Tag Archives: collaboration

Industry, Thought Leaders

Industry engagement must start at school

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Robotics, artificial intelligence, advanced materials and biotechnology will impact business models from 2018 and employment in engineering, architecture, IT and maths is on the rise. Currently women are significantly underrepresented in these jobs. 

Schools have a major role in promoting female participation in the STEM workforce. The challenge for schools and educators is to help female students understand this new environment and evolve the skills and resilience to operate in the future STEM landscape.

So how can we support female students to pursue STEM careers?

Provide opportunities

A major challenge for schools exists around resourcing and updating teacher knowledge. The Victorian Department of Education established six specialist science and mathematics centres to help schools inspire students in STEM through student programs and teacher professional learning.

These specialist centres collaborate with research institutes and industry to showcase Victorian innovation and entrepreneurial pursuits in STEM. Providing access to research-grade technologies and expertise immerses teachers and students in contemporary science investigations.  It helps girls visualise new STEM pathways and ignites their interest in pursuing studies in science.

“Industry and research institutions can play a pivotal role in supporting schools to bridge the divide between STEM in practice, and STEM in the classroom.”

Enhance motivation

What motivates a female student to engage with STEM? At the very core our answer should include interest and relevance. Relevance showcases how skills and knowledge apply to the world around us. Interest is maintained when students understand and can actively use new skills and knowledge to analyse results, solve problems and discuss issues.

A student will quickly disengage if they do not experience success. A series of sequenced challenges designed to activate thinking and the linking of ideas to create new knowledge supports students to take risks and develop and test theories.

Promote dialogue and skills of negotiation

Girls enjoy learning as a social and collaborative exercise. In this way they can hold meaningful discourse as they interrogate ideas. Providing learning spaces that promote social interaction around artefacts provides a non-threatening method of testing ideas and refining knowledge.

Raise aspirations

Industries want to increase female participation in the workforce as this promotes diversity and has been shown to improve outcomes. Cited barriers to hiring and promoting women include unconscious bias in managers and women’s low confidence and aspirations.

industry-school partnerships

Credit: Future of Jobs Report, World Economic Forum

We all harbour learned stereotypes that are encultured in us and affect decisions. Meeting and collaborating with early and established female career scientists has a positive impact on women’s aspirations. It helps to break down misconceptions surrounding the role of scientists by highlighting the convergence of STEM where collaboration – rather than competition – is key.

Industry and research institutions can play a pivotal role in supporting schools to bridge the divide between STEM in practice, and STEM in the classroom. By partnering with schools to develop meaningful and relevant learning experiences for students, enriched by access to facilities, resources, technologies and expertise, students realise how exciting and diverse a career in STEM can be.

By communicating the need for gender diversity and nurturing STEM skills that will be most valued in the workforce, we can help raise female aspirations as they reflect on subject choice in their senior years.

Jacinta Duncan

Director, Gene Technology Access Centre

Read next: Captain Mona Shindy describes her journey as a pioneer in the Royal Australian Navy.

People and careers: Meet women who’ve paved brilliant careers in STEM here, find further success stories here and explore your own career options at postgradfutures.com.

Spread the word: Help Australian women achieve successful careers in STEM! Share this piece on industry-school partnerships using the social media buttons below.

More Thought Leaders: Click here to go back to the Thought Leadership Series homepage, or start reading the Graduate Futures Thought Leadership Series here.

Careers, Industry, Opinion

Is commercialisation the dark side?

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As an avid Star Wars fan I’d like to explore the topic of research commercialisation using terms that a Jedi Knight would recognise.

The Federal Government is seeking a better return on its sizeable investment in research through:

  • better commercialisation of research
  • more engagement between researchers and industry, and
  • changing the requirements for funding for research institutions and the incentives for researchers.

To some, this push for a more commercial and applied approach to research is like the Emperor urging Luke Skywalker to embrace the dark side of the force.

Like a Jedi apprentice, I began my science degree because of my love of science and desire to make a difference. I was not interested in doing a business degree or any degree that would purely maximise my salary prospects.

I chose an honours project close to my heart, involving ‘cis-platinum’ chemotherapy for breast cancer, with which my aunt had been recently diagnosed. Unfortunately the project was given to a student who was less passionate about it, but had a higher grade point average than me.

I was forced to find an alternative project. Seeking something with a practical application, I changed universities and chose a project sponsored by a company seeking a solution to a problem. My honours thesis titled ‘The wettability of rough surfaces’ looked at why roughening a surface could make it more hydrophobic for practical applications in non-stick surfaces.

When I started work at ANSTO, in a role that was half research and half business development, I was tasked with creating a spin-off business involving one of the research instruments.

As I was introduced to other research staff, a term came up that I was familiar with, but not in a work context. Some researchers referred to me as having moved to the “dark side”.  This was said as a joke, but it stemmed from an underlying belief that anyone associated with commercialisation, or engaging with industry regularly, was doing something wrong.

The implication was that there was something suspect about me for being involved in this type of activity, ‘tainted’ by commerce.

Being older and – I’d like to think – somewhat wiser, I now reflect that, had I continued along the pathway of medical research into breast cancer, perhaps I would have made an amazing discovery that could have saved many lives. But for my research to result in a cure would require the involvement of commercialisation experts – the kind of person I have become.

Between a cancer research discovery and a cured patient lies the long and arduous process of commercialisation which requires a team-based approach, where research and commercial staff work collaboratively.

I know now that being responsible for industry engagement, or commercialisation of a project rather than the research, does not mean my work is any less important, pure or noble. I’m using my strongest skills in the best way to have a positive impact for humanity, in my own way.

Commercialisation experts are not the Sith, we bring balance to the force by forging new Australian industries and actively training young researchers in the ways of industry, for research alone cannot achieve a better future.

I believe commercialisation is not the Dark Side, it is A New Hope.

– Natalie Chapman, Managing Director, gemaker

commercialisation

Natalie Chapman is a commercialisation and marketing expert with more than 15 years of experience turning innovative ideas and technologies into thriving businesses.

She co-founded her company gemaker in 2011 after almost a decade leading business development and marketing projects at ANSTO and, in 2013, won a Stevie Award for Female Entrepreneur of the Year in Asia, Australia and New Zealand.

Natalie specialises in mining, new materials, environmental and ICT technologies. She takes technologies from research through to start-up, assisting her clients with commercialisation strategy, building licensing revenue, securing funding grants, tenders and engaging with industry.

Natalie also heads corporate communications at ASX-listed mining and exploration company Alkane Resources and is responsible for attracting investment, government relations and marketing communications.

Natalie has a Bachelor of Science with honours (Chemistry) from the University of New South Wales and a Master of Business Administration (Marketing) from the University of Wollongong.

Industry, Innovation, News

Research commercialisation is push and pull

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‘It’s not me, it’s you’, is the message from universities to industry in terms of success in partnering and commercialisation of research and development.

Dr Leanna Read, Chief Scientist of South Australia and the founder and former CEO of TGR BioSciences, says universities are unfairly “bagged” for not pulling their weight in collaborating with industry and in fostering the development of research commercialisation partnerships.

“Our surveys have shown there is a strong interest in commercialisation and a willingness [in university research] to engage with industry,” she told the Australian Financial Review’s Innovation Summit in Sydney today.

“One of the issues is the nature of our industry sector. We are dominated by small to medium enterprises and we tend to be low in the level of innovation happening at this level. We have a problem here where research has all the will in the world to knock on doors of industry – the trouble is they’re not going to get a terribly good reception,” she says.

“We need to grow an innovative culture in these companies.”

TGR BioSciences focuses on drug discovery assay technologies and applies its core skills in cell biology to the development of new biodetection technologies.

Universities willing to engage

Emeritus Professor Jim Piper AM, President of Science and Technology Australia, and previously from Macquarie University, says there is a “high awareness” in universities to “encourage commercialisation”.

“There are impediments, however.

“One of the issues is the silo-isation of research which has been aided and abetted by the funding mechanism of universities.”

Many people forget that the university system is a service industry driven by international reputation, Piper points out. International students choose universities based on their impact factor and international reputation, and Australian universities rely heavily on liquidity from international students.

Shifting to a focus towards research commercialisation-based funding, or key performance indicators based on partnership success, the so-called ‘partner or perish’ is a massive shift in this context, he says – but one that universities are willing to make.

“One thing you can say about university researchers is they really chase the money. If that is in collaboration, then that is where they will chase it.

“One of the issues with unis is that, in most cases, commercialisation officers don’t have critical mass and there are challenges.”

For example, there are challenges in sharing and applying intellectual property (IP), he says.

“At Macquarie University, students at the start are invited to assign their intellectual property rights to the university so the uni can negotiate on their part. Often [in other universities] students keep their IP and this can be very complicated,” he told the summit.

Practice makes perfect

The problem may lie in experience in negotiations, says Professor Ian Frazer AC, Chair of the Medical Research Future Fund and inventor of the cervical cancer vaccine.

“We probably aren’t experienced enough at this negotiation [between academia and industry],” says Frazer. “There are excellent examples of industry-uni partnerships working, but there needs to be a lot of talk to make this happen.

“We’ve got to change both sides of the equation, for industries and universities. For example, the health sector relies on unis to provide input to research. We need to ensure that there is engagement between health researchers and industry, but industry needs to realise that research is critical to what it does,” he says.

Dr Steve Jones, global head of research and development at Australian R&D spin off cancer company Sirtex – a medical device company providing a radioactive treatment for inoperable liver cancer – agrees that universities have “had a rough ride” to make dramatic changes to the way they incentivise research to promote collaboration and research commercialisation.

Sirtex has approached universities to work on research but found that it worked best when they had an identifiable problem to take to the researchers, he told Science Meets Business.

Unis have work to do too

Read acknowledges that universities also have work to do, with funding for projects traditionally focussed on research project grants rather than looking to the issues faced by customers, the business approach controversially emphasised by CSIRO CEO Dr Larry Marshall, who also spoke at the summit.

“We need more of a ‘what is the problem and how do I solve it’ approach – this is what Cooperative Research Centres do well and we need more of that kind of research,” says Read.

More pull less push towards research commercialisation

Chief Defence Scientist Dr Alex Zelinksy says any successful negotiation “needs to be win-win” for both university and industry.

“There is a push and a pull element. There is a pioneering spirit (do it yourself) rather than an entrepreneurial spirit in terms of business and commercialisation of research. We need everyone to come together.”

He agrees that one of the barrier is around intellectual property. “Access to IP needs to be on fair and commercial terms.”

– Heather Catchpole

Read more: Collaborate or Crumble

Innovation, News

What are the big three drivers to job growth?

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Increased collaboration, stability of policy and acceleration of commercialisation are three main drivers of innovation and job growth that must be addressed to accelerate Australia’s economy in the next 15 years.

The top three drivers were identified at the AFR National Innovation Summit today by Chairs of the boards of Telstra, BHP Billiton and Innovation and Science Australia.

The panel warned that fears around the effects of disruption on jobs must be part of the conversation, and that the effects of digital disruption through automation, and artificial intelligence were inevitable.

This disruption will affect people and jobs whether they are “in Woomera or Sydney”, says Bill Ferris, Chair of the board of Innovation and Science Australia.

“In five years we’ve seen the rise of Uber and Instagram, and the collapse of the mining boom. What is coming towards us will dwarf the change of pace [in disruption] to date,” says Dr Nora Scheinkestel, Chairman of Macquarie Atlas Roads and Director of Telstra Corporation and Stocklands Group.

Policy and R&D tax incentives

Crucial to Australia’s ability to innovate is the stability of policy such as the R&D tax incentive, which aims to encourage private investment in Australian R&D.

Along with Chief Scientist Alan Finkel, Bill Ferris was part of a team that reviewed the incentive for government to evaluate how much investment the incentive has created and the scheme’s effectiveness.

“I agree it is valuable and should be continued,” says Ferris. “Can it be improved? I think so. It’s been a $3 million cheque and the largest there has been. But there is nothing in the scheme that requires collaboration, whether CSIRO or academia.”

Incentivising collaboration is a no-brainer next step, says Ferris.

“I don’t think business is trying as hard as academia. Universities are getting on with business, creating spin-offs like QUT’s Spinifex, and Ian Fraser’s cancer vaccine. It’s very impressive.”

Stability of the R&D investment scheme is key to its success, says Carolyn Hewson AO, Director, BHP Billiton, Stockland Group and Federal Growth Centres Advisory Committee.

Hewsen says BHP Billiton was ‘deeply’ affected as a company by the collapse of the mining boom this year. “Every company is under pressure to innovate.” (See “How big companies can innovate)

“There is a role for government to address the KPIs they set around research funding.

KPIs need to move to speed of commercialisation rather than publication in tier 1 journals.”

“My concern is it is very easy for government with 3-year time horizon to make decisions on funding over a long term investment. Research projects extend out many years. To be subject to be changing regulation of government regulated by short-term political cycle is very worrying.”

How big companies can innovate

– Carolyn Hewson AO, Director of BHP Billiton, Stockland Group and Federal Growth Centres Advisory Committee

  • Hastening production
  • Accelerating technology competencies
  • Innovation hubs working to address innovative solution to specific challenges, eg. automation of trucks and drills
  • Step-up programs to build from the inside of the company
  • Partnerships with universities and CSIRO, CRCs on engineering and remote operations

Collaborate and commercialise for job growth

Ferris is optimistic about Australia’s ability to respond to the challenge to grow jobs by 2030. Agribusiness, aquaculture, cybersecurity, environmental services, renewables, and new materials were all strong potential job growth areas, he says.

“A lot more work needs to be done by business on reaching in. If we can’t commercialise around our inventiveness we won’t create the jobs that we could and that we deserve.”

Scheinkestel says the ecosystem is essential to drive innovation and job growth.

“The big message from Israel is the ecosystem created between business and academia, and in their case the military, where young people are taught strong leadership skills. They commercialise or adapt tech they have been looking at, get the backing of VC, which are supported by consistent policies from government around tax regimes.

“Again in Silicon Valley, you are talking about an ecosystem, a constellation of start-ups with shared resources and again consistency in policies and tax incentives.”

Hewson agrees that work skills are essential to our future and that there is concern about workforce skills in Australia across a number of advanced manufacturing, mining and medical sectors.

“We want to enhance global competitiveness and build on strategic collaboration within these sectors,” she says.

“It’s not just about growth, it’s about survival,” adds Scheinkestel.

Heather Catchpole

Industry, News, World

Collaboration platform welcomes universities

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The Australian National University and the University of Western Australia have become the first research institutions in Australasia to join IN-PART, a global university-industry collaboration platform.

Researchers at these universities will have access to a growing community of 2000+ R&D professionals from over 600 businesses in Europe, Oceania, the UK, and the USA, who use IN-PART to collaborate with universities in the commercialisation of academic research.

“The potential of the output from world leading research at Australian institutions is huge, but the limited industrial base means that it is essential we partner with corporate world leaders to realise that potential”, said Professor Michael Cardew-Hall, Pro Vice-Chancellor of Innovation at The Australian National University.

“The ANU has strong links with many partner research institutions worldwide and strategic partnerships with major corporations. However, developing new partnerships that are mutually beneficial is a key strategy for the University”.

The Australian National University (ANU) and the University of Western Australia (UWA) will join 70 universities from the UK, USA, Japan, and Europe — including Cambridge, Cornell, and King’s College London — who currently use IN-PART to publish innovation and expertise from academics who are actively looking to interact with industry.

“We’re very excited about being able to profile our projects to targeted people in relevant industries, and to show people that UWA and Australia are the home of some amazing innovations. Just as our researchers rely on collaborating locally and internationally, tech transfer offices need to look further afield for development partners with particular expertise and routes to market”, said Simon Handford, Associate Director of Innovation at the University of Western Australia.

“Hopefully, IN-PART can help us meet future R&D partners and give more projects the chance of being translated into something that can be put to use”.

Launched in January 2014, IN-PART has facilitated the first point of contact for a range of university-industry collaborations that include licensing deals, co-development projects with joint funding, academic secondments, and long-term research partnerships.

This information was first shared by IN-PART on 11 August 2016.

Agriculture, Environment, News

Australia’s biosecurity future

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Australia needs to take a fresh approach to its plant biosecurity science system according to the Australian Farm Institute’s Mick Keogh.

In a report released on 12 August– A sustainable and nationally coordinated plant biosecurity RD&E system for Australia – Keogh states that the establishment of a standalone plant biosecurity corporation, as a joint venture between the Australian Government, state governments and plant industries, should be a priority.

The report states: “The structure should have the flexibility to bring in other partners (for example the New Zealand Ministry for Primary Industries) and also to enter into joint-venture projects with other industry participants, such as grain or horticulture trading corporations.

Additionally it recommends that the structure be led by a dedicated, skills-based board, elected or appointed by contributing organisations or governments and have annual funding levels approximately equal to the current Plant Biosecurity Cooperative Research Centre (PBCRC) (around $25 million per annum).

The focus should be on strategic and cross-sectoral plant biosecurity  research, development and extension (RD&E) projects and providing enhanced opportunities for the training and development of younger researchers.

Keogh says with no future sustainable plant biosecurity RD&E system yet described for Australia, resources for Australia’s biosecurity RD&E and surveillance on the decline, and the potential for major plant disease incursions increasing, there is a perfect storm brewing.

The Report, commissioned by the PBCRC, follows significant consultation with government, industry and research providers.

“Consultation confirmed broad support for a new approach to biosecurity RD&E, revealed a range of interpretations about how the current system works, and varying views on the best vehicle to drive a future RD&E system,” says Keogh.

Dr Michael Robinson, CEO of the PBCRC, observed there were many issues that were agreed upon by stakeholders.

“Through the consultation processes stakeholders were unequivocal in recognising the need for biosecurity to support Australian agriculture, growing its market and trade opportunities. We all agree on the need for nationally funded and coordinated plant biosecurity RD&E – for that we have consensus. Full stop. Consensus.”

“We also agree on the need to move now. The CRC has played an important cross-sectoral role over the past decade and any lapse between the CRC finishing in 2018 and a new system will leave a gaping hole in the plant biosecurity RD&E effort, not just for Australia but in the region and beyond,” says Robinson.

Tony Mahar, Chief Executive of the National Farmers’ Federation reiterated the importance of biosecurity in a recent blog saying: “it is one of the highest priorities for Australian Government services to both the Australian community at large and to farmers in particular. Our biosecurity system has a high level of research, development and extension capability in the plant and the livestock industries.”

Shenal Basnayake, CEO of NT Farmers said it is crucial that any future framework for plant biosecurity R&D involves and integrates industry and on-farm biosecurity within the overarching biosecurity R&D system. “Robust, peer reviewed, verifiable and science based R&D which is globally accepted will be key to maintaining a vibrant plant industries sector within Australia,” writes Basnayake in a PBCRC blog post.

Robinson says the Plant Biosecurity CRC is committed to leading the process, knowing that a long-term, nationally-coordinated research effort is essential for all agricultural interests.

“However, we can’t do it alone. We know there is no ‘correct’ answer on a future plant biosecurity RD&E structure, nor an ‘optimal’ structure from every stakeholder’s perspective but we firmly believe that through collective and constructive leadership we can avoid this potential perfect storm.

To find out more about Australia’s biosecurity future, click here to read the two-page Summary Paper, or access the full final report here.

This article was first published by the PBCRC on 12 August 2016. Read the original article here

Careers, Thought Leaders

The value of Google interns

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When you think of internships at Google you might think of interns riding around the office on scooters, eating endless supplies of free food and playing video games.

But when we talk to interns, that’s not why they come to Google.

Google interns come to work on products that affect millions of people around the world. They want to build technology that help people live happier and easier lives – products that change the way people access information, do business, learn and connect with each another.

In fact, when we surveyed students the most important factor influencing a decision to apply to Google was the opportunity to make an impact on the world. The least important factor was the famous perks. Students tell us they want to do cool things that matter.

In our Sydney office, Google interns get to work on products like Google Maps, which are used by one billion people around the world. They get to build crisis maps that are used in times of natural disaster.

And they’re working on some of the world’s coolest technology challenges, like how to make cars smarter, and how to build products for the next billion people who will be online.

Each year we host interns in order to inspire and encourage the next generation of tech innovators. Google interns gain valuable hands on experience and mentorship on Google teams. Students with fresh ideas are introduced to Google’s culture of innovation and will initiate some of our newest and interesting projects.

Interns bring in their big questions and then use Google’s resources to help them build the answers, as part of a team. The strongest Google interns are people who thrive on collaboration. People who enjoy working with others to find creative solutions to problems. This is how great answers are built.

To build more answers, we need interns from diverse backgrounds who aren’t afraid to fail. They are curious, and they love to learn and learn from their mistakes.”

Combining a degree in computer science (CS) with another discipline means students are more prepared to work across teams to build products for the world. Computer science, combined with another discipline brings with it new insights and new ways of approaching things. Students can combine CS with other passions in areas like music, retail, finance and health. They learn how to think big and rethink what is possible across any industry.

Internships also provide an opportunity to work with people with different attributes, experiences and points of view. Those differences make us stronger, more productive and more innovative. Intern programs like the Google STEP program (Summer Trainee Engineering Program) provide university students from traditionally under-represented groups in computer science with practical experience working on a software project early in their degree. They create opportunities that get students excited about Google, and inspired by a future career in technology.

Our mission has always been to ask the big questions and build better answers. To build more answers, we need interns from diverse backgrounds who aren’t afraid to fail. They are curious, and they love to learn and learn from their mistakes.

Despite interns eating more food than the rest of us at Google, they come in because they are excited about their work. We look forward to every intern season when we have another group of students working on some of the biggest challenges in technology across the globe.

Stephanie Borgman

People Programs Specialist, Google Australia/NZ

Read next: Leeanne BondChief Software Architect at Cochlear, on how thinking like an engineer can make a world of difference in business.

People and careers: Meet graduates and postgraduates who’ve paved brilliant, cross-disciplinary careers here, find further success stories here and explore your own career options at postgradfutures.com

Spread the word: Help to grow Australia’s graduate knowhow! Share this piece using the social media buttons below.

Be part of the conversation: Share your ideas on creating and propelling top Australian graduates. We’d love to hear from you!

More Thought Leaders: Click here to go back to the Thought Leadership Series homepage, or start reading the Australian Innovation Thought Leadership Series here.

Careers, Thought Leaders

Getting into a top graduate program

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An excellent graduate program helped accelerate my career progress.

I arrived in Australia at the turn of the century. The trigger for leaving South Africa to move here was a little-known industrial automation software called Citect. I was inspired by this Australian invention, that back then was simply the most advanced, most innovative software in its industry.

It had been less than 10 years since I graduated from university with an Electrical Engineering degree, but the first five years were the most formative. The company that employed me as a fresh graduate had a fantastic graduate program, and equipped me with essential skills that have served me well for the past 25 years.

Today I look back on the 16 years I have been at Cochlear – another great Australian innovation – and am proud to have been part of an organisation that excels at nurturing young talent.

An undervalued characteristic is curiosity, coupled with the eagerness to experiment without the fear of failure.”

I’ve witnessed many excellent graduate programs develop in Australia and I believe they are vital for helping young professionals to realise their full potential. We’ve been running our own graduate program at Cochlear for the last 10 years. Many of the graduates who began their careers in that program are now in leadership positions and excelling at their jobs. One of the reasons it has been so successful is because Cochlear focuses on hiring people with skills that set them up for success.

Possessing the technical fundamentals taught in STEM-based degrees is only part of what we look for in a prospective graduate. Other important attributes are intuition, creativity, critical thinking, communication skills and the ability to work collaboratively within and between multidisciplinary teams.

Collaboration in particular has become such an important attribute in a young people entering graduate programs. I cannot emphasize enough the need to develop this ability early, especially when aspiring to leadership roles. The days of the lone, genius contributor have all but gone. Today, the projects and startups that produce ground-breaking products achieve this because of the team-collaboration factor. Nothing says this more outspokenly than when Atlassian listed on The NASDAQ Stock Market and named their stock symbol “TEAM”.

Perhaps another undervalued characteristic in graduates is curiosity, coupled with the eagerness to experiment without the fear of failure. A number of companies have a graduate program that formalises this process. Google and Atlassian are two companies that have successfully implemented 20% experiment time. There are countless examples of successful products that were born from these programs, such as Gmail, AdSense and Google News.

Often in an interview I will ask a candidate what they do in their spare time – the things they don’t put on their resumes, which might indicate a genuine thirst for knowledge.

Looking more closely at the foundation of Australian graduates, I’d like to add a few thoughts on STEM education in schools. In a 2014 Australian Mathematical Sciences Institute report, Kelly Roberts provides some disturbingly low participation rates of women in STEM subjects in high school. As the father of two daughters, my hope is that education systems will improve in order to draw out the innate inquisitiveness of young kids.

Let us build on that capability at an early age and nurture it. Let us teach them reasoning and critical thinking skills as young as possible. These skills are the means to building a stronger Australia.

Victor Rodrigues

Chief Software Architect, Cochlear 

Read next: Andrew Coppin, venture capital investor, on the changing demographic of founders in today’s startup scene.

People and careers: Meet graduates and postgraduates who’ve paved brilliant, cross-disciplinary careers here, find further success stories here and explore your own career options at postgradfutures.com

Spread the word: Help to grow Australia’s graduate knowhow! Share this piece using the social media buttons below.

Be part of the conversation: Share your ideas on creating and propelling top Australian graduates. We’d love to hear from you!

More Thought Leaders: Click here to go back to the Thought Leadership Series homepage, or start reading the Australian Innovation Thought Leadership Series here.

Features, Industry, Society

Collaborate or crumble

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Bookshelves in offices around Australia groan under the weight of unimplemented reports of research findings. Likewise, the world of technology is littered with software and gadgetry that has failed to gain adoption, for example 3D television and the Apple Newton. But it doesn’t have to be this way.

Adoption of research is a critical success measure for Cooperative Research Centres (CRCs). One CRC in particular, the CRC for Water Sensitive Cities, has succeeded in having its research adopted by governments, companies and even the United Nations. Its secret is fruitful collaborations spanning diverse academic disciplines to deliver usable results. These are the kind of collaborations CRCs are well placed to deliver, argues Professor Rebekah Brown, project leader and former Chief Research Officer of the CRC for Water Sensitive Cities and director of the Monash Sustainability Institute.

The best are not always adopted. To change that, says Brown, developers need to know how their research solutions will be received and how to adapt them so people actually want them.

“Physical scientists, for example, benefit from understanding the political, social and economic frameworks they’re operating in, to position the science for real-world application,” she says.

The big-picture questions around knowledge and power, disadvantage and information access, political decision-making, community needs and aspirations, policy contexts and how values are economised – these are the domains of the social sciences. When social science expertise is combined with that of the physical sciences, for example, the research solutions they produce can have a huge impact. In the case of the CRC for Water Sensitive Cities, such solutions have influenced policy, strategy and regulations for the management of urban stormwater run-off, for example. Brown and her colleagues have found it takes a special set of conditions to cultivate this kind of powerful collaborative research partnership.

The CRC for Water Sensitive Cities has seen considerable growth. It started in 2005 as a $4.5 million interdisciplinary research facility with 20 Monash University researchers and PhD students from civil engineering, ecology and sociology. The facility grew over seven years to become a $120 million CRC with more than 85 organisations, including 13 research institutes and other organisations such as state governments, water utilities, local councils, education companies and sustainability consultancies. It has more than 230 researchers and PhD students, and its work has been the basis for strategy, policy, planning and technology in Australia, Singapore, China and Israel.

in text green corridor

Blue and green corridors in urban areas are part of the CRC for Water Sensitive Cities’ research into managing water as the world becomes increasingly urbanised.

In a 2015 Nature special issue, Brown and Monash University colleagues Ana Deletic and Tony Wong, project leader and CEO respectively of the CRC for Water Sensitive Cities, shared their ‘secret sauce’ on bridging the gap between the social and biophysical sciences, which allowed them to develop a partnership blueprint for implementing urban water research.

8 tips to successful collaboration

Rebekah Brown

Professor Rebekah Brown, courtesy of the Monash Sustainability Institute

Cultivating interdisciplinary dialogue and forming productive partnerships takes time and effort, skill, support and patience. Brown and her colleagues suggest the following:

1 Forge a shared mission to provide a compelling account of the collaboration’s overall goal and to maintain a sense of purpose for all the time and effort needed to make it work;

2 Ensure senior researchers are role models, contributing depth in their discipline and demonstrating the skills needed for constructive dialogue;

3 Create a leadership team composed of people from multiple disciplines;

4 Put incentives in place for interdisciplinary research such as special funding, promotion and recognition;

5 Encourage researchers to put their best ideas forward, even if unfinished, while being open to alternative perspectives;

6 Develop constructive dialogue skills by providing training and platforms for experts from diverse disciplines and industry partners to workshop an industry challenge and find solutions together;

7 Support colleagues as they move from being I-shaped to T-shaped researchers, prioritising depth early on and embracing breadth by building relationships with those from other fields;

8 Run special issues of single-discipline journals that focus on interdisciplinary research and create new interdisciplinary journals with T-shaped editors, peer-reviewers or boards.

Source: Brown, R.R, Deletic, A. and Wong, T.H.F (2015), How to catalyse collaboration, Nature, 525, pp. 315-317.

A recent Stanford University study found almost 75% of cross-functional teams within a single business fail. Magnify that with PhD research and careers deeply invested in niche areas and ask people to work with other niche areas across other organisations, and it all sounds impossible. Working against resistance to collaborate requires time and effort.

Yet as research partnerships blossom, so do business partnerships. “Businesses don’t think of science in terms of disciplines as scientists do,” says Brown. “Researchers need to be able to tackle complex problems from a range of perspectives.”

Part of the solution lies in the ‘shape’ of the researchers: more collaborative interdisciplinary researchers are known as ‘T-shaped’ because they have the necessary depth of knowledge within their field (the vertical bar of the T), as well as the breadth (the horizontal bar) to look beyond it as useful collaborators – engaging with different ways of working.

Some scholars, says Brown, tend to view their own discipline as having the answer to every problem and see other disciplines as being less valuable. In some ways that’s not surprising given the lack of exposure they may have had to other disciplines and the depth of expertise they have gained in their own.

“At the first meeting of an interdisciplinary team, they might try to take charge, for example talk but not listen to others or understand their contribution. But in subsequent meetings, they begin to see the value the other disciplines bring – which sometimes leaves them spellbound.

“It’s very productive once people reach the next stage in a partnership where they develop the skills for interdisciplinary work and there’s constructive dialogue and respect,” says Brown.

In a recent article in The Australian, CSIRO chief executive and laser physicist Dr Larry Marshall describes Australians as great inventors but he emphasises that innovation is a team sport and we need to do better at collaboration. He points out that Australia has the lowest research collaboration rates in the Organization for Economic Cooperation and Development (OECD), and attributes this fact to two things – insufficient collaboration with business and scientists competing against each other.

“Overall, our innovation dilemma – fed by our lack of collaboration – is a critical national challenge, and we must do better,” he says.

Brown agrees, saying sustainability challenges like those addressed by the CRC for Water Sensitive Cities are “grand and global challenges”.

“They’re the kind of ‘wicked problem’ that no single agency or discipline, on its own, could possibly hope to resolve.”

The answer, it seems, is interdisciplinary.

Moving forward

Alison Mitchell

Alison Mitchell, courtesy of Vitae

There’s a wealth of great advice that CRCs can tap into. For example the Antarctic Climate & Ecosystems CRC approached statistical consultant Dr Nick Fisher at ValueMetrics Australia, an R&D consultancy specialising in performance management, to find the main drivers of the CRC’s value as perceived by its research partners, so the CRC could learn what was working well and what needed to change.

Fisher says this kind of analysis can benefit CRCs at their formation, and can be used for monitoring and in the wind-up phase for final evaluation.

When it comes to creating world-class researchers who are T-shaped and prepped for research partnerships, Alison Mitchell, a director of Vitae, a UK-based international program dedicated to professional and career development for researchers, is an expert. She describes the Vitae Researcher Development Framework (RDF), which is a structured model with four domains covering the knowledge, behaviour and attributes of researchers, as a significant approach that’s making a difference to research careers worldwide.

The RDF framework uses four ‘lenses’ – knowledge exchange, innovation, intrapreneurship [the act of behaving like an entrepreneur while working with a large organisation] and entrepreneurship – to focus on developing competencies that are part and parcel of a next generation research career. These include skills for working with academic research partners and industry.

– Carrie Bengston

watersensitivecities.org.au

www.acecrc.org.au

News, Technology

Search engine collaboration

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Lead researcher Associate Professor Falk Scholer is delighted with the $US56,000 Google Faculty Research Award for the project in the area of information retrieval, extraction, and organisation.

“It’s particularly exciting to receive support for this kind of research into search engine effectiveness from a leader in web search, like Google,” Scholer says.

The Google award will fund user-study experiments and support a top research student to work on the project, titled “Magnitude Estimation for the Evaluation of Search Systems”.

Scholer is running the project in collaboration with Professor Andrew Turpin, now of the University of Melbourne, but a former leader of RMIT’s celebrated Information, Search and Retrieval group (ISAR), which is ranked second in Asia/Oceania for Information Retrieval research.

“The project will be looking at a new approach for measuring whether users are satisfied with the results that they get from search engines,” he says.

“The aim is to enable more precise measurement of search effectiveness, and therefore allow future improvements to search systems to be identified more easily and reliably, supporting the faster development of impactful search technology.”

The current leader of ISAR, Professor Mark Sanderson, said the award underlined how information retrieval research at RMIT was well regarded internationally.

“Understanding how to improve search engines is an important research field here at RMIT, and getting support from Google is a big boost for us,” he says.

“I’m sure we’d all join in congratulating Falk, and wish him the best of luck with the project.

“It’s great to receive global recognition like this, especially as it follows on from his paper being selected as one of the top five presented at SIGIR 2015 – the world’s foremost information retrieval conference.”

SIGIR, the Association for Computing Machinery’s Special Interest Group on Information Retrieval, is the major international forum for the presentation of new research results and for the demonstration of new systems and techniques in Information Retrieval.

Scholer’s SIGIR paper, “The Benefits of Magnitude Estimation Relevance Assessments for Information Retrieval Evaluation”,  foreshadowed the project that has now won the Google award.

“The paper at SIGIR reported on an initial study in the area and the Google grant will enable us to investigate evaluation using magnitude estimation more deeply, in particular in the context of web search,” he says.

RMIT is ranked in the world’s top 100 universities for computer science and information systems. Find out more.

This article was first published by RMIT on 1 February 2016. Read the original article here.