privacy protection for low-cost rfid tags in iot systems This paper proposes a hash-function based mutual authentication protocol for low-cost RFID-tags in which calculation resources are limited. To prevent attackers eavesdropping tag's ID, randomly-picked nicknames shared between the RFID-tag and the back-end system are transmitted in the air. Thermal transfer printer for plastic cards in PVC or PET, size CR80 or CR79. Embedded NFC reader/writer for ISO 14443-A and 15693 NFC chips.
0 · Security and privacy solutions for low
1 · Privacy protection for low
2 · Constructing effective lightweight privacy protection in RFID
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This paper proposes a hash-function based mutual authentication protocol for low-cost RFID-tags in which calculation resources are limited. To prevent attackers eavesdropping tag's ID, randomly-picked nicknames shared between the RFID-tag and the back-end system .
This paper proposes a hash-function based mutual authentication protocol for low-cost RFID-tags in which calculation resources are limited.
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Low cost radio frequency identification (RFID) systems are increasingly being deployed in industry and commerce. These contactless devices have raised public concern regarding violation of . This paper proposes a hash-function based mutual authentication protocol for low-cost RFID-tags in which calculation resources are limited. To prevent attackers eavesdropping tag's ID, randomly-picked nicknames shared between the RFID-tag and the back-end system are transmitted in the air.
This paper proposes a hash-function based mutual authentication protocol for low-cost RFID-tags in which calculation resources are limited. This paper builds an effective lightweight privacy protection authentication protocol, over the XCro, rotation and XOR functions, to handle the privacy and security problems in RFID systems.Low cost radio frequency identification (RFID) systems are increasingly being deployed in industry and commerce. These contactless devices have raised public concern regarding violation of privacy and information security.
Most RFID protocols that protect medical privacy are still based on heavyweight encryption algorithms such as ECC or medium-magnitude hash functions, which are unsuitable for low-cost tags with limited computing and storage capacity.
This paper describes an identification and authentication protocol for RFID tags with two contributions aiming at enhancing the security and privacy of RFID based systems. In order to deal with these problems, we analyze the related security privacy issues in IoV system in this paper and propose a cloud-based RFID authentication scheme that is suitable for IoV according to the security requirements of the IoV system.
Some of the typical threats related to an RFID system include tag cloning, impersonation, replay, relay, de-synchronization, DoS, content privacy leakage, tracing and tracking attacks, etc. Therefore it is imperative to think out of the box to provide security and . By introducing this novel lightweight RFID protocol and conducting a thorough evaluation using formal verification techniques, this study contributes to the advancement of secure RFID protocols for IoT-based healthcare systems.This paper proposes a hash-function based mutual authentication protocol for low-cost RFID-tags in which calculation resources are limited. To prevent attackers eavesdropping tag's ID, randomly-picked nicknames shared between the RFID-tag and .
This paper proposes a hash-function based mutual authentication protocol for low-cost RFID-tags in which calculation resources are limited. To prevent attackers eavesdropping tag's ID, randomly-picked nicknames shared between the RFID-tag and the back-end system are transmitted in the air. This paper proposes a hash-function based mutual authentication protocol for low-cost RFID-tags in which calculation resources are limited. This paper builds an effective lightweight privacy protection authentication protocol, over the XCro, rotation and XOR functions, to handle the privacy and security problems in RFID systems.
Low cost radio frequency identification (RFID) systems are increasingly being deployed in industry and commerce. These contactless devices have raised public concern regarding violation of privacy and information security. Most RFID protocols that protect medical privacy are still based on heavyweight encryption algorithms such as ECC or medium-magnitude hash functions, which are unsuitable for low-cost tags with limited computing and storage capacity. This paper describes an identification and authentication protocol for RFID tags with two contributions aiming at enhancing the security and privacy of RFID based systems. In order to deal with these problems, we analyze the related security privacy issues in IoV system in this paper and propose a cloud-based RFID authentication scheme that is suitable for IoV according to the security requirements of the IoV system.
Some of the typical threats related to an RFID system include tag cloning, impersonation, replay, relay, de-synchronization, DoS, content privacy leakage, tracing and tracking attacks, etc. Therefore it is imperative to think out of the box to provide security and . By introducing this novel lightweight RFID protocol and conducting a thorough evaluation using formal verification techniques, this study contributes to the advancement of secure RFID protocols for IoT-based healthcare systems.
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