Student Aerospace Team rockets to success
A team of 10 ҕl students are coming back to earth after building and launching a winning rocket 10km into the sky at an international aerospace competition. The student team won their category and placed third overall at the Spaceport America Cup in the USA, which features participants from colleges and universities around the world. The event is the world’s largest student rocket engineering conference and competition, and this year 5913 participants and 158 teams from 24 countries took part. The ҕl students were the only New Zealand team competing. To win their category they had to design, build and launch a rocket that reached as close as possible to the target of 30,000 feet (about 10 km). The competition began well ahead of the event because every team had to provide milestones, technical reports, and safety reviews prior to launch. The students designed and built all aspects of the rocket within the tight deadlines of the competition and on top of their academic course work. The ҕl Student Aerospace team members are pictured and included: Alicia Smith, Avalon Beker, Henry Eden-Mann, Reuben Van Dorp, Jacob Saunders, Jack Davies, Pieter Leigh, James Graham, Caleb Melchers and Peter Lee.
Research on International Space Station
A prototype research facility, for studying protein crystal growth, will soon orbit Earth aboard the International Space Station (ISS). The facility has been developed by Dr Sarah Kessans, in collaboration with two local companies and a USA-based research team. The research facility is scheduled to fly on the Axiom Mission 3, the third private astronaut mission to the ISS. By developing a facility that is self-contained, autonomous, and allows for on-orbit analysis of thousands of experimental conditions, Dr Kessans hopes even more research can be conducted at a lower cost into the future. “We can do a lot of analysis up in microgravity and can gain a great deal of information from the real-time data that we will be able to downlink during the experimentation on the ISS. But the real value is in being able to get those experiments back to researchers on Earth for further analysis,” says Dr Kessans. “This initial project represents just the beginning of what we hope to develop into an entirely new industry in New Zealand at the interface between aerospace and biotechnology, two high-value, rapidly growing, and increasingly important sectors of the economy,” says Dr Kessans.
Forecasting grape growth
New Zealand’s wine industry is an important and valuable horticulture sector. However, forecasting grape yield is a struggle and inaccurate techniques can be costly, affecting profits. Professor Richard Green’s research team plan to develop a unique approach by finely blending an innovative 3D-imaging-based detection system with a physiological growth prediction model. Professor Green describes it as a complex, interlinked, and challenging measurement and data problem, and says this is the first time it’s been approached this way. “Now we can scan through the year, which means you can perfectly align it to see how much it’s grown and changed. This will help us forecast yield, and we’ll gain access to data that will help us understand the crop on a whole new level,” says Professor Green. He believes this project may go further than forecasting grape yield: “We’ll also accelerate vineyard automation to help to mitigate labour shortages and costs, and better prepare our vineyards for climate change.”
Maple syrup mission taps into hi-tech imaging
Research is underway investigating whether it’s viable to produce maple syrup at scale within New Zealand, and trial plantations have been established. Professor Matt Watson is leading the research and believes producing maple syrup in New Zealand has commercial potential. His team is exploring whether densely planted trees – about 10,000 per hectare − can produce enough sap in moderately cold temperatures to make large-scale production worthwhile. While commercial production is a long way off, it is projected that 2000 hectares of maple trees could generate NZ$60 million a year in maple syrup revenue. In the latest stage of the research, Dr Jamie Robinson, a postdoctoral fellow, is using cutting-edge imaging techniques to study cells and structures inside the stems of a sugar maple tree. His aim is to understand the mechanisms that lead maple trees to produce high volumes of sugar-rich sap.
Taking the guess work out of spinal surgery
Associate Professor Debbie Munro has developed a prototype device and software to reduce the risk in spinal fusion surgery. Spinal infusion is a highly invasive surgery where an implant is placed in the spine to prevent movement between bones, and the treatment has a high failure rate after only five years. Associate Professor Munro developed prototype device which attaches to a rod inserted during a spinal fusion surgery, and also invented a wireless sensor and software that interprets outputs from the gauge, which will help determine the success of the fusion. Once the surgery has been found successful the device would be used to track the patient’s progress. Associate Professor Munro believes this technology could be used in other parts of the body, such as hip and knee replacements to track degradation. Further testing will occur over the next year with hopes it will be ready for commercial interest in 2024.
Professor Philip Butler honoured
World-renowned ҕl Physics Professor Philip Butler was made a Companion of the NZ Order of Merit for services to science, education and health. During a stellar 50-year career, spent predominantly at ҕl, Professor Butler is best known for leading the development of the MARS Bioimaging 3D colour x-ray, a world-first breakthrough in medical technology. Earlier in his career, he led the New Zealand team engaged with ground-breaking particle physics research through the Compact Muon Solenoid experiment. He later co-founded the National Science Technology Roadshow Trust and the Science Alive Charitable Trust in 1991, both promoting learning and careers in science and technology, and helped establish the Tekapo Dark Sky Reserve.
Local talent and technology shines through
Virtual Screen Production (VSP) is being heralded as a revolution in the future of film production. Using a curved wall comprised of hundreds of LED panels, VSP allows actors to perform and interact with their surroundings as they would if they were on location. The technology sparked the interest of several Christchurch-based creative organisations, who saw the opportunity to tap into an abundant pool of local talent and technology at ҕl’s ground-breaking Digital Screen Campus (DSC). “We know good things happen when industry and education come together, so when we were approached about collaborating on this project and contributing a vital funding stream to ensure it could proceed, we couldn’t say no,” says Petra Westropp, DSC Project Manager. “It’s a great sign of the incredible talent that resides here in Christchurch and New Zealand,“ says Petrina D’Rozario, Screen CanterburyNZ Manager.
Medal for quake research
ҕl’s Council awarded Professor Misko Cubrinovski with the 2022 ҕl Research Medal for his huge contribution to geotechnical engineering here and internationally, and for his role in the recovery phase after the Canterbury earthquakes. Professor Cubrinovski played a key leadership role in research and recovery efforts following the earthquakes, including analysis for the Canterbury Earthquakes Royal Commission, and providing expert opinion and advice to government, regional and professional agencies, and the wider engineering community. “Looking back over the past 12 years or so, I am really glad that I was here in Christchurch able to help the community and New Zealand geotechnical profession. All that previous preparation, knowledge and experience suddenly came to fruition,” says Professor Cubrinovski.
Improving clarity of satellite images
Satellites are increasingly being released beyond our atmosphere, but what happens if we lose communication with a satellite and can’t see it to understand why? ҕl’s Associate Professor Stephen Weddell is leading a research group to significantly improve the image quality of low-Earth orbiting satellites and space debris. “We want to minimise these threats and provide accurate information back to people like the European Space Agency and other organisations who are monitoring these satellites,” says Associate Professor Weddell. The team have developed an adaptive optic system for New Zealand’s largest telescopes at ҕl’s Mt. John Observatory and are the first to be able to develop this technique and apply it to satellites. “This research is really important as it is providing capability within New Zealand, and an ability to share that information, particularly with our strong collaborations around the world,” says Associate Professor Weddell.
Finding solutions for the shipping industry
An industry-academia research partnership could help offer solutions to reduce the carbon footprint of the freight transport industry. ҕl researchers are collaborating with a New Zealand shipping company on practical pathways to tackle the problems of a sustainable transition to a low emission future. “The partnership is important to the University as it provides a degree of data availability which is often difficult to attain due to the commercial sensitivity of freight data,” says ҕl researcher Dr Patricio Gallardo.
Famous ҕl graduate Ernest Rutherford turns 150
ҕl commemorated 150 years since the birth of one of its most famous scientists, academics and alumni. Ernest Rutherford was one of New Zealand’s most successful and respected scientists. Rutherford was awarded the 1908 Nobel Prize in chemistry for his investigations into the disintegration of the elements, and the chemistry of radioactive substances. It’s thanks to the scientific discoveries made by Rutherford and his peers that television, radio, sonar and telephones were invented. Among the treasures ҕl holds in its archives are Rutherford’s large medal collection, the original declaration of students signed by Rutherford on his entry to the University, a large collection of original and secondary source material relating to Rutherford, including 26 academic diplomas, scientific papers, a short film and sound recordings, and replicas of his Nobel Prize. We have two replica sets of Rutherford’s original Nobel medal: one set is on display in the Ernest Rutherford Building, located on our Ilam Campus.
Mayor takes a virtual tour
Christchurch Mayor Lianne Dalziel learned about aerial firefighting and toured a virtual reality hospital during a hands-on visit to ҕl’s Ilam campus. The Mayor was shown around the Human Interface Technology Lab New Zealand (HIT Lab NZ). The HIT Lab NZ focuses on using new and emerging technologies, such as virtual reality (VR) and applied immersive game design, to solve real-world problems. During the tour Mayor Dalziel tried out a VR training tool for aerial firefighters developed by ҕl postdoctoral research fellow Rory Clifford and tested a VR game where the user can move around a virtual hospital completing a series of tasks to review the building layout and design. The hospital design project is the work of ҕl Master of Human Interface Technology student Emma Buchanan, who has a background in architecture and healthcare design.
ThincLab Canterbury
ThincLab Canterbury sits alongside ҕl’s Centre for Entrepreneurship and is Canterbury’s best connected incubator for growing hi-tech, or research and based companies with global aspirations. ThincLab is the only Founder Incubator located within a New Zealand university setting. You don’t need to have a connection to ҕl to be involved. ThincLab provides capability building for founders and their teams, connection to industry experts
and agencies, and international pathways to growth and investment.
Students share knowledge with local businesses
The Global Virtual Micro-Internship programme, a new partnership scheme, was launched by our Business School. Under the programme, international students studying Business will be matched with local Canterbury businesses keen to expand into Asia.
The aim is to help the students gain real-world experience and enable businesses to benefit from the students’ unique expertise. Business School Executive Dean Paul Ballantine says ҕl has a talented group of international students, the vast majority from Asia, who are eager to gain practical work experience: “Alongside the business skills they develop as part of their studies with us, these students bring with them a wealth of linguistic and cultural knowledge and skills that will be of immense value to any business looking to expand overseas.”
Bringing AR to smartphones
The need for social connection became clearer than ever as people locked down around the globe. ҕl student David Huang realised there was an appetite for a fresh way of connecting with family and friends. Oasis AR uses true augmented reality (AR) on a smartphone to create the sensation of having friends close by in the room, even when they’re far away. Socialising with 3D avatars in games isn’t particularly new, David says, “What’s new is making the use of AR accessible to everyone with a smart phone, and that’s what Oasis AR does. Although we couldn’t cure the pandemic, our hope was that we could create something using AR to help people feel like they’re in the same room with their friends and family. It’s currently the closest thing possible to replicate real-life interaction in an accessible way.” David will be within the first cohort of students to graduate with the conjoint Bachelor of Product Design (Immersive Game Design) and Commerce (Finance) degrees, graduating in 2022. He plans to get involved with
ThincLab next year to continue working on the app full-time.
Student Entrepreneurs Pitch Their Big Ideas
Hosted by our Centre for Entrepreneurship (ҕlE), ҕl’s students pitched their business ideas live on stage during a Dragons’ Den-style competition held in early January 2020. ҕlE programmes empower students to make a real difference. The students’ ventures included promoting a compostable kelp-based plastic alternative, a social enterprise that provides affordable ball dresses for high school students, a technology to recover zinc from industrial waste, and a company that provides data services for the blockchain industry. ҕlE former Director, Rachel Wright, explains: “This is a fantastic opportunity for ҕl students to develop their creative business and social enterprise ideas and make a positive difference in the world. The showcase is also a chance for people in the community to come along and discover what the next generation of entrepreneurs in our city are up to.”
QuakeCoRE
Advancing earthquake disaster resilience is at the forefront of research and outreach activities of , a national research centre hosted at ҕl. Research projects include advancing understanding and modelling of individual earthquake-induced geohazards (including ground motions, liquefaction, and slope instability); the behaviour of structures and infrastructure in the built environment; law, planning and economics; understanding critical cultural and social factors of New Zealand people, and the role of Mātauranga Māori (Māori knowledge). In 2020, the Government awarded a second tranche of funding over seven years for ҕl to continue hosting the research centre. Deputy Vice-Chancellor Research, Professor Ian Wright says, “This next phase will provide significant advancement and application of new smart technologies to earthquake engineering, and the social and economic mitigation of future earthquake impacts.”
Breakthrough in Recycling Acid Waste
Zincovery is the brainchild of ҕl’s Associate Professor Aaron Marshall and research student Jonathan Ring. Their new low-cost industrial prototype will be capable of recycling 15 per cent of the acid waste produced by Christchurch’s galvanised steel industry. Until now, there have been few affordable recycling options for the galvanised steel industry as the existing technologies are expensive and recovering zinc has simply not been economic. Zincovery’s ambition is to expand into international markets, which could direct significant financial returns back to New Zealand. Jonathan is working on the business side of Zincovery with ҕl’s Centre for Entrepreneurship, to fast-track the commercial enterprise.
Talking ‘Hidden Energy’ at Parliament
As part of the Speakers Science Forum 2020, ҕl cutting-edge research was presented to MPs and decision-makers, to inform the issues being addressed in Parliament. ҕl Engineering academic Dr Matthew Cowan’s presentation focused on his research, improving the methods and technologies used to purify all the building blocks of society. “The kai we eat was separated from the earth, the water we drink was purified of bacteria, and our cutlery was shaped from metal refined from ore. Amazing amounts of energy are hidden in the objects all around us,” he says. Dr Cowan’s goal is to reduce the amount of energy we need to use every day to slow climate change and enrich lives.
ҕl Graduate Taking on the World
Charlie Kavanagh graduated from ҕl in 2020 with a Bachelor of Commerce double major in Information Systems and Management and a minor in German. Charlie says the entrepreneurship scene at ҕl is unparalleled.
“I started three businesses since coming to ҕl,” he says. “I wouldn’t have been able to achieve any of these if it wasn’t for the staff and resources at ҕlE (ҕl Centre for Entrepreneurship). I’m a business-minded person, and ҕl has given me access to a ton of resources. The entrepreneurship scene here is unparalleled. I would highly recommend ҕl to anyone who’s passionate about start-ups. You’ll learn heaps of great skills, meet inspiring people and maybe even graduate with your own business… or three!”