Brokering innovation to better leverage R&D investment

What is the contribution of innovation brokers in leveraging research and development (R&D) investment to enhance industry-wide capabilities? The case of the Australian Cooperative Research Centre for Construction Innovation (CRC CI) is considered in the context of motivating supply chain firms to improve their organizational capabilities in order to acquire, assimilate, transfer and exploit R&D outcomes to their advantage, and to create broader industry and national benefits. A previous audit and analysis has shown an increase in business R&D investment since 2001. The role of the CRC CI in contributing to growth in the absorptive capacity of the Australian construction industry as a whole is illustrated through two programmes: digital modelling/building information modelling (BIM) and construction site safety. Numerous positive outcomes in productivity, quality, improved safety and competitiveness were achieved between 2001 and 2009

All sections : Alice Springs to Darwin - ASR to ARR heritage constraints

Made available by the Northern Territory Library via the Publications (Legal Deposit) Act 2004 (NT).How to use this Manual -- Heritage Legislation -- Subject Land -- General Conditions for Heritage Areas -- Fencing Restrictions for the Railway Corridor -- Summary Details of Heritage Constraints -- Alice Springs Constraint Maps -- Dixon Creek Constraint Maps -- Buchanan Highway Constraint Maps -- Katherine Constraint Maps -- Adelaide River Constraint Maps.Date:2002-07Cover title

Reviewing the past to learn in the future: Making sense of design errors and failures in construction

Design errors can severely jeopardise safety and contribute to failures in construction and engineering projects. Such failures can have devastating economic, environmental and social consequences. Significant efforts have been made to reduce the incidence of failures through learning from previous disasters and events by modifying building and engineering codes and standards accordingly. Design errors, however, remain an innate feature of construction and engineering projects despite the considerable amount of knowledge that has been accumulated to date. Most errors are identified during construction and require rework, but there is always a potential for some to remain undetected and contribute to failure, and as a result potentially contribute to accidents and loss of life. An examination of the literature research suggests that a series of pathogenic influences contribute to errors and failure. Thus, this paper article examines the circumstances and issues that contributed to a series of construction and engineering failures to enable development of a learning framework that can be used to mitigate design errors and potential failures and accidents. © 2013 Copyright Taylor and Francis Group, LLC