Maximizing the stable throughput of high-priority traffic for wireless cyber-physical systems

Abstract: In wireless cyber-physical systems (CPS), more and more traffic with different priorities is required to be timely transmitted over wireless networks such as 802.11. In order to make full use of 802.11 networks to provide quality of service for wireless CPS, we are concerned with the throughput stability issue (i.e., how much traffic load can be sustained in an 802.11 network). Recent studies on the stability in 802.11 networks have arrived at contradictory conclusions. In this paper, we first delve into the r… Show more

“…A general framework to assess stability of a multi-node system where nodes transmit to a central hub by using an ALOHA-type multiple access scheme in slotted time, is presented in [13]. Stable throughput for high priority traffic in WiFi is analyzed in [14]. This work focuses on the connection between saturation throughput and stable throughput limit.…”

Maximizing the Stable Throughput of Heterogeneous Nodes Under Airtime Fairness in a Csma Environment

“…A general framework to assess stability of a multi-node system where nodes transmit to a central hub by using an ALOHA-type multiple access scheme in slotted time, is presented in [13]. Stable throughput for high priority traffic in WiFi is analyzed in [14]. This work focuses on the connection between saturation throughput and stable throughput limit.…”

Maximizing the Stable Throughput of Heterogeneous Nodes Under Airtime Fairness in a Csma Environment

“…Many work focus on designing a better MAC protocol to overcome some flaws or improve some performance, for example [4][5][6][7]. In light of modeling the CSMA networks, traditional method typically rely on Markovian approaches.…”

Modeling and analysis of random dense CSMA networks

An Efficient MAC Layer Packet Fragmentation Scheme with Priority Queuing for Real-Time Video Streaming