Q3673540 (Q3673540): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item: Edited by the infer coords bot - inferring coordiantes from postal codes) |
(Created claim: summary (P836): Biometrics are used to identify or authenticate people based on different biological or morphological parameters. This process, already used for various well-known applications (biometric USB key, logical and physical access control...), will potentially be the future solution to authenticate a customer for an e-payment or any other application requiring a high level of security.However biometrics is not 100 % reliable and errors are possible. B...) |
||||||||||||||
Property / summary | |||||||||||||||
Biometrics are used to identify or authenticate people based on different biological or morphological parameters. This process, already used for various well-known applications (biometric USB key, logical and physical access control...), will potentially be the future solution to authenticate a customer for an e-payment or any other application requiring a high level of security.However biometrics is not 100 % reliable and errors are possible. Biometric devices are therefore likely to trace recognition defects. Attackers take advantage of these flaws in order to be recognised as real users. Biometric systems must therefore be evaluated and certified before they can be used as a reliable authentication method. Research has been carried out to define a framework for the evaluation of biometric systems. Multimodal biometrics simultaneously combine several biometric traits in a single process. This approach has several advantages: Greater precision compared to a single biometric characteristic, fraud resistance (it is more difficult to falsify multiple traits), flexibility (if one feature changes temporarily, e.g. a cut on the finger, the other line compensates).Fingerprints and voice will be tested for this project, including portable devices (Wearable), devices that can be worn on the body, such as bracelets or watches.Mmodal biometrics simultaneously combine several biometric traits in a single process. This approach has several advantages: Increased accuracy compared to a single biometric characteristic, resistance to fraud (it is more difficult to falsify multiple traits), flexibility (if one characteristic changes temporarily, e.g. a cut on the finger, the other line compensates) In the context of this project, fingerprints and voice will be tested; in particular, on portable devices (Wearable) that can be worn on the body, such as bracelets or watches. Various studies show that this market is very promising, especially on simple-use objects that allow the deployment of high value added services such as payment, access control, ticketing, MEDICALOne of the success conditions for these applications is the ability to offer very robust security solutions.User privacy is also a key factor, it requires the definition of tools to filter requests for access to a user’s personal data or the definition of cryptographic protocols and architectures to limit sensitive data transmission. (English) | |||||||||||||||
Property / summary: Biometrics are used to identify or authenticate people based on different biological or morphological parameters. This process, already used for various well-known applications (biometric USB key, logical and physical access control...), will potentially be the future solution to authenticate a customer for an e-payment or any other application requiring a high level of security.However biometrics is not 100 % reliable and errors are possible. Biometric devices are therefore likely to trace recognition defects. Attackers take advantage of these flaws in order to be recognised as real users. Biometric systems must therefore be evaluated and certified before they can be used as a reliable authentication method. Research has been carried out to define a framework for the evaluation of biometric systems. Multimodal biometrics simultaneously combine several biometric traits in a single process. This approach has several advantages: Greater precision compared to a single biometric characteristic, fraud resistance (it is more difficult to falsify multiple traits), flexibility (if one feature changes temporarily, e.g. a cut on the finger, the other line compensates).Fingerprints and voice will be tested for this project, including portable devices (Wearable), devices that can be worn on the body, such as bracelets or watches.Mmodal biometrics simultaneously combine several biometric traits in a single process. This approach has several advantages: Increased accuracy compared to a single biometric characteristic, resistance to fraud (it is more difficult to falsify multiple traits), flexibility (if one characteristic changes temporarily, e.g. a cut on the finger, the other line compensates) In the context of this project, fingerprints and voice will be tested; in particular, on portable devices (Wearable) that can be worn on the body, such as bracelets or watches. Various studies show that this market is very promising, especially on simple-use objects that allow the deployment of high value added services such as payment, access control, ticketing, MEDICALOne of the success conditions for these applications is the ability to offer very robust security solutions.User privacy is also a key factor, it requires the definition of tools to filter requests for access to a user’s personal data or the definition of cryptographic protocols and architectures to limit sensitive data transmission. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
Property / summary: Biometrics are used to identify or authenticate people based on different biological or morphological parameters. This process, already used for various well-known applications (biometric USB key, logical and physical access control...), will potentially be the future solution to authenticate a customer for an e-payment or any other application requiring a high level of security.However biometrics is not 100 % reliable and errors are possible. Biometric devices are therefore likely to trace recognition defects. Attackers take advantage of these flaws in order to be recognised as real users. Biometric systems must therefore be evaluated and certified before they can be used as a reliable authentication method. Research has been carried out to define a framework for the evaluation of biometric systems. Multimodal biometrics simultaneously combine several biometric traits in a single process. This approach has several advantages: Greater precision compared to a single biometric characteristic, fraud resistance (it is more difficult to falsify multiple traits), flexibility (if one feature changes temporarily, e.g. a cut on the finger, the other line compensates).Fingerprints and voice will be tested for this project, including portable devices (Wearable), devices that can be worn on the body, such as bracelets or watches.Mmodal biometrics simultaneously combine several biometric traits in a single process. This approach has several advantages: Increased accuracy compared to a single biometric characteristic, resistance to fraud (it is more difficult to falsify multiple traits), flexibility (if one characteristic changes temporarily, e.g. a cut on the finger, the other line compensates) In the context of this project, fingerprints and voice will be tested; in particular, on portable devices (Wearable) that can be worn on the body, such as bracelets or watches. Various studies show that this market is very promising, especially on simple-use objects that allow the deployment of high value added services such as payment, access control, ticketing, MEDICALOne of the success conditions for these applications is the ability to offer very robust security solutions.User privacy is also a key factor, it requires the definition of tools to filter requests for access to a user’s personal data or the definition of cryptographic protocols and architectures to limit sensitive data transmission. (English) / qualifier | |||||||||||||||
point in time: 18 November 2021
|
Revision as of 10:51, 18 November 2021
Project Q3673540 in France
Language | Label | Description | Also known as |
---|---|---|---|
English | No label defined |
Project Q3673540 in France |
Statements
78,746.00 Euro
0 references
196,865.0 Euro
0 references
40.0 percent
0 references
1 July 2016
0 references
30 June 2018
0 references
SAS ELITT
0 references
14460
0 references
La biométrie est utilisée pour identifier ou authentifier des personnes en fonction des différents paramètres biologiques ou morphologiques. Ce procédé, déjà utilisé pour différentes applications bien connues (clé USB biométrique, contrôle d'accès logique et physique ...), sera potentiellement la solution d'avenir pour authentifier un client pour un e-paiement ou toute autre application nécessitant un niveau de sécurité élevé.Cependant la biométrie n'est pas fiable à 100% et des erreurs sont possibles. Les dispositifs biométriques sont donc susceptibles de remonter des défauts de reconnaissance. Les attaquants tirent profit de ces défauts afin d'être reconnus comme de véritables utilisateurs. Les systèmes biométriques doivent par conséquent être évalués et certifiés, avant de pouvoir d'être utilisés comme méthode d'authentification fiables. Des travaux de recherche ont été réalisés en vue de définir un cadre pour l'évaluation des systèmes biométriques.La biométrie multimodale combine simultanément plusieurs traits biométriques dans un seul processus. Cette approche présente plusieurs avantages : Précision accrue par rapport à une caractéristiques biométrique unique, résistance à la fraude (il est plus difficile de falsifier des traits multiples), flexibilité (si une caractéristiques change temporairement, par exemple une coupure sur le doigt, l'autre trait permet de compenser)Dans le cadre de ce projet, les empreintes digitales et la voix seront expérimentées, notamment sur des dispositifs portables (Wearable), dispositifs qui peuvent être portés sur le corps, tels que des bracelets ou des montres.La biométrie multimodale combine simultanément plusieurs traits biométriques dans un seul processus. Cette approche présente plusieurs avantages : Précision accrue par rapport à une caractéristiques biométrique unique, résistance à la fraude (il est plus difficile de falsifier des traits multiples), flexibilité (si une caractéristiques change temporairement, par exemple une coupure sur le doigt, l'autre trait permet de compenser)Dans le cadre de ce projet, les empreintes digitales et la voix seront expérimentées ; notamment sur des dispositifs portables (Wearable) qui peuvent être portés sur le corps, tels que des bracelets ou des montres.Diverses études montrent que ce marché est très prometteur, surtout sur les objets à usage simple et permettant le déploiement de services à fortes valeurs ajoutées telles que le paiement, le contrôle d'accès, la billetterie, le médicalUne des conditions de succès pour ces applications est la capacité à proposer des solutions de sécurisation très robustes.La confidentialité des utilisateurs est aussi un facteur primordial, elle nécessite la définition d'outils pour filtrer les demandes d'accès aux données personnelles d'un utilisateur ou la définition de protocoles et architectures cryptographiques pour limiter la transmission de ces données sensibles. (French)
0 references
Biometrics are used to identify or authenticate people based on different biological or morphological parameters. This process, already used for various well-known applications (biometric USB key, logical and physical access control...), will potentially be the future solution to authenticate a customer for an e-payment or any other application requiring a high level of security.However biometrics is not 100 % reliable and errors are possible. Biometric devices are therefore likely to trace recognition defects. Attackers take advantage of these flaws in order to be recognised as real users. Biometric systems must therefore be evaluated and certified before they can be used as a reliable authentication method. Research has been carried out to define a framework for the evaluation of biometric systems. Multimodal biometrics simultaneously combine several biometric traits in a single process. This approach has several advantages: Greater precision compared to a single biometric characteristic, fraud resistance (it is more difficult to falsify multiple traits), flexibility (if one feature changes temporarily, e.g. a cut on the finger, the other line compensates).Fingerprints and voice will be tested for this project, including portable devices (Wearable), devices that can be worn on the body, such as bracelets or watches.Mmodal biometrics simultaneously combine several biometric traits in a single process. This approach has several advantages: Increased accuracy compared to a single biometric characteristic, resistance to fraud (it is more difficult to falsify multiple traits), flexibility (if one characteristic changes temporarily, e.g. a cut on the finger, the other line compensates) In the context of this project, fingerprints and voice will be tested; in particular, on portable devices (Wearable) that can be worn on the body, such as bracelets or watches. Various studies show that this market is very promising, especially on simple-use objects that allow the deployment of high value added services such as payment, access control, ticketing, MEDICALOne of the success conditions for these applications is the ability to offer very robust security solutions.User privacy is also a key factor, it requires the definition of tools to filter requests for access to a user’s personal data or the definition of cryptographic protocols and architectures to limit sensitive data transmission. (English)
18 November 2021
0 references
Identifiers
16P01872
0 references