Rehana Yasmin scite author profile

Rehana Yasmin

5Publications

67Citation Statements Received

44Citation Statements Given

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Affiliations

University of Padua, University of Birmingham, Huawei Technologies (China)

Publications

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An Authentication Framework for Wireless Sensor Networks using Identity-Based Signatures

Yasmin

Ritter

Wang

2010

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In Wireless Sensor Networks (WSNs), authentication is a crucial security requirement to avoid attacks against secure communication, and to mitigate DoS attacks exploiting the limited resources of sensor nodes. Resource constraints of sensor nodes are hurdles in applying strong public key cryptographic based mechanisms in WSNs. To address the problem of authentication in WSNs, we propose an efficient and secure framework for authenticated broadcast/multicast by sensor nodes as well as for outside user authentication, which utilizes identity based cryptography and online/offline signature schemes. The primary goals of this framework are to enable all sensor nodes in the network, firstly, to broadcast and/or multicast an authenticated message quickly; secondly, to verify the broadcast/multicast message sender and the message contents; and finally, to verify the legitimacy of an outside user. The proposed framework is also evaluated using the most efficient and secure identity-based signature schemes. Disciplines Physical Sciences and Mathematics Publication DetailsYasmin, R., Ritter, E. & Wang, G. (2010 Abstract-In Wireless Sensor Networks (WSNs), authentication is a crucial security requirement to avoid attacks against secure communication, and to mitigate DoS attacks exploiting the limited resources of sensor nodes. Resource constraints of sensor nodes are hurdles in applying strong public key cryptographic based mechanisms in WSNs. To address the problem of authentication in WSNs, we propose an efficient and secure framework for authenticated broadcast/multicast by sensor nodes as well as for outside user authentication, which utilizes identity based cryptography and online/offline signature schemes. The primary goals of this framework are to enable all sensor nodes in the network, firstly, to broadcast and/or multicast an authenticated message quickly; secondly, to verify the broadcast/multicast message sender and the message contents; and finally, to verify the legitimacy of an outside user. The proposed framework is also evaluated using the most efficient and secure identity-based signature schemes.

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Gelatin nanoparticles: a potential candidate for medical applications

Yasmin¹,

Shah²,

Khan³

et al. 2018

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Provable security of a pairing-free one-pass authenticated key establishment protocol for wireless sensor networks

Yasmin

Ritter

Wang

2013

Int. J. Inf. Secur.

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IoVShield: An Efficient Vehicular Intrusion Detection System for Self-driving (Short Paper)

Wei

Yang

Yasmin

et al. 2017

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Investigating the Possibility of Data Leakage in Time of Live VM Migration

Yasmin

Memarian

Hosseinzadeh

et al. 2018

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Rehana Yasmin

An Authentication Framework for Wireless Sensor Networks using Identity-Based Signatures

Gelatin nanoparticles: a potential candidate for medical applications

Provable security of a pairing-free one-pass authenticated key establishment protocol for wireless sensor networks

IoVShield: An Efficient Vehicular Intrusion Detection System for Self-driving (Short Paper)

Investigating the Possibility of Data Leakage in Time of Live VM Migration

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