Cognitive password
A cognitive password is a form of knowledge-based authentication that requires a user to answer a question, presumably something they intrinsically know, to verify their identity. Cognitive password systems have been researched for many years and are currently commonly used as a form of secondary access. They were developed to overcome the common memorability vs. strength problem that exists with the traditional password. Cognitive passwords, when compared to other password systems, can be measured through the usage of a memorability vs. guessability ratio.[1]
History
Research on passwords as an authentication method has struggled between memorability and strong security.[2] Passwords that are easily remembered are easily cracked by attackers. On the other hand, strong passwords are difficult to crack but also difficult to remember.[3] [4] When passwords are difficult to remember, users may write them down, and the secrecy of the password is compromised.[5] Early research into this trade-off between security and usability aimed to develop a password system that utilized easily remembered personal facts and encouraged user participation. This line of research resulted in the concept of the associative password, a password system based on user selected cues and responses.[6] This concept of associative passwords was extended to a pre-specified set of questions and answers that users would be expected to know and could easily recall.[7] Empirical analysis of passwords and human cognition resulted in a recommendation that people should not be expected to remember more the four complex passwords. [8]
Building upon the idea of questions later researchers developed a series of innovations for cognitive passwords. Pass faces used the ability to identify individuals in a social network and the particular cognitive strength of recognizing faces [9] Later work evaluating these cues reified the recommendation of four passwords as a reasonable cognitive expectation. [10]
A historical overview of the use of various cues found that the specific design and layout of the page impinge the memorability and strength. [11] Later work illustrated that inclusion of a visual cue enabled strongly significant improvements in the trade-off between memorability and security. [12]
Cognitive questions
The core of a cognitive password system lies the cues. These can be photos of faces, newspapers, images, or other graphical or textual cues. One early method of assisting recall recommended the now later security questions. These questions were designed to be more memorable than the standard username/password authentication method. As such, a measure of the strength of a cognitive password is the memorability/guessability ratio.[13]
Question development
Questions developed for cognitive password systems are classified as being either fact or opinion based. Fact based systems have questions with answers that are considered independent of an individual's feelings such as "What is the name of the high school you attended?". Opinion based questions are the opposite and, as the name implies, have answers based on personal opinions such as, "What is your favorite color?"[14] Later research developed a set of criteria for question selection which included generalized answerability, number of potential answers, and generalized lack of ambiguity. The first criteria suggested that questions should be answerable by all (i.e. not asking "When did you purchase your first home?" because not all users may have purchased homes). The second criteria recommended selecting questions with a sufficiently large set of potential answers (i.e. not asking "How many children do you have?" because a majority of people would answer 0, 1 or 2). One design goal is to have questions that were as unambiguous as possible (i.e. not asking "How many family members do you have?" as there may be some confusion as to who would be included in that count).[15] For creating usable questions one effective criteria is the use of persuasive, engaging questions.[16]
Older people dealing with the normal cognitive decline of aging may respond well to visual cues.[17] Tactile interactions can make technology more accessible.[18]
Memorability vs. guessability
A user's ability to correctly recall their password is expected to decrease as time progresses.[19] However, the memorability of cognitive passwords remains relatively stable over time with recall rates significantly higher than traditional passwords.[20][21] When fact and opinion-based questions are compared, the fact-based questions are more likely to be correctly remembered than opinion-based questions, but still far more likely than traditional passwords.[20] Cognitive questions, with a group averaged as a whole, show relatively high guessability, much higher than traditional passwords but when analyzed individually, certain questions have been shown to have acceptable memorability/guessability ratios.[20]
Examples
The following are some typical cognitive password questions:
- What is your mother’s maiden name?
- Who is your favorite superhero?
- What is your dog’s name
- What is your car's name?
- What is your favorite movie?
- What city were you born in?
- What is your favorite color?
- What number is written in one of your pencils? Use different pencils for different passwords.
References
- Shon Harris (2002). "2". Mike Meyers' CISSP(R) Certification Passport. Mike Meyers' certification passport Passport Series (illustrated ed.). McGraw-Hill Professional. p. 36. ISBN 978-0-07-222578-5.
- Simon HA. Cognitive science: The newest science of the artificial. Cognitive science. 1980 Jan 1;4(1):33-46.
- (Zviran and Haga, 1990a)
- J. Yan, A. Blackwell, R. Anderson, and A. Grant. Password Memorability and Security: Empirical Results. [IEEE Security and Privacy, 2(5):25–31, 2004.
- (Zviran and Haga, 1999, p. 173)
- (Smith, 1987)
- (Zviran and Haga, 1990a, p. 723)
- A. Adams and M. A. Sasse. Users are not the enemy. Commun. ACM, 42(12):40–46, 1999.
- . Wiedenbeck, J. Waters, J.-C. Birget, A. Brodskiy, and N. Memon. PassPoints: design and longitudinal evaluation of a graphical password system. Int. J. Hum.-Comput. Stud., 63(1-2):102–127, 2005.
- Brostoff, S., & Sasse, M. A. (2000). Are Passfaces more usable than passwords? A field trial investigation. In People and computers XIV—usability or else! (pp. 405-424). Springer, London.
- Biddle R, Chiasson S, Van Oorschot PC. Graphical passwords: Learning from the first twelve years. ACM Computing Surveys. 2012 Aug 1;44(4):19.
- Camp, L. Jean, Jacob Abbott, and Siyu Chen. "CPasswords: Leveraging Episodic Memory and Human-Centered Design for Better Authentication." 2016 49th Hawaii International Conference on System Sciences (HICSS). IEEE, 2016.
- (Bunnell et. al, 1997, p. 631)
- Zviran and Haga, 1990
- Bunnell et. al, 1997, p. 633
- Alain Forget, Sonia Chiasson, P. C. van Oorschot, and Robert Biddle. 2008. Improving text passwords through persuasion. In Proceedings of the 4th symposium on Usable privacy and security (SOUPS '08). ACM, New York, NY, USA, 1-12.
- Anderson, N. and Craik, F., “Memory in the aging brain”, The Oxford handbook of memory, pp. 411–425, 2000.
- Z. Zimmerman & L Jean Camp, "Elder-friendly Design’s Effects on Acceptance of Novel Technologies", Elderly Interaction Design CHI; CHI 2010 Workshop, (Atlanta GA.) 4 April 2010.
- (Brown et al., 2004, p. 642)
- (Bunnell et. al, 1997, p. 635)
- (Zviran and Haga, 1990a, p.728)
Works cited
- Brown, Alan S.; al, et. (2004), "Generating and Remembering Passwords", Applied Cognitive Psychology, 18 (6): 641–651, doi:10.1002/acp.1014
- Bunnell, Julie; al, et. (1997), "Cognitive, associative and conventional passwords: Recall and guessing rates", Computers & Security, 16 (7): 629–641, doi:10.1016/s0167-4048(97)00008-4
- Smith, Sidney L. (1987), "Authenticating Users by Word Association", Human Factors and Ergonomics Society, 31 (1): 135–138, doi:10.1177/154193128703100130
- Zviran, Moshe; Haga, William J. (1990a), "Cognitive passwords: The key to easy access control", Computers & Security, 9 (8): 723–736, doi:10.1016/0167-4048(90)90115-a
- Zviran, Moshe; Haga, William J. (1999), "Password Security: An Empirical Study", Journal of Management Information Systems, 15 (4): 161–185, doi:10.1080/07421222.1999.11518226, hdl:10945/40319
- Zviran, Moshe; Elrich, Zippy (2006), "Identification and Authentication: Technology and Implementation Issues", Communications of the Association for Information Systems, 17 (4): 90–105, doi:10.17705/1CAIS.01704