Reputation system

Reputation systems are programs that allow users to rate each other in online communities in order to build trust through reputation. Some common uses of these systems can be found on E-commerce websites such as eBay, Amazon.com, and Etsy as well as online advice communities such as Stack Overflow. These reputation systems represent a significant trend in "decision support for Internet mediated service provisions."^[1] With the popularity of online communities for shopping, advice, and exchange of other important information, reputation systems are becoming vitally important to the online experience. The idea of reputations systems is that even if the consumer can't physically try a product or service, or see the person providing information, that they can be confident in the outcome of the exchange through trust built by recommender systems.^[1]

Collaborative filtering, used most commonly in recommender systems, are related to reputation systems in that they both collect ratings from members of a community.^[1] The core difference between recommender systems and collaborative filtering is the ways in which they use user feedback. In collaborative filtering, the goal is to find similarities between users in order to recommend products to customers. The role of reputation systems, in contrast, is to gather a collective opinion in order to build trust between users of an online community.

Types

Online

Howard Rheingold states that online reputation systems are 'computer-based technologies that make it possible to manipulate in new and powerful ways an old and essential human trait'. Rheingold inclines that these systems arose as a result of the need for Internet users to gain trust in the individuals they transact with online. The innate trait he makes note of in humans is that a function of society such as gossip 'keeps us up to date on who to trust, who other people trust, who is important, and who decides who is important'. Internet sites such as eBay and Amazon he argues seek to service this consumer trait and are 'built around the contributions of millions of customers, enhanced by reputation systems that police the quality of the content and transactions exchanged through the site'.

Reputation banks

The emerging sharing economy increases the importance of trust in peer-to-peer marketplaces and services.^[2] User can build up reputation and trust in individual systems but don’t have the ability to use them in other systems. Rachel Botsman and Roo Rogers argue in their book What’s Mine is Yours (2010),^[3] that 'it is only a matter of time before there is some form of network that aggregates reputation capital across multiple form of Collaborative Consumption'. These systems, often referred to as reputation banks, try to give users a platform to manage their Reputation capital across multiple systems.

Maintaining effective reputation systems

The main function of reputation systems is to build a sense of trust within users of online communities. Much like the brick and mortar stores, the idea of trust and reputation can be built through customer feedback. Paul Resnick from the Association of Computing Machinery describes three properties that are necessary for reputations systems to operate effectively.^[1]

1. Entities that have a long lifetime and create accurate expectations of future interactions
2. Capture and distribute feedback about prior interactions
3. Use feedback to guide trust

These three entities are critically important in building and all revolve around one important element: user feedback. User feedback in reputation systems, whether it be in the form of comments, ratings, or recommendations, is a valuable piece of information. Without the presence of user feedback reputation systems are not able to sustain the environment of trust needed. Eliciting user feedback can manifest three related problems.[1] The first of these problems is the willingness of users to provide feedback when the option to do so is not required. If an online community has a large stream of interactions happening, but no feedback is gathered the environment of trust and reputation cannot be formed. The second of these problems is gaining negative feedback from users. Many factors contribute to users not wanting to give negative feedback, the most prominent being a fear of retaliation. When feedback is not anonymous, many users fear retaliation if negative feedback is given. The final problem related to user feedback is eliciting honest feedback from users. Although there is no concrete method for ensuring the truthfulness of if a community of honest feedback is established, new users will be more likely to give honest feedback as well.

Other pitfalls to effective reputation systems described by A. Josang et al. include change of identities and discrimination. Again these ideas tie back to the idea of regulating user actions in order to gain accurate and consistent user feedback. When analyzing different types of reputation systems it is important to look at these specific features in order to determine the effectiveness of each system.

Notable examples of practical applications

• Search: web (see PageRank)
• eCommerce: eBay, Epinions, Bizrate, Trustpilot
• Social news: Reddit, Digg, Imgur
• Programming communities: Advogato, freelance marketplaces, Stack Overflow
• Wikis: Increase contribution quantity and quality (Dencheva, Prause & Prinz 2011)
• Internet Security: TrustedSource
• Question-and-Answer sites: Quora, Yahoo! Answers, Gutefrage.net
• Email: anti-spam techniques, reputation lookup (RapLeaf)
• Personal Reputation: CouchSurfing (for travelers),
• Non Governmental organizations (NGOs): GreatNonProfits.org, GlobalGiving
• Professional reputation of translators and translation outsourcers: BlueBoard at ProZ.com
• All purpose reputation system: Yelp, Inc.
• Academia: general bibliometic measures, e.g. the h-index of a researcher.

Reputation as a resource

High reputation capital often confers benefits upon the holder. For example, a wide range of studies have found a positive correlation between seller rating and asking price on eBay,^[4] indicating that high reputation can help users obtain more money for their items. High product reviews on online marketplaces can also help drive higher sales volumes.

Abstract reputation can be used as a kind of resource, to be traded away for short-term gains or built up by investing effort. For example, a company with a good reputation may sell lower-quality products for higher profit until their reputation falls, or they may sell higher-quality products to increase their reputation.^[5] Some reputation systems go further, making it explicitly possible to spend reputation within the system to derive a benefit. For example, on the Stack Overflow community, reputation points can be spent on question "bounties" to incentivize other users to answer the question.^[6]

Even without an explicit spending mechanism in place, reputation systems often make it easier for users to spend their reputation without harming it excessively. For example, a driver with a high ride acceptance score (a metric often used for driver reputation) on a ride-sharing service may opt to be more selective about his or her clientele, decreasing their acceptance score but improving their driving experience. With the explicit feedback provided by the service, drivers can carefully manage their selectivity to avoid being penalized too heavily.

Attacks

Reputation systems are in general vulnerable to attacks, and many types of attacks are possible.^[7] A typical example is the so-called Sybil attack where an attacker subverts the reputation system by creating a large number of pseudonymous entities, and using them to gain a disproportionately large influence.^[8] A reputation system's vulnerability to a Sybil attack depends on how cheaply Sybils can be generated, the degree to which the reputation system accepts input from entities that do not have a chain of trust linking them to a trusted entity, and whether the reputation system treats all entities identically.

See also

References

• Dellarocas, C. (2003). "The Digitization of Word-of-Mouth: Promise and Challenges of Online Reputation Mechanisms" (PDF). Management Science. 49 (10): 1407–1424. doi:10.1287/mnsc.49.10.1407.17308. 
• Vavilis, S.; Petković, M.; Zannone, N. (2014). "A reference model for reputation systems" (PDF). Decision Support Systems. 61: 147–154. doi:10.1016/j.dss.2014.02.002. 
• Dencheva, S.; Prause, C. R.; Prinz, W. (September 2011). Dynamic self-moderation in a corporate wiki to improve participation and contribution quality (PDF). Proceedings of the 12th European Conference on Computer Supported Cooperative Work (ECSCW 2011). Aarhus, Denmark. 

• D. Quercia, S. Hailes, L. Capra. Lightweight Distributed Trust Propagation. ICDM 2007.
• R. Guha, R. Kumar, P. Raghavan, A. Tomkins. Propagation of Trust and Distrust WWW2004.
• A. Cheng, E. Friedman. Sybilproof reputation mechanisms SIGCOMM workshop on Economics of peer-to-peer systems, 2005.
• Hamed Alhoori, Omar Alvarez, Richard Furuta, Miguel Muñiz, Eduardo Urbina: Supporting the Creation of Scholarly Bibliographies by Communities through Online Reputation Based Social Collaboration. ECDL 2009: 180-191
• Sybil Attacks Against Mobile Users: Friends and Foes to the Rescue by Daniele Quercia and Stephen Hailes. IEEE INFOCOM 2010.
• J.R. Douceur. The Sybil Attack . IPTPS02 2002.
• Hoffman, K., Zage, D., Nita-Rotaru, C. (2009). A survey of attack and defense techniques for reputation systems . ACM Computing Surveys, 42(1), 1.
• Rheingold, Howard (2002). Smart Mobs: The Next Social Revolution. Perseus, Cambridge, Massachusetts. 
• Cattalibys, K. (2010). "I could be someone else - social networks, pseudonyms and sockpuppets". Schizoaffective disorders. 49 (3). 
• Zhang, Jie; Cohen, Robin (2006). Trusting Advice from Other Buyers in E-Marketplaces: The Problem of Unfair Ratings (PDF). Proceedings of the Eighth International Conference on Electronic Commerce (ICEC). New Brunswick, Canada. 

External links

• Reputation Systems - 2008 tutorial by Yury Lifshits
• Contracts in Cyberspace - 2008 essay (book chapter) by David D. Friedman.