Due to the changing technological possibilities of services, the demands that society places on the level of service provided by the Dutch Central Government (DCG) are changing rapidly. To accommodate this, the Dutch government is improving its processes in such a way that they become more agile and are continuously improved. However, the DCG struggles with the implementation of improvement tools that can support this. The research described in this paper aims to deliver key factors that influence the adoption of tools that improve the agile way of working and continuous improvement at the DCG. Therefore, a literature review has been conducted, from which 24 factors have been derived. Subsequently, 9 semi structured interviews have been conducted to emphasize the perspective of employees at the DCG. In total, 7 key factors have been derived from the interviews. The interviewees consisted of both employees from departments who already worked with tools to improve agile working and continuous improvement as well as employees from departments who haven’t used such tools yet. An important insight based on this research is that the aims, way of working and scope of the improvement tools must be clear for all the involved co-workers
MULTIFILE
Abstract: Unlike manufacturing technology for semiconductors and printed circuit boards, the market for traditional micro assembly lacks a clear public roadmap. More agile manufacturing strategies are needed in an environment in which dealing with change becomes a rule instead of an exception. In this paper, an attempt is made to bring production with universal micro assembly cells to the next level. This is realised by placing a larger number of cells, called Equiplets, in a “Grid”. Equiplets are compact and low-cost manufacturing platforms that can be reconfigured to a broad number of applications. Benchmarking Equiplet production has shown reduced time to market and a smooth transition from R&D to Manufacturing. When higher production volumes are needed, more systems can be placed in parallel to meet the manufacturing demand. Costs of product design changes in the later stage of industrialisation have been reduced due to the modular production in grids, which allows the final design freeze to be postponed as late as possible. The need for invested capital is also pushed backwards accordingly. doi 10.1007/978-3-642-11598-1_32
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ABSTRACT When designing interventions for health, multidisciplinary teams increasingly work according to an ‘agile’ process. Potential benefits of this approach are better knowledge transfer, stakeholder inclusion, and removal of barriers to interactions. Unfortunately, the question whether agile approaches are useful in designing health interventions remains as yet unanswered. To contribute to current knowledge, we analysed the process and results of a large multidisciplinary project with an agile approach. Our case study shows such an approach may indeed be a feasible method for the development of health interventions. The process allowed for a high pace, and good stakeholder inclusion. Some limitations also occurred. The agile approach favours speed over rigour, which hinders integration of user research and scientific evidence in the development process. Multidisciplinary cooperation remains difficult because of the limited availability of experts and stakeholders. Finally, the difficulties in documenting the process and results of the agile approach limit its use in scientific projects. Published at https://research.shu.ac.uk/design4health/publications/2020-conference-proceedings Vol. 2
In greenhouse horticulture harvesting is a major bottleneck. Using robots for automatic reaping can reduce human workload and increase efficiency. Currently, ‘rigid body’ robotic grippers are used for automated reaping of tomatoes, sweet peppers, etc. However, this kind of robotic grasping and manipulation technique cannot be used for harvesting soft fruit and vegetables as it will cause damage to the crop. Thus, a ‘soft gripper’ needs to be developed. Nature is a source of inspiration for temporary adhesion systems, as many species, e.g., frogs and snails, are able to grip a stem or leave, even upside down, with firm adhesion without leaving any damage. Furthermore, larger animals have paws that are made of highly deformable and soft material with adjustable grip size and place holders. Since many animals solved similar problems of adhesion, friction, contact surface and pinch force, we will use biomimetics for the design and realization of the soft gripper. With this interdisciplinary field of research we aim to model and develop functionality by mimicking biological forms and processes and translating them to the synthesis of materials, synthetic systems or machines. Preliminary interviews with tech companies showed that also in other fields such as manufacturing and medical instruments, adjustable soft and smart grippers will be a huge opportunity in automation, allowing the handling of fragile objects.
In Nederland heeft slechts 1% van de blinden een blindengeleidehond, terwijl een geleidehond het ideale hulpmiddel voor de doelgroep is. Een hond neemt de zichtfunctie over en neemt autonome navigatiebeslissingen wat een aanzienlijke fysieke energiebesparing oplevert voor de gebruiker. Helaas is een blindengeleidehond niet geschikt voor iedereen met een visuele beperking. Blindsight Mobility ontwikkelt een elektronisch sensor-gestuurd alternatief van een blindengeleidehond dat voor een bredere doelgroep toegankelijk is. Met moderne technieken brengt het zijn omgeving in kaart en begeleidt zijn gebruiker aan de hand, net als een geleidehond. Daarbovenop worden functionaliteiten toegevoegd die alleen mogelijk zijn met een elektronisch hulpmiddel.
In dit project wordt gekeken naar de validatie van een procesverbeteringstool.Doel De belastingdienst heeft een tool ontwikkeld met als doel de samenhang tussen Business en IT te verbeteren en een proces van continu verbeteren op te starten. Deze tool wil de belastingdienst objectief te evalueren. Resultaten Dit project leidt tot de volgende resultaten: Een validatierapport Een verbeterplan Een wetenschappelijk artikel Looptijd 01 oktober 2021 - 31 december 2022 Aanpak Binnen dit onderzoek wordt gebruik gemaakt van de volgende onderzoeksmethoden: Focusgroepen Literatuuronderzoek Workshops Meedoen in dit onderzoek? Als je onderzoek wil doen naar tools in het werkveld van Agile werken, Business IT alignement of continu verbeteren, neem dan contact op met Paul Morsch.
