An empirical study of power consumption of Web-based communications in mobile phones

Currently, mobile devices are the most popular pervasive computing device, and they are becoming the primer way for Web access. Energy is a critical resource in such pervasive computing devices, being network communication one of the primary energy consuming operations in mobile apps. Indeed, web-based communication is the most used, but also energy demanding. So, mobile web developers should be aware of how much energy consumes the different web-based communication alternatives. The goal of this paper is to measure and compare the energy consumption of three asynchronous Web-based methods in mobile devices. Our experiments consider three different Web applications models that allow a web server to push data to a browser: Polling, Long Polling and WebSockets. The obtained results are analyzed to get more accurate understanding of the impact in energy consumption of a mobile browser for each of these three methods. The utility of these experiments is to show developers what are the factors that influence the energy consumption when different web-based asynchronous communication is used. With this information mobile web developers could reduce the power consumption of web applications on mobile devices, by selecting the most appropriate method for asynchronous server communication.MUniversidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

Model Driven Evolution of an Agent-Based Home Energy Management System

Advanced smart home appliances and new models of energy tariffs imposed by energy providers pose new challenges in the automation of home energy management. Users need some assistant tool that helps them to make complex decisions with different goals, depending on the current situation. Multi-agent systems have proved to be a suitable technology to develop self-management systems, able to take the most adequate decision under different context-dependent situations, like the home energy management. The heterogeneity of home appliances and also the changes in the energy policies of providers introduce the necessity of explicitly modeling this variability. But, multi-agent systems lack of mechanisms to effectively deal with the different degrees of variability required by these kinds of systems. Software Product Line technologies, including variability models, has been successfully applied to different domains to explicitly model any kind of variability. We have defined a software product line development process that performs a model driven generation of agents embedded in heterogeneous smart objects with different degrees of self-management. However, once deployed, the home energy assistant system has to be able to evolve to self-adapt its decision making or devices to new requirements. So, in this paper we propose a model driven mechanism to automatically manage the evolution of multi-agent systems distributed among several devices.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

Integrated 18FDG PET/CT: Utility and Applications in Clinical Oncology

Accurate diagnosis and staging are essential for an optimal management of cancer patients. Positron emision tomography with 2-deoxy-2-fluorine-18-fluoro-D-glucose (18FDG-PET) and, more recently, 18FDG-PET/computed tomography (18FDG-PET/CT) have emerged as powerful imaging tools in oncology, because of the valuable functional information they provide. The combined acquisition of PET and CT has synergistic advantages over its isolated constituents and minimizes their limitations. It decreases examination times by 25%–40%, leads to a higher patient throughput and unificates two imaging procedures in a single session. There is evidence that 18FDG-PET/CT is a more accurate test than either of its components for the evaluation of various tumors. It is a particularly valuable tool for detection of recurrence, especially in asymptomatic patients with rising tumor markers and those with negative or equivocal findings on conventional imaging tests. Yet, there are some limitations and areas of uncertainty, mainly regarding the lack of specificity of the 18FDG uptake and the variable 18FDG avidity of some cancers. This article reviews the advantages, limitations and main applications of 18FDG-PET/CT in oncology, with especial emphasis on lung cancer, colorectal cancer, lymphomas, melanoma and head and neck cancers

Analysis and optimisation of SPL products using goal models.

https://conf.researchr.org/details/RE-2023/RE-2023-Research-Papers/10/Analysis-and-optimisation-of-SPL-products-using-goal-modelsThe Internet of Things is one of the core drivers of variability modelling and requires explicit mechanisms to manage it. A key technology for addressing this variability is product line engineering. This approach uses a reference architecture to establish a well-designed set of assets that fit together, the Software Product Line (SPL). One of the limitations of variability models is they do not provide information about the quality of new products or how they achieve stakeholder requirements. Several approaches tackle this issue by integrating variability models with goal models. The main challenge is conciliating the different variability perspectives to make the joint use of both models possible without the loss of information or alterations to the models’ semantics. In this work, we present a framework for analysing and optimising SPL products considering stakeholders’ requirements that respects the semantics of both models. The framework is based on Integer Linear Programming (ILP), a field of mathematical programming. Variability and goal models are formalised as a set of linear constraints and are linked using mapping functions. As a proof of concept, we present a tool that takes both models and mapping functions to generate an ILP problem that can be solved using Matlab.This work is supported by the projects IRIS PID2021-12281 2OB-I00 (co-financed by FEDER funds) and by DISCO B1- 201212 funded by Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

Self-Adaptation of mHealth Devices: The Case of the Smart Cane Platform

Nowadays, more than one billion people are in need of one or more assistive technologies, and this number is expected to increase beyond two billion by 2050. The majority of assistive technologies are supported by battery-operated devices like smartphones and wearables. This means that battery weight is an important concern in such assistive devices because it may affect negatively its ergonomics. Saving power in these assistive devices is of utmost importance for its potential twofold benefits: extend the device life and reduce the global warming aggravated by billion of these devices. Dynamic Software Product Lines (DSPLs) are a suitable technology that supports system adaptation, in this case, to reduce energy consumption at runtime, considering contextual information and the current state of the device. However, a reduction in battery consumption could negatively affect other quality of service parameters, like response time. Therefore, it is important to trade-off battery saving and these other concerns. This work illustrates how to approach the self-adaptation of smart assistive devices by means of a DSPL-based strategy that optimizes battery consumption taking into account other QoS parameters at the same time. We illustrate our proposal with a real case study: a Smart Cane that is integrated with a DSPL platform, Tanit. Experimentation shows that it is possible to make a trade-off between different quality concerns (energy consumption and relative error). The results of the experiments allow us to conclude that the Tanit approach elongates battery duration of the Smart Cane in one day (an increase of a 6% with a relative error of 1%), so we improve the user quality of experience and reduce the energy footprint with a reasonable relative error.This research was funded by the projects Magic P12-TIC1814 and TASOVA MCIU-AEI TIN2017-90644-REDT, by the projects co-financed by FEDER funds HADAS TIN2015-64841-R, MEDEA RTI2018-099213-B-I00 and LEIA UMA18-FEDERJA-157, by the post-doctoral plan of the University of Málaga and the Swedish Knowledge Foundation (KKS) through the research profile Embedded Sensor Systems for Health Plus at Mälardalen University, Sweden. -Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

Novel poly(azoamide triazole)s containing twin azobenzene units in the backbone. Synthesis, characterization, and in vitro degradation studies

We describe the synthesis and characterization of four new light and reduction sensitives poly(azoamide triazole)s, in which the azobenzene units are found along the main chain of the macromolecule. These polymers were prepared by the azide-alkyne cycloaddition reaction catalyzed with copper (I) (CuAAC). They were obtained in high yield and with apparent molecular weights in the range from 95 to 148 kDa. All poly(azoamide triazole)s are soluble in polar aprotic solvents, and two of them are also soluble in chloroform showing good coating and film-forming properties. They were characterized by Fourier transform infrared, nuclear magnetic resonance (NMR), ultraviolet-visible spectroscopy and gel permeation chromatography (GPC). The photoisomerization study of the synthesized polymers has been carried out by UV–Vis spectroscopy, as well as their trans-cis-trans reversibility behavior. Differential scanning calorimetry (DSC) and themogravimetric analysis (TGA) were used to investigate their thermal properties. Results show that the polymers were amorphous and stable up to 300 °C under nitrogen. The hydrolytic degradation of films of these polymers has been studied in vitro under various conditions of pH and temperature and was monitored by GPC. Furthermore, the presence of azo units along the polymer backbone as cleavable groups provides access to their degradation by reduction. In this sense, the degradation of polymers has also been studied using sodium dithionite as a mimic of the enzyme azoreductase. The results of these studies show that the polymers are stable enough under hydrolytic physiological conditions, but they degrade rapidly when sodium dithionite is used. A preliminary study of biocompatibility of polymers PAAT1 and PAAT4 has been carried out. A hemolysis study with human red blood cells (hRBC) and a cytotoxicity study with human gingival fibroblasts (HGnF) have been carried out. The results obtained suggest that these polymers could be good candidates to be used as drug coating materials.Ministerio de Economía y Competitividad MAT2016-77345-C3-2-PUniversidad de Sevilla VI Plan Propio, PP2021/0000065

Alloscardovia omnicolens emerging presence in premature rupture of membranes

Alloscardovia omnicolens is a recently-reported microorganism with unknown pathogenic implications. It has been isolated in various clinical localizations but not in the endocervix. We isolated A. omnicolens in an endocervical sample from a 31-yr-old patient with preterm premature rupture of membranes (PPROM) in week 33+3 of pregnancy. The main risk of PPROM is prematurity and the possibility of developing infectious chorioamnionitis, which can be lethal for the mother and newborn. This is the first report of an association between A. omnicolens and PPROM, although its pathogenic role has not yet been elucidated

To live with an implantable cardioverter defribrillator: A qualitative study on patients'experiences

Objetivo principal: Conocer la experiencia de los pacientes portadores de Desfibrilador Automático Implantable (DAI) de la Unidad de Electrofisiología y Arritmias del Hospital Universitario Virgen del Rocío de Sevilla. Metodología: Estudio cualitativo mediante entrevistas semiestructuradas a 11 personas con DAI implantado. Se realizó un análisis de contenido teniendo en cuenta el objetivo de la investigación, las categorías de análisis creadas y las emergentes. Resultados principales: Los temas identificados fueron: la experiencia de vivir con un DAI, las descargas, las estrategias de adaptación, los cambios físicos, emocionales y en el estilo de vida, la vida sexual y la prohibición de conducir. Conclusión principal: Aunque la mayoría de los pacientes aceptan el dispositivo identificando las variables que influyen en la adaptación, existen limitaciones derivadas de cambios físicos, emocionales y en el estilo de vida. Los profesionales sanitarios han de valorar potenciales dificultades de adaptación o alteraciones psicológicas con el fin de facilitar las intervenciones necesarias.Objective: To know the experiences of patients with an Implantable Cardioverter Defibrillator in the Electrophysiology and Arrhytmia Unit (“Virgen del Rocio” University Hospital Seville). Methods: A qualitative study by using semi-structured interviews with 11 people with ICDs. A content analysis considering research objectives, analytical categories, and those possibly emerging was carried out. Results: The identified issues were: the experience of living with an ICD, discharges, adaptation strategies, physical and emotional changes, as well as those affecting lifestyles, sex life, and driving ban. Conclusions: Although most of patients accept the device,identifying the variables affecting their adaptation, there are still some limitations resulting from physical, emotional, and lifestyle changes. Health professionals should assess potential adaptation difficulties or psychological disorders in order to provide necessary interventions

Effects of Sepsis on Immune Response, Microbiome and Oxidative Metabolism in Preterm Infants

This is a narrative review about the mechanisms involved in bacterial sepsis in preterm infants, which is an illness with a high incidence, morbidity, and mortality. The role of the innate immune response and its relationship with oxidative stress in the pathogenesis are described as well as their potential implementation as early biomarkers. Moreover, we address the impact that all the mechanisms triggered by sepsis have on the dysbiosis and the changes on neonatal microbiota

Sustainability hedonic environmental models applied to wineries

This study introduced the application of a new methodology to the assessment of sustainability for wineries in Spain. It adapted Rosen’s hedonic models, developed in other areas of the economy, to explain the environmental commitment of wineries in terms of trends in their attributes, considering: a) resources and capabilities; b) development variables; c) commercial factors. The database for the empirical analysis was drawn up from two surveys; the first was performed in 2016, and the second occurred between 2020 and 2021. Using the Box-Cox technique, the results showed that improving the companies' attributes, especially in human resources and management, exports and distribution via Horeca, promotes a greater valorization of sustainability by the wineries