Computer Science
Code: 106927 ECTS Credits: 6| Degree | Type | Year | Semester |
|---|---|---|---|
| 2503743 Management of Smart and Sustainable Cities | FB | 1 | 1 |
Contact
- Name:
- Carles Ferrer Ramis
- Email:
- carles.ferrer@uab.cat
Teaching groups languages
You can check it through this link. To consult the language you will need to enter the CODE of the subject. Please note that this information is provisional until 30 November 2023.
Teachers
- Raúl Aragonés Ortíz
Prerequisites
There are not.
Objectives and Contextualisation
In this area, the basic concepts related to Information Technology and Communications (ICT) as tools for the development of city management applications will be introduced, as well as basic notions of algorithmics and application programming.
Learning Outcomes
- KM08 (Knowledge) Explain at a basic level the technological aspects of sustainable and smart city management.
- SM09 (Skill) Use basic programming structures (web, mobile, cloud) to solve simple problems related to the management of cities, developing computer applications in web environments taking into account their structure, the interrelation of server components and the steps followed in the management of information.
Content
1. Computer applications in different types of environments (web, mobile, cloud) for the management of cities:
concepts and examples.
2. Basic concepts of computers: structure, programming languages, operating systems, communications,
interconnection of systems.
3. Algorithms and programming: concept and representation of an algorithm. modular design.
4. Basic data types.
5. Basic programming structures.
6. Representation of data.
7. Data input and output.
Methodology
The teaching methodology will be based on three types of activities:
- Guided activity: theoretical classes, laboratory, and exercise analysis.
- Supervised activity: attendance to tutorials and completion of exercises with scheduled follow-up.
- Autonomous activity: part of student study and case resolution, individually or in groups.
The preferred form of communication with students will be the virtual campus combined with the institutional mail of the UAB.
Annotation: Within the schedule set by the center or degree program, 15 minutes of one class will be reserved for students to evaluate their lecturers and their courses or modules through questionnaires.
Annotation: Within the schedule set by the centre or degree programme, 15 minutes of one class will be reserved for students to evaluate their lecturers and their courses or modules through questionnaires.
Activities
| Title | Hours | ECTS | Learning Outcomes |
|---|---|---|---|
| Type: Directed | |||
| Autonomous work | 76 | 3.04 | KM08, SM09, KM08 |
| Exercises and laboratories | 24 | 0.96 | SM09, SM09 |
| Theory classes | 26 | 1.04 | KM08, SM09, KM08 |
Assessment
1. Evidence of continuous evaluation
There are two tests that include the seven blocks of matter (1,2,3 in the first test and 4,5,6,7 in the second test).
| Continuous evaluation tests | Weight note continuous assessment |
Minimum mark to make an average |
| 1-2 Computer applications and basic systems | 50% | 3,5 |
|
3-7 Algorithms, data, structures, and |
50% | 3,5 |
2. Final evaluation mark
| Final mark | Weight final mark |
| Continuous evaluation | 60% |
| Class Picks | 10% |
| Laboratory | 30% |
3. It is considered approved by anyone:
- have a final mark equal to or greater than 5 and
- have approved the laboratory activities (minimum 5) i
- there is no evidence of continuous evaluation below the minimum mark (4.0) to do the average.
4. Assessment of practices
There will be a total of 5 laboratory activities where the algorithm will be asked to bring home prepared for each one of them, which will count 10% of the laboratory activities mark.
5. Class picks cannot be retrieved.
6. There will be a final exam of the two blocks of theory aimed at recovering the not surpassed part of the continuous evaluation.
7. At the beginning of the academic year, if possible, it will be notified if there is a validation of laboratory activities. In the case of being, the validation of laboratory activities only will realize to the students who request it and have approved the laboratory activities in the previous course. The weight of the continuous evaluation in the final mark, in the students with the validation of laboratory activities, becomes 90%.
8. Continuous evaluation dates are set at the beginning of the course and do not have alternative recovery dates in case of non-attendance. If there is any change in programming due to the adaptation to possible incidents, the virtual campus will always be informed about these changes.
9. Notwithstanding other disciplinary measures deemed appropriate, and in accordance with the current academic regulations, irregularities committed by a student that can lead to a variation of the qualification will be classified as zero (0). For example, plagiarizing, copying, copying, ..., an evaluation activity, will imply suspending this evaluation activity with zero (0). Assessment activities qualified in this way and by this procedure will not be recoverable. If it is necessary to pass any of these assessment activities to pass the subject, this subject will be suspended directly, without an opportunity to recover it in the same course.
10. Non-evaluable cases
In case no delivery is made, it will not be included in any laboratory session and no exam will be carried out, the corresponding grade will be "not evaluable". In any other case, "not presented" counts as a 0 for calculating the weighted average, which will be a maximum of 4.5. Then, participation in an activity evaluated implies that "not presented" in other activities such as zeros are taken into account. For example, an absence in a laboratory session involves a note for that activity.
11. Pass de course with honors
To pass the course with honors will be awarded to those who obtain a mark greater than or equal to 9.5 in each part, up to 5% of those enrolled in descending order of final grade. At the discretion of the teaching staff, they may also be granted in other cases.
Assessment Activities
| Title | Weighting | Hours | ECTS | Learning Outcomes |
|---|---|---|---|---|
| Evaluation tests | 60% | 4 | 0.16 | KM08, SM09 |
| Laboratory activities | 30% | 10 | 0.4 | SM09 |
| Supervised activities | 10% | 10 | 0.4 | KM08, SM09 |
Bibliography
- A. Prieto, A. B. Prieto. Conceptos de informática. Ed. Mc Graw Hill, 2005.
- Mark Lutz. Learning Python, Fourth Edition. Ed. O'Reilly Media, Inc., 2009.
- Guía de uso del MIT App Inventor. Escuela superior de informática de Castilla la Mancha. http://webpub.esi.uclm.es/img/upload/plugin/ESI-TechLab-AppInventor2-2015beta.pdf
Software
Python IDLE
MIT App Inventor