Monte Carlo simulations for XIDer, a novel digital integration X-ray detector for the next generation of synchrotron radiation sources

This work presents the first simulation results of the incremental digital integration readout, a charge-integrating front-end scheme with in-pixel digitisation and accumulation. This novel readout concept is at the core of the XIDer (X-ray Integrating Detector) project, which aims to design 2D pixelated X-ray detectors optimised for high energy scattering and diffraction applications for the next generation of synchrotron radiation sources such as the ESRF Extremely Brilliant Source (EBS). The digital integration readout and the XIDer detector open the possibilities for high-duty-cycle operation under very high photon flux, fast frame-rate and high dynamic range with single-photon sensitivity in the 30–100 keV energy range. The readout method allows for noise-free effective X-ray detection. The digital integration concept is currently under investigation to evaluate the impact of main critical design parameters to identify the strengths and weaknesses of the readout scheme and consequently to propose refinements in the final implementation. Simulations have been performed with a dedicated Monte Carlo simulation tool, X-DECIMO, a modular Python package designed to recreate the complete detection chain of X-ray detectors for synchrotron radiation experiments. Losses and non-linearities of the readout scheme are simulated and quantified. In addition to presenting simulation results for this novel readout scheme, this work underlines the potential of the approach and some of its limitations.

Development of interactive gadgets: pedagogical, methodological and ergonomic aspects for industrial design

The Industry 4.0 is a consequence of the evolution in technological advances, which has allowed and the use of new tools for simulation, digital integration, fabrication flexibility, and personalization to achieve new product design solutions. The importance and actuality of this revolution have had a great impact on the engineering and design education system, and this is the case of the Faculty of Engineering and Technology Sciences (FCITEC), from the Autonomous University of Baja California (UABC), where the implementation of gadget prototyping has been encouraged. This ongoing work is intended to delineate the methodological, pedagogical, and ergonomic aspects of gadget prototyping with platforms such as Arduino and NodeMCU, and its benefits to the Industrial Design (ID) Discipline. It is a project that started in 2018 with the scope of understanding interactivity, usability, and multidisciplinary collaboration, which are key for a designer’s profile. In this sense, User-Centered Design methodology is used as a framework for usable product development, with the aid of task, interface, and housing design. Specific tools of particular interest are persona design, interface analysis, and cognitive architecture outline. Important results so far include 1) student-made prototypes, 2) usability workshops in international congresses, 3) intellectual property registration, and 4) academic course designs.

Digital Integration, Success Story of Accelerating Business Integration of Two Biggest Midstream-Downstream Natural Gas Company in Indonesia

To achieve 24% portion of natural gas in targeted national energy mix in 2050, Indonesia government has integrated Pertagas, biggest transmission company into PGN, biggest distribution company under Oil & Gas Holding Pertamina. But survey from PWC in 2004 resulted that around 75% post-merger companies reported integration difficulties, especially both companies have long history of competition. Even more, government mandated 6 USD gas price policy at plant gate, which create enormous urgency to accelerate pipeline and digital integration in the most efficient way. Especially, in this pandemic era, midstream industry needs to foster digital transformation by rethinking outdated business models and strategically applying technology to change rather than focusing on simply cutting costs. From this integration, Pertagas with more than 2,418 km pipeline in 12 provinces spread from Sumatra, Java and Kalimantan has a big potency to be synergized with PGN, as Sub Holding Gas with the total of 10,169 km of pipeline which represent 96% of national gas infrastructure. During 2020. Both companies resulted more than 1.255 MMSCFD of transported gas and 828 BBTUD of sales gas to more than 460 thousand customers. So, PGN and Pertagas management has high expectation on this digital integration to transform from previous fragmented pipeline to be interconnected network to give flexibility in reaching unmet growing demand of strategic industry like refinery, fertilizer, electricity, steel and petrochemical in post-COVID recovery. In this paper, will be described the challenges and its solutions as a success story in digital integration. The important steps start from strategy development, digital assessment, creating coalition, culture acculturation, and change management are explained as guiding pathway for sustainable implementation. It will also portray the measured benefit and value from investment cost efficiency, time effectiveness from the initiation until launched, billing improvement, product development, and up to developed real-time integrated management dashboard for better decision making and part of the milestone for future National Dispatching Center for optimizing Sub Holding Gas portfolio of gas supply and subsidiary's infrastructure to meet growing Indonesia's demand.

Pre-service Teachers' Digital Experiences through Digital Pedagogical Practices in Norway

Digital skills are one of the key competences outlined in The European Reference Framework of Key Competences for Lifelong Learning prescribed by the EU in 2006. Integration of digital tools and resources into the classroom results in more platforms for teaching and learning activities. Teacher training programmes prepare pre-service teachers with pedagogical competencies and skills necessary for their future practices. This paper shows that pre-service teachers could overcome the pedagogical challenges during COVID-19 teaching by updating their present and future classroom teaching strategies around digital literacy. To explore further how these new teaching circumstances are understood and reflected on by pre-service teachers, the researchers collected written reflections of 52 pre-service teachers in Norway using an open-ended survey about their digital integration experiences in their practicum. This paper offers analyses of the reflections inductively to reveal the teachers’ process of development of their classroom teaching strategies as influenced by new digitalisation-related experiences. The findings show low levels of digital integration according to the SAMR model but moderate to high levels of satisfaction among pre-service teachers of digital practices. In the light of these findings, this study offers pedagogical technological implications for teachers and teacher educators who work with teacher education curricula.

Development of a Digital Counterpart to Aid Decision Support on Energy Consumption of an Active Manufacturing Process

This research focused on the development of a Digital Model (DM) of a production line at a medical device company, with the objective of providing decision support to stakeholders based on their energy consumption. This model aims to reduce energy consumption by bringing operational data to process engineers, allowing them to make efficient improvement decisions while in production. In order to achieve this objective, the twin transition of digital integration and energy efficiency was enacted by organisations such as the International Energy Agency (IEA). This two-pronged approach involved working with process owners to understand the decision-making process that they undertook to streamline performance and develop the means to digitalise this data while also working with facilities and maintenance engineers to understand which equipment played the most important roles in the production process from an energy consumption perspective. By bringing the process data and energy data together in a digital model of the process, a decision support system could be developed which would unlock the potential to streamline operations not just from an output perspective, but also from an energy efficient perspective. When examining the process step with data catagorised as energy, operational and maintenance, it was found that only operational data was sufficient to support digital modelling in its current state. Therefore, the installation of a wireless energy metering network would be required to support digital modelling and further digital integration.

Digital Integration and Automated Assessment of Eye-Tracking and Emotional Response Data Using the BioSensory App to Maximize Packaging Label Analysis

New and emerging non-invasive digital tools, such as eye-tracking, facial expression and physiological biometrics, have been implemented to extract more objective sensory responses by panelists from packaging and, specifically, labels. However, integrating these technologies from different company providers and software for data acquisition and analysis makes their practical application difficult for research and the industry. This study proposed a prototype integration between eye tracking and emotional biometrics using the BioSensory computer application for three sample labels: Stevia, Potato chips, and Spaghetti. Multivariate data analyses are presented, showing the integrative analysis approach of the proposed prototype system. Further studies can be conducted with this system and integrating other biometrics available, such as physiological response with heart rate, blood, pressure, and temperature changes analyzed while focusing on different label components or packaging features. By maximizing data extraction from various components of packaging and labels, smart predictive systems can also be implemented, such as machine learning to assess liking and other parameters of interest from the whole package and specific components.

Development Management of Competence Centers

The article provides a classification of centers of competence, which e subdivided into corporate, university, regional, industry, as well as excellent scientific and educational centers. The features of the work and areas of activity of each of the centers presented according to the classification are considered. In addition, the analysis of possible models of the competence center: value chain, digital integration platform and ecosystem carried out. The advantages and disadvantages of each of the models considered, their graphic interpretation presented. Based on the results of consideration of each of the models of competence centers, a justification made for the choice of one or another model of the competence center, depending on the specifics of the organization. In the course of the research, the main digital competencies (soft skills and hard skills) also considered. In accordance with these competencies, an analysis was made of the compliance of these competencies with each of the three models of interaction between participants in the creation of products (services) (value chain, digital integration platform and ecosystem). Because of the analysis, the choice of each of the considered models realized, depending on their compliance with new digital competencies.