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Purpose
In a knowledge-based society, one of the main driving forces of prosperity at city and regional levels is the ability to attract students and recently qualified graduates. The purpose of this paper is to identify the urban factors that contribute to “attractiveness” from a student perspective and to subsequently analyse the influence of these factors on students’ location choices. In the corresponding case study, the criteria identified were used to evaluate student satisfaction with the German city of Osnabrück.
Design/methodology/approach
A multi-level empirical research concept was used to analyse the relevant criteria. Focus group discussions served as the basis to design and conduct a survey of almost 2,300 students in the university city of Osnabrück at the end of 2016. A follow-up study in November 2017 at two universities in Berlin provided data for comparison.
Findings
Accessible – safe – clean and with affordable housing: these terms sum up the core expectations that students have of an attractive city. In contrast to the findings of Richard Florida regarding the creative class, cultural opportunities, exciting nightlife and a multicultural population were not important factors among the survey participants.
Research limitations/implications
As the study was conducted in two cities only, the findings cannot be generalised. It should be replicated in at least five other cities to validate and compare the research findings presented here. Furthermore, this study focused on the factors influencing the attractiveness of the city as a whole. However, the attractiveness of a specific neighbourhood may be of greater relevance to the decision-making process. As housing plays a major role, students’ particular needs with regard to accommodation should also be examined at greater depth.
Practical implications
Insights generated by the empirical study provide relevant information that may assist city stakeholders in taking effective measures regarding place management to attract and retain students.
Originality/value
To date, little research has been undertaken to empirically examine the specific factors that German students look for when deciding where to study and live. The goal of this paper is to present new empirical insights concerning the quality-of-life factors that influence students’ decision-making processes.
The usage of high-level synthesis (HLS) tools for FPGAs has increased significantly over the last years since they matured and allow software programmers to take advantage of reconfigurable hardware technology.
Most HLS tools employ methods to optimize for loops, e. g. by unrolling or pipelining them. But there is hardly any work on the optimization of while loops. This comes at no surprise since most while loops have loop-carried dependences involving the loop condition which result in large recurrence cycles in the dataflow graphs. Therefore typical while loops cannot be parallelized or pipelined.
We propose a novel transformation which allows to optimize while loops nested within a for loop. By interchanging the two loops, it is possible to pipeline (and thereby parallelize) the inner loop, resulting in a reduced execution time. We present two case studies on different hardware platforms and show the speedup factors - compared to a host processor and to an unoptimized hardware implementation - achieved by our while loop optimization method.
Introduction
Tests to evaluate the integrity of the alar ligaments are important clinical tools for manual therapists, but there is limited research regarding their validity.
Method
A single blinded examiner assessed alar ligament integrity using the lateral shear test (LST), rotation stress test (RST) and side-bending stress test (SBST) on a sample of convenience comprising 7 subjects with MRI confirmed alar ligament lesions and 11 healthy people. Alar ligament lesions were identified using both supine and high-field strength upright MRI.
Results
The RST had a sensitivity of 80% and a specificity of 69.2%. The SBST and the LST both showed a sensitivity of 80% and a specificity of 76.9%. In cases where all three tests were positive, the specificity increased to 84.6%.
Discussion
Tests of manual examination of alar ligament integrity have some diagnostic utility; however, these findings require further corroboration in a larger sample.
The deployment of containers as building modules has grown in popularity over the past years due to their inherent strength, modular construction, and relatively low cost. The upcycled container architecture is being accepted since it is more eco-friendly than using the traditional building materials with intensive carbon footprint. Moreover, owing to the unquestionable urgency of climate change, existing climate-adaptive design strategies may no longer respond effectively as they are supposed to work in the previous passive design. Therefore, this paper explores the conceptual design for an upcycled shipping container building, which is designed as a carbon-smart modular living solution to a single family house under three design scenarios, related to cold, temperate, and hot–humid climatic zones, respectively. The extra feature of future climate adaption has been added by assessing the projected future climate data with the ASHRAE Standard 55 and Current Handbook of Fundamentals Comfort Model. Compared with the conventional design, Rome would gradually face more failures in conventional climate-adaptive design measures in the coming 60 years, as the growing trends in both cooling and dehumidification demand. Consequently, the appropriate utilization of internal heat gains are proposed to be the most promising measure, followed by the measure of windows sun shading and passive solar direct gain by using low mass, in the upcoming future in Rome. Future climate projection further shows different results in Berlin and Stockholm, where the special attention is around the occasional overheating risk towards the design goal of future thermal comfort.
Optimised Nutrient Recovery from Biogas Digestate by Solid/Liquid Separation and Membrane Treatment
(2019)
Anaerobic digestion products of agricultural biogas plants are characterised by high nitrogen, phosphorus, and potassium content. In three scale-up steps, a membrane based digestate treatment process of solid-liquid-separation, ultrafiltration, and reverse osmosis for nutrient recovery was investigated. Lab-scale trials delivered a very good understanding of fluid properties and subsequent ultrafiltration performance, which is the limiting process step in terms of energy demand and operation costs. In semi-technical experiments, optimisation, and design parameters were developed, which were subsequently applied to pilot-scale tests at two full-scale biogas plants. The process optimisation resulted in 50 % energy reduction of the ultrafiltration step. About 36 % of the sludge volume was recovered as dischargeable water, 20 % as solid N/P-fertiliser, and 44 % as liquid N/K-fertiliser.