Survey on Additive Manufacturing, Cloud 3D Printing and Services

Cloud Manufacturing (CM) is the concept of using manufacturing resources in a service oriented way over the Internet. Recent developments in Additive Manufacturing (AM) are making it possible to utilise resources ad-hoc as replacement for traditional manufacturing resources in case of spontaneous problems in the established manufacturing processes. In order to be of use in these scenarios the AM resources must adhere to a strict principle of transparency and service composition in adherence to the Cloud Computing (CC) paradigm. With this review we provide an overview over CM, AM and relevant domains as well as present the historical development of scientific research in these fields, starting from 2002. Part of this work is also a meta-review on the domain to further detail its development and structure

Beobachtungen zur Verlaufsgestaltung klassischer Sonatenexpositionen

Musikkundige wissen, dass das Seitenthema einer klassischen Sonatenexposition in Dur in der Oberquinttonart steht. Weniger oder gar nicht bekannt ist, dass sich einhergehend mit der harmonischen Modulation eine rhythmische Intensivierung vollzieht, womit der Prozess der Modulation als ein dramatischer wahrgenommen wird. Diese mit einer inneren Beschleunigung einhergehende Differenzierung der musikalischen Textur erfährt oft eine Zuspitzung vor dem Abschluss der Exposition. In den musiktheoretischen Schriften wird diesem Gegenstand bisher wenig Beachtung geschenkt. Immerhin finden sich bei James Hepokoski und Warren Darcy und vor allem bei Charles Rosen Ansätze einer adäquaten Beschreibung, die hier entwickelt und ausgeführt werden. Anhand der frühen Haydn’schen Klaviersonaten wird in diesem Aufsatz das Phänomen beschrieben und nachvollziehbar gemacht. Gleichzeitig möchte der Beitrag die Diskussion darüber anregen, was dieser Befund für das Verständnis, die Analyse, das Nachschaffen und die Interpretation von Sonatensätzen seit der Wiener Klassik beitragen kann.Those knowledgeable in music know that the secondary theme of a classical sonata form exposition in a major key is in the dominant key. Less well known, if at all, is the fact that a rhythmic intensification takes place as well along with the harmonic modulation in such a way that the process is perceived as dramatic. This differentiation of musical texture, accompanied by an internal acceleration, often comes to a head just before the conclusion of the exposition. In music-theoretical literature, little attention has been paid to this subject. Nevertheless, in writings by James Hepokoski and Warren Darcy, and especially Charles Rosen, approaches to an adequate description can be found, which are developed and elaborated in this contribution. Taking into account Haydn’s early piano sonatas, the phenomenon is described and made comprehensible. The paper also aims to stimulate a discussion about what these findings can contribute to the understanding, analysis, recreation, and interpretation of sonata movements since the Viennese Classical period

Rhythmisch-energetische Intensivierung: Zur Verlaufsform von Sonatenexpositionen in der Wiener Klassik

Musikkundigen ist geläufig, dass das Seitenthema einer Sonatenexposition der Wiener Klassik in einer Spannungstonart erfolgt. Weniger bekannt ist, dass sich zusammen mit der harmonischen Modulation eine rhythmisch-energetische Intensivierung vollzieht, die die Musik dramatisiert und strukturiert. In dieser Leseweise präsentiert sich die Sonatenform als die musikalische Form der Aufklärung. Felix Baumann zeigt, wie daraus innovative Einsichten resultieren, die mit den neuesten Theorieansätzen kompatibel sind und sie in fruchtbarer Weise ergänzen. So entsteht nicht nur für alle Spielarten der Musiktheorie, der Musikwissenschaft oder der Musikästhetik ein erheblicher Zugewinn, sondern auch eine Inspiration zur eigenen Auseinandersetzung mit der Materie

3D printing-as-a-service for collaborative engineering

3D printing or Additive Manufacturing (AM) are utilised as umbrella terms to denote a variety of technologies to manufacture or create a physical object based on a digital model. Commonly, these technologies create the objects by adding, fusing or melting a raw material in a layer-wise fashion. Apart from the 3D printer itself, no specialised tools are required to create almost any shape or form imaginable and designable. The possibilities of these technologies of these technologies are plentiful and cover the ability to manufacture every object, rapidly, locally and cost-efficiently without wasted resources and material. Objects can be created to specific forms to perform as perfectly fitting functions without consideration of the assembly process. To further the advance the availability and applicability of 3D printing, this thesis identifies the problems that currently exist and attempts to solve them. During the 3D printing process, data (i. e., files) must be converted from their original representation, e. g., CAD file, to the machine instructions for a specific 3D printer. During this process, information is lost, and other information is added. Traceability is lacking in 3D printing. The actual 3D printing can require a long period of time to complete, during which errors can occur. In 3D printing, these errors are often non-recoverable or reversible, which results in wasted material and time. In addition to the lack of closed-loop control systems for 3D printers, careful planning and preparation are required to avoid these costly misprints. 3D printers are usually located remotely from users, due to health and safety considerations, special placement requirements or out of comfort. Remotely placed equipment is impractical to monitor in person; however, such monitoring is essential. Especially considering the proneness of 3D printing to errors and the implications of this as described previously. Utilisation of 3D printers is an issue, especially with expensive 3D printers. As there are a number of differing 3D printing technologies available, having the required 3D printer, might be problematic. 3D printers are equipped with a variety of interfaces, depending on the make and model. These differing interfaces, both hard- and software, hinder the integration of different 3D printers into consistent systems. There exists no proper and complete ontology or resource description schema or mechanism that covers all the different 3D printing technologies. Such a resource description mechanism is essential for the automated scheduling in services or systems. In 3D printing services the selection and matching of appropriate and suitable 3D printers is essential, as not all 3D printing technologies are able to perform on all materials or are able to create certain object features, such as thin walls or hollow forms. The need for companies to sell digital models for AM will increase in scenarios where replacement or customised parts are 3D printed by consumers at home or in local manufacturing centres. Furthermore, requirements to safeguard these digital models will increase to avoid a repetition of the problems from the music industry, e. g., Napster. Replication and ‘theft’ of these models are uncontrollable in the current situation. In a service oriented deployment, or in scenarios where the utilisation is high, estimations of the 3D printing time are required to be available. Common 3D printing time estimations are inaccurate, which hinder the application of scheduling. The complete and comprehensive understanding of the complexity of an object is discordant, especially in the domain of AM. This understanding is required to both support the design of objects for AM and match appropriate manufacturing resources to certain objects. Quality in AM and FDM have been incompletely researched. The quality in general is increased with maturity of the technology; however, research on the quality achievable with consumer-grade 3D printers is lacking. Furthermore, cost-sensitive measurement methods for quality assessment are expandable. This thesis presents the structured design and implementation of a 3D printing service with associated contributions that provide solutions to particular problems present in the AM domain. The 3D printing service is the overarching component of this thesis and provides the platform for the other contributions with the intention to establish an online, cloud-based 3D printing service for use in end-user and professional settings with a focus on collaboration and cooperation

Thiete Dioxides as Templates Towards Twisted Scaffolds and Macrocyclic Structures

Thiete dioxide units have been employed as a template for further functionalization through C−H activation strategies. Using simple thiete dioxide building blocks, a new library of axially chiral molecules has been synthesized that owe their stability to electrostatic interactions in the solid state. Similar starting materials were further engaged in the formation of cyclic trimeric structures, opening the pathway to unprecedented macrocyclic ring systems

Hierarchical microtextures embossed on PET from laser-patterned stamps

Nowadays, the demand for surface functionalized plastics is constantly rising. To address this demand with an industry compatible solution, here a strategy is developed for producing hierarchical microstructures on polyethylene terephthalate (PET) by hot embossing using a stainless steel stamp. The master was structured using three laser-based processing steps. First, a nanosecond-Direct Laser Writing (DLW) system was used to pattern dimples with a depth of up to 8 µm. Next, the surface was smoothed by a remelting process with a high-speed laser scanning at low laser fluence. In the third step, Direct Laser Interference Patterning (DLIP) was utilized using four interfering sub-beams to texture a hole-like substructure with a spatial period of 3.1 µm and a depth up to 2 µm. The produced stamp was used to imprint PET foils under controlled temperature and pressure. Optical confocal microscopy and scanning electron microscopy imaging showed that the hierarchical textures could be accurately transferred to the polymer. Finally, the wettability of the single- and multi-scaled textured PET surfaces was characterized with a drop shape analyzer, revealing that the highest water contact angles were reached for the hierarchical patterns. Particularly, this angle was increased from 77° on the untreated PET up to 105° for a hierarchical structure processed with a DLW spot distance of 60 µm and with 10 pulses for the DLIP treatment.Fil: Bouchard, Felix. Technische Universität Dresden; AlemaniaFil: Soldera, Marcos Maximiliano. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigación y Desarrollo en Ingeniería de Procesos, Biotecnología y Energías Alternativas. Universidad Nacional del Comahue. Instituto de Investigación y Desarrollo en Ingeniería de Procesos, Biotecnología y Energías Alternativas; ArgentinaFil: Baumann, Robert. Technische Universität Dresden; AlemaniaFil: Lasagni, Andrés Fabián. Technische Universität Dresden; Alemani

Long term availability of raw experimental data in experimental fracture mechanics

Experimental data availability is a cornerstone for reproducibility in experimental fracture mechanics, which is crucial to the scientific method. This short communication focuses on the accessibility and long term availability of raw experimental data. The corresponding authors of the eleven most cited papers, related to experimental fracture mechanics, for every year from 2000 up to 2016, were kindly asked about the availability of the raw experimental data associated with each publication. For the 187 e-mails sent: 22.46% resulted in outdated contact information, 57.75% of the authors did received our request and did not reply, and 19.79 replied to our request. The availability of data is generally low with only $11$ available data sets (5.9%). The authors identified two main issues for the lacking availability of raw experimental data. First, the ability to retrieve data is strongly attached to the the possibility to contact the corresponding author. This study suggests that institutional e-mail addresses are insufficient means for obtaining experimental data sets. Second, lack of experimental data is also due that submission and publication does not require to make the raw experimental data available. The following solutions are proposed: (1) Requirement of unique identifiers, like ORCID or ResearcherID, to detach the author(s) from their institutional e-mail address, (2) Provide DOIs, like Zenodo or Dataverse, to make raw experimental data citable, and (3) grant providing organizations should ensure that experimental data by public funded projects is available to the public

InnoCube - Preparing the Fully Wireless Satellite Data Bus for Launch

The Innovative CubeSat for Education (InnoCube) mission is a technology demonstrator cubesat mission relying on a fully wireless data-bus, set to launch in November 2024. This paper will discuss the mission objectives, design and implementation of the InnoCube mission with an emphasis on the wireless data bus. The mission is a collaborative project between the University of Wuerzburg and the Technische Universität Berlin in Germany. The mission objectives are to showcase the viability of a fully wireless data-bus for intra-satellite communication onboard cubesats and satellites in general, to provide a platform for testing and validating these new technologies, and to provide an opportunity for students to gain hands-on experience in the design and operation of a cubesat mission. The design of the InnoCube mission includes a 3U cubesat bus including the avionics, the wireless data-bus, and a suite of payloads provided by the TU Berlin. The wireless data bus is based on a time-division multiple access protocol and will enable the cubesat’s subsystems to communicate within the satellite, relying only on wireless means of communication. InnoCube will provide valuable insights and data concerning the feasibility of a wireless data bus for space applications, which can be especially beneficial to larger satellites and their associated large data harness. The mission will be operated from the Technische Universität Berlin and will be launched in 2024. Firstly, the paper will give an overview of the design of the satellite’s subsystems including the additional payloads. Then, the technology used in the wireless bus will be described. Special emphasis will be given to the integration and testing of the wireless bus before launch. This paper will also discuss the challenges associated with the InnoCube mission, such as the need for robust communication protocols, the need for reliable power sources, and the need for reliable redundancy control schemes. Additionally, the paper will discuss the potential applications of the technology demonstrated by the InnoCube mission along with their advantages and disadvantages compared to a traditional data harness. Finally, the paper will discuss the potential benefits and open topics for future missions using wireless technology for intra-satellite communication as demonstrated by the InnoCube mission

Continuous, Subject-Specific Attribute Control in T2I Models by Identifying Semantic Directions

In recent years, advances in text-to-image (T2I) diffusion models have substantially elevated the quality of their generated images. However, achieving fine-grained control over attributes remains a challenge due to the limitations of natural language prompts (such as no continuous set of intermediate descriptions existing between ``person'' and ``old person''). Even though many methods were introduced that augment the model or generation process to enable such control, methods that do not require a fixed reference image are limited to either enabling global fine-grained attribute expression control or coarse attribute expression control localized to specific subjects, not both simultaneously. We show that there exist directions in the commonly used token-level CLIP text embeddings that enable fine-grained subject-specific control of high-level attributes in text-to-image models. Based on this observation, we introduce one efficient optimization-free and one robust optimization-based method to identify these directions for specific attributes from contrastive text prompts. We demonstrate that these directions can be used to augment the prompt text input with fine-grained control over attributes of specific subjects in a compositional manner (control over multiple attributes of a single subject) without having to adapt the diffusion model. Project page: https://compvis.github.io/attribute-control. Code is available at https://github.com/CompVis/attribute-control.Comment: Project page: https://compvis.github.io/attribute-contro