This is the current news about relay attack on smart card using scanner|An NFC Relay Attack with Off 

relay attack on smart card using scanner|An NFC Relay Attack with Off

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relay attack on smart card using scanner|An NFC Relay Attack with Off

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relay attack on smart card using scanner

relay attack on smart card using scanner ABSTRACT. Near Field Technology (NFC) enables a smartphone to em-ulate a smart card, enabling it to provide services, like bank-ing and transport ticketing. Similar to smart cards, . Mobile-based access control relies on a couple of different technologies: RFID and Bluetooth. Specifically, many phones use the NFC standard of RFID and the BLE standard of Bluetooth for such unlocks. Both work without needing to pair .Learn how to turn your smartphone into an NFC card; easily make payments, access buildings, and more with this step-by-step guide. See more
0 · “Internet of Smart Cards”: A pocket attacks scenario
1 · The SmartLogic Tool: Analysing and Testing Smart Card
2 · Relay Attacks on Secure Element
3 · Range Extension Attacks on Contactless Smart Cards
4 · Preventing Relay Attacks in Mobile Transactions Using
5 · Keep your enemies close: distance bounding against smartcard
6 · From Relay Attacks to Distance
7 · Confidence in Smart Token Proximity: Relay Attacks Revisited
8 · An NFC Relay Attack with Off
9 · A Practical Relay Attack on ISO 14443 Proximity Cards

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fully executed a relay attack against an ISO 14443A contactless smart card, up to a distance of 50 m. Simply relaying information between the card and reader over a longer distance does not .

An attacker can use a proxy-token and proxy-reader to relay the communication between a legitimate reader and token over a greater distance than intended, thereby tricking the reader .This paper introduces the SmartLogic, which is a smart card research tool that can be used in different modes such as eavesdropping, card emulation, man-in-the-middle attacks (or so .

ABSTRACT. Near Field Technology (NFC) enables a smartphone to em-ulate a smart card, enabling it to provide services, like bank-ing and transport ticketing. Similar to smart cards, .– A denial of service (DoS) attack that can be abused to permanently lock an embedded SE and, consequently, render an NFC-enabled mobile phone unusable for card emulation applications. .

Different real relay attacks against smart cards have been presented in the literature, highlighting how the threat for such devices has been brought to a practical level. We present the concept of relay attacks, and discuss distance-bounding schemes as the main countermeasure. We give details on relaying mechanisms, we review canonical . The relay attack presented in this paper applies to ISO/IEC 14443 smart cards of operation mode type A. These smart cards are passive and the inductively coupled RFID . Future smartcard generations could use this design to provide cost-effective resistance to relay attacks, which are a genuine threat to deployed applications. We also .

The added flexibility offered to an attacker by this range extension significantly improves the effectiveness and practicality of relay attacks on real-world systems.

fully executed a relay attack against an ISO 14443A contactless smart card, up to a distance of 50 m. Simply relaying information between the card and reader over a longer distance does not require the same techni-cal resources from the attacker as hardware tampering or cryptanalysis.An attacker can use a proxy-token and proxy-reader to relay the communication between a legitimate reader and token over a greater distance than intended, thereby tricking the reader into believing that the real token is in close proximity.This paper introduces the SmartLogic, which is a smart card research tool that can be used in different modes such as eavesdropping, card emulation, man-in-the-middle attacks (or so-called “wedge” attacks) and relaying. We demonstrate the capabilities of .

ABSTRACT. Near Field Technology (NFC) enables a smartphone to em-ulate a smart card, enabling it to provide services, like bank-ing and transport ticketing. Similar to smart cards, NFC-based transactions are susceptible to relay attacks.

– A denial of service (DoS) attack that can be abused to permanently lock an embedded SE and, consequently, render an NFC-enabled mobile phone unusable for card emulation applications. – A relay attack that can be abused to access a SE from anywhere over an Internet connection. Different real relay attacks against smart cards have been presented in the literature, highlighting how the threat for such devices has been brought to a practical level. We present the concept of relay attacks, and discuss distance-bounding schemes as the main countermeasure. We give details on relaying mechanisms, we review canonical distance-bounding protocols, as well as their threat-model (i.e., . The relay attack presented in this paper applies to ISO/IEC 14443 smart cards of operation mode type A. These smart cards are passive and the inductively coupled RFID transponders have a transceiving range of up to 10 cm.

Future smartcard generations could use this design to provide cost-effective resistance to relay attacks, which are a genuine threat to deployed applications. We also discuss the security-economics impact to customers of enhanced authentication mechanisms.The added flexibility offered to an attacker by this range extension significantly improves the effectiveness and practicality of relay attacks on real-world systems.fully executed a relay attack against an ISO 14443A contactless smart card, up to a distance of 50 m. Simply relaying information between the card and reader over a longer distance does not require the same techni-cal resources from the attacker as hardware tampering or cryptanalysis.

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An attacker can use a proxy-token and proxy-reader to relay the communication between a legitimate reader and token over a greater distance than intended, thereby tricking the reader into believing that the real token is in close proximity.This paper introduces the SmartLogic, which is a smart card research tool that can be used in different modes such as eavesdropping, card emulation, man-in-the-middle attacks (or so-called “wedge” attacks) and relaying. We demonstrate the capabilities of .ABSTRACT. Near Field Technology (NFC) enables a smartphone to em-ulate a smart card, enabling it to provide services, like bank-ing and transport ticketing. Similar to smart cards, NFC-based transactions are susceptible to relay attacks.– A denial of service (DoS) attack that can be abused to permanently lock an embedded SE and, consequently, render an NFC-enabled mobile phone unusable for card emulation applications. – A relay attack that can be abused to access a SE from anywhere over an Internet connection.

Different real relay attacks against smart cards have been presented in the literature, highlighting how the threat for such devices has been brought to a practical level. We present the concept of relay attacks, and discuss distance-bounding schemes as the main countermeasure. We give details on relaying mechanisms, we review canonical distance-bounding protocols, as well as their threat-model (i.e., . The relay attack presented in this paper applies to ISO/IEC 14443 smart cards of operation mode type A. These smart cards are passive and the inductively coupled RFID transponders have a transceiving range of up to 10 cm.

“Internet of Smart Cards”: A pocket attacks scenario

Future smartcard generations could use this design to provide cost-effective resistance to relay attacks, which are a genuine threat to deployed applications. We also discuss the security-economics impact to customers of enhanced authentication mechanisms.

“Internet of Smart Cards”: A pocket attacks scenario

The SmartLogic Tool: Analysing and Testing Smart Card

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relay attack on smart card using scanner|An NFC Relay Attack with Off
relay attack on smart card using scanner|An NFC Relay Attack with Off.
relay attack on smart card using scanner|An NFC Relay Attack with Off
relay attack on smart card using scanner|An NFC Relay Attack with Off.
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