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: 🤝.

Asynchronous logic in bit-serial arithmetic

Abstract: This article is an asynchronous approach to bit-serial processing. A new asynchronous cell (DCVSL like) was designed containing simplified "complete" signal generation as part of a dynamic handshake circuitry. The problem of data feedback has been addressed and its solution in a modified handshake protocol and local memory inclusion is given. Basic arithmetic components are demonstrated and a larger system is used as an example of this new cost effective technique.

Three-Way Handshake for Intermediate System to Intermediate System (IS-IS) Point-to-Point Adjacencies

Abstract: The IS-IS routing protocol (ISO 10589) requires reliable protocols at the link layer for point-to-point links. As a result, it does not use a three-way handshake when establishing adjacencies on point-to- point media. This paper defines a backward-compatible extension to the protocol that provides for a three-way handshake. It is fully interoperable with systems that do not support the extension.

A Systematic Approach to Formal Analysis of QUIC Handshake Protocol Using Symbolic Model Checking

Abstract: As a newly proposed secure transport protocol, QUIC aims to improve the transport performance of HTTPS traffic and enable rapid deployment and evolution of transport mechanisms. QUIC is currently i...

The neural bases of tactile vitality forms and their modulation by social context

Abstract: People communicate using speech, gestures, and, less frequently, touches. An example of tactile communication is represented by handshake. Customs surrounding handshake vary in different cultures. In Western societies is mostly used when meeting, parting, as a sign of congratulations or at the end of a successful business. Despite its importance in social life, the neural mechanism underlying the affective components conveyed by handshake (“tactile vitality forms”) is unknown. Here we combined functional magnetic resonance imaging (fMRI) and electromyography (EMG), to investigate the neural affective activations during handshakes. We demonstrated that handshake conveying gentle or aggressive tactile vitality forms produces a stronger activation of the dorso-central insula. The simultaneous presence of emotional facial expressions modulates the activation of this insular sector. Finally, we provide evidence that the cingulate cortex is involved in the processing of facial expressions conveying different vitality forms.