Digital credential

Digital credentials are the digital equivalent of paper-based . Just as a paper-based credential could be a , a , a membership certificate or some kind of ticket to obtain some service, such as a cinema ticket or a public transport ticket, a digital credential is a proof of qualification, competence, or clearance that is attached to a person. Also, digital credentials prove something about their owner. Both types of credentials may contain personal information such as the person’s name, birthplace, birthdate, and/or biometric information such as a picture or a finger print.

Because of the still evolving, and sometimes conflicting, terminologies used in the fields of computer science, computer security, and cryptography, the term “digital credential” is used quite confusingly in these fields. Sometimes passwords or other means of authentication are referred to as credentials. In design, credentials are the properties of a (such as its effective ) that is used for determining its access rights. On other occasions, and associated key material such as those stored in #12 and #15 are referred to as credentials.

are a form of digital credential that indicate an accomplishment, skill, quality or interest. Digital badges can be earned in a variety of learning environments.

Contents

Real / digital world analogy

Real world credentials are a diverse social phenomenon, and as such are difficult to define. As with digital signatures it is misleading to assume a direct correspondence between the real-world and the digital concept. This holds even if defining criteria for credentials in the digital world could be agreed on.

The success of digital signatures as a replacement for paper based signatures has lagged behind expectations. On the other hand, many unexpected uses of digital signatures were discovered by recent cryptographic research. A related insight that can be learned from digital signatures is that the cryptographic mechanism need not be confused with overall process that turns a digital signature into something that has more or less the same properties as a paper based signature. Electronic signatures such as paper signatures sent by fax may have legal meaning, while secure cryptographic signatures may serve completely different purposes. We need to distinguish the algorithm from the .

Digital cash

is usually not seen as a qualification that is attached to a specific person as is taken to have a value on its own. Digital assets like are easily copied. Consequently, digital cash protocols have to make an extra effort to avoid the of coins. Credentials are a proof of qualification that is attached to a person. E-Coins are given to individuals, who cannot pass them on to others, but can only spend them with merchants. As long as they spend a coin only once, they are anonymous, but should they spend a coin twice, they become identifiable and appropriate actions can be taken by the bank. This commonality, the binding to an individual, is why digital cash and digital credentials share many commonalities. In fact most implementations of anonymous digital credential also realize digital cash.

Anonymous

The main idea behind anonymous digital credentials is that users are given cryptographic tokens which allow them to prove statements about themselves and their relationships with public and private organizations anonymously. This is seen as a more privacy-friendly alternative to keeping and using large centralized and linkable user records. Anonymous digital credentials are thus related to privacy and anonymity.

Paper world analogues of personalized, or non-anonymous are: passports, driving licenses, credit cards, health insurance cards, club membership cards etc. These contain the name of the owner and have some authenticating information such as a signature, PIN or photograph, to stop them being used by anyone other than the rightful owner. Paper world analogues of anonymous credentials are: money, bus and train tickets, and game-arcade tokens. These don’t have any personally identifying information and consequently can be transferred between users without the issuers or relying parties being aware of this. Credentials are issued by organizations that ascertain the authenticity of the information which can be provided to verifying entities on demand.

In order to investigate certain privacy specific properties of credentials, we take a more detailed look at two kind of ‘credentials’, physical money and credit cards. Without doubt both of them provide adequate information for doing payment transactions. However the amount and quality of the information disclosed varies. Money is protected from forgery by its physical properties. Beyond that, only very little information is revealed: Coins feature an ingrained value and the year of coining; in addition bank notes contain a unique serial number in order to provide the traceability required by law enforcement.

On the other hand, the use of a credit card, whose main purpose is similar to money, allows for the creation of highly detailed records about the card owner. Credit cards are therefore not privacy protecting. The main privacy advantage of money is that its users can remain anonymous. There are however other security and usability properties that make real world cash popular.

Credentials used in a national identification system are also especially privacy relevant. Such an ID, be it a passport, a driver’s license, or some other type of card usually contains essential personal information. In certain situations it may be advantageous to reveal only parts of the information contained on the ID, e.g., some lower limit for the person’s age or the fact that the person is capable of driving a car.

Pseudonyms

The original anonymous credential system proposed by David Chaum is sometimes also referred to as a pseudonym system. This stems from the fact that the credentials of such a system are obtained from and shown to organizations using different pseudonyms which cannot be linked.

The introduction of pseudonyms In this important work, Chaum presents a new cryptographic primitive, blind signature protocols. In such a scheme the signer neither learns the message he signs, nor the signature the recipient obtains for his message. Blind signatures are an important building block of many privacy-sensitive applications, such as anonymous payments, voting, and credentials. The original idea for an anonymous credential system along with several other features such as a proof of non-membership blacklist.

Another credential form that adds a new feature to anonymous credentials: multi-show unlinkability. These are the related credentials of Camenisch et al. The introduction of opened up the possibility of multi-show unlinkable showing protocols. While blind signatures are highly relevant for electronic cash and one-show credentials, a new cryptographic primitive, called , opened new possibilities for the construction of privacy enhancing protocols. As is observed in their article, group signatures bear a resemblance to Chaum’s concept of credential systems. The most efficient multi-show unlinkable anonymous credential systems—the latter is essentially a low profile version of idemix—are based on similar ideas. This is particularly true for credential systems that provide efficient means for implementing anonymous multi-show credentials with credential revocation.

Both schemes are based on techniques for doing . Proofs of knowledge relying on the discrete logarithm problem for groups of known order and on the special RSA problem for groups of hidden order form the basis for most of today’s group signature and anonymous credential systems. Moreover, a protocol for authenticating is based on the same techniques.

can be seen as the first commercial application of multi show anonymous digital credentials, even though in this case credentials are not attached to persons, but to chips and consequently computer platforms.

From an applications’ point of view, the main advantage of Camenisch et al.’s multi-show unlinkable credentials over the more efficient Brands credentials is the multi-show unlinkable property. However, this property is mainly of practical interest in an off-line setting. Brands credentials provide a mechanism that gives analogous functionality without sacrificing performance: an efficient batch issuing protocol which can simultaneously issue many unlinkable credentials. This mechanism can be combined with a privacy preserving certificate refresh process (which gives a fresh unlinkable credential with the same attributes as a previous spent credential).

Online credentials for learning

Online credentials for learning are digital credentials that are offered in place of traditional paper credentials for a skill or educational achievement. Directly linked to the accelerated development of internet communication technologies, the development of , and (MOOCs) have a very direct bearing on our understanding of learning, recognition and levels as they pose a direct challenge to the status quo. It is useful to distinguish between three forms of online credentials: Test-based credentials, online badges, and online certificates.

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Sources

Source

http://wikipedia.org/