Menaha Thayaparan

Disaster resilient built environment: role of lifelong learning and the implications for higher education

Disasters cause considerable damage around the world every year. The built environment is significantly affected by disasters. Whilst the built environment is expected to withstand such occurrences, the construction industry is expected to play a pivotal role in reconstruction of damaged property and infrastructure. Such responses call for technological and managerial innovation. Therefore it is important that construction professionals receive continuous skill development to respond to disaster situations in order to build a disaster resilient built environment. Due to the complexities involved in and due to peculiar nature of disaster situations, lifelong learning is considered as an appropriate way of ensuring continuous education to the various stakeholders of disaster management. The paper reports preliminary findings from a European Commission funded research project aimed at modernising the higher education institutes to support lifelong learning in the built environment. The paper reports the key findings from the literature review and case study on disaster management, emphasising the role of lifelong learning in disaster management education. Empirical data collected as part of the workshop suggest that providing disaster management education as a degree programme is ineffective due to the complexity and multi-disciplinary nature of the subject. Further, the lack of involvement with the industry and the lack of research and development activities on disaster management by built environment professionals act as hindrance to effective disaster management education. In addressing the shortcomings on the existing approaches of disaster management education, this paper concludes that lifelong learning as the most appropriate approach to educate built environment professional in the context of disaster management.

Enhancing post-disaster reconstruction capacity through lifelong learning in higher education

Purpose – Due to the complexities involved in disasters and due to the peculiar nature of post-disaster reconstruction, built environment professionals require continuous updating of their skills and knowledge to contribute effectively to disaster resilience. The purpose of this paper is to identify the ways in which higher education institutions (HEIs) can address this need through the provision of lifelong learning. Design/methodology/approach – This paper is based on both a literature review and on empirical evidence obtained through interviews, a workshop and group validation. Findings – The challenges faced by HEIs in accommodating lifelong learning are presented. Furthermore, good practice guidelines are provided to enable HEIs to respond effectively to industry requirements; to provide lifelong learning via through-life studentship; to promote collaboration amongst HEIs, industries, professional bodies and communities, and to promote the adoption, diffusion and exploitation of the latest learning a...

ANDROID: An Inter-disciplinary Academic Network that Promotes Co-operation and Innovation among European Higher Education to Increase Society's Resilience to Disasters

Using knowledge, innovation and education to build a culture of safety and resilience at all levels is one of five priorities for action (PFA) that were identified in the Hyogo Framework for Action (HFA). The responsibility for such capacity building resides largely with educators such as higher education institutes, but the complexity of resilience poses a number of challenges. This paper describes ANDROID, an EU funded international partnership of higher education institutes and key actors in disaster resilience, which has been formed to develop innovative European education. ANDROID is based on an inter-disciplinary consortium of partners that comprises scientists from applied, human, social and natural disciplines. ANDROID set out to achieve this aim through a series of inter-linked projects, identified as work packages and led by a sub-group of international partners. This paper describes these projects and highlights key outputs achieved to date: an inter-disciplinary doctoral school; a survey capturing and sharing innovative approaches to inter-disciplinary working; a survey of European education to map teaching and research programmes in disaster resilience; a survey analysing the capacity of European public administrators to address disaster risk; emerging research and teaching concerns in disaster resilience; and, open educational resources.

Disaster Management Education through Higher Education - Industry Collaboration in the Built Environment

Effectively responding to the current and dynamic construction labour market requirements is a major responsibility of higher education institutions (HEIs). HEIs aim to reduce the mismatch between what they deliver and what is required by the industry. Built environment professionals require continuous update of knowledge and education in order to effectively contribute to disaster management. However, the complex and multidisciplinary nature of disaster management education pose a challenge to the higher education institutions to make them more responsive to the industrial needs and to prepare the students for careers in disaster resilience. Adopting a lifelong learning approach would be appropriate for HEIs to maintain a through-life studentship and to provide disaster related knowledge and education on a continuous basis to respond to the labour market requirements. However, incorporating lifelong learning approach within the system of higher education is not easy and straightforward for HEIs. This is mainly because of the formal and bureaucratic nature of HEIs that acts as a barrier for providing effective lifelong learning education. In resolving this issue, HEIs are increasingly relying on the benefits associated with fostering close collaboration with external organisations such as industries, professional bodies and communities. In this context, this paper discusses the role of HEIs in providing disaster management education, the challenges associated with it, and the way of addressing the challenges through the higher education industry collaboration.

Disaster resilience education and research roadmap for Europe 2030

A disaster resilience education and research roadmap for Europe 2030 has been launched. This roadmap represents an important output of the ANDROID disaster resilience network, bringing together existing literature in the field, as well as the results of various analysis and study projects undertaken by project partners.The roadmap sets out five key challenges and opportunities in moving from 2015 to 2030 and aimed at addressing the challenges of the recently announced Sendai Framework for Disaster Risk Reduction 2015-2030.This roadmap was developed as part of the ANDROID Disaster Resilience Network, led by Professor Richard Haigh of the Global Disaster Resilience Centre (www.hud.ac.uk/gdrc ) at the School of Art, Design and Architecture at the University of Huddersfield, UK. The ANDROID consortium of applied, human, social and natural scientists, supported by international organisations and a stakeholder board, worked together to map the field in disaster resilience education, pool their results and findings, develop interdisciplinary explanations, develop capacity, move forward innovative education agendas, discuss methods, and inform policy development. Further information on ANDROID Disaster Resilience network is available at: http://www.disaster-resilience.net

Towards a framework for closer university-industry collaboration in educating built environment professionals

Recent reports suggest that even the current industry skills needs are not being adequately met with graduate capabilities falling short of industry expectations. If higher education institutions (HEIs) are to respond effectively to the current and future challenges, a robust conceptual appreciation of the education-industry skills context is required in order to support recommendations and, ultimately, interventions. A conceptual framework aimed at addressing the ‘mismatch’ between the skills requirements of industry and the competences of graduates in the built environment sector was derived. A series of surveys was undertaken on the basis of the derived framework. It was intended that the findings from the surveys would enable the framework to be refined and validated. However, some of the findings suggest that the originally derived conceptual framework does not adequately represent the complexity of the professional learning context and it is not feasible to refine it. This paper describes the conceptual framework which was derived, highlights selected findings from surveys which indicate its inadequacy and then draws on the contemporary literature of higher education futures to discuss the implications for a more representative framework. Recommendations for a closer representation of the education-industry context and for further research directions are made.