Higher Education Research in Scotland: Report of a Survey Undertaken by Universities Scotland Educational Development Sub-Committee

The aim of this study was to gain an insight into a range of higher educational research taking place across Scotland with a particular focus on the nature, expertise, support and dissemination of this research. For the purposes of this study, we used the term ‘research into higher education’ to refer to a range of higher educational research activity that included: research into higher education policies and practice, pedagogical research, research into learning and teaching taking place in higher education and research about transition from further education or school into higher education. The findings point to the underground nature of pedagogic research taking place in Scotland. Many researchers are based within disciplines and their pedagogic research is disseminated in a variety of settings that do not always make it easily accessible within generic higher education research discourse. Pedagogic research is also apparently undervalued, with many academic staff experiencing pressure to prioritise publishing within their main discipline over and above pedagogic research. In addition there appears to be a lack of capacity within Scottish institutions to maximise the profile of higher educational research in the forthcoming UK Research Excellence Framework (REF) exercise

The EDINSOST project: improving sustainability education in spanish higher education

The EDINSOST R+D+i “Society Challenges” Project, funded by the Spanish Ministry of Economy and Competitiveness and the Spanish Ministry of Science, Innovation and Universities under the research challenge in the field of social change and innovation, aims to contribute to the improvement of social challenges across the (1) Spanish Strategy for Science, Technology and Innovation, (2) the State Plan of Scientific and Technical Research and Innovation, and (3) the European 2020 Strategy. The research is both highly multidisciplinary and contextualized and is applied in Ten Spanish Universities working together in the “Curriculum sustainability" group of the CRUE Sectorial Commission of Sustainability. The goal of this group is to create synergies and action frameworks agreed at a national level. This is an area of research action whose lack of common criteria for integrating sustainability competencies, learning processes and assessment hinders their achievement. To meet this challenge, frameworks and processes have been designed to facilitate the integration of sustainability into the university curriculum holistically through mapping and validation of pedagogical practices and the diagnosis of the state of Spanish universities, for which building materials for teaching and learning sustainability competencies have been developed. The project objectives and results are focused on: 1) Defining the map of sustainability competencies of the university degrees involved in the project, and establishing the framework to facilitate their integration in a holistic manner; 2) validating teaching strategies for the acquisition of sustainability competencies from a constructivist and community-oriented pedagogical approach; 3) diagnosing the state of faculty sustainability training needs and developing and pilot training proposals; and 4) diagnosing the state of learning of sustainability competencies in university students as well as preparing and piloting training proposals. The research methodology has an interpretive focus and uses quantitative and qualitative techniques to cover a population with three impact levels. Firstly, Bachelor and Master Degrees that integrate the three pillars of sustainability (environmental, social and economic). Secondly, and taking into account their long-term multiplier effect, special emphasis is made on five Bachelor and Master degrees in Education, since these graduates are the future teachers of the next generation of citizens. Finally, seven technological Bachelor Degrees are studied for their great impact on societal challenges.Peer ReviewedPostprint (published version

Toward New Vision in Teaching Calculus

Usually the first course in mathematics is calculus. Its a core course in the curriculum of the Business, Engineering and the Sciences. However many students face difficulties to learn calculus. These difficulties are often caused by the prior fear of mathematics. The students today cant live without using computer technology. The uses of computer for teaching and learning can transform the boring traditional methodology of teach to more active and attractive method. In this paper, we will show how we can use Excel in teaching calculus to improve our students learning and understanding through different types of applications ranging from Business to Engineering. The effectiveness of the proposed methodology was tested on a random sample of 45 students from different majors over a period of two semesters.Comment: IERI Procedia, Elsevier. 201

Business Process Innovation using the Process Innovation Laboratory

Most organizations today are required not only to establish effective business processes but they are required to accommodate for changing business conditions at an increasing rate. Many business processes extend beyond the boundary of the enterprise into the supply chain and the information infrastructure therefore is critical. Today nearly every business relies on their Enterprise System (ES) for process integration and the future generations of enterprise systems will increasingly be driven by business process models. Consequently process modeling and improvement will become vital for business process innovation (BPI) in future organizations. There is a significant body of knowledge on various aspect of process innovation, e.g. on conceptual modeling, business processes, supply chains and enterprise systems. Still an overall comprehensive and consistent theoretical framework with guidelines for practical applications has not been identified. The aim of this paper is to establish a conceptual framework for business process innovation in the supply chain based on advanced enterprise systems. The main approach to business process innovation in this context is to create a new methodology for exploring process models and patterns of applications. The paper thus presents a new concept for business process innovation called the process innovation laboratory a.k.a. the Ð-Lab. The Ð-Lab is a comprehensive framework for BPI using advanced enterprise systems. The Ð-Lab is a collaborative workspace for experimenting with process models and an explorative approach to study integrated modeling in a controlled environment. The Ð-Lab facilitates innovation by using an integrated action learning approach to process modeling including contemporary technological, organizational and business perspectivesNo; keywords

Knowledge and technology transfer from universities to industries: A case study approach from the built environment field

Enabling kowledge societies and knowledge based economies is a key policy in the UK. KTP (Knowledge Transfer Partnership) scheme initiated by the Technology Strategy Board is a pathway for collaboration and partnerships between Higher Education institutions and companies to transfer innovative knowledge based solutions from universities to businesses in order to equip them with the leading edge knowledge and technology infrastructure for sustainable long term competitive advantages in both national and international market. The paper explains a KTP project between the University of Salford and John McCall Architects (JMA) in Liverpool in the UK that aimed to identify, map and re-engineer JMA’s strategic and operational change processes through Lean thinking and the implementation of Building Information Modelling (BIM), which is a foundational tool for implementing an efficient process and invariably leads to lean-orientated, team based approach to design and construction by enabling the intelligent interrogation of designs; provide a quicker and cheaper design production; better co-ordination of documentation; more effective change control; less repetition of processes; a better quality constructed product; and improved communication both for JMA and across the supply chain whereas it provided opportunity to increase business relevance of knowledge based research and teaching for the Higher Education. Case Study approach is employed in the paper and the KTP project is assessed for i) how it helped in improving JMA’s knowledge and technology capacity in conducting their practice, and, ii) how it helped the university in improving its knowledge based research and teaching