Handshake

About: Handshake is a research topic. Over the lifetime, 1105 publications have been published within this topic receiving 15166 citations. The topic is also known as: 🤝.

Multi-band/multi-link secure key generation and delivery protocol

Abstract: A method is described for negotiating the use of multi-link ciphering and for the generation of unique keys for each of the links using a single 4-way handshake protocol exchange.

A RFID Security Protocol Based on Hash Chain and Three-Way Handshake

Abstract: Radio Frequency Identification (RFID) technology is one of the important techniques of the Internet of Things, it has many security problems for it runs in open environment. In order to solve the communication security problem between the RFID tag and the reader, in this article, we proposed a RFID security protocol based on hash chain and Three-way Handshake. We also analyzed the security of the protocol by using the BAN logic and analyzed the performance. The result shows that this protocol only needs little computation resource and power supply and has high security level.

Hands in Cont(r)act: The Resiliency of Business Handshakes in Pandemic Culture

Abstract: This article examines the persistence of the handshake in business circles despite its implication in the spread of communicable disease in contemporary pandemic culture. An examination of business etiquette discourse suggests that even during disease outbreaks or flu season, the business handshake remains an important visual and haptic legal gesture. While it may no longer produce a binding legal contract, it stages the parties as contractable subjects, as claiming the status of autonomous individuals committed to defining their intersubjective relationship through the norms of contract. The business handshake thus operates as a cultural site for the complex interaction of bodies and law, and the production of masculine, haptic-legal subjectivity.

Introducing a handshake for data dissemination using rateless codes in vehicular ad hoc networks

Abstract: Data dissemination in vehicular networks is a notable problem because of the highly dynamic characteristics of these networks and the instability state of channels. Protocols that perform data dissemination based on MAC structure cannot provide reliable communication between vehicles. Protocols that use coding for data dissemination are reliable; however, they are either confronted with collision or not suitable for short time communication. In some situation, the node cooperation is low. In this paper, we extend the idea of data dissemination using rateless codes, DDRC. We introduce a proper handshake for data dissemination using rateless codes, HDDRC. This handshake is based on accelerated movement mathematical calculations. It calculates communication time duration between two members of handshake and sets a proper NAV (Network Allocation Vector). During NAV time, the channel is reserved and only handshake's members are allowed to communicate with each other. Therefore, handshake eliminates collision problem in the receiver node. Simulation results show that the protocol performance is improved by the vehicle's acceleration, which results in increasing the number of cooperating nodes. Comparing the two existing algorithms, DDRC and CORP, HDDRC causes the vehicles to receive messages in a shorter period of time and shorter traveled length of roads. Therefore, HDDRC improves the network performance. Copyright © 2015 John Wiley & Sons, Ltd.