A Mutual Authentication Security RFID Protocol Based on Time Stamp

Zhang, Changlun; Zhang, Wenqi; Mu, Haibing

doi:10.1109/ccitsa.2015.52

Cited by 11 publications

(13 citation statements)

References 6 publications

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“…This RN must be regenerated when the next round of the online transaction is conducted, so even if this random number is obtained illegally, it cannot be used in the future transaction for verifying the transaction information in Step 5. Therefore, to some extent, this proposed protocol is capable of anti-replay [18] .…”

Section: Security Analysismentioning

confidence: 97%

Secure Authentication Protocol for Mobile Payment

Fan

Jiang

et al. 2018

Tsinghua Sci. Technol.

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With the increasing popularity of fintech, i.e., financial technology, the e-commerce market has grown rapidly in the past decade, such that mobile devices enjoy unprecedented popularity and are playing an everincreasing role in e-commerce. This is especially true of mobile payments, which are attracting increasing attention.However, the occurrence of many traditional financial mishaps has exposed the challenges inherent in online authentication technology that is based on traditional modes of realizing the healthy and stable development of mobile payment. In addition, this technology ensures user account security and privacy. In this paper, we propose a Secure Mutual Authentication Protocol (SMAP) based on the Universal 2nd Factor (U2F) protocol for mobile payment. To guarantee reliable service, we use an asymmetric cryptosystem for achieving mutual authentication between the server and client, which can resist fake servers and forged terminals. Compared to the modes currently used, the proposed protocol strengthens the security of user account information as well as individual privacy throughout the mobile-payment transaction process. Practical application has proven the security and convenience of the proposed protocol.

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Section: Security Analysismentioning

confidence: 97%

Secure Authentication Protocol for Mobile Payment

Fan

Jiang

et al. 2018

Tsinghua Sci. Technol.

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“…Recently, mutual authentication protocols in RFID systems were proposed [2,3]. In [2], a mutual authentication propocol is achieved with time stamps, hash function function and PRNG (Pseudo-Random Number Generator).…”

Section: Relative Workmentioning

confidence: 99%

“…TS1 and r2 are used in a hash function to create M5 Step 1: A reader reads an electronic tag by sending a HELO command to the tag Step 1.1: The tag creates a random number r 1 Step 1.2: The electronic tag ID TID, time stamp TS 1 , random number r 1 , and the shared key between the back-end database and the tag K x are used to create an encrypted M 1 , which is sent to the reader Step 2: The electronic tag sends M 1 to the reader Step 2.1: The reader receives M 1 and creates a random number r 2 Step 2.2: The reader ID RID, tag read request, random number r 2 , M 1 , and the shared key between the back-end database and reader K y are used to create an encrypted M 2 Step 3: The reader sends M 2 to the back-end database…”

Section: Reader Security Certificate and Role-class Architecturementioning

confidence: 99%

“…In [2], a mutual authentication propocol is achieved with time stamps, hash function function and PRNG (Pseudo-Random Number Generator). In [3], it proposed a lightweight anonymity and mutual authentication protocol.…”

Section: Relative Workmentioning

confidence: 99%

“…If it is, it is updated to TS 2 Step 5.3: TS 2 , TC n´1 , r 2 , and K x are used to create an encrypted M 6 , which is sent to the reader…”

Section: Security Analysismentioning

confidence: 99%

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Mutual Authentication Protocol for Role-Based Access Control Using Mobile RFID

et al. 2016

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Abstract:The Internet has become the main transmission media in modern information systems due to the popularization of information technology and the rapid development of network technology. To use the Internet, we need complete security mechanisms which include requirements such as integrity, security and privacy to ensure the legal user can login to a remote server to get the service and resources they need. The radio frequency identification (RFID) is a very convenient technology with the property of non-contact reading. It uses the tag embedded in the object to identify the information quickly. Now, more and more devices are equipped with the RFID reader. Hence, the user can use the RFID reader embedded in the mobile device through a wireless network to read the information on the tag and then use the service which is called Mobile RFID. Compared to traditional RFID, the characteristic of mobility makes the reading more flexible. It can deal with the events in real-time and undertake the process faster and more efficiently. The major security problem of Mobile RFID is privacy, which is also a consideration when constructing a Mobile RFID Mechanism. In this paper, we propose a secure authentication mechanism which uses the authenticated delegating mechanism in Mobile RFID to enable the reader to get the specific role authority through a back-end database server. The reader has to undertake mutual authentication with the back-end database server and the tag. Then, it can protect the information and limit the access times of the reader to achieve privacy.

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A Hybrid Privacy-Preserving Mutual Authentication Protocol for RFID Traffic Management

Tajabadi

Azhari

2019

2019 27th Iranian Conference on Electrical Engineering (ICEE)

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A Mutual Authentication Security RFID Protocol Based on Time Stamp

Cited by 11 publications

References 6 publications

Secure Authentication Protocol for Mobile Payment

Secure Authentication Protocol for Mobile Payment

Mutual Authentication Protocol for Role-Based Access Control Using Mobile RFID

A Hybrid Privacy-Preserving Mutual Authentication Protocol for RFID Traffic Management

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