4,078 research outputs found
A Review of Research on Privacy Protection of Internet of Vehicles Based on Blockchain
Numerous academic and industrial fields, such as healthcare, banking, and supply chain management, are rapidly adopting and relying on blockchain technology. It has also been suggested for application in the internet of vehicles (IoV) ecosystem as a way to improve service availability and reliability. Blockchain offers decentralized, distributed and tamper-proof solutions that bring innovation to data sharing and management, but do not themselves protect privacy and data confidentiality. Therefore, solutions using blockchain technology must take user privacy concerns into account. This article reviews the proposed solutions that use blockchain technology to provide different vehicle services while overcoming the privacy leakage problem which inherently exists in blockchain and vehicle services. We analyze the key features and attributes of prior schemes and identify their contributions to provide a comprehensive and critical overview. In addition, we highlight prospective future research topics and present research problems
Hidden depths: the effects of extrinsic data collection on consumer insurance contracts
Commentators have predicted that the insurance industry will soon benefit from technological advancements, such as developments in Artificial Intelligence (‘AI’) and Big Data. The application of AI- and Big Data-powered tools promises cost reduction, the creation of innovative products, and the potential to offer more efficient and tailored services to consumers. However, these new opportunities are mirrored by new legal and regulatory challenges. This article discusses challenges facing Australian data protection law, focusing on (potential) collection of consumers' data by insurers from non-traditional sources. In particular, we examine situations in which consumers may not be aware that the data collected could end up being used to price insurance. In our analysis, we discuss two useful examples of such non-traditional data sources: customer loyalty schemes and social media. These may give rise to several concerning data practices, including a significant increase in the collection of consumers' data by insurers. We argue that datafication of insurer processes may fuel excessive data collection in the context of insurance contracts, generating a substantial risk of harm to consumers, especially in terms of discrimination, exclusion, and unaffordability of insurance. We complement our analysis with the discussion of Australian insurance-specific provisions, asking if, and how, the harms examined could be adequately addressed
Blockchain and Cryptocurrencies: a Classification and Comparison of Architecture Drivers
Blockchain is a decentralized transaction and data management solution, the
technological leap behind the success of Bitcoin and other cryptocurrencies. As
the variety of existing blockchains and distributed ledgers continues to
increase, adopters should focus on selecting the solution that best fits their
needs and the requirements of their decentralized applications, rather than
developing yet another blockchain from scratch. In this paper we present a
conceptual framework to aid software architects, developers, and decision
makers to adopt the right blockchain technology. The framework exposes the
interrelation between technological decisions and architectural features,
capturing the knowledge from existing academic literature, industrial products,
technical forums/blogs, and experts' feedback. We empirically show the
applicability of our framework by dissecting the platforms behind Bitcoin and
other top 10 cryptocurrencies, aided by a focus group with researchers and
industry practitioners. Then, we leverage the framework together with key
notions of the Architectural Tradeoff Analysis Method (ATAM) to analyze four
real-world blockchain case studies from industry and academia. Results shown
that applying our framework leads to a deeper understanding of the
architectural tradeoffs, allowing to assess technologies more objectively and
select the one that best fit developers needs, ultimately cutting costs,
reducing time-to-market and accelerating return on investment.Comment: Accepted for publication at journal Concurrency and Computation:
Practice and Experience. Special Issue on distributed large scale
applications and environment
The Internet of Things Connectivity Binge: What are the Implications?
Despite wide concern about cyberattacks, outages and privacy violations, most experts believe the Internet of Things will continue to expand successfully the next few years, tying machines to machines and linking people to valuable resources, services and opportunities
Blockchain For Food: Making Sense of Technology and the Impact on Biofortified Seeds
The global food system is under pressure and is in the early stages of a major transition towards more transparency, circularity, and personalisation. In the coming decades, there is an increasing need for more food production with fewer resources. Thus, increasing crop yields and nutritional value per crop is arguably an important factor in this global food transition.
Biofortification can play an important role in feeding the world. Biofortified seeds create produce with increased nutritional values, mainly minerals and vitamins, while using the same or less resources as non-biofortified variants. However, a farmer cannot distinguish a biofortified seed from a regular seed. Due to the invisible nature of the enhanced seeds, counterfeit products are common, limiting wide-scale adoption of biofortified crops. Fraudulent seeds pose a major obstacle in the adoption of biofortified crops.
A system that could guarantee the origin of the biofortified seeds is therefore required to ensure widespread adoption. This trust-ensuring immutable proof for the biofortified seeds, can be provided via blockchain technology
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Blockchain and certificate authority cryptography for an asynchronous on-line public notary system
The true innovation behind the Bitcoin protocol is blockchain technology. Blockchain is the underlying distributed database and encryption technology that enables trustless transactions that can be verified, monitored, and enforced without a central institution. This master’s report presents the core concepts behind blockchain that are concerned with carrying instructions for storage, sharing of non-financial data, including an examination of the byzantine fault tolerant cryptography model.
A literature review describes the types of blockchains, nodes, proof of work, disadvantages, and risks and provides a survey of future applications related to state government records, such as birth certificates, automobile registrations, land deeds, and voting. This review will answer the question: Is it possible for a state government to use blockchain employing trusted nodes given that the nature of blockchain is that of a distributed network of peers accompanied by a public ledger without a central authority?
Finally, the requirements for a specific application case study will be defined and developed. The desired application will be a smart contract to invoke a statutory durable power of attorney using blockchain technology for oneself in case of incapacitation while still living.Electrical and Computer Engineerin
The Impact of Blockchain Technology on Financial Transactions
Blockchain technology could emerge as a disruptive innovation that streamlines financial transactions and attenuates their cost. Therefore, the financial industry must assess the opportunities and challenges presented by the technology. As a grand breakthrough, it could transform financial transactions and introduce new possibilities for established financial institutions as well as for new entrants. At the same time, incumbents and startups need to overcome technological, regulatory, and adoption challenges before blockchain technology can become a mainstream reality. Despite its potential, the literature on its impact on financial transactions is still fragmented, with weak empirical insights and limited theoretical explanations. Therefore, financial industry managers lack guidance on how to plan and prepare for the impact of blockchain technology on the operation of financial transactions.
Against that backdrop, this dissertation explores the asserted and potential impacts on financial transactions with emphasis on asset verification, record keeping, data privacy, and transaction costs. The dissertation adopts a pluralist approach to examine the subject matter based on three approaches: analysis of the extant literature about blockchain technology concerning financial transactions; perception analysis based on interviews with financial executives, subject matter experts, and researchers; and a theoretical interpretation using transaction cost theory. Therefore, the dissertation synthesizes insights from the three approaches to offer managers of financial institutions guidance concerning the opportunities and challenges of blockchain technology
Blockchain, Leadership And Management: Business AS Usual Or Radical Disruption?
The Internet provided the world with interconnection. However, it did not provide it with trust. Trust is lacking everywhere in our society and is the reason for the existence of powerful intermediaries aggregating power. Trust is what prevents the digital world to take over. This has consequences for organisations: they are inefficient because time, energy, money and passion are wasted on verifying everything happens as decided. Managers play the role of intermediaries in such case: they connect experts with each others and instruct them of what to do. As a result, in our expert society, people's engagement is low because no one is there to inspire and empower them. In other words, our society faces an unprecedented lack of leadership. Provided all those shortcomings, the study imagines the potential repercussions, especially in the context of management, of implementing a blockchain infrastructure in any type of organisation. Indeed, the blockchain technology seems to be able to remedy to those issues, for this distributed and immutable ledger provides security, decentralisation and transparency. In the context of a blockchain economy, the findings show that value creation will be rearranged, with experts directly collaborating with each others, and hierarchy being eliminated. This could, in turn, render managers obsolete, as a blockchain infrastructure will automate most of the tasks. As a result, only a strong, action-oriented, leadership would maintain the organisation together. This leadership-in-action would consist in igniting people to take action; coach members of the organisations so that their contribution makes sense in the greater context of life
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