Background. Single session email consultations in web-based parenting support may be used for a variety of reasons. Parents may be looking for information on developmental needs of children, for suggestions to improve their parenting skills, or for referrals to helpful resources. The way the practitioner meets the needs of parents, choosing a short-term and text-based approach, has not been analyzed up till now. Objective. To determine if and how practitioner response in single session email consultation matches the need of parents. Method. A content analysis of single session email consultations (129 questions; 5,997 response sentences) was conducted. Three perspectives on the parent-practitioner communication were distinguished to assess the match between parenting questions and consultations, i.e., the expert oriented, parent oriented and context oriented perspective. Results. The parent oriented type is the dominant paradigm in requesting and providing email consultations, with which the other types may be combined. Most consultations showed a mixed perspective with the use of a limited amount of techniques within each perspective. Correlations between the practitioner’s approach and parental expectancies were weak. Conclusions. Professionals have a broad approach to email consultation, offering advice of different perspectives, rather than restricting the advice in order to match a prevalent parental need. All proposed textual techniques were observed in email consultations, providing evidence of their feasibility. Since practice of email consultations is relatively new, practitioners may benefit from the proposed systematic approach to writing email consultations, identifying parental need and permitting the use of professional techniques.
In the Dutch armed forces clothing sizes are determined using 3D body scans. To evaluate if the predicted size based on the scan analysis matches the best fit, 35 male soldiers fitted a combat jacket and combat pants. It was shown that the predicted jacket size was slightly too large. Therefore, an adjustment was proposed. The predicted and preferred pant size matched rather well. We further investigated discrepancies between predicted and preferred sizes using virtual fitting analysis. Colour maps showing the difference between garment and body circumference illustrated that some soldiers selected a garment size that was obviously too small or too large. In order to minimize the effect of personal preference and maximize standardize ease, we recommend to maintain the current size prediction (with minor corrections for jackets) and use virtual fitting selectively as a control measure.
The general aim of this dissertation is to gain insight into the physiotherapeutic validity of physiotherapy research in subjects with non-specific neck pain. Chapter 1 describes the background of the research and the research questions and gives an overview of the studies performed. Chapter 2 presents the results of a systematic review (SR) of the completeness of the clinical reasoning process within the methodology of the RCT in patients with non-specific neck pain. For the SR analysis 122 studies were included. In the majority of studies (70%) the described clinical reasoning process was incomplete. There was scarcely any association between the degree of risk of bias and the completeness of the clinical reasoning process, indicating that better methodological quality does not necessarily imply a better description of clinical reasoning process. Chapter 3 presents the results of a SR in which we sought to identify published classification systems with a targeted treatment approach (treatment-based classification systems (TBCSs)) for patients with non-specific neck pain. Thirteen TBCSs were identified. In conclusion, existing treatment-based classification systems are of moderate quality at best. Moreover, these systems were not more effective than alternative treatments. Therefore, we do not recommend the use of these systems in daily physiotherapy practice. Chapter 4 describes a Delphi study of the clinical reasoning process of physiotherapy experts in unimodal interventions in patients with non-specific neck pain. This study had three goals. First, we aimed explore the expert opinions on the indication for physiotherapy when, other than neck pain, there are no positive signs and symptoms, no positive diagnostic tests or complaints of limitations in functioning or restrictions in participation. Second, we focused on the experts' use of measurement tools and when they are used to support and objectify the clinical reasoning process. Finally, we wanted to reach consensus among experts on the use of unimodal interventions in patients with non-specific neck pain. According to all experts, pain alone was not considered to be an indication for physiotherapy. Patient reported outcome measures were mainly used for evaluative purposes and physical tests for diagnostic and evaluative purposes. Only 6 of the 18 variants of sequential linear clinical reasoning reached a consensus of more than 50%. Chapter 5 describes a review that examined the completeness of the description of manipulation and mobilization interventions in randomized controlled trials of subjects with non-specific neck pain. In conclusion, mobilization or manipulation interventions are poorly reported in RCTs, compromising the external validity of RCTs, making it difficult for clinicians and researchers to replicate these interventions. Chapter 6 investigated the diagnostic physiotherapeutic process regarding limited ROM of the neck. It can be concluded that the overall diagnostic accuracy of physical examination is limited (compared to the CROM measurement). Therefore, a measurement device should be used in daily physical therapy practice to assess if a movement direction is restricted. Chapter 7 describes an exploratory, practice-oriented study into matched treatments in patients with non-specific neck pain. The objective of this study was 1) to establish the measurement error of the used accelerometer; 2) To determine which different treatments are used; 3) To explore if the cervical ROM, pain, (perceived) disability and motor control improved after one treatment. The SCT is a reliable accelerometer for measuring neck ROM, with a small measurement error. Eight different treatments were carried out. Pain, disability and left and right rotation showed a clinically relevant improvements (exceeded the measurement error). Chapter 8 comprises the general discussion. The general discussion presents an overview of this dissertation and discusses the strengths and limitations of the studies and possible implications of the results and recommendations for future research.
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Many lithographically created optical components, such as photonic crystals, require the creation of periodically repeated structures [1]. The optical properties depend critically on the consistency of the shape and periodicity of the repeated structure. At the same time, the structure and its period may be similar to, or substantially below that of the optical diffraction limit, making inspection with optical microscopy difficult. Inspection tools must be able to scan an entire wafer (300 mm diameter), and identify wafers that fail to meet specifications rapidly. However, high resolution, and high throughput are often difficult to achieve simultaneously, and a compromise must be made. TeraNova is developing an optical inspection tool that can rapidly image features on wafers. Their product relies on (a) knowledge of what the features should be, and (b) a detailed and accurate model of light diffraction from the wafer surface. This combination allows deviations from features to be identified by modifying the model of the surface features until the calculated diffraction pattern matches the observed pattern. This form of microscopy—known as Fourier microscopy—has the potential to be very rapid and highly accurate. However, the solver, which calculates the wafer features from the diffraction pattern, must be very rapid and precise. To achieve this, a hardware solver will be implemented. The hardware solver must be combined with mechatronic tracking of the absolute wafer position, requiring the automatic identification of fiduciary markers. Finally, the problem of computer obsolescence in instrumentation (resulting in security weaknesses) will also be addressed by combining the digital hardware and software into a system-on-a-chip (SoC) to provide a powerful, yet secure operating environment for the microscope software.
Met huidige opleidings- en trainingsprogramma’s kan niet worden voldaan aan de groeiende vraag naar vakbekwame medewerkers op gebied van kunstmatige intelligentie (AI). Europa heeft daarom een innovatieve Europese AI-strategie nodig, die de bijscholing van werkenden kan versnellen om aan deze steeds toenemende vraag te voldoen. Doel Het project ondersteunt het Europese Pact for Skills door een strategie op het gebied van AI skills te ontwikkelen. Deze strategie moet leiden tot impact op het terugdringen van tekorten, hiaten en mismatches in skills op de arbeidsmarkt, en zorgen voor passende kwaliteit en niveaus van skills. Resultaten Verwachte resultaten en impactHet project omvat: de oprichting van een lange termijn partnerschap voor een innovatieve Europese alliantie voor AI; het ontwerpen en uitrollen van een innovatieve en duurzame strategie voor AI-skills op korte en lange termijn; het ontwikkelen, testen en uitrollen van opleidingscurricula in acht proeflocaties (5 universiteiten/hogescholen en 3 mbo-aanbieders); de aanpassing van programma's en kwalificaties aan de nieuwste marktbehoeften. het koppelen van micro-credentials aan het opleidingsaanbod Voordelen op lange termijnDe AI-skills strategie en de opleidingscurricula zullen, nadat ze zijn ontworpen en grondig getest in de praktijk, beschikbaar worden gesteld om te worden aangepast en opgeschaald in heel Europa. Op deze manier kan worden voldaan aan de huidige en toekomstige skills-behoeften van de AI-sector en kan de groei van AI-talent in Europa worden gestimuleerd. Looptijd 01 juni 2022 - 30 juni 2026 Aanpak Het project wordt als volgt uitgevoerd in negen werkpakketten: 1 – Projectbeheer en coördinatie 2 – Behoeftenanalyse 3 – Strategie voor AI-skills 4 - Ontwikkeling van een innovatief leerplan en trainingsprogramma 5 - Ontwikkeling van een certificeringssysteem 6 – Pilots in verschillende EU-landen 7 – Verspreiding en communicatie 8 – Duurzaamheid op lange termijn 9 – Kwaliteitsborging Inhoudelijk start het project met de behoeftenanalyse, waarin de skills mismatch op Europees niveau wordt geanalyseerd door o.a. de behoefte aan skills op basis van vacatures en beschikbaar relevant AI opleidingsaanbod te onderzoeken. Meer over ARISA Het vierjarige onderzoeksproject ARISA wordt gefinancierd door de Europese Unie via een Erasmus+ programma. Meer informatie vind je op de ARISA website, de ARISA Twitter en de ARISA LinkedIn. Lees ook dit artikel (ENG) over de start van ARISA.
Digital innovations in the field of immersive Augmented Reality (AR) can be a solution to offer adults who are mentally, physically or financially unable to attend sporting events such as premier league football a stadium and match experience. This allows them to continue to connect with their social networks. In the intended project, AR content will be further developed with the aim of evoking the stadium experience of home matches as much as possible. The extent to which AR enriches the experience is then tested in an experiment, in which the experience of a football match with and without AR enrichment is measured in a stadium setting and in a home setting. The experience is measured with physiological signals. In addition, a subjective experience measure is also being developed and benchmarked (the experience impact score). Societal issueInclusion and health: The joint experience of (top) sports competitions forms a platform for vulnerable adults, with a limited social capital, to build up and maintain the social networks that are so necessary for them. AR to fight against social isolation and loneliness.
