Your search keyword '"Sarthak Arora"' showing total 3 results

1. Requet

Author

Gil Zussman, Xiaoyang Wang, Trey Gilliland, Katherine Guo, Sarthak Arora, Les Wu, Ethan Katz-Bassett, and Craig Gutterman

Subjects

Computer Networks and Communications, business.industry, Computer science, Network packet, Real-time computing, Middlebox, 020206 networking & telecommunications, 02 engineering and technology, Display resolution, Encryption, Video quality, Hardware and Architecture, Metric (mathematics), 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, The Internet, Quality of experience, business

Abstract

As video traffic dominates the Internet, it is important for operators to detect video quality of experience (QoE) to ensure adequate support for video traffic. With wide deployment of end-to-end encryption, traditional deep packet inspection--based traffic monitoring approaches are becoming ineffective. This poses a challenge for network operators to monitor user QoE and improve upon their experience. To resolve this issue, we develop and present a system for RE al-time QU ality of experience metric detection for E ncrypted T raffic— Requet —which is suitable for network middlebox deployment. Requet uses a detection algorithm that we develop to identify video and audio chunks from the IP headers of encrypted traffic. Features extracted from the chunk statistics are used as input to a machine learning algorithm to predict QoE metrics, specifically buffer warning (low buffer, high buffer), video state (buffer increase, buffer decay, steady, stall), and video resolution. We collect a large YouTube dataset consisting of diverse video assets delivered over various WiFi and LTE network conditions to evaluate the performance. We compare Requet with a baseline system based on previous work and show that Requet outperforms the baseline system in accuracy of predicting buffer low warning, video state, and video resolution by 1.12×, 1.53×, and 3.14×, respectively.

Published

2020

2. Requet

Author

Gil Zussman, Craig Gutterman, Ethan Katz-Bassett, Sarthak Arora, Les Wu, Katherine Guo, and Xiaoyang Wang

Subjects

Computer science, business.industry, Real-time computing, 020206 networking & telecommunications, Deep packet inspection, 02 engineering and technology, Video quality, Display resolution, Encryption, Software deployment, 0202 electrical engineering, electronic engineering, information engineering, Baseline system, 020201 artificial intelligence & image processing, The Internet, Quality of experience, business

Abstract

As video traffic dominates the Internet, it is important for operators to detect video Quality of Experience (QoE) in order to ensure adequate support for video traffic. With wide deployment of end-to-end encryption, traditional deep packet inspection based traffic monitoring approaches are becoming ineffective. This poses a challenge for network operators to monitor user QoE and improve upon their experience. To resolve this issue, we develop and present a system for REal-time QUality of experience metric detection for Encrypted Traffic, Requet. Requet uses a detection algorithm we develop to identify video and audio chunks from the IP headers of encrypted traffic. Features extracted from the chunk statistics are used as input to a Machine Learning (ML) algorithm to predict QoE metrics, specifically, buffer warning (low buffer, high buffer), video state (buffer increase, buffer decay, steady, stall), and video resolution. We collect a large YouTube dataset consisting of diverse video assets delivered over various WiFi network conditions to evaluate the performance. We compare Requet with a baseline system based on previous work and show that Requet outperforms the baseline system in accuracy of predicting buffer low warning, video state, and video resolution by 1.12X, 1.53X, and 3.14X, respectively.

Published

2019

3. A Decentralized Self-detection Mechanism to Defend Selfish Behavior in Spray and Wait Protocol

Author

Ananya Sharma, Preeti Nagrath, Sarthak Arora, and Ashima Mittal

Subjects

Transmission (telecommunications), business.industry, Network packet, Computer science, Node (networking), ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Path (graph theory), Bandwidth (computing), Wireless, Overhead (computing), Communication source, business, Computer network

Abstract

A class of networks provides wireless services that present a promising solution to address technical issues in regions where at the time of transmission, an end-to-end path does not exist betwixt the sender and the receiver. In such networks, a node misbehaves by dropping packets or not forwarding the packets of other nodes even when it has sufficient buffer. The nodes showing this kind of behavior are termed as selfish nodes. These nodes are unwilling to use their own resources (i.e., buffer and power) when they forward the packets of other nodes. Selfish nodes reduce packet delivery ratio and waste system resources, i.e., bandwidth and power, which in turn increases the overhead. In this paper, we present a reputation-based approach that helps to remit the selfish behavior of the network nodes. According to the simulation results, mitigation of selfish nodes leads to high delivery probability and lower overhead ratio.

Published

2018