How network operators can enhance ambient assisted living applications through next generation networks

Within the technological framework of Information and Communication Technologies (ICT), consumers are currently requesting multimedia services with simplicity of use, reliability, security and service availability through mobile and fixed access. Network operators are proposing the Next Generation Networks (NGN) to address the challenges of providing both services and network convergence. Apart from these considerations, there is a need to provide social and healthcare assistance services in order to support the progressive aging in the elderly population. In order to achieve this objective, the Ambient Assisted Living (AAL) initiative proposes ICT systems and services to promote autonomy and an independent life among the elderly. This paper describes the design and implementation of a group of services, called “service enablers”, which helps AAL applications to be supported in NGN. The presented enablers are identified to support the teleconsulting applications requirements in an NGN environment, involving the implementation of a virtual waiting room, a virtual whiteboard, a multimedia multiconference and a vital-signs monitoring presence status. A use case is defined and implemented to evaluate the developed enablers' performance.

Detection and Tracking of Traffic Signs Using a Recursive Bayesian Decision Framework

In this paper we propose a new method for the automatic detection and tracking of road traffic signs using an on-board single camera. This method aims to increase the reliability of the detections such that it can boost the performance of any traffic sign recognition scheme. The proposed approach exploits a combination of different features, such as color, appearance, and tracking information. This information is introduced into a recursive Bayesian decision framework, in which prior probabilities are dynamically adapted to tracking results. This decision scheme obtains a number of candidate regions in the image, according to their HS (Hue-Saturation). Finally, a Kalman filter with an adaptive noise tuning provides the required time and spatial coherence to the estimates. Results have shown that the proposed method achieves high detection rates in challenging scenarios, including illumination changes, rapid motion and significant perspective distortion

La casa vital

RESUMEN. Se trata de una investigación sobre algunas relaciones entre la idea y el ejercicio de la arquitectura y el concepto y la praxis de la herida, tanto física como espiritual: sobre la arquitectura como objeto, destino y origen del trauma. Propongo una definición de estas arquitecturas mediante el estudio de obras que se han visto en algún momento de su vida (concebida como la de un humano) - sometidas a procesos de heridas de varios tipos e intensidades, de forma que estos momentos destructivos las han hecho conocer la agonía y, en ocasiones, las han conducido a la extinción. THIS IS AN INVESTIGATION OF SOME RELATIONSHIPS BETWEEN THE IDEA AND THE PRACTICE OF ARCHITECTURE AND THE CONCEPT AND PRACTICE OF INJURY, PHYSICAL AND SPIRITUAL: ABOUT THE ARCHITECTURE LIKE AN OBJECT, DESTINY AND ORIGIN OF THE TRAUMA. I PROPOSE A DEFINITION OF THESE ARCHITECTURES BY STUDYING WORKS THAT HAVE BEEN AT SOME POINT IN THEIR LIFE (CONCEIVED AS A HUMAN) - UNDER TO PROCESSES OF WOUNDS OF VARIOUS TYPES AND INTENSITIES, SO THAT THESE DESTRUCTIVE TIMES HAVE MADE THEM KNOW THE AGONY AND, ON OCCASION, BEEN DRIVEN TO EXTINCTION.

Evaluation of the bioaccumulation kinetics of gold nanorods in vital mammalian organs by mean of TXRF spectrometry

This work presents the first application of total-reflection X-ray fluorescence (TXRF) spectrometry, a new and powerful alternative analytical method, to evaluation of the bioaccumulation kinetics of gold nanorods (GNRs) in various tissues upon intravenous administration in mice. The analytical parameters for developed methodology by TXRF were evaluated by means of the parallel analysis of bovine liver certified reference material samples (BCR-185R) doped with 10 μg/g gold. The average values (n = 5) achieved for gold measurements in lyophilized tissue weight were as follows: recovery 99.7%, expanded uncertainty (k = 2) 7%, repeatability 1.7%, detection limit 112 ng/g, and quantification limit 370 ng/g. The GNR bioaccumulation kinetics was analyzed in several vital mammalian organs such as liver, spleen, brain, and lung at different times. Additionally, urine samples were analyzed to study the kinetics of elimination of the GNRs by this excretion route. The main achievement was clearly differentiating two kinds of behaviors. GNRs were quickly bioaccumulated by highly vascular filtration organs such as liver and spleen, while GNRs do not show a bioaccumulation rates in brain and lung for the period of time investigated. In parallel, urine also shows a lack of GNR accumulation. TXRF has proven to be a powerful, versatile, and precise analytical technique for the evaluation of GNRs content in biological systems and, in a more general way, for any kind of metallic nanoparticles.