Tailoring the Scrum Development Process to Address Agile Product Line Engineering

Software Product Line Engineering (SPLE) is becoming widely used due to the improvement it means when developing software products of the same family. However, SPLE demands long-term investment on a product-line platform that might not be profitable due to rapid changing business settings. Since Agile Software Development (ASD) approaches are being successfully applied in volatile markets, several companies have suggested the idea of integrating SPLE and ASD when a family product has to be developed. Agile Product Line Engineering (APLE) advocates the integration of SPLE and ASD to address their lacks when they are individually applied to software development. A previous literature re-view of experiences and practices on APLE revealed important challenges about how to fully put APLE into practice. Our contribution address several of these challenges by tailoring the agile method Scrum by means of three concepts that we have defined: plastic partial components, working PL-architectures, and reactive reuse.

Diseño e implementación de un controlador de ratón gestual para Microsoft Windows con Kinect - Touchless Gesture User Interface

El dispositivo Microsoft Kinect for Windows y similares, han introducido en el mundo del PC una nueva forma de interacción denominada “Touchless Gesture User Interface” o TGUI (Interfaz de Usuario por Gestos sin Contacto) [Gentile et al. 2011]. Se trata de una tecnología novedosa en proceso de evolución. La tecnología de Kinect detecta la presencia de un usuario y monitoriza la posición en el espacio de sus articulaciones principales. Esta información permite desarrollar aplicaciones que posibiliten interactuar al usuario con una computadora mediante gestos y sin la necesidad de estar en contacto con periférico alguno. Desde la invención del periférico ratón en los años 60, resulta curioso que con la frenética evolución que ha experimentado el mundo de la informática en todos estos años, este dispositivo no haya sufrido cambios significativos o no haya sido incluso sustituido por otro periférico. En este proyecto se ha abordado el reto de desarrollar un controlador de ratón gestual para Windows utilizando Microsoft Kinect, de tal forma que se sustituya el uso del típico ratón y sea el propio usuario el que actúe como controlador mediante gestos y movimientos de sus manos. El resultado es llamativo y aporta numerosas mejoras y novedades frente a aplicaciones similares, aunque deja en evidencia algunas de las limitaciones de la tecnología implementada por Kinect a día de hoy. Es de esperar que cuando evolucione su tecnología, su uso se convierta en cotidiano.

Bill Gates. El constructor de un mundo digital: de Microsoft a la filantropía

Creo haber leído alguna vez que Bill Gates es la persona más rica del mundo, lo que me indica que hay alguien, que no es el fisco, que dedica su tiempo a contar la riqueza de los ricos. Menos mal que también hay quien, como la Fundación Príncipe de Asturias,hace algo más útil, como es ocuparse de valorar y ensalzar la parte de su riqueza que algunos ricos destinan a resolver los problemas de los pobres del mundo. Así es como ha decidido premiar a la Fundación Bill y Melinda Gates por su labor benéfica en pro de la salud mundial y de la educación, de la erradicación de la hambruna y de reducir desigualdades que afectan a lo que llamamos tercer mundo.

Three-dimensional mapping of real environments for cognitive robots navigation

Abstract The development of cognitive robots needs a strong “sensorial” support which should allow it to perceive the real world for interacting with it properly. Therefore the development of efficient visual-processing software to be equipped in effective artificial agents is a must. In this project we study and develop a visual-processing software that will work as the “eyes” of a cognitive robot. This software performs a three-dimensional mapping of the robot’s environment, providing it with the essential information required to make proper decisions during its navigation. Due to the complexity of this objective we have adopted the Scrum methodology in order to achieve an agile development process, which has allowed us to correct and improve in a fast way the successive versions of the product. The present project is structured in Sprints, which cover the different stages of the software development based on the requirements imposed by the robot and its real necessities. We have initially explored different commercial devices oriented to the acquisition of the required visual information, adopting the Kinect Sensor camera (Microsoft) as the most suitable option. Later on, we have studied the available software to manage the obtained visual information as well as its integration with the robot’s software, choosing the high-level platform Matlab as the common nexus to join the management of the camera, the management of the robot and the implementation of the behavioral algorithms. During the last stages the software has been developed to include the fundamental functionalities required to process the real environment, such as depth representation, segmentation, and clustering. Finally the software has been optimized to exhibit real-time processing and a suitable performance to fulfill the robot’s requirements during its operation in real situations.

Understanding sprint velocity fluctuations for improved project plans with Scrum: a case study

Starting from the documentation of high sprint velocity fluctuations in a Scrum project, this paper presents a thorough approach to identify the sources of issues arising in the context of Scrum implementation. Given that Scrum provides guidance on identifying process issues but not their root causes, various approaches are explored. This is of great relevance because Scrum defines project schedules relying heavily on sprint velocity and because it is the most widely used agile methodology. The findings provide a new approach to evaluate such fluctuations and establish a more realistic project assessment than what is currently defined by Scrum. In this respect, this paper contributes to improve the understanding of the software development process using this agile framework.