Melbourne’s Monash University has been named one of 10 global winners of the Algorand Centres of Excellence (ACE) Program. The prize is a shared US$50 million funding boost to drive eco-friendly blockchain technology, education and innovation.
@MonashUni together with partners from Australia and the Pacific region has secured a huge grant from #Algorand and is one of the ten global winners of Algorand Centres of Excellence (ACE) program! Lots of great opportunities coming up! Congrats to all!https://t.co/M2JkgqSXgw
Monash’s Blockchain Technology Centre will partner with the Singapore-based Algorand Foundation to jointly develop two applications: a blockchain-as-a-service app for academic credentialing, as well as a prototype for blockchain as a pharmaceutical supply chain provider.
Joseph Liu, associate professor and director of the Monash Blockchain Technology Centre, has expanded on the future functions of these apps. The academic credentialing app aims to develop and explore a blockchain-enabled trusted credential issuance and verification system, while the second project will navigate the possibilities of leveraging blockchain technology to provide a robust, transparent, and accountable pharmaceutical supply chain.
Though associated primarily with cryptocurrency, blockchain technologies can actually be used in diverse sectors such as strengthening renewable energy optimisation, providing a fair platform for carbon trading, creating robust supply chains for food and agriculture, securing financial technologies, and ensuring cultural sustainability for heritage art and music.
Joseph Liu, associate professor and director, Monash Blockchain Technology Centre
The Algorand Foundation seeks to develop a global blockchain ecosystem, and its Grant and Development Award funding mechanisms have supported other education and research projects in academia. Monash is only one branch of Algorand’s endeavours; not only will it connect Australia with Pacific communities through consultation and training workshops, competitions and community meetups, it will also provide support, opportunities and resources to ensure long-term community sustainability beyond the lifetime of the ACE Program.
Algorand and Blockchain Emissions
This isn’t Algorand’s first notable partnership. In May 2022, $ALGO, the company’s native currency, spiked after the announcement of an International Federation of Association Football (FIFA) sponsorship and technical partnership deal. As FIFA’s official blockchain platform, Algorand will provide a blockchain-supported wallet, develop FIFA’s NFTs, and help implement further blockchain tech. On the day following the announcement, $ALGO jumped from US$0.58 to $0.73, a 25 percent gain.
Last month saw the National Australia Bank (NAB) announce its participation in a new project alongside several overseas banks to use blockchain technology to offset carbon emissions. The Canadian Imperial Bank of Commerce, the UK’s bank and insurance company NatWest, and Brazil’s Itaú Unibanco will join NAB to launch Project Carbon – a voluntary pilot that will enter the carbon marketplace.
Monash University in Melbourne will be hosting Australia’s first international blockchain hackathon, aiming to tackle social and environmental problems through blockchain technology.
According to the event posted by Monash, the initiative is a joint venture between the university’s Blockchain Technology Centre and fintech company and cryptocurrency provider Algorand.
We want to see participants apply their interests and knowledge in blockchain technology to address a global need that can really make a difference in the world.
Professor Joseph Liu, Director of Blockchain Technology Centre, Monash University
Algorand has established itself as the world’s first pure proof-of-stake foundational blockchain. It claims to bring forth the “future of finance” by enabling the creation of tokens, NFTs, stablecoins, securities and cryptocurrencies on a simple and cost-effective infrastructure.
How to Participate
The hackathon starts on Friday, 9 July at 10am and ends Sunday, 11 July at 11:59pm. Interested individuals can register for free here, and registration closes at 10am on 7 July.
We're proud to support the Monash Blockchain Hackathon, hosted by @MonashInfotech & #Algorand. Hack is open to all globally, from IT professionals, uni students & highschoolers, centering on how can #blockchain technology drive social good.
— Algorand Foundation (@AlgoFoundation) June 24, 2021
Contestants can choose from four topics – education, digital health, construction and energy – and must use tools developed by Algorand (ALGO). They must build solutions with blockchain technology to improve on some aspect of these services. Algorand has a wealth of use cases from which contestants can borrow tools and ideas.
Blockchain technology has so many applications and we want this hackathon to demonstrate how this technology can be a driving force for social good.
Professor Joseph Liu
Some examples will look at solutions in digital certification and records management in a secure and efficient manner, as well as smart metering and real-time energy consumption, plus sharing IoT data across systems. The innovation potential of blockchain technology is endless.
Prizes Paid in ALGO Cryptocurrency
Algorand, the world’s first open source, permissionless, green blockchain, will be contributing A$6000 worth of ALGO cryptocurrency and a certification as part of the hackathon prize pool.
Professor Joseph Liu will be among the academics on the judging panel, joined by industry experts from Algorand. Winners will be announced on 28 July 2021.
Australia has long been a proponent of blockchain technology and cryptocurrency. With many fintech companies implementing blockchain technology, it’s crucial that individuals have the skills to utilise and apply these technologies to the benefit of the user. Many businesses are losing out due to a lack of skilled individuals in the blockchain space.
Bigturn, an international recruitment company, has implemented blockchain technology to help ease identity storage and verification for international hiring in Australia.
For more information, watch this video which describes the future of blockchain and how else it can be used within the context of business.
The corporate governance structure in Australia largely gives power to those in senior positions and as a result many investors become disengaged with shareholder participation. For shareholders, it is necessary to receive efficient and accurate information to access shareholding rights and in order to participate in corporate decision-making, it is important that investors are assured they will receive appropriate information relating to the company that is verifiably correct.
Obtaining information as an investor can often be a costly and time-consuming process, and confidence in the outcome of meetings can be undermined by a lack of transparency.
When a company becomes public, maintaining shareholder records can become complex and difficult. This system is highly fallible and frequently results in communications being particularly time-consuming or not reaching shareholders at all. The voting process itself could be limited by incomplete ballot distributions and incorrect voter lists. In a procedure known as ‘empty voting’, some investors ‘may use borrowed shares to temporarily cast a vote in a company without suffering from the economic exposure to the financial risks in the price of its stock’. Such practices distort shareholding incentives and affect the balance of the vote for other shareholders.
Voting can be delegated to the president of the meeting, particularly where shareholders are dispersed and unengaged. Empowering the President necessarily favours existing management policies. To date these issues have not been met with sufficient regulation by policymakers.
The development of distributed ledger technology is perhaps the most significant innovation for company shareholders to date. Popularised by the invention of blockchain in 2008, distributed ledger technology refers to a peer-to-peer network of data spread across multiple nodes. Its key feature is the lack of a central administrator – instead, updates to the ledger are achieved by consensus. The correct record is replicated and updated on all nodes in the network.
This technology has since been used to register shares in early experiments, allowing investors and issuers to interact with each other more directly. In 2015, NASDAQ’s platform ‘Linq’ was the first use of distributed ledger technology to successfully complete a private securities transaction. In 2016, Overstock.com was the first public company to issue stock through a blockchain platform.
Following pilot phases of this technology, several governments have set up conditions for companies to further integrate distributed ledgers in stock management. In 2017, amendments to Delaware law allowed corporations to use blockchain technology to maintain stock ledgers and communicate with stockholders. Any records can be kept on electronic databases and communication between stockholders can take place electronically. France has allowed share registration via blockchain since 2017. The French Government has authorised the use of distributed ledger technology for the issuance and transfer of ‘mini-bonds’ and unlisted securities. Following this direction, the French international banking group BNP Paribas announced that it was ‘expanding its blockchain platform for private stocks’.
Distributed ledger technology has also transformed shareholder voting. In a distributed ledger system, tokens may be allocated to eligible voters, who would subsequently transmit their vote to be registered on the blockchain.
Permitted blockchain technologies can then be used to manage vote counting. NASDAQ has developed a successful e-voting platform on their Tallinn exchange to facilitate voting transparency and increase investor participation.
As of 2017, NASDAQ confirmed a functioning proof of concept identifying users based on their Estonian digital ID, allowing investors to view information about meetings and vote before or during the meeting, manage proxy votes and review previous meetings and transactions.
A similar scheme of electronic voting was announced by NASDAQ in November 2017 for South African capital markets. In the same year, Broadridge declared a successful test use of blockchain to complete proxy votes in a private transaction.
The pilot program demonstrated the capabilities of distributed ledger technology in providing ‘insight into vote progress throughout the issuer’s proxy voting period, from meeting announcement date to the annual general meeting’. The technology also allows for role-based access to voting data.
Even the world’s biggest stock exchanges have decided to incorporate distributed ledger technology in their transactions, with several outlining plans for overhauls of their core settlement systems. In 2018, the Shanghai Stock Exchange concluded that distributed ledgers had broad applicability in the securities industry, assisting in information disclosure, issuance and transfer, clearing and settlement, shareholder voting and dividend payment. The Australian Stock Exchange and Japan Exchange Group have also been investigating blockchain solutions for clearing, settlement and low-liquidity assets. The Japan Exchange Group has noted that securities transactions have broad potential to expedite the confirmation of information in the post-trade process.
As of 2019, the JPX Group had performed two proof of concept tests in collaboration with Japanese financial institutions. The ASX is developing a distributed ledger replacement to conduct post-transaction clearing and settlement activities, with the intention of facilitating greater accessibility and efficiency in the register. The project currently has a proposed go-live date of April 2022.
By offering an alternative to traditional database registers, blockchain technology has made company information readily accessible and more cost-effective. Complex information can be efficiently sourced from the register, stored indefinitely and timestamped. A blockchain system would be based on shareholder identity, allowing both open and pseudonymous ownership.
Voting information and tokens can be transmitted directly to investors without the need to ask each intermediary for the identity of their client. This information is effectively automatic.
As each change to the blockchain record is catalogued and verifiable, the expected benefits of blockchain for the voting process itself are also significant, promising greater accuracy and transparency. This acts as an incentive for more shareholders to directly participate at the annual general meeting, enhancing shareholder democracy and mitigating the effects of delegated voting. Both companies and shareholders would gain better understandings of shareholding. Using blockchain technology would also limit the use of ‘empty voting’ – providing transparent share registration and notice of changes to voting rights. This ensures that voting rights are aligned with economic interests. The consequence of these benefits is to vastly improve shareholder participation in corporate governance. These reforms will allow investors to have a direct say in meetings with greater ease and confidence.
Within a span of five years, the impact of technology on companies has been exponential. Though distributed ledgers are still being developed in company settings, the promise of emerging technology is persistent. Successive pilot programs tell us that the concepts work, and that the possibilities to enhance accessibility and efficiency for shareholders are substantial and significant. The modern company is changing – and technology will play a key role in driving its evolution. Marginalised shareholders now have an opportunity to benefit from technological improvements to transparency and participation.
Lecturer, Weiping He
Weiping He is a lecturer at Monash Law Faculty. Her research interests primarily lie in the areas of financial services regulation (securities markets and banking) and corporate law. She is interested in how regulatory regimes differ in terms of nature and dynamics as a result of varied historical, political and economic circumstances and in particular how regulatory regimes could work better. Her research also incidentally attempts to evaluate the proper role of government vis a vis the market, for example in assessing the efficiency of various regulatory regimes and the competence and effectiveness of regulators.
Assoc Professor and Director of the Monash Blockchain Technology Centre, Joseph Liu
Joseph Liu is an Associate Professor in the Faculty of Information Technology, Monash University. He got his PhD from the Chinese University of Hong Kong in 2004. Before joining Monash in 2015, he worked as a research scientist at the Institute for Infocomm Research (I2R) in Singapore for more than seven years. His research areas include cybersecurity, blockchain, IoT security, applied cryptography and privacy-enhanced technology. He has received more than 6500 citations with more than 200 publications in top venues such as CRYPTO, ACM CCS. Joseph is currently the lead of the Monash Cybersecurity Group. He established the Monash Blockchain Technology Centre in 2019 and serves as the Centre Director. His remarkable research in linkable ring signature forms the theory basis of Monero (XMR), one of the largest cryptocurrencies in the world with current market capitalization more than US$1 billion. Joseph received the 2018 Dean’s Award for Excellence in Research Impact. He was also named the 2018 ICT Researcher of the Year by the Australian Computer Society (ACS), the largest national professional body representing the ICT sector, for his contribution to the blockchain and cybersecurity community.
The only Australian researcher to be honoured with a 2020 IBM Academic Award, Monash University’s Dr Jiangshan Yu has received international recognition for his groundbreaking work on cryptocurrency and blockchain technology.
Of the 27 awardees for the 2020 IBM Academic Awards announced last night,Dr Yu, Associate Director (Research) in the Monash Blockchain Technology Centre, was one of two recipients to receive an award for research in this important field.
I’m absolutely ecstatic about being nominated for an IBM Academic Award! This achievement is not only great recognition for my research but it’s also an opportunity to foster future collaborations with IBM to further the use of technology for social good.
Dr Yu speaks to Crypto News about his award
The IBM Academic Awards promote collaborative research projects that advance the emerging technologies of today and encourage a sharing of knowledge amongst the global technology community.
A researcher in the Faculty of Information Technology at Monash University, Dr Yu is known for his research into blockchain systems. His most recent work demonstrates how businesses can realise their potential by adopting blockchains that can communicate with one another.
“Currently, there are over 5,000 blockchain systems and each represents an ecosystem. Personally, I believe that there will be many blockchain systems built for specialised applications. Our research explores how these blockchains can communicate with each other, enabling distributed users to exchange their data and assets between different blockchains without the need for a central go-between,” says Dr Yu.
Over the last decade, the rapid growth of blockchain technologies and their applications has seen governments around the world develop strategies to boost the blockchain industry.
More recently, the Australian Government also announced a National Blockchain Roadmap to help position the country’s blockchain industry to become a global leader, where interoperable blockchain is a key focus.
“Ultimately, the goal is to manage cryptocurrency and blockchain-based asset exchange with the same level of scalability, performance and equity that businesses and traders now enjoy in the financial world,” explains Dr Yu.
“If we can provide a mechanism generic enough to allow the communications between blockchains, we can bridge the gap between what would otherwise be isolated blockchains and enable a more connected network of ecosystems. I believe this will be the next advancement in technology that will shake the world.”
Congratulations to all those who have been selected for a 2020 IBM Academic Award.
Researchers from CSIRO’s Data61 – the data and digital specialist arm of Australia’s national science agency, and the Monash Blockchain Technology Centre have developed the most efficient blockchain protocol worldwide.
Not only is it secure against quantum computers, but it also guarantees the privacy of its users and their transactions.
Use In Multiple Fields On The Horizon
Although the blockchain protocol seems to have originally been developed for cryptocurrencies – indeed, it has been licensed to an Aussie cryptocurrency developer known as Hcash – the new protocol can be used in a number of fields, including, but not limited to digital health, banking, finance, government services, and KYC (Know Your Customer) identity verification procedures.
The protocol has been named MatRiCT and was developed by a team of researchers from both CSIRO and the Monash Blockchain Technology Centre. The team was led by Dr Muhammed Esgin, who took action once he saw that current blockchain technology may not be able to take flak from quantum computers.
“Quantum computing can compromise the signatures or keys used to authenticate transactions, as well as the integrity of blockchains themselves. Once this occurs, the underlying cryptocurrency could be altered, leading to theft, double-spend, or forgery, and users’ privacy may be jeopardized. Existing cryptocurrencies tend to either be quantum-safe or privacy-preserving, but for the first time our new protocol achieves both in a practical and deployable way.”
The new protocol is based on hard lattice problems – which are quantum secure. They also introduce new particular features – one of which is the shortest quantum-secure ring signature scheme made so far, which authenticates activity and transactions using nothing but the signature itself.
Another innovation present in the MatRiCT blockchain is a zero-knowledge proof method, which masks all sensitive information pertaining to a financial transaction. MatRiCT also includes the ability to conduct audits, which the team hopes could prevent the illegal use of cryptocurrencies.
