ECTS credits ECTS credits: 3
ECTS Hours Rules/Memories Hours of tutorials: 4.5 Expository Class: 14 Interactive Classroom: 14 Total: 32.5
Use languages Spanish, Galician
Type: Ordinary subject Master’s Degree RD 1393/2007 - 822/2021
Departments: Electronics and Computing
Areas: Languages and Computer Systems
Center Higher Technical Engineering School
Call: First Semester
Teaching: With teaching
Enrolment: Enrollable | 1st year (Yes)
The aim of this subject is for students to be able to identify the different types of innovation and entrepreneurship, and their application to business projects based on IoT. To do so, they must know and understand the different stages that an innovation goes through, from when it is just an idea until it becomes a marketable product, process or service, and the basic aspects of intellectual and industrial protection, as well as the different sources of funding for an innovative business plan based on developments in IoT technologies.
1.- Basic aspects of Innovation and Entrepreneurship.
2.- Innovation models: Intra-entrepreneurship, Open vs. Closed Innovation.
3.- Business model and plan: agile methodologies for the development and management of the business project.
4.- Sources of financing for technology-based entrepreneurship.
5.- Intellectual and industrial property protection.
Lean Startup para científicos: Una guía para científicos e investigadores visionarios que quieren transformar el mundo acercando sus innovaciones a la sociedad y el mercado”. José Javier Ruiz Cartagena y Carmen García Mora. Editado por Prismático. 2023.
Fases del proceso de apoyo al emprendedor. Buenas prácticas de Referencia. Cristobal García y otros. Colección Estudios RedEmprendia. Editorial Netbiblo. 2016
Emprender con éxito desde la Universidad. Juan M. Romero y otros. Colección Estudios RedEmprendia. Editorial Netbiblo. 2013
CMP8- Develop a business plan for a business project based on IoT.
CMP12- Integrate knowledge and deal with the complexity of making judgements based on incomplete or limited information, including reflections on the social and ethical responsibilities linked to the application of knowledge and judgements based on IoT.
CMP13- Assume responsibility for one's own professional development and specialisation in one or more fields of study, in a continuous, self-directed and autonomous manner.
HBL14- Predict and control the evolution of complex situations through the development of new and innovative work methodologies adapted to the scientific/industrial field or professional field, in general multidisciplinary, in which their activity is carried out.
The theory class will be developed in the form of a master class. The practical laboratory classes will be articulated in such a way that the student will develop an innovative project based on the use of IoT technologies, in response to a challenge proposed by the teaching staff; this project will be developed in a group and will conclude with the design of a business model.
Project-based learning: The student will consolidate the concepts seen in the theory class, through the development of the different phases of their project.
The final mark for the subject will be formed by the weighted average of the following items:
Theoretical exam: 40%.
Evaluation of practical work: 40%.
Continuous monitoring: 20%.
In order to be entitled to take the exam in both the ordinary and extraordinary exams, the student must have attended 80% of the practical classes.
In order to pass the subject, the student must pass both the theory exam and the evaluation of the practical work separately.
If a student fails one of the parts in the ordinary exam, he/she will only have to repeat the part not passed in the extraordinary exam: the exam if it is the theory part, and the elaboration of a new project proposed by the teacher, if it is the practical part.
It is considered that the student will dedicate 75 hours of work to the subject; of which 24 will be classroom-based, 12 lectures and 12 laboratory hours. The remaining 51 will be personal work, dedicated by the student to the study of the subject (20) and practical work (31).
Although there are theoretical contents, these are aimed at grounding the knowledge necessary to get the most out of the interactive contents and laboratory practices. Therefore, not only teachers, but also students should see the subject as a whole as contents that are reinforced, understood and applied through multiple cross interactions. On the other hand, it is important that students follow the theoretical lectures, which are the basis of the interactive lectures, with which they are highly aligned.
It is recommended to maintain fluid communication with the teaching staff and a participative attitude in the classes. Constant weekly work related to the activities described in the methodology is also recommended. The student must have a personal laptop on which to carry out the practices and on which to install the software used in the subject, which will be free software
José Manuel Cotos Yáñez
Coordinador/a- Department
- Electronics and Computing
- Area
- Languages and Computer Systems
- Phone
- 881816461
- manel.cotos [at] usc.es
- Category
- Professor: University Lecturer
Tuesday | |||
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16:00-17:30 | Grupo /CLE_01 | Spanish | Aula A10 |
17:30-19:00 | Grupo /CLIL_01 | Spanish | Aula A10 |