Despite the efforts of governments and firms, the construction industry is trailing other industries in labour productivity. Construction companies are interested in increasing their labour productivity, particularly when demand grows and construction firms cope with labour shortages. Off-site construction has proved to be a favourable policy to increase labour productivity. However, a complete understanding of the factors affecting construction labour productivity is lacking, and it is unclear which factors are influenced by off-site construction. This study developed a conceptual model describing how 15 factors influence the construction process and make a difference in labour productivity between off-site and on-site construction. The conceptual model shows that all 15 factors affect labour productivity in three ways: through direct effects, indirect effects and causal loops. The model is a starting point for further research to determine the impact of off-site construction on labour productivity.
MULTIFILE
The main objective of this report is to analyse and inform about international labour mobility, particularly within Europe, from the perspective of the Dutch Health and Social Care Sector. The report starts by describing the introduction of a new care system in The Netherlands. The government does not participate directly in the actual provision of care. This is a task principally for private care suppliers. Furthermore, the legal position of the Health and Social Care professions, regulated through the Individual Health Care Professions Act, and questions like the international recognition of degrees and the evaluation of foreign diplomas are discussed. This is followed by a clarification of the Dutch education system, particularly, relating to the study of medicine, nursing education and social work education. Subsequently, some core data on the ageing Dutch population are presented. The grey pressure increases and this will have an impact on health spending, health support and the future labour market. Then what follows is a description of the development of employment in the Dutch Health and Social Care Sector, per branch as well as the professions that are engaged in it. The general picture, at this moment, is that the Health and Social Care labour market is reasonably in balance. This trend will continue in the near future; shortages are expected only in the long term. All research done on the subject indicates that international mobility of medical and social professionals is still low in the Netherlands. The question remains whether a more active recruitment policy would be a solution for the expected long term shortages. The report concludes with a look at recruitment policy and some of its developments at the global, national and local level.
This paper addresses one important mechanism through which the EU tries to improve the operation of its labour markets: the opening up of national borders for free worker movement within the EU. Free worker movement is a fundamental EU right; but EU enlargement begged the question of how and when to allow complete free movement to workers from those new Member States. The EU agreed upon a transitional period of up to 7 years after accession of eight new Middle and Eastern European States (EU-8) on May 1st, 2004. Duringthis transitional period Member States may apply certain restrictions on the free movement of workers from, to and between these new Member States. By 2012, all such restrictions will have been abolished. A similar procedure applies regarding the accession of two additional new Member States on January 1st, 2007. Only three of the fifteen incumbent EU Member States at the time (EU-15) chose to immediately allow free movement from workers from the EU-8. The other twelve maintained their work permit systems, albeit with some modifications. Since, some (e.g. Germany) have already decided to keep such barriers in place until 2012. The Netherlands has kept a work permit system in place up to May 1st, 2007. At that time it abolished that system and effectively extended free worker movement to include workers from the EU-8. This makes the Dutch case, at this point in time, an interesting case for which to analyse the process and effects of increased free labour movement into a national labourmarket. This paper discusses the evolution of (temporary) work migration from EU-8 countries into the Netherlands. It first addresses the flexicurity nature of EU policies towards labour market integration and towards the inclusion of new EU countries in that process. It subsequentely reviews the three socio-legal regimes that can currently apply to work performed for Dutch firms Netherlands by workers from the EU-8 (which, now, is that same as that applies for workers from the EU-15): wage employment; employment through temporary employment agencies; and self-employment. It then discusses the development of the volume of work performed by citizens from the EU-8 in the Netherlands, and socio-economic effects for both the migrant workers and Dutch society and economy. It concludes with a discussion of challenges (or the lack thereof) that this increased free movement of foreign labour caused and causes for Dutch institutions.
The postdoc candidate, Giuliana Scuderi, will strengthen the connection between the research group Biobased Buildings (BB), (collaboration between Avans University of Applied Sciences and HZ University of Applied Sciences (HZ), and the Civil Engineering bachelor programme (CE) of HZ. The proposed research aims at deepening the knowledge about the mechanical properties of biobased materials for the application in the structural and infrastructural sectors. The research is relevant for the professional field, which is looking for safe and sustainable alternatives to traditional building materials (such as lignin asphalt, biobased panels for bridge constructions, etc.). The study of the mechanical behaviour of traditional materials (such as concrete and steel) is already part of the CE curriculum, but the ambition of this postdoc is that also BB principles are applied and visible. Therefore, from the first year of the programme, the postdoc will develop a biobased material science line and will facilitate applied research experiences for students, in collaboration with engineering and architectural companies, material producers and governmental bodies. Consequently, a new generation of environmentally sensitive civil engineers could be trained, as the labour market requires. The subject is broad and relevant for the future of our built environment, with possible connections with other fields of study, such as Architecture, Engineering, Economics and Chemistry. The project is also relevant for the National Science Agenda (NWA), being a crossover between the routes “Materialen – Made in Holland” and “Circulaire economie en grondstoffenefficiëntie”. The final products will be ready-to-use guidelines for the applications of biobased materials, a portfolio of applications and examples, and a new continuous learning line about biobased material science within the CE curriculum. The postdoc will be mentored and supervised by the Lector of the research group and by the study programme coordinator. The personnel policy and job function series of HZ facilitates the development opportunity.
Manual labour is an important cornerstone in manufacturing and considering human factors and ergonomics is a crucial field of action from both social and economic perspective. Diverse approaches are available in research and practice, ranging from guidelines, ergonomic assessment sheets over to digitally supported workplace design or hardware oriented support technologies like exoskeletons. However, in the end those technologies, methods and tools put the working task in focus and just aim to make manufacturing “less bad” with reducing ergonomic loads as much as possible. The proposed project “Human Centered Smart Factories: design for wellbeing for future manufacturing” wants to overcome this conventional paradigm and considers a more proactive and future oriented perspective. The underlying vision of the project is a workplace design for wellbeing that makes labor intensive manufacturing not just less bad but aims to provide positive contributions to physiological and mental health of workers. This shall be achieved through a human centered technology approach and utilizing advanced opportunities of smart industry technologies and methods within a cyber physical system setup. Finally, the goal is to develop smart, shape-changing workstations that self-adapt to the unique and personal, physical and cognitive needs of a worker. The workstations are responsive, they interact in real time, and promote dynamic activities and varying physical exertion through understanding the context of work. Consequently, the project follows a clear interdisciplinary approach and brings together disciplines like production engineering, human interaction design, creative design techniques and social impact assessment. Developments take place in an industrial scale test bed at the University of Twente but also within an industrial manufacturing factory. Through the human centered design of adaptive workplaces, the project contributes to a more inclusive and healthier society. This has also positive effects from both national (e.g. relieve of health system) as well as individual company perspective (e.g. less costs due to worker illness, higher motivation and productivity). Even more, the proposal offers new business opportunities through selling products and/or services related to the developed approach. To tap those potentials, an appropriate utilization of the results is a key concern . The involved manufacturing company van Raam will be the prototypical implementation partner and serve as critical proof of concept partner. Given their openness, connections and broad range of processes they are also an ideal role model for further manufacturing companies. ErgoS and Ergo Design are involved as methodological/technological partners that deal with industrial engineering and ergonomic design of workplace on a daily base. Thus, they are crucial to critically reflect wider applicability and innovativeness of the developed solutions. Both companies also serve as multiplicator while utilizing promising technologies and methods in their work. Universities and universities of applied sciences utilize results through scientific publications and as base for further research. They also ensure the transfer to education as an important leverage to inspire and train future engineers towards wellbeing design of workplaces.
