizing national interests over individual ones.

Recognizes the fundamental principles of International Relations through the comparison of theoretical models and the development of basic analyses of actors and general processes from an exploratory approach, using the State and International Organizations as units of analysis.

Describes, through a deductive approach, the basic processes and actors of the international system using theoretical and conceptual frameworks from International Relations, political science, and administration, based on inference and the outcomes of community engagement.

Provides a general characterization of conflict-related processes in the international system by linking security, law, and development, using a deductive approach derived from the core principles of the discipline’s main subfields.

Designs a basic analytical model that enables the interpretation and evaluation of decisions and strategies in the fields of foreign policy and international political economy.

Designs an intermediate model for analysis and projection to improve specific aspects within Ecuador’s foreign policy decision-making process, through project management and evaluation under a methodological framework.

Designs an analytically valuable scenario that links aspects related to trade relations and their consequences for Ecuador’s interests, from a strategic and geopolitical perspective.

Designs an action plan based on advanced theoretical concepts and perspectives in geopolitics, security, and defense, aimed at optimizing decision-making in the political-strategic sector.

Designs an action plan based on advanced theoretical concepts and perspectives in peace and conflict studies, regionalism, and negotiation, aimed at optimizing decision-making in the political-strategic sector.

Designs, implements, and evaluates strategic plans associated with the conflict dynamics of Ecuador’s regional and neighboring environment, aimed at structurally improving analysis and decision-making processes in the political-strategic sphere.

Designs, implements, and evaluates strategic plans related to conflict processes in South America and emerging threats, aimed at structurally improving analysis and decision-making processes in the political-strategic sphere.

Curriculum Structure

Academic structure of the program

Current Curriculum

Career
Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

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Relaciones Internacionales

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Sangolquí

DEGREE

Civil Engineer

CES Resolution

RPC-SO-09_No. 086-2020

DURATION

4 Years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train Civil Engineers capable of designing, executing, and evaluating processes related to the production of goods and services in an integral manner, capable of promoting community development through participation in projects and works, protecting the environment and carrying out their activities with leadership, professional ethics, and fostering technological innovation.

By 2025, to be recognized as a program that contributes to national development, with active participation in projects, research, and community outreach for the solution of social problems.

To train Civil Engineers capable of applying basic sciences in models, design, construction, management, and supervision within the theoretical, technological, research, methodological, and instrumental fields in accordance with the advances, trends, and innovations of the profession’s science and technology, to solve problems in the areas of structures, hydro-sanitary systems, roads, and new, traditional, heritage, smart, and/or self-sustaining projects of small and medium magnitude, responding to the needs of society and culture in a critical and creative way, in harmony with the economic, financial, and environmental aspects of current regulations.

1. To knowledge and learning

Conceive, calculate, design, implement, and operate civil works projects in the areas of structures, roads and field, hydro-sanitary systems, projects, and construction throughout the training process, through a flexible curriculum centered on student learning, and incorporating an early approach to the profession through field visits, laboratory and field activities, as well as outreach actions through project proposals and execution that allow for the practical application of knowledge in a real context, with an ethical attitude, harmonizing technical, economic, financial, and environmental aspects with current regulations.

2. To relevance

Respond to the need for basic infrastructure, housing, sanitation, drinking water systems, sewerage, and roads, and contribute technical solutions to the destructive action of natural disasters, such as earthquakes, river flooding, landslides, and collapses, allowing for the improvement of citizens' living conditions through safe, comfortable, sustainable, and self-sufficient projects.

3. To learning processes

Develop competencies in students so that when conceiving, calculating, designing, implementing, and operating civil works projects in the areas of structures, roads and field, hydro-sanitary systems, projects, and construction, they are flexible, capable of contributing to innovation and creativity, and able to face uncertainties; they are interested in lifelong learning and prepared for it, with social sensitivity and communication skills; to work in teams, and to assume responsibilities for research and the application of new technologies.

4. To integral citizenship

Integrate management, innovation, research, and outreach in the projects undertaken, respecting interculturality, gender focus, participation, and ancestral knowledge, in pursuit of improving the population's quality of life.

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Profiles and outcomes

The professional we train and the competencies you will develop

The activities of a civil engineer are closely linked to the development of society and its economic growth. They are focused on civil works in the fields of:

Planning
Execution
Control
Administration
Operation
Maintenance

The graduate of the Civil Engineering program will be capable of solving problems, calculating, designing, constructing, auditing, planning, managing, advising, and researching in the areas of Structures; Roads and Field; Hydro-sanitary Systems; Projects and Construction, through the application of fundamental basic sciences, technical construction standards, and the use of cutting-edge technology; always acting with technical criteria, ethics, honesty, discipline, responsibility, and strict application of quality criteria.

Identifies the physical-geographical reality and the intrinsic characteristics of construction materials, respecting the surroundings and the environment of the areas of influence; characterizes materials from physical, chemical, and mechanical perspectives, applying practices based on scientific rigor, technical standards, and logical reasoning, using technical-practical language.

Prepares plans with graphical representation of Civil Engineering components and elements, in strict compliance with current regulations, using technical language and applying physical and mathematical theories, laws, principles, and concepts; performs analysis in the process of soil and deposit formation; recognizes the influence of increased moisture on soil behavior and calculates geostatic and surface-transmitted stresses to the soil; uses iterative modeling methods for the analysis and design of hydraulic works, respecting the economy, culture, environment, beliefs, and user requirements.

Calculates and designs essential structures in strict compliance with current regulations to guarantee safety and economy; through the planning, administration, and control of works and projects, integrating knowledge from the different areas of Civil Engineering.

Formulates, designs, and develops Civil Engineering projects, distributing activities, allocating resources, and utilizing technological innovations with the application of technical, legal, financial, and environmental regulations.

Develops earthquake-resistant projects using horizontal diaphragms, shear walls, energy dissipators, and seismic isolators; likewise, examines structures built with biomaterials using finite models and proposes the application of innovative biological, mechanical, and structural fundamentals.

Interprets and solves real-world problems by applying research methods, scientific methods, technological tools, and various information sources in national and foreign languages, with honesty, responsibility, teamwork, and respect for intellectual property.

Demonstrates leadership qualities and an entrepreneurial spirit for the management of business and social projects in the public and private sectors; and promotes a culture of environmental conservation in professional and social practice.

Applies knowledge of basic sciences and Civil Engineering sciences; analyzes, plans, designs, constructs, supervises, and evaluates Civil Engineering works; prevents and evaluates risks in civil works, as well as identifies, assesses, and implements the most appropriate technologies.

Curriculum Structure

Academic structure of the program

Current Curriculum

Gallery Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

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Civil Engineering

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DEGREE

University Higher Technologist in Electricity

CES Resolution

RPC-SO-49-No.742-2025

DURATION

3 years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train university higher technologists in electricity with strong technical, technological, and ethical competencies, capable of executing the installation, operation, maintenance, and optimization of electrical systems, contributing to sustainable development, energy efficiency, and the modernization of the country’s electrical sector.

To be a leading technological program at the national level in the training of human talent in electricity, recognized for its academic quality, engagement with society and the productive sector, and its contribution to sustainable energy development, through the integration of innovative technologies and continuous improvement processes.

To train university higher technologists in electricity with a high level of competencies to execute, operate, and maintain electrical systems in diverse environments, applying technical, regulatory, and safety procedures, integrating innovative and sustainable technologies that contribute to the development of the energy sector.

To develop in students the knowledge and skills required for the installation, operation, and maintenance of electrical systems, distribution networks, and electrical equipment.

To ensure the application of technical standards and safety protocols in the management of electrical installations and systems.

To promote the use of modern technologies such as automation, digital tools, and artificial intelligence in electrical processes.

To promote energy efficiency and the use of renewable energy sources in electrical systems, contributing to environmental protection.

To strengthen practical training through collaboration with companies in the electrical, industrial, and energy sectors.

To train students to diagnose faults and apply technical solutions in electrical systems.

To promote values of responsibility, professional ethics, and commitment to social and community development.

Experience the opportunity of studying a University Higher Technology program in Electricity

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Profiles and outcomes

The professional we train and the competencies you will develop

Graduates of the University Higher Technology program in Electricity will be competent professionals capable of executing installation, operation, maintenance, and coordination tasks for electrical systems, applying technical and regulatory procedures that ensure the safety, efficiency, and sustainability of electrical infrastructure.

The University Higher Technologist in Electricity will be a highly qualified professional capable of installing, operating, maintaining, and optimizing electrical systems, ensuring their efficiency, safety, and sustainability. Depending on their specialization pathway, they may work in various strategic fields within the electrical sector.

Specialization Pathway in Maintenance and Operation of Electrical Infrastructure:

The professional will be prepared for the installation, operation, and maintenance of electrical networks, distribution lines, and substations, applying advanced preventive and corrective maintenance methodologies.

In addition, they will be capable of managing electrical infrastructure through the use of innovative technologies and control systems, ensuring the reliability and continuity of power supply in industrial, commercial, and urban environments.

Installation and operation of renewable energy generation plants:

The professional specializes in the installation, operation, and maintenance of clean energy generation systems, with an emphasis on hydroelectric, solar, and wind power. They will be capable of integrating these technologies into the electrical grid, optimizing their efficiency and contributing to the sustainable energy transitio

In addition, they will apply energy efficiency strategies and environmental regulations to promote the responsible use of energy resources in industrial and community projects.

In both pathways, the technologist will demonstrate skills in the application of electrical regulations, project management, and the use of digital tools for the monitoring and control of electrical systems, thereby contributing to the country’s technological and energy development; additionally, they will be distinguished by their ability to work in teams, provide leadership in conventional and alternative electrical projects, promote sustainability and innovation, and actively contribute to the development of the energy sector and the country’s electrical infrastructure.

To develop knowledge in electrical fundamentals, electromagnetism, and power systems to design and maintain electrical infrastructure in accordance with international standards.

To operate and optimize electrical networks and substations, as well as the installation and operation of renewable generation plants with AI-based maintenance.

To apply automation (PLC, SCADA) and digital tools (CAD, georeferencing).

To manage electrical projects with a focus on energy efficiency and safety.

To diagnose faults and propose innovative solutions, complying with international standards and promoting safety and sustainability.

Curriculum Structure

Academic structure of the program

Current Curriculum

Gallery Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

Begin your path in

University Higher Technology

in Electricity

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DEGREE

University Higher Technologist in Electronics and Telecommunications with a Specialization Pathway in Networking and Network Securit

DEGREE

University Higher Technologist in Electronics and Telecommunications with a Specialization Pathway in Optical Networks

CES Resolution

RPC-SO-49-No.742-2025

DURATION

3 years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train technological professionals in Electronics and Telecommunications with strong technical, scientific, and ethical preparation, capable of implementing, operating, maintaining, and adapting electronic and telecommunications infrastructures, contributing to technological development, digital transformation, and reducing the connectivity gap in the country.

By 2030, the Electronics and Telecommunications program will be recognized at the regional and national levels for training highly competent university technologists with a practical approach, capacity for innovation, and strong links to the productive sector, contributing to the development of smart networks, advanced connectivity, and Ecuador’s digital transformation.

To train university higher technologists in Electronics and Telecommunications with competencies to implement, operate, maintain, and optimize electronic and telecommunications systems, ensuring the continuity, security, and efficiency of technological services across different productive sectors.

To develop competencies in the installation, configuration, and maintenance of telecommunications networks.

To strengthen skills in electronic systems applied to technological infrastructure.

To provide training in optical networks, mobile networks, and emerging technologies such as IoT and 5G.

To apply network monitoring, automation, and management tools.

To implement cybersecurity best practices within telecommunications environments.

To foster technical analysis and problem-solving in electronic and communication systems.

To promote applied research and technological innovation.

Experience the Advanced University Technology program in Electronics and Telecommunications.

Discover daily life in our classrooms, laboratories, and academic spaces. Students, faculty, and researchers share their stories.

Learn about the foundations of the program

Profiles and outcomes

The professional we train and the competencies you will develop

The Associate of Science in Electronics and Telecommunications is a professional with technical, scientific, and ethical training, oriented toward the implementation, integration, operation, supervision, and maintenance of electronic systems, telecommunications networks, and technological solutions.

Possesses an advanced university technology degree that enables high levels of technical autonomy and professional judgment, participating in the execution, support, and integration of technological projects across various industrial sectors.

Its scope of work focuses on the following areas:

Maintenance of electronic and telecommunications systems, ensuring the operational readiness, continuity, and reliability of equipment and technological infrastructure.
Integration of electronic security systems, home automation, building automation, and IoT, linking devices, sensors, and technology platforms to create smart solutions.
Deployment and maintenance of telecommunications systems, including fiber-optic networks and wireless systems.
Planning, implementation, deployment, administration, and monitoring of data networks in corporate and residential environments, both wired and wireless.

You can work as a specialized technician, technology solutions integrator, network operator, electronic security assistant, or entrepreneur in the field of telecommunications and applied electronics.

Graduates of the Electronics and Telecommunications program are professionals with technical, scientific, and ethical training who are capable of analyzing, planning, implementing, integrating, operating, supervising, and maintaining electronic systems, telecommunications networks, and electronic security solutions, in accordance with national and international standards.

His training enables him to develop comprehensive technological solutions that combine electronics, data networks, and telecommunications, with a practical approach focused on problem-solving in the manufacturing, industrial, and social sectors.

As a Senior University Technologist, he is qualified to work on systems of greater technical complexity, particularly in the integration of technologies and the support of technology infrastructure projects.

It is capable of:

Perform preventive and corrective maintenance on electronic and telecommunications systems, ensuring the operational continuity of equipment and infrastructure.
Implement and integrate electronic security, home automation, building automation, and IoT systems, linking physical devices with communication networks.
Deploy and maintain telecommunications infrastructure, including fiber-optic networks and wireless systems.
Plan, implement, manage, and monitor corporate and residential data networks, both wired and wireless (Wi-Fi).
Install, configure, and maintain electronic equipment, network devices, and telecommunications systems.
Diagnose and troubleshoot faults in electronic systems, networks, and telecommunications services using specialized technical methodologies.
Manage networks using protocols, standards, and best practices, including infrastructure-level security (network security).
Monitor and optimize the performance of networks and systems using management and monitoring tools.
Participate in the planning, implementation, and technical support of projects in electronics, telecommunications, and networking.
Apply automation, programming, and data analysis tools to efficiently manage technology infrastructure.

Alignment with the Learning Paths

The graduate profile is enhanced through two areas of specialization:

Networking and Network Security: focused on the administration, operation, and protection of network infrastructures.
Optical Networks: focused on the deployment, operation, and maintenance of fiber-optic networks.

Configure, deploy, operate, and maintain data network infrastructures, applying standards, protocols, and security controls to ensure operational reliability, scalability, and data protection.

Install telecommunications infrastructure while taking into account regulations, emerging technologies, and installation methodologies to ensure service continuity.

Repair and integrate electronic systems into telecommunications infrastructure, ensuring their proper operation, security, and compatibility with data transmission networks.

Install and maintain power and backup systems for telecommunications infrastructure, adhering to electrical regulations and ensuring energy efficiency and operational safety.

Install optical networks by applying principles of light transmission, signal propagation, and multiplexing techniques to improve the capacity, efficiency, and reliability of telecommunications infrastructure.

Apply network monitoring and automation tools to the operation of emerging telecommunications systems.

Curriculum Structure

Academic structure of the program

Current Curriculum

Gallery Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

Begin your path in

University Higher Technology

in Electronics and Telecommunications

Join Universidad de las Fuerzas Armadas ESPE and become part of an

academic community of excellence with international reach.

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DEGREE

Senior Technician in Networking and Telecommunications

CES Resolution

RPC-S0-15-No.302-2020

DURATION

2 years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train professionals to meet society’s demands regarding information and communication technologies, contributing to the development of the country’s productive sector through the implementation of optical communication systems, networking and telecommunications equipment, and the use of tools that ensure the integrity, confidentiality, and reliability of information in public and private institutions.

By 2026, the Advanced Technology Program in Networking and Telecommunications will be a regional leader in training technical professionals in the field of ICT, recognized for its academic quality, practical approach, ties to the industry, and ability to adapt to technological trends in networking, telecommunications, and information security.

To train advanced network and telecommunications technicians with the skills to implement, manage, and maintain technological infrastructure, ensuring the efficient, secure, and reliable operation of communication systems in public and private organizations.

Develop skills in the installation and configuration of wired and wireless data networks.

Provide training in the administration and support of network equipment and services.

Strengthen skills in telecommunications systems and optical communications.

Apply best practices for computer security in network environments.

To foster entrepreneurial skills in the technology sector.

Promote the use of technological tools to ensure the availability and reliability of information.

Vive la experiencia de estudiar Tecnología Superior en Redes y Telecomunicaciones

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Learn about the foundations of the program

Profiles and outcomes

The professional we train and the competencies you will develop

A Senior Network and Telecommunications Technologist may work as:

Network and Telecommunications Support Technician.
Installer of structured cabling systems and wireless solutions.
Technical Assistant in Network Server Administration.
Computer Network Installer and Administrator.
Technical Assistant in Optical Communications Systems.
Technical Supervisor for Network and Telecommunications Projects.
IT Security Assistant.
Mobile app development assistant.
Entrepreneur or manager of your own technology company.

Graduates of this program will be professionals with a solid technical background, capable of:

Implement, manage, and maintain data networks and telecommunications systems.
Apply technical criteria to solve problems related to technology infrastructure.
Ensure the safe and efficient operation of information systems.
Join multidisciplinary teams in the technology sector.
Act with ethical responsibility and a commitment to the development of the social and economic environment.
Adapt to technological changes and continue their professional development.

Formar profesionales de nivel Tecnológico Superior en Redes y Telecomunicaciones, mediante el desarrollo de competencias que permitan solucionar problemas de conectividad utilizando las tecnologías de la información y comunicación, para garantizar la integridad, confidencialidad y disponibilidad de la información.

Curriculum Structure

Academic structure of the program

Current Curriculum

Non-Current Curriculum

Gallery Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

Begin your path in

Advanced Technology in Networks and Telecommunications

Join Universidad de las Fuerzas Armadas ESPE and become part of an

academic community of excellence with international reach.

Select a campus

DEGREE

Advanced Technician in Automotive Mechanics

CES Resolution

RPC-SO-15-No.302-2020

DURATION

2 years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train outstanding automotive technology professionals who are well-rounded, possess leadership skills, critical thinking abilities, and a strong sense of civic responsibility; by developing the skills needed to install, maintain, repair, and optimize the performance of automotive systems to high standards of quality and productivity in accordance with national and international standards; and to provide and implement solutions to community problems, thereby promoting the comprehensive development of Ecuador.

To be a national leader in knowledge management and in the training of automotive technology professionals within the National Higher Education System, upholding national quality standards and accreditation through the practice of ethical and civic values, in service to society and its sustainable development.

To train automotive mechanics who are qualified and skilled to install, maintain, and repair automotive systems through a well-rounded education in technical, scientific, and humanities subjects, while promoting teamwork, so that they can apply their knowledge and develop their skills in the workplace.

Develop and implement maintenance and repair plans by applying knowledge of the use of machinery and tools in various technical areas related to the automotive industry.

Use automotive diagnostic equipment to properly perform maintenance in the areas of mechanics, electrical and electronic systems, hydraulics, pneumatics, and hybrid technology, thereby contributing to the field of mechanics at the regional level in Zone 3.

Conduct pre-professional internships and community engagement projects as part of the theoretical and practical training process, aimed at developing skills and competencies in real-world work settings, in collaboration with public and private automotive institutions and organizations within the production sector.

Implement research processes grounded in traditional, scientific, and technical knowledge as applied to the automotive field, in order to improve mechanical diagnostic and maintenance procedures.

Vive la experiencia de estudiar Tecnología Superior en Mecánica Automotríz

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Learn about the foundations of the program

Profiles and outcomes

The professional we train and the competencies you will develop

The professional profile for the Advanced Automotive Mechanics Technology program consists of the specific competencies identified in the labor market study, which enable students to succeed in the workforce through participation in community engagement projects and pre-professional internships in real-world automotive technology settings.

Automotive Maintenance Technician

Plan basic preventive and corrective maintenance for the mechanical, hydraulic, and pneumatic systems of vehicles in general.
Installs and repairs automotive electrical and electronic systems, ensuring high-quality work to optimize and/or adapt these systems to various automotive applications in accordance with environmental requirements, while complying with applicable standards.
Oversees the complete or partial disassembly of motor vehicles, interpreting blueprints and manuals for maintenance and repair.
Repairs or replaces defective components or parts of the systems found in vehicles.
Interprets technical drawings, diagrams, and specialized information in accordance with standards and specifications.
Applies technical standards for quality and industrial/environmental safety.

Automotive Machining Technician

Plan, execute, and innovate processes for the machining of components prone to wear in an internal combustion engine, such as cylinders, valves, crankshafts, main bearings, cylinder heads, and flywheels.

Auto Body Repair Technician

Coordinates and oversees maintenance, repairs, and finishing work on both metal and non-metal body panels found across the entire vehicle lineup.
Builds and repairs high-quality mechanical components to optimize and/or adapt them to different systems in accordance with the requirements of the environment, while complying with the relevant standards.
As a grinding technician, apply methods and processes to maximize the performance of internal combustion engines (Otto, Atkinson, and Diesel cycles) in order to reduce toxic pollutants produced by the industrial sector, working professionally in compliance with existing environmental regulations.
Implements plans in accordance with their role as an automotive maintenance technician, with responsibility for automotive mechanics, electrical systems, electronics, hydraulics, pneumatics, and hybrid technology, to ensure optimal performance in the sector and achieve quality and productivity levels in line with national and international standards.
As a body repair technician, the technician is capable of building and repairing high-quality mechanical components to optimize and/or adapt them to different systems in accordance with environmental requirements, while complying with the relevant standards.
As a maintenance technician, he installs and repairs automotive electrical and electronic systems, ensuring high-quality work to optimize and/or adapt these systems to various automotive applications in accordance with environmental requirements, while complying with the relevant standards.

Develops and implements maintenance and repair plans by applying knowledge of the use of machinery and tools in various technical areas related to the automotive industry.

Utiliza equipos de diagnóstico automotriz para la correcta realización de mantenimientos aplicados a las áreas de mecánica, eléctrica – electrónica, hidráulica, neumática y tecnología híbrida, para contribuir al campo detallado de la Mecánica a nivel regional en la zona 3.

Realiza prácticas pre profesionales y proyectos de vinculación con la sociedad en el proceso de formación teórico-práctico, orientadas a desarrollar habilidades y competencias, en escenarios laborales reales, vinculados a instituciones y organismos automotrices públicos y privados de los sistemas productivos.

Implement research processes grounded in traditional, scientific, and technical knowledge as applied to the automotive field, in order to improve mechanical diagnostic and maintenance procedures.

Curriculum Structure

Academic structure of the program

Current Curriculum

Non-Current Curriculum

Gallery Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

Begin your path in

Advanced Automotive Mechanics Technology

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academic community of excellence with international reach.

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DEGREE

Associate of Science in Information Systems and Cybersecurity

CES Resolution

RPC-SO-38-No.584-2025

DURATION

3 years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train university-level information systems and cybersecurity professionals of the highest practical and operational caliber, within a framework of ethics, discipline, and social responsibility, who are capable of implementing technological solutions, managing incidents, and protecting critical information, thereby contributing to the digital security of the country’s strategic and productive sectors.

To be a national leader in technology education, recognized for the technical expertise and leadership of its graduates in the protection of technological infrastructure and data management, driving innovation and technological sovereignty in the face of global challenges in cyber defense and digital transformatio

To train university-level information systems and cybersecurity professionals by developing technical and operational skills in the implementation, maintenance, and management of secure information systems; web and mobile application programming; and operating system administration and virtualization. Likewise, to develop capabilities for the application of security protocols, risk identification and mitigation, and ethical information management, contributing to data protection, technological modernization, digital transformation, and the country’s sustainable development in the public and private sectors, in accordance with national policies on security, innovation, and technological development.

To train cybersecurity professionals capable of identifying vulnerabilities, protecting critical data, and implementing measures to prevent and mitigate threats that affect organizations.

To train technical professionals in the development of secure web and mobile applications, with a focus on solving practical problems and improving the user experience.

To prepare professionals for the implementation and operational management of information systems that optimize information flow and organizational processes.

To train technical professionals in the management of technology infrastructure, networks, and cloud services, ensuring their continuous operation and minimizing technical failures.

To train technical professionals with skills that enhance their employability, with a focus on meeting the needs of the private sector in the fields of information technology and cybersecurity.

Vive la experiencia de estudiar Tecnología Superior Universitaria en Sistemas de Información y Ciberseguridad

Discover daily life in our classrooms, laboratories, and academic spaces. Students, faculty, and researchers share their stories.

Learn about the foundations of the program

Profiles and outcomes

The professional we train and the competencies you will develop

What kind of professional will you become?

A Senior University Technologist in Information Systems and Cybersecurity is a professional with technical and operational training who is qualified to implement information systems and deploy cybersecurity solutions aimed at protecting digital assets and ensuring the operational continuity of organizations.

You will play a role in IT security management, systems administration, and specialized technical support, applying tools, protocols, and best practices to prevent, detect, and mitigate security incidents in organizational environments.

Areas of expertise

Information Systems: Implementation and operational management of systems that optimize organizational processes and data management.
Offensive Cybersecurity: Support for conducting security tests, identifying vulnerabilities, and applying ethical hacking techniques.
Defense and Forensics: Security incident management, event analysis, and basic digital evidence handling for information protection.

Functions and roles

Information Systems Management
Application of ethical hacking techniques
Implementation of IT security controls
Computer Forensics Support
Security Incident Management and Response
Implementation of best practices and regulations in IT security

Field of work

You will be able to work in public and private organizations such as:

Cybersecurity Technician
Junior IT Security Analyst
IT Technical Support
Systems Administration Assistant
Technology Services Provider

The Bachelor of Science in Information Systems and Cybersecurity is a professional qualified to:

Implement security controls and tools to protect critical infrastructure, applying cybersecurity defense procedures. Support cybersecurity risk management by identifying, assessing, and mitigating threats. Implement and support security controls in technology systems, in accordance with standards and best practices. Provide technical support for the implementation of information security policies based on standards such as the ISO/IEC 27000 series, contributing to the protection of digital assets.
Apply best security practices in system development, contributing to the creation of secure applications. Assist in resolving cybersecurity issues within organizations. Implement and monitor network and security protocols, ensuring the protection of data and communications.
Contribute to the protection of critical digital infrastructure by supporting the operational continuity of strategic sectors. Implement security systems that strengthen trust in technological services and promote digital inclusion. Apply security technologies to protect data and facilitate secure access to information. Support innovation in cybersecurity and disseminate knowledge to bridge the digital divide.
Foster critical and creative thinking to propose cybersecurity solutions. Apply ethical principles and social responsibility in data protection. Develop collaborative work in multidisciplinary teams and integrate cultural perspectives to contribute to the democratization of technology.

Applies ethical hacking techniques to simulate intrusions, identify vulnerabilities, and fix flaws in computer systems.

Configure and monitor computer networks using firewalls and monitoring tools to detect and block unauthorized access.

Recopila y procesa evidencias digitales mediante técnicas de informática forense, para la atención de incidentes de seguridad.

Installs and configures IT infrastructure, including servers and structured cabling, ensuring that it is fully operational.

Manages virtualized environments and cloud services, optimizing the use of technological resources.

Diagnostica y soluciona fallos de hardware y software, asegurando la continuidad operativa de los sistemas informáticos.

Curriculum Structure

Academic structure of the program

Current Curriculum

Gallery Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

Begin your path in

Higher University Technology in

Information Systems and Cybersecurity

Join Universidad de las Fuerzas Armadas ESPE and become part of an

academic community of excellence with international reach.

Select a campus

DEGREE

Higher University Technologist in Automotive Mechanics

CES Resolution

RPC-SO-49-No.742-2025

DURATION

3 years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train highly qualified professionals in the diagnosis, maintenance, and repair of automotive systems, applying technical and technological knowledge with criteria of efficiency, innovation, and sustainability.

This program aims to meet the demands of the productive sector and contribute to national development by training technologists with competencies in electromechanics, electronic injection systems, workshop management, manufacturing, and electromobility within the automotive industry.

To be a leading program at the national and regional levels in the training of Higher University Technologists in Automotive Mechanics, recognized for its academic excellence, technological innovation, and engagement with society, contributing to the sustainable development of mobility and the strengthening of highly qualified human talent, in accordance with the principles and quality standards of the Universidad de las Fuerzas Armadas – ESPE.

To train Higher University Technologists in Automotive Mechanics capable of implementing, diagnosing, maintaining, and optimizing conventional and emerging automotive systems, through the application of cutting-edge tools, methodologies, and technologies, contributing to operational efficiency, innovation, sustainability, and the development of the productive sector.

Develop competencies for the implementation and operation of automotive systems using specialized tools, equipment, and software.

Train in the execution of preventive and corrective maintenance on internal combustion, hybrid, and electric engines, ensuring their efficient and safe operation.

Strengthen technical skills in the adjustment, assembly, and calibration of mechanical, electrical, and electronic components, in accordance with technical and safety standards.

Apply emerging technologies and up-to-date methodologies in the diagnosis and resolution of problems in the automotive sector.

Promote practices of sustainability, energy efficiency, and environmental responsibility in automotive processes.

Develop competencies in the use of standardized methodologies, technical procedures, and industrial safety protocols.

Promote applied research, innovation, and continuous improvement in solving problems within the automotive sector.

Integrate theoretical and practical knowledge to adapt to technological advancements and the demands of the labor environment.

Promote professional ethics, teamwork, and social commitment in the practice of the profession.

Experience studying Higher University Technology in Automotive Mechanics

Discover daily life in our classrooms, laboratories, and academic spaces. Students, faculty, and researchers share their stories.

Learn about the foundations of the program

Profiles and outcomes

The professional we train and the competencies you will develop

The Higher University Technologist in Automotive Mechanics is a professional trained to diagnose, maintain, and optimize conventional, hybrid, and electric automotive systems, integrating knowledge of mechanics, electronics, and manufacturing.

Is prepared to develop innovative technological solutions, participate in the transition toward electromobility, and contribute to the energy efficiency and sustainability of the sector. Likewise, is able to engage in industrial fields such as agricultural machinery and renewable energy, improving productivity and the efficient use of resources, while acting with ethics and social responsibility.

The Automotive Mechanic will be distinguished by their ability to develop innovative technological solutions, integrating mechanics, electronics, and manufacturing within the automotive industry. They will be prepared to actively participate in the transition toward electromobility and energy sustainability, leading both advanced automotive manufacturing projects and efficient maintenance initiatives. Additionally, their knowledge of agricultural machinery and renewable energy will enable them to engage across various industrial sectors, improving productivity and efficiency.

Implement automotive systems using state-of-the-art tools, software, and equipment, ensuring their efficiency and reliability.

Carry out preventive and corrective maintenance actions on internal combustion, hybrid, and electric engines, ensuring operational performance and extending the service life of vehicles.

Perform adjustment, assembly, and calibration operations on mechanical, electrical, and electronic components with technical proficiency, ensuring precision and compliance with safety standards.

Operate emerging technologies in the automotive sector, demonstrating continuous updating in the execution of their activities.

Apply sustainability and energy efficiency practices in automotive operations, contributing to the reduction of environmental impact and the responsible use of resources.

Carry out activities with professional ethics, responsibility, and social commitment, fostering teamwork and continuous improvement in the workplace environment.

Apply standardized methodologies for the development of automotive systems using cutting-edge technology, ensuring their effectiveness.

Execute standardized preventive and corrective maintenance procedures, ensuring the operability and functionality of conventional and non-conventional vehicles in accordance with technical regulations.

Execute industrial and environmental safety procedures that ensure the proper handling of equipment and materials, minimizing occupational risks and environmental impact.

Become familiar with applied research processes to develop projects focused on the innovation of automotive systems, energy efficiency, and technical solutions to sector-specific problems.

Propose improvements and innovations based on analysis and experimentation, using scientific methodologies and current technological tools.

Integrate theoretical and practical knowledge to adapt to changes and technological advancements in the automotive industry.

Curriculum Structure

Academic structure of the program

Current Curriculum

Gallery Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

Begin your path in

University Higher Technology

in Automotive Mechanics

Join Universidad de las Fuerzas Armadas ESPE and become part of an

academic community of excellence with international reach.

Select a campus

DEGREE

Higher Technologist in Logistics and Transportation

CES Resolution

RPC-S0-15-No.302-2020

DURATION

2 years

MODALITY

On-campus

Academic Identity

Learn about the foundations of the program

To train ethical professionals with solid knowledge in integrated logistics to efficiently organize, implement, improve, and control business logistics processes, with an emphasis on transportation, fleet management, and distribution, with a clear focus on enhancing quality, productivity, competitiveness, and sustainable development, contributing to the progress of the region and the country.

A leader at the national and international levels in the training of technologists in Logistics and Transportation, aimed at promoting Ecuador’s productive sector in a comprehensive manner, with highly qualified technologists in knowledge management, and recognized as a benchmark in the practice of ethical, civic, and service-oriented values to society.

To train technologist professionals in occupational safety and risk prevention, with technical, scientific, and ethical competencies, capable of identifying, evaluating, controlling, and managing occupational risks across different productive sectors, contributing to the protection of workers’ health, the prevention of accidents, and compliance with current occupational safety and health regulations.

1. Foundation.

Develop theoretical and conceptual knowledge in industrial safety, occupational health, and risk management, enabling an understanding of the nature of hazards and their impact on work environments.

2. Identification and Evaluation.

Apply technical methodologies for the identification, analysis, and assessment of occupational risks (physical, chemical, biological, ergonomic, and psychosocial) across diverse productive contexts.

3. Intervention and Control.

Design and implement measures for the prevention, control, and mitigation of risks through the use of technical standards, management systems, and industrial safety tools.

4. Management and Continuous Improvement.

Manage occupational safety and health systems, promoting a preventive culture, legal compliance, and continuous improvement within organizations.

Experience studying Higher Technology in Logistics and Transportation

Discover daily life in our classrooms, laboratories, and academic spaces. Students, faculty, and researchers share their stories.

Learn about the foundations of the program

Profiles and outcomes

The professional we train and the competencies you will develop

The professional profile of the Higher Technology in Logistics and Transportation program is the set of specific competencies identified in the market study, which enables the professional to perform in the labor field through participation in community engagement projects and pre-professional internships in real environments within the technological area of logistics and transportation.

It is the set of specific attitudes and aptitudes that applicants to the Higher Technology in Logistics and Transportation program must possess, as outlined below.

– Numerical Reasoning: Ability, speed, and accuracy in calculation, enabling the manipulation of figures and the solution of quantifiable problems.

– Spatial Reasoning: Ability to visualize volumes and surfaces in two and three dimensions, and skill in interpreting graphs and maps.

– Logical Reasoning: Ability to understand relationships between facts, identify their causes, anticipate consequences, and solve problems in a coherent manner.

– Abstract Reasoning: Ability to extract input and output data from a problem situation and envision solutions. Capacity for observation and for perceiving details of objects, phenomena, or events, identifying particularities and recognizing differences.

– Perceptual Ability: Capacity to acquire knowledge of the surrounding world through sensory impressions, including the visual perception of shapes and details across different distances and spatial contexts.

– Attention and Concentration Capacity: Ability to voluntarily focus attention on an object or activity being performed, excluding external stimuli such as surrounding sounds and environmental noise.

– Rigorous Thinking. Think, reason, analyze, and argue in a logical, critical, and creative manner. Additionally: plan, solve problems, and make decisions.

– Communicate effectively. Understand and use language for communication and learning (both in the native language and in a foreign language). Express oneself orally and in writing in a correct, appropriate, and clear manner. Additionally, appreciate literature and other arts and recognize them as forms of expression.

– Reason numerically. Understand and apply mathematics in the formulation, analysis, and solution of theoretical and practical problems, as well as in the development of logical reasoning.

– Use technological tools in a reflective and pragmatic manner. Use Information and Communication Technologies (ICT) to explore and understand the surrounding reality, solve problems, access the information society, and express creativity, while avoiding the misappropriation and misuse of information.

– Understand the natural environment. Comprehend the natural environment through the explanation of physical, chemical, and biological phenomena supported by the scientific method, enabling the student to participate proactively and solve problems related to the natural domain, while respecting ecosystems and the environment.

Manages integrated logistics and foreign trade processes, adhering to international quality standards.

Proposes transportation systems to improve the mobility of people and facilitate the commercialization of products.

Designs transportation route systems through the application of methods and techniques, ensuring safety.

Executes logistics and transportation processes through the application of simulators for timely decision-making.

Curriculum Structure

Academic structure of the program

Current Curriculum

Non-Current Curriculum

Gallery Gallery

Spaces, moments, and experiences that bring the program to life

Admissions and costs

Spaces, moments, and experiences that bring the program to life

CES Resolution

RPC-SO-15-No 309-2020

Program Code

ISOF-SQ-2023

Accreditation

In process

Application Dates

March – April 2025 / August – September 2025

Program cost:

Begin your path in

Higher Technology in Logistics and Transportation

Join Universidad de las Fuerzas Armadas ESPE and become part of an

academic community of excellence with international reach.