Livestock farming with care : summaries of essays

Wageningen UR is the country’s major research organisation in the field of livestock farming, providing the knowledge base for innovative livestock farming in our country and beyond and, as such, keen to play a role in the above mentioned debate. To this end an interdisciplinary task force was formed embodying a range of expertise, from livestock technology to system analysis and from economics to public administration. As one of the task force activities, Wageningen UR colleagues were invited to write an essay with their vision on specific aspects of this debate, based on their views and expertise. The result was a series of 30 essays, providing a wide overview of relevant issues with possible directions for solutions

Internet of robotic things : converging sensing/actuating, hypoconnectivity, artificial intelligence and IoT Platforms

The Internet of Things (IoT) concept is evolving rapidly and influencing newdevelopments in various application domains, such as the Internet of MobileThings (IoMT), Autonomous Internet of Things (A-IoT), Autonomous Systemof Things (ASoT), Internet of Autonomous Things (IoAT), Internetof Things Clouds (IoT-C) and the Internet of Robotic Things (IoRT) etc.that are progressing/advancing by using IoT technology. The IoT influencerepresents new development and deployment challenges in different areassuch as seamless platform integration, context based cognitive network integration,new mobile sensor/actuator network paradigms, things identification(addressing, naming in IoT) and dynamic things discoverability and manyothers. The IoRT represents new convergence challenges and their need to be addressed, in one side the programmability and the communication ofmultiple heterogeneous mobile/autonomous/robotic things for cooperating,their coordination, configuration, exchange of information, security, safetyand protection. Developments in IoT heterogeneous parallel processing/communication and dynamic systems based on parallelism and concurrencyrequire new ideas for integrating the intelligent “devices”, collaborativerobots (COBOTS), into IoT applications. Dynamic maintainability, selfhealing,self-repair of resources, changing resource state, (re-) configurationand context based IoT systems for service implementation and integrationwith IoT network service composition are of paramount importance whennew “cognitive devices” are becoming active participants in IoT applications.This chapter aims to be an overview of the IoRT concept, technologies,architectures and applications and to provide a comprehensive coverage offuture challenges, developments and applications

Interim research assessment 2003-2005 - Computer Science

This report primarily serves as a source of information for the 2007 Interim Research Assessment Committee for Computer Science at the three technical universities in the Netherlands. The report also provides information for others interested in our research activities

Design behaviors : programming the material world for responsive architecture

The advances of material science, coupled with computation and digital technologies, and applied to the architectural discipline have brought to life unprecedented possibilities for the design and making of responsive, collectively created and intelligent environments. Over the last two decades, research and applications of novel active materials, together with digital technologies such as Ubiquitous Computing, Human-Computer Interaction, and Artificial Intelligence, have introduced a model of Materially Responsive Architecture that presents unique possibilities for designing novel performances and behaviors of the architectural Beyond the use of mechanical systems, sensors, actuators or wires, often plugged into traditional materials to animate space, this dissertation proves that matter itself, can be the agent to achieve monitoring, reaction or adaptation with no need of any additional mechanics, electrical or motorized systems. Materials, therefore, become bits and information uniting with the digital world, while computational processes, such as algorithmic control, circular feedback, input or output, both drive and are driven by the morphogenetic capacities of matter, uniting, therefore, with the material world. Through the applications and implications of Materially Responsive Architecture we are crossing a threshold in design where physicality follows and reveals information through time and through dynamic configurations. Design is not limited to a finalised form but rather associated to a performance, where the final formal outcome consists in a series of animated and organic topologies rather than static geometries and structures. This new paradigm, is referred to, in this thesis, as the Design Behaviors paradigm (in the double sense of "behaviors of design" and "designing behaviors"), and is characterized by unique exchanges and dialogues between users and the environment, facilitated by the conjunction of human, material and computational intelligence. Buildings, objects and spaces are able to reconfigure themselves, in both atomic and macro scale, to support environmental changes and users' needs, behavioral and occupational patterns. At the same time the Design Behaviors paradigm places not only matter and the environment at the center of design and morphogenesis, but also the users, that become active participants of their built environment and play the final creative role. This paradigm shift, boosts new relations among the human's perception and body and the inhabited space. The new design paradigm is also a new cultural one, in which statics, repetition and Cartesian grids, traditionally related with safety, orientation and comfort, give way to motion, unpredictability and organic principles of evolution. Materially Responsive Architecture and the Design Behaviors paradigm define uniquely enhanced "environments" and "ecologies" where human, nature, artifice and technology collectively and evolutionally co-exist within a framework of increased consciousness and awareness. This thesis argues that, while there is no doubt that our future cities will consist in an extensive layer of distributed sensors, actuators and digital interfaces, they will also consist in an additional layer of novel materials, that are dynamic and soft, rather than rigid and hard, able to sense as sensors, actuate as motors, and be programmed as a software. The new materiality of our cities relies on the advances of material science, coupled with the cybernetic and computational power, and can be actuated by the environment to change states (Re-Active Matter), can be controlled by the users to respond (Co-Active Matter), and eventually can be designed and programmed to learn and evolve as living organisms do (Self-Active Matter). The physical space of the city is, thus, the seamless intertwining of digital and material content, becoming an active agent in the dynamic relationship between the environment and humans.Los avances en la ciencia de los materiales, junto con la computación y las tecnologías digitales, y aplicados a la disciplina arquitectónica, han dado vida a posibilidades sin precedentes para el diseño y la realización de entornos responsivos, inteligentes y creados de forma colectiva. En las últimas dos décadas, la investigación y aplicación de nuevos materiales activos junto con tecnologías digitales como la Computación Ubicua, la Interacción Hombre-Ordenador y la Inteligencia Artificial, han introducido el modelo de Materially Responsive Architecture (Arquitectura Materialmente Responsiva), que presenta posibilidades únicas para el diseño de nuevas actuaciones y comportamientos del espacio arquitectónico. Más allá del uso de sistemas mecánicos, sensores, o motores, a menudo conectados a materiales tradicionales para activar el espacio, esta disertación demuestra que la materia en sí misma puede ser el agente que consiga monitoreo o reactividad sin necesidad de añadir ningún sistema mecánico o eléctrico. Los materiales, en este caso, se convierten en bits e información fundiéndose con el mundo digital, mientras que los procesos computacionales, como el feedback circular y el input o output, a la vez impulsan y son impulsados por la capacidad morfogenética de la materia, uniéndose, por lo tanto, con el mundo material. A través de las aplicaciones y las implicaciones de la Materially Responsive Architecture, estamos cruzando un umbral en el diseño donde el mundo físico sigue y revela información a través de configuraciones dinámicas en el tiempo. El diseño no se limita a una forma finalizada, sino se relaciona a una performance, donde el resultado formal final consiste en una serie de topologías orgánicas y animadas en lugar de estructuras y geometrías estáticas. En esta tesis doctoral, este nuevo paradigma se denomina paradigma de Design Behaviours (en el doble sentido de "comportamientos de diseño" y de "diseño de comportamientos") y se caracteriza por intercambios únicos entre el usuario y el entorno, facilitados por la conjunción de inteligencia humana, material y computacional. Los edificios, objetos y espacios pueden reconfigurarse a sí mismos, tanto a nivél atómico como a macro escala, para responder a los cambios ambientales y a las necesidades de los usuarios. Al mismo tiempo, el paradigma Design Behaviors coloca en el centro del diseño y la morfogénesis no solo la materia y el medio ambiente, sino también a los usuarios, que se convierten en participantes de su entorno construido y desempeñan el papel creativo final. El nuevo paradigma define "entornos" y "ecologías" aumentados de manera singular, donde el ser humano, la naturaleza, el artificio y la tecnología coexisten de manera colectiva y evolutiva dentro de un marco de mayor conciencia consciente. El nuevo paradigma de diseño es también un nuevo paradigma cultural, en el que las redes estáticas, repetitivas y cartesianas, tradicionalmente relacionadas con la seguridad, la orientación y el confort, dan paso al movimiento, la imprevisibilidad y la evolución orgánica. Esta tesis sostiene que, si bien no hay duda de que nuestras ciudades futuras consistirán en una capa extensa de sensores distribuidos e interfaces digitales, también contarán con una capa adicional de materiales dinámicos y suaves, en lugar de rígidos y duros, capaces de sentir como sensores, actuar como motores y ser programados como un software. La nueva materialidad de nuestras ciudades puede ser activada por el medio ambiente para cambiar su estado (Re-Active Matter), puede ser controlada por los usuarios para responderles (Co-Active Matter), y eventualmente puede diseñarse y programarse para aprender y evolucionar por sí misma así como lo hacen los organismos vivos (Self-Active Matter). El espacio físico de la ciudad es, por lo tanto, el entrelazado holístico entre contenido digital y material, convirtiéndose en un agente activo en la relación dinámica entre el medio ambiente y los humanos

An inquiry into the nature of effective dialogue and discourse and peacebuilding through leadership

The research study and findings presented in this work underscore the necessity to design and develop effective strategies for inter-paradigm dialogue and discourse for peacebuilding. The study argues that adoption and application of appropriate dialogue strategies impact and engender the nurturing and emergence of a culture of leadership that can foster sustainable peace. Dialogue and discourse processes are considered as being intricately connected to processes of conflict transformation and resolution, and linkages of dialogue, peacebuilding and leadership are mirrored in macro- and micro- spaces of engagement, namely, much contested cultural, political and economic spaces in which myriad and diverse perspectives reside. The potential for peace, it is argued, substantially lies in the formulation and design of contextually-relevant frameworks for equitable and sustainable socio-economic development, and macro-micro intersections play themselves out in the dialogue field within which societies and individuals can seek and strive to anticipate, accommodate, attain and enact their life wisdoms into peaceful systems of co-existence. This view also speaks to the issue of how consensual and sustainable global and regional collaborative enterprise requires the parallel accompaniment of well-configured partnerships in support of cultural responsiveness and social cohesion. Through discussion of appropriate methodologies of dialogue and discourse, the identification and statement of objectives for this study, as well as the design, elaboration and configuration of its research framework, aimed to contribute towards furthering debate surrounding the integration of prevailing theoretical approaches, in order to gain a better understanding of the linkages and dynamics between peacebuilding initiatives, conflict resolution processes, and effective and sustainable leadership. Dialogue is adopted as the key component in the design of an effective model and architecture for peace building. The enquiry underscores emerging gaps that require addressing, and which may then highlight zones of ambiguity, or dialectics between action and practice, and between researcher and practitioner