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Images, Alexander Turnbull Library

The cartoon shows a rugby goalpost in a bad state of repair; it is held together with bandages and when a player kicks a ball that represents 'World Cup Games' towards the goalpost, it hits one of the side posts that flies a Christchurch flag, causing the post to break. Context - the decision that Christchurch will not be able to host any of the Rugby World Cup games because of the damage caused by the earthquakes of 4 September 2010 and 22 February 2011. Quantity: 1 digital cartoon(s).

Videos, UC QuakeStudies

An video recording of Rev Darryl Tempero's interview for the Church in the Quakes Project. The interview was conducted by Melissa Parsons on 3 October 2012. At the time, Darryl Tempero was a Minister at Hope Presbyterian Hornby, the Presbyterian Earthquake Coordinator, and the Co-Chair of Christchurch Post Earthquake Churches' Forum.

Audio, UC QuakeStudies

An audio recording of Rev Darryl Tempero's interview for the Church in the Quakes Project. The interview was conducted by Melissa Parsons on 3 October 2012. At the time, Darryl Tempero was a Minister at Hope Presbyterian Hornby, the Presbyterian Earthquake Coordinator, and the Co-Chair of Christchurch Post Earthquake Churches' Forum.

Research papers, University of Canterbury Library

After a high-intensity seismic event, inspections of structural damages need to be carried out as soon as possible in order to optimize the emergency management, as well as improving the recovery time. In the current practice, damage inspections are performed by an experienced engineer, who physically inspect the structures. This way of doing not only requires a significant amount of time and high skilled human resources, but also raises the concern about the inspector’s safety. A promising alternative is represented using new technologies, such as drones and artificial intelligence, which can perform part of the damage classification task. In fact, drones can safely access high hazard components of the structures: for instance, bridge piers or abutments, and perform the reconnaissance by using highresolution cameras. Furthermore, images can be automatically processed by machine learning algorithms, and damages detected. In this paper, the possibility of applying such technologies for inspecting New Zealand bridges is explored. Firstly, a machine-learning model for damage detection by performing image analysis is presented. Specifically, the algorithm was trained to recognize cracks in concrete members. A sensitivity analysis was carried out to evaluate the algorithm accuracy by using database images. Depending on the confidence level desired,i.e. by allowing a manual classification where the alghortim confidence is below a specific tolerance, the accuracy was found reaching up to 84.7%. In the second part, the model is applied to detect the damage observed on the Anzac Bridge (GPS coordinates -43.500865, 172.701138) in Christchurch by performing a drone reconnaissance. Reults show that the accuracy of the damage detection was equal to 88% and 63% for cracking and spalling, respectively.

Audio, Radio New Zealand

This week marked the 4th anniversary of the Christchurch and Canterbury earthquake. New research from the University of Otago in Christchurch with earthquake survivors is shedding some light on the question of what makes some people cope better with trauma than others. A group of psychiatrists and psychologists from the University have been studying a group of more than 100 Cantabrians exposed to high levels of stress during the earthquakes who coped well. They compared this group against a group of patients with post-earthquake trauma, being treated by the Adult Specialist Services Earthquake Treatment Team, or ASSETT, set up by the Canterbury DHB. Dr Gini McIntosh from the Otago University is part of the research team, and one of the psychologists with ASSETT.