Your search keyword '"Fresnedo, Óscar"' showing total 7 results

1. Service-Learning Methodology to Develop Bachelor’s Thesis in Information and Computer Science Degrees.

Author

Castro, Paula M., Fresnedo, Óscar, Dapena, Adriana, Pereira, Javier, and Vázquez-Araujo, Francisco J.

Subjects

SERVICE learning, SCIENTIFIC computing, COMPUTER science, NONPROFIT organizations, EDUCATIONAL benefits, SCHOOL year, QUANTUM information science

Abstract

Service-Learning (SL) is a powerful methodology to acquire competences and values in Higher Education. However, there is still no widespread use in Information and Computer Science (ICS) degrees where most of the subjects are focused on the development of theoretical and practical contents purely related to technical competences. In this paper, we show the structure of a SL methodology to develop Bachelor’s Thesis: 1) definition of proposals considering all the competencies of the Bachelor’s Thesis subject and the needs of entities; 2) development of applications using agile methodologies, and 3) assessment of the SL experience from students, entities and professors. We present an experience developed in the 2019/2020 academic year with two entities devoted to disfavoured people. The results show both the high technical and professional quality of the projects and the high satisfaction of entities and students. We hope that the development of applications with the collaboration of non-profit entities allows the acquisition of both specific and transversal competencies on ICS degrees at the same time enhancing the development of useful professional ones. [ABSTRACT FROM AUTHOR]

Published

2024

2. Educational graphic tool for teaching fundamentals of digital image representation.

Author

Fresnedo, Óscar, Laport, Francisco, Castro, Paula M., and Dapena, Adriana

Subjects

ACTIVE learning, SOFTWARE development tools, PROBLEM-based learning, COMPUTER science, TEACHING methods, IMAGE representation

Abstract

In the last few decades, different teaching methodologies have been proposed to promote more active learning of students. However, it is still essential to understand the practical implications of the theoretical concepts incorporating additional methodologies, for example, problem‐based learning. This methodology could include practises focused on students' programming or on using appropriate software tools. For more meaningful learning, the use of a graphic tool instead of programming provides more insight into those concepts throughout a simple and practical resource. Taking this into account, a software tool has been developed in addition to theoretical sessions in the context of a subject of the Degree in Computer Science, where the learning objectives are related to the representation and compression of multimedia content. In addition, this tool allows to configure useful exercises for these practical sessions, such that students can experiment and analyse the results from a visual perspective. The results of the surveys show a high degree of satisfaction of students, who highlight that the tool has helped them to better understand the curriculum content. In addition, there are signs of improvement in the academic results corresponding to the evaluation of performance with such software. [ABSTRACT FROM AUTHOR]

Published

2021

3. Coded Aperture Hyperspectral Image Reconstruction.

Author

García-Sánchez, Ignacio, Fresnedo, Óscar, González-Coma, José P., and Castedo, Luis

Subjects

*IMAGE reconstruction, *OPTICAL apertures, *SPECTRAL imaging

Abstract

In this work, we study and analyze the reconstruction of hyperspectral images that are sampled with a CASSI device. The sensing procedure was modeled with the help of the CS theory, which enabled efficient mechanisms for the reconstruction of the hyperspectral images from their compressive measurements. In particular, we considered and compared four different type of estimation algorithms: OMP, GPSR, LASSO, and IST. Furthermore, the large dimensions of hyperspectral images required the implementation of a practical block CASSI model to reconstruct the images with an acceptable delay and affordable computational cost. In order to consider the particularities of the block model and the dispersive effects in the CASSI-like sensing procedure, the problem was reformulated, as well as the construction of the variables involved. For this practical CASSI setup, we evaluated the performance of the overall system by considering the aforementioned algorithms and the different factors that impacted the reconstruction procedure. Finally, the obtained results were analyzed and discussed from a practical perspective. [ABSTRACT FROM AUTHOR]

Published

2021

4. Intelligent Reflective Surfaces for Wireless Networks: An Overview of Applications, Approached Issues, and Open Problems.

Author

Pérez-Adán, Darian, Fresnedo, Óscar, González-Coma, José P., and Castedo, Luis

Subjects

TELECOMMUNICATION, RADIO control, MOBILE communication systems, WIRELESS communications, KEY performance indicators (Management), COMMUNICATION of technical information

Abstract

An intelligent reflective surface (IRS) is a novel and revolutionizing communication technology destined to enable the control of the radio environment. An IRS is a real-time controllable reflectarray with a massive number of low-cost passive elements which introduce a phase shift to the incoming signals from the sources before the propagation towards the destination. This technology introduces the notion of a smart propagation environment with the aim of improving the system performance. In this paper, we provide a comprehensive literature overview on IRS technology, including its basic concepts and reconfiguration, as well as its design aspects and applications for wireless communication systems. We also study the performance metrics and the setups considered in recent publications related to IRS and provide suggestions of future research lines based on still unexplored use cases in the state-of-the-art. [ABSTRACT FROM AUTHOR]

Published

2021

5. JSCC-Cast: A Joint Source Channel Coding Video Encoding and Transmission System with Limited Digital Metadata.

Author

Balsa, Jose, Fresnedo, Óscar, García-Naya, José A., Domínguez-Bolaño, Tomás, and Castedo, Luis

Subjects

*MULTICASTING (Computer networks), *VIDEO coding, *METADATA, *CHANNEL coding, *SOURCE code, *ENCODING, *PERCEIVED quality, *SIGNAL-to-noise ratio, *WIRELESS Internet

Abstract

This work considers the design and practical implementation of JSCC-Cast, a comprehensive analog video encoding and transmission system requiring a reduced amount of digital metadata. Suitable applications for JSCC-Cast are multicast transmissions over time-varying channels and Internet of Things wireless connectivity of end devices having severe constraints on their computational capabilities. The proposed system exhibits a similar image quality compared to existing analog and hybrid encoding alternatives such as Softcast. Its design is based on the use of linear transforms that exploit the spatial and temporal redundancy and the analog encoding of the transformed coefficients with different protection levels depending on their relevance. JSCC-Cast is compared to Softcast, which is considered the benchmark for analog and hybrid video coding, and with an all-digital H.265-based encoder. The results show that, depending on the scenario and considering image quality metrics such as the structural similarity index measure, the peak signal-to-noise ratio, and the perceived quality of the video, JSCC-Cast exhibits a performance close to that of Softcast but with less metadata and not requiring a feedback channel in order to track channel variations. Moreover, in some circumstances, the JSCC-Cast obtains a perceived quality for the frames comparable to those displayed by the digital one. [ABSTRACT FROM AUTHOR]

Published

2021

6. Transmission of Still Images Using Low-Complexity Analog Joint Source-Channel Coding.

Author

Balsa, Jose, Domínguez-Bolaño, Tomás, Fresnedo, Óscar, García-Naya, José A., and Castedo, Luis

Subjects

ADDITIVE white Gaussian noise, IMAGE transmission, LINEAR network coding, COMPUTATIONAL complexity

Abstract

An analog joint source-channel coding (JSCC) system designed for the transmission of still images is proposed and its performance is compared to that of two digital alternatives which differ in the source encoding operation: Joint Photographic Experts Group (JPEG) and JPEG without entropy coding (JPEGw/oEC), respectively, both relying on an optimized channel encoder–modulator tandem. Apart from a visual comparison, the figures of merit considered in the assessment are the structural similarity (SSIM) index and the time required to transmit an image through additive white Gaussian noise (AWGN) and Rayleigh channels. This work shows that the proposed analog system exhibits a performance similar to that of the digital scheme based on JPEG compression with a noticeable better visual degradation to the human eye, a lower computational complexity, and a negligible delay. These results confirm the suitability of analog JSCC for the transmission of still images in scenarios with severe constraints on power consumption, computational capabilities, and for real-time applications. For these reasons the proposed system is a good candidate for surveillance systems, low-constrained devices, Internet of things (IoT) applications, etc. [ABSTRACT FROM AUTHOR]

Published

2019

7. Analog Joint Source Channel Coding for Image and Video Encoding and Transmission

Author

Balsa, José, García-Naya, José A., and Fresnedo, Óscar

Subjects

Tratamiento de la señal-Técnicas numéricas, Transmisión digital, Internet de las cosas

Abstract

Programa Oficial de Doutoramento en Tecnoloxías da Información e Comunicación en Redes Móbiles. 553V01 [Resumo] Nos últimos anos aumentou significativamente o uso de dispositivos conectados a Internet, en particular os smartphones e os dispositivos de Internet of things (IoT). Estes últimos están experimentando un enorme crecemento grazas ao abaratamento dos custos, mellora das comunicacións sen fíos e ás novas aplicacións que van aparecendo. Aínda que hai innumerables aplicacións, son as aplicacións multimedia que fan uso de imaxes e vídeo as que requiren máis potencia de cálculo e maiores recursos de ancho de banda. Na actualidade, os sistemas máis avanzados de transmisión de imaxe e vídeo céntranse en solucións dixitais que requiren complexos sistemas de codificación con moitos procesos para conseguir altas taxas de compresión sen perder calidade visual. Ademais, os sistemas de transmisión dixitais precisan introducir redundancia para evitar erros causados pola canle de comunicación, requiren dun mecanismo de retroalimentación entre o receptor e o transmisor para adaptar a taxa de transmisión ás condicións da canle e, no caso de que estes mecanismos fallen, a información debe ser retransmitida para permitir a súa correcta decodificación. Neste traballo propóñense sistemas de codificación e transmisión de imaxe e vídeo analóxicos centrados en dispositivos IoT con recursos de procesamento de datos limitados e considerando especialmente as comunicacións sen fíos de radiodifusión. Os sistemas propostos adaptan a calidade visual recibida ás condicións da canle sen coñecemento do mesmo. A información máis relevante para a calidade visual protéxese contra as distorsións introducidas pola canle mediante redundancia, mentres que a cantidade de información que se transmite pode ser axustada ao ancho de banda dispoñible e á calidade visual desexada descartando certa información para comprimila. Este traballo contén unha revisión detallada do estado da arte, incluíndo unha análise das principais tarefas de procesamiento de sinais e transformacións matemáticas utilizadas nos sistemas existentes. A partir desa análise e dos requisitos do escenario considerado, propóñense varios esquemas de codificación e transmisión baseados no uso dunha codificación fonte-canal conxunta analóxica. En primeiro lugar, analízanse todas as decisións de deseño con respecto aos sistemas de imaxe e vídeo propostos e, a continuación, avalíanse experimentalmente as súas prestacións segundo métricas de calidade de imaxe como a structural similarity index measure (SSIM) ou a peak signal-to-noise ratio (PSNR). Tamén se realizan análises subxectivas da calidade da imaxe percibida. En todos os casos, os resultados obtidos contrástanse cos producidos polos sistemas de referencia dispoñibles na literatura, incluíndo enfoques analóxicos, híbridos e totalmente dixitais. No caso do sistema proposto para a codificación e transmisión de imaxes analóxicas, a avaliación realízase non só considerando canles simuladas, senón tamén transmisións por aire realizadas cun demostrador. [Resumen] En los últimos años ha aumentado significativamente el uso de dispositivos conectados a Internet, en particular los smartphones y los dispositivos de Internet of things (IoT). Estos últimos están experimentando un enorme crecimiento gracias al abaratamiento de los costes, la mejora de las comunicaciones inalámbricas y las nuevas aplicaciones que van apareciendo. Aunque hay innumerables aplicaciones, son las aplicaciones multimedia que hacen uso de imágenes y vídeo las que requieren más potencia de cálculo y recursos de ancho de banda. En la actualidad, los sistemas más avanzados de transmisión de imagen y vídeo se centran en soluciones digitales que requieren complejos sistemas de codificación con muchos procesos para conseguir altas tasas de compresión sin perder calidad visual. Además, los sistemas de transmisión digital necesitan introducir redundancia para evitar errores causados por el canal de comunicación, requieren un mecanismo de retroalimentación entre el receptor y el transmisor para adaptar la tasa de transmisión a las condiciones del canal y, en caso de que estos mecanismos fallen, la información debe ser retransmitida para permitir su correcta decodificación. En este trabajo se proponen sistemas de codificación y transmisión de imagen y vídeo analógicos centrados en dispositivos IoT con recursos de procesamiento de datos limitados y considerando especialmente las comunicaciones inalámbricas de radiodifusión. Los sistemas propuestos adaptan la calidad visual recibida a las condiciones del canal sin conocimiento del mismo. La información más relevante para la calidad visual se protege contra las distorsiones introducidas por el canal mediante redundancia, mientras que la cantidad de información que se transmite puede ser ajustada al ancho de banda disponible y a la calidad visual deseada descartando cierta información para comprimirla. Este trabajo contiene una revisión detallada del estado del arte, incluyendo un análisis de las principales tareas de procesamiento de señales y transformaciones matemáticas utilizadas. A partir deste análisis y de los requisitos del escenario considerado, se proponen varios esquemas de codificación y transmisión basados en el uso de una codificación fuente-canal conjunta analógica. En primer lugar, se analizan todas las decisiones de diseño con respecto a los sistemas de imagen y vídeo propuestos y, a continuación, se evalúan experimentalmente sus prestaciones según métricas de calidad de imagen como la structural similarity index measure (SSIM) o la peak signal-to-noise ratio (PSNR). También se realizan análisis subjetivos de la calidad de la imagen percibida. En todos los casos, los resultados obtenidos se contrastan con los producidos por los sistemas de referencia disponibles en la literatura, incluyendo enfoques analógicos, híbridos y totalmente digitales. En el caso del sistema propuesto para la codificación y transmisión de imágenes analógicas, la evaluación se realiza no sólo considerando canales simulados, sino también transmisiones por aire realizadas con un demostrador. [Abstract] The use of Internet-connected devices, particularly smartphones and Internet of things (IoT) devices, has significantly increased in recent years. The latter are experiencing a tremendous growth thanks to lower costs, improved wireless communications and new applications. Although there are countless applications, it is the multimedia applications that make use of images and video that require the most computing power and bandwidth resources. Today, the most advanced image and video transmission systems focus on digital solutions that require complex encoding systems with many processes to achieve high compression rates without losing visual quality. In addition, digital transmission systems need to introduce redundancy to avoid errors caused by the channel, require a feedback channel between the receiver and the transmitter to adapt the transmission rate to the channel conditions and, in case these mechanisms fail, the information must be retransmitted to allow its correct decoding. In this work, analog image and video encoding and transmission systems are proposed focusing on IoT devices with limited data processing resources and especially considering broadcast wireless communications. The proposed systems adapt the received visual quality to the channel conditions without channel knowledge. The most relevant information for visual quality is protected against channel distortions by means of redundancy, while the total amount of transmitted information can be adjusted to the available bandwidth and the desired visual quality by discarding certain information to be compressed. This work contains a detailed review of the state of the art, including an analysis of the main signal processing tasks and mathematical transformations used. Considering this analysis and the scenario requirements, several encoding and transmission schemes have been proposed for multimedia content which are based on the use of analog joint source-channel coding. First, all design decisions with respect to the proposed image and video systems are analyzed, and then their performance is experimentally evaluated according to image quality metrics such as the structural similarity index measure (SSIM) or the peak signal-to-noise ratio (PSNR). Subjective analyzes of perceived image quality are also performed. In all cases, the results obtained are contrasted with those produced by reference systems available in the literature, including analog, hybrid, and fully digital approaches. In the case of the proposed system for analog image coding and transmission, the evaluation is carried out not only considering simulated channels, but also over-the-air transmissions performed with a testbed.

Published

2022