379,318 research outputs found
Technology, privacy and identity: a Hong Kong perspective
This article explores the concepts of privacy and identity in Hong Kong in relation to the law relating to data protection. It first considers the notions of privacy and identity in the light of Hong Kong's socioeconomic situation and recent postcolonial heritage. It then highlights the importance of identity management and considers the distinctions and overlaps between identity management and privacy protection. With this conceptual framework in mind, the article then considers the various laws in Hong Kong pertaining to data protection, with a focus on the aspects relating to identity management. It observes that while there is some legal protection in respect of the data relating to an individual's identity, there are other priorities which may take precedence in determining the extent of identity management under the legal system in Hong Kong. Finally, recommendations are made as to how to improve identity management within the context of data protection in Hong Kong
Identity principles in the digital age: a closer view
Identity and its management is now an integral part of web-based services and applications. It is also a live political issue that has captured the interest of organisations, businesses and society generally. As identity management systems assume functionally equivalent roles, their significance for privacy cannot be underestimated. The Centre for Democracy and Technology has recently released a draft version of what it regards as key privacy principles for identity management in the digital age. This paper will provide an overview of the key benchmarks identified by the CDT. The focus of this paper is to explore how best the Data Protection legislation can be said to provide a framework which best maintains a proper balance between 'identity' conscious technology and an individual's expectation of privacy to personal and sensitive data. The central argument will be that increased compliance with the key principles is not only appropriate for a distributed privacy environment but will go some way towards creating a space for various stakeholders to reach consensus applicable to existing and new information communication technologies. The conclusion is that securing compliance with the legislation will prove to be the biggest governance challenge. Standard setting and norms will go some way to ease the need for centralised regulatory oversight
A Formal Study of the Privacy Concerns in Biometric-Based Remote Authentication Schemes
With their increasing popularity in cryptosystems, biometrics have attracted more and more attention from the information security community. However, how to handle the relevant privacy concerns remains to be troublesome. In this paper, we propose a novel security model to formalize the privacy concerns in biometric-based remote authentication schemes. Our security model covers a number of practical privacy concerns such as identity privacy and transaction anonymity, which have not been formally considered in the literature. In addition, we propose a general biometric-based remote authentication scheme and prove its security in our security model
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Patient privacy protection using anonymous access control techniques
Objective: The objective of this study is to develop a solution to preserve security and privacy in a healthcare environment where health-sensitive information will be accessed by many parties and stored in various distributed databases. The solution should maintain anonymous medical records and it should be able to link anonymous medical information in distributed databases into a single patient medical record with the patient identity. Methods: In this paper we present a protocol that can be used to authenticate and authorize patients to healthcare services without providing the patient identification. Healthcare service can identify the patient using separate temporary identities in each identification session and medical records are linked to these temporary identities. Temporary identities can be used to enable record linkage and reverse track real patient identity in critical medical situations. Results: The proposed protocol provides main security and privacy services such as user anonymity, message privacy, message confidentiality, user authentication, user authorization and message replay attacks. The medical environment validates the patient at the healthcare service as a real and registered patient for the medical services. Using the proposed protocol, the patient anonymous medical records at different healthcare services can be linked into one single report and it is possible to securely reverse track anonymous patient into the real identity. Conclusion: The protocol protects the patient privacy with a secure anonymous authentication to healthcare services and medical record registries according to the European and the UK legislations, where the patient real identity is not disclosed with the distributed patient medical records
ABAKA : a novel attribute-based k-anonymous collaborative solution for LBSs
The increasing use of mobile devices, along with advances in telecommunication systems, increased the popularity of Location-Based Services (LBSs). In LBSs, users share their exact location with a potentially untrusted Location-Based Service Provider (LBSP). In such a scenario, user privacy becomes a major con- cern: the knowledge about user location may lead to her identification as well as a continuous tracing of her position. Researchers proposed several approaches to preserve usersâ location privacy. They also showed that hiding the location of an LBS user is not enough to guarantee her privacy, i.e., userâs pro- file attributes or background knowledge of an attacker may reveal the userâs identity. In this paper we propose ABAKA, a novel collaborative approach that provides identity privacy for LBS users considering usersâ profile attributes. In particular, our solution guarantees p -sensitive k -anonymity for the user that sends an LBS request to the LBSP. ABAKA computes a cloaked area by collaborative multi-hop forwarding of the LBS query, and using Ciphertext-Policy Attribute-Based Encryption (CP-ABE). We ran a thorough set of experiments to evaluate our solution: the results confirm the feasibility and efficiency of our proposal
My Private Cloud Overview: A Trust, Privacy and Security Infrastructure for the Cloud
Based on the assumption that cloud providers can be trusted (to a certain extent) we define a trust, security and privacy preserving infrastructure that relies on trusted cloud providers to operate properly. Working in tandem with legal agreements, our open source software supports: trust and reputation management, sticky policies with fine grained access controls, privacy preserving delegation of authority, federated identity management, different levels of assurance and configurable audit trails. Armed with these tools, cloud service providers are then able to offer a reliable privacy preserving infrastructure-as-a-service to their clients
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