Innovative coordination of agribusiness chains and networks

To facilitate scientifically grounded innovative forms of strategic network coordination, this paper integrates two major bodies of literature on competitive advantage. The two bodies of literature are the industry-oriented outside-in approach, and the competence-oriented inside-out approach, here homogenized along the dimensions of degrees of firm embeddedness, respectively, the broadness of shared resource bases. The elements detailed are interfirm relationships, resource bases, network governance instruments, coordination mechanisms, the impact of events on network structures, and the active mobilisation of actors and resource. Thereby, the paper is able to detail 5 generic types of business networks. Next, it relates 21 network governance instruments to type of partnerships (binding vs loosening), forms of interaction (cooperative vs opportunistic). The realized reduction of network complexity enhances conceptual transparency and increases the instrumental usage of this research for effective network coordination by businesses. An integrated case illustrates the usefulness of the various concepts and the coherency of the different elements

The divergent transitions towards sustainable biofuel networks/chains

In this exploratory paper we investigate how Capabilities, Transaction Costs and Vertical Scope co-evolve, by testing the Jacobides & Winter (2005) model on the Biofuels Industry in the area of the EU. The theoretical framework is based on the Industrial Architecture theory but also on Transaction Costs Economics, Resource Based View and on the concept of the Dynamic Capabilities. Qualitative data on the institutional environment of the Biofuels Industry in the EU-15 was collected. Via interviews, qualitative data (case studies) was collected through interviews on the elements of productive capabilities, the vertical division of labour, knowledge and technology and attributes of the transactions. These conclusions include the verification of mechanisms 1 & 2 of the Jacobides & Winter (2005) model, in particular that the resources and capabilities determine the degree of vertical specialisation, with transactions costs as moderating factor. The conclusions of this project bring the need for further investigation on measuring the concepts of Capabilities and Transaction Costs together but also, on how to prescribe and measure the process of Capabilities development and the capabilities redistribution

The macro-environment for liquid biofuels in the German science, mass, media and government

The purpose of this study is to investigate under which dimensions the macro-environment for liquid biofuels has been structured during time, respectively by science, mass media, and government in Germany, and how these three social expressions related to each other. Research was carried out on German official government documents, mass media news, and scientific papers on the topic 'liquid biofuels'. Text Mining was used to extract knowledge from their content. The results indicate that in configurating the macro-environment for liquid biofuels there is some degree of proximity between media and government, less between media and science, and the least between government and science

The macro-environment for liquid biofuels in the US mass media, science and government

The purpose of this study is to investigate under which dimensions the macro-environment for liquid biofuels has been structured during time, respectively by science, mass media, and government in Germany, and how these three social expressions related to each other. Research was carried out on German official government documents, mass media news, and scientific papers on the topic ‘liquid biofuels’. Text Mining was used to extract knowledge from their content. The results indicate that in configurating the macro-environment for liquid biofuels there is some degree of proximity between media and government, less between media and science, and the least between government and scienc

Does Size Matter – How Much Data is Required to Train a REG Algorithm?

In this paper we investigate how much data is required to train an algorithm for attribute selection, a subtask of Referring Expressions Generation (REG). To enable comparison between different-sized training sets, a systematic training method was developed. The results show that depending on the complexity of the domain, training on 10 to 20 items may already lead to a good performance

Nationale 'good practices' voor de VWA: Studie naar drie soortgelijke autoriteiten in Nederland

In 2005 researchers from Wageningen UR and LNV DK conducted exploratory research for VWA into the good practices of three inspectorates - PD, IVW-DL and AFM - as part of the review of the financial system, subject to the financial articles, due to be implemented in EU member states on 1 January 2006. In these three cases, the main focus was on the implementation of auditing activities and the method of financing. The findings for these cases and the findings of the cases from EU member states will be used in the scenario study. In all, three reports will be published in the framework of this investigation.Financial Economics,

Distributed management and coordination of UAV swarms based on infrastructureless wireless networks

[ES] Los Vehículos Aéreos no Tripulados (o drones) ya han demostrado su utilidad en una gran variedad de aplicaciones. Hoy en día, se utilizan para fotografía, cinematografía, inspecciones y vigilancia, entre otros. Sin embargo, en la mayoría de los casos todavía son controlados por un piloto, que como máximo suele estar volando un solo dron cada vez. En esta tesis, tratamos de avanzar en paso más allá en esta tecnología al permitir que múltiples drones con capacidad para despegue y aterrizaje vertical trabajen de forma sincronizada, como una sola entidad. La principal ventaja de realizar vuelos en grupo, comúnmente denominado enjambre, es que se pueden realizar tareas más complejas que utilizando un solo dron. De hecho, un enjambre permite cubrir más área en el mismo tiempo, ser más resistente, tener una capacidad de carga más alta, etc. Esto puede habilitar el uso de nuevas aplicaciones, o una mejor eficiencia para las aplicaciones existentes. Sin embargo, una parte clave es que los miembros del enjambre deben organizarse correctamente, ya que, durante el vuelo, diferentes perturbaciones pueden provocar que sea complicado mantener el enjambre como una unidad coherente. Una vez que se pierde esta coherencia, todos los beneficios previamente mencionados de un enjambre se pierden también. Incluso, aumenta el riesgo de colisiones entre los elementos del enjambre. Por lo tanto, esta tesis se centra en resolver algunos de estos problemas, proporcionando un conjunto de algoritmos que permitan a otros desarrolladores crear aplicaciones de enjambres de drones. Para desarrollar los algoritmos propuestos hemos incorporado mejoras al llamado ArduSim. Este simulador nos permite simular tanto la física de un dron como la comunicación entre drones con un alto grado de precisión. ArduSim nos permite implementar protocolos y algoritmos (bien probados) en drones reales con facilidad. Durante toda la tesis, ArduSim ha sido utilizado ampliamente. Su utilización ha permitido que las pruebas fueran seguras, y al mismo tiempo nos permitió ahorrar mucho tiempo, dinero y esfuerzo de investigación. Comenzamos nuestra investigación sobre enjambres asignando posiciones aéreas para cada dron en el suelo. Suponiendo que los drones están ubicados aleatoriamente en el suelo, y que necesitan alcanzar una formación aérea deseada, buscamos una solución que minimice la distancia total recorrida por todos los drones. Para ello se empezó con un método de fuerza bruta, pero rápidamente nos dimos cuenta de que, dada su alta complejidad, este método funciona mal cuando el número de drones aumenta. Por lo tanto, propusimos una heurística. Como en todas las heurísticas, se realizó un compromiso entre complejidad y precisión. Al simplificar el problema, encontramos que nuestra heurística era capaz de calcular una solución muy rápidamente sin aumentar sustancialmente la distancia total recorrida. Además, implementamos el algoritmo de Kuhn-Munkres (KMA), un algoritmo que ha demostrado proporcionar la respuesta exacta (es decir, reducir la distancia total recorrida) en el menor tiempo posible. Después de muchos experimentos, llegamos a la conclusión de que nuestra heurística es más rápida, pero que la solución proporcionada por el KMA es ligeramente más eficiente. En particular, aunque la diferencia en la distancia total recorrida es pequeña, el uso de KMA reduce el número de trayectorias de vuelo que se cruzan entre sí, lo cual es una métrica importante para las siguientes propuestas.[...][CA] Els vehicles aeris no tripulats (o drons) ja han demostrat la seua utilitat en una gran varietat d'aplicacions. Avui dia, s'utilitzen per a fotografia, cinematografia, inspeccions i vigilància, entre altres. No obstant això, en la majoria dels casos encara són controlats per un pilot, que com a màxim sol controlar el vol d'un sol dron cada vegada. En aquesta tesi, tractem d'avançar un pas més enllà en aquesta tecnologia, en permetre que múltiples drons amb capacitat per a l'enlairament i l'aterratge vertical treballen de forma sincronitzada, com una sola entitat. El principal avantatge de realitzar vols en grup, comunament denominats eixam, és que es poden fer tasques més complexes que utilitzant un sol dron. De fet, un eixam permet cobrir més àrea en el mateix temps, ser més resistent, tenir una capacitat de càrrega més alta, etc. Això pot habilitar l'ús de noves aplicacions, o una millor eficiència per a les aplicacions existents. No obstant això, una punt clau és que els membres de l'eixam han d'organitzar-se correctament, ja que, durant el vol, diferents pertorbacions poden provocar que siga complicat mantenir l'eixam com una unitat coherent. Una vegada que es perd aquesta coherència, tots els beneficis prèviament esmentats d'un eixam es perden també. Fins i tot, augmenta el risc de col·lisions entre els elements de l'eixam. Per tant, aquesta tesi se centra a resoldre alguns d'aquests problemes, proporcionant un conjunt d'algorismes que permeten a altres desenvolupadors crear aplicacions d'eixams de drons. Per a desenvolupar els algorismes proposats hem incorporat millores a l'anomenat ArduSim. Aquest simulador ens permet simular tant la física d'un dron com la comunicació entre drons amb un alt grau de precisió. ArduSim ens permet implementar protocols i algorismes (ben provats) en drons reals amb facilitat. Durant tota la tesi, ArduSim s'ha utilitzat àmpliament. El seu ús ha permès que les proves foren segures, i al mateix temps ens va permetre estalviar molt de temps, diners i esforç d'investigació. Per tant, es va utilitzar ArduSim per a cada bloc de construcció que vam desenvolupar. Comencem la nostra recerca sobre eixams assignant posicions aèries per a cada dron en terra. Suposant que els drons estan situats aleatòriament en terra i que necessiten assolir la formació aèria desitjada, cerquem una solució que minimitze la distància total recorreguda per tots els drons. Per a això, es va començar amb un mètode de força bruta, però ràpidament ens vam adonar que, atesa l'alta complexitat, aquest mètode funciona malament quan el nombre de drons augmenta. Per tant, vam proposar una heurística. Com en totes les heurístiques, es va fer un compromís entre complexitat i precisió. En simplificar el problema, trobem que la nostra heurística era capaç de calcular una solució molt ràpidament sense augmentar substancialment la distància total recorreguda. A més, vam implementar l'algorisme de Kuhn-Munkres (KMA), un algorisme que ha demostrat proporcionar la resposta exacta (és a dir, reduir la distància total recorreguda) en el menor temps possible. Després de molts experiments, arribem a la conclusió que la nostra heurística és més ràpida, però que la solució proporcionada pel KMA és lleugerament més eficient. En particular, encara que la diferència en la distància total recorreguda és xicoteta, l'ús de KMA redueix el nombre de trajectòries de vol que s'encreuen entre si, la qual cosa és una mètrica important per a les propostes següents.[...][EN] Unmanned Aerial Vehicles (UAVs) have already proven to be useful in many different applications. Nowadays, they are used for photography, cinematography, inspections, and surveillance. However, in most cases they are still controlled by a pilot, who at most is flying one UAV at a time. In this thesis, we try to take this technology one step further by allowing multiple Vertical Take-off and Landing (VTOL) UAVs to work together as one entity. The main advantage of this group, commonly referred to as a swarm, is that it can perform more complex tasks than a single UAV. When organized correctly, a swarm allows for: more area to be covered in the same time, more resilience, higher load capability, etc. A swarm can lead to new applications, or a better efficiency for existing applications. A key part, however, is that they should be organized correctly. During the flight, different disturbances will make it complicated to keep the swarm as one coherent unit. Once this coherency is lost, all the previously mentioned benefits of a swarm are lost as well. Even worse, the chance of a hazard increases. Therefore, this thesis focuses on solving some of these issues by providing a baseline of building blocks that enable other developers to create UAV swarm applications. In order to develop these building blocks, we improve a multi-UAV simulator called ArduSim. This simulator allows us to simulate both the physics of a UAV, and the communication between UAVs with a high degree of accuracy. This is a crucial part because it allows us to deploy (well tested) protocols and algorithms on real UAVs with ease. During the entirety of this thesis, ArduSim has been used extensively. It made testing safe, and allowed us to save a lot of time, money and research effort. We started by assigning airborne positions for each UAV on the ground. Assuming that the UAVs, are placed randomly on the ground, and that they need to reach a desired aerial formation, we searched for a solution that minimizes the total distance travelled by all the UAVs. We started with a brute-force method, but quickly realized that, given its high complexity, this method performs badly when the number of UAVs grows. Hence, we created a heuristic. As for all heuristics, a trade-off was made between complexity and accuracy. By simplifying the problem, we found that our heuristic was able to calculate a solution very quickly without increasing the total distance travelled substantially. Furthermore, we implemented the \ac{KMA}, an algorithm that has been proven to provide the exact answer (i.e. minimal total distance travelled) in the shortest time possible. After many experiments, we came to the conclusion that our heuristic is faster, but that the solution provided by the \ac{KMA} is slightly better. In particular, although the difference in total distance travelled is small, the \ac{KMA} reduces the numbers of flight paths crossing each other, which is an important metric in our next building block. Once we developed algorithms to assign airborne positions to each UAV on the ground, we started developing algorithms to take off all those UAVs. The objective of these algorithms is to reduce the time it takes for all the UAVs to reach their aerial position, while ensuring that all UAVs maintain a safe distance. The easiest solution is a sequential take-off procedure, but this is also the slowest approach. Hence, we improved it by first proposing a semi-sequential and later a semi-simultaneous take-off procedure. With this semi-simultaneous take-off procedure, we are able to reduce the takeoff time drastically without introducing any risk to the aircraft. [..]Wubben, J. (2023). Distributed management and coordination of UAV swarms based on infrastructureless wireless networks [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/19888

A Solution for the Efficient Takeoff and Flight Coordination of UAV Swarms

[ES] En la última década, hemos asistido a un gran aumento del uso de los VANTs, debido principalmente a los avances en tecnología y materiales. Hoy en día, los VANTs ya no son solo juguetes para el entretenimiento, sino también importantes activos para muchas empresas. Los VANTs son muy versátiles y, por ello, existen muchas y variadas aplicaciones: misiones de búsqueda y rescate, vigilancia de fronteras, inspección térmica de tuberías, cinematografía y agricultura de precisión, solo por nombrar algunas. En estos momentos en que las industrias están incorporando soluciones basadas en VANTs, es crucial que la investigación avance. El cambio más destacado (con respecto a los VANTs) que presenciaremos en esta década, es el despliegue de grupos de VANTs trabajando en colaboración para cumplir un objetivo superior. Estos grupos, también llamados enjambres de drones, permiten realizar tareas más complejas, de forma más eficiente, o con mayor redundancia. Sin embargo, existen retos inherentes al funcionamiento de un enjambre de VANTs. Debe existir una buena comunicación entre los VANTs, deben evitarse las colisiones y los VANTs individuales deben utilizarse de forma inteligente para aumentar la eficiencia global. En este trabajo fin de master se da solución a algunos de los principales problemas relativos a los enjambres de vehículos aéreos no tripulados. En primer lugar, diseñamos varios patrones de formación de enjambres ´útiles. A continuación, incorporamos esas formaciones en dos procedimientos de despegue - una heurística y un algoritmo ya existente (KMA) - los cuales se prueban ampliamente para decidir cual es el más adecuado para despegar un enjambre de VANTs de la manera más eficiente. Una vez que somos capaces de despegar de forma sincronizada y segura un enjambre completo, continuamos nuestra investigación proporcionando una solución para mantener ese enjambre organizado, y estable durante una misión pre-planificada. Nuestra solución incorpora mecanismos para proporcionar resiliencia al enjambre, de tal manera que todos y cada uno de los VANTs pueden abandonar el enjambre (en pleno vuelo), sin perturbar a los demás en su misión.[EN] In the last decade, we have seen a great increase in the use of Unmanned Aerial Vehicles (UAVs). This is mainly due to advances in technology and materials. Nowadays, UAVs are no longer only toys for entertainment, but also important assets for many enterprises. UAVs are versatile, and thus many diverse applications exist: search and rescue missions, border surveillance, thermal pipeline inspection, cinematography, and precision agriculture, just to name a few. Now that the industry is incorporating UAVs based solutions, it is crucial that research advances. The most prominent change (with respect to UAVs) that we will witness in this decade, is the deployment of groups of UAVs working collaboratively to fulfill a higher goal. Those groups, also called swarms, allow us to perform more complex tasks, more efficiently, or with more redundancy. However, there are inherent challenges while operating a swarm of UAVs: there must be a good communication channel between the UAVs, collisions must be avoided, and the individual UAVs should be used intelligently in order to increase the overall efficiency. In this master thesis, a solution is given for some of the main problems concerning Unmanned Aerial Vehicle (UAV) swarms. First, we lay out various useful swarm formation patterns. Then we incorporate those formations in two takeoff procedures - an heuristic and an existing algorithm (KuhnMunkres algorithm (KMA)) - which are extensively tested to decide which one is the most appropriate for the takeoff of a swarm of UAVs in the most efficient manner. Once we are able to take off an entire swarm, we continue our research by providing a solution to keep that swarm organized and stable during a pre-planned mission. Such solution incorporates mechanisms to provide resilience to the swarm in such a manner that any number of UAVs can be removed from the swarm (mid-flight) without disturbing the others in their mission.Wubben, J. (2021). A Solution for the Efficient Takeoff and Flight Coordination of UAV Swarms. Universitat Politècnica de València. http://hdl.handle.net/10251/172620TFG

Edward Burne-Jones: Beauty and Symbolism in his Portrait of Baronne Madeleine Deslandes

In 2018-19, Tate Britain held a comprehensive retrospective exhibition of over 150 works by Sir Edward Burne-Jones (1833-98), one of the most influential British artists of the late nineteenth century.1 This exhibition was the first solo show of Burne-Jones’s work at Tate since 1933.2  The portrait of Baronne Madeleine Deslandes (1895-96) (Fig. 1), held in the National Gallery of Victoria (NGV) , Melbourne, was the only work drawn from an Australian public collection.3  This article examines Burne-Jones’s painting, Baronne Madeleine Deslandes, and will argue it is a significant example of the artist’s distinctive approach to portraiture, female beauty, and the use of symbolic accessories. Prefaced by a description of the portrait, the context of its creation and its reception in 1896, this article will delve into the symbolic meaning of key motifs in the painting­­—­­the crystal globe and laurel leaves—through comparison with other works in Burne-Jones’s oeuvre. Whilst acknowledging similarities in his use of these accessories across different works, the peculiarities of Burne-Jones’s use in each example will be explored. It will be argued that Burne-Jones created a mystical world in which certain objects did not simply add to a straightforward narrative, but rather served to evoke a mood or concept.