Lecture: Experimental Study of UWB Connectivity in Industrial Environments
Master data
Title: | Experimental Study of UWB Connectivity in Industrial Environments |
Description: | Experimental results on the connectivity of IEEE 802.15.4-2011 ultra-wideband (UWB) devices are presented in two industrial scenarios: a large-size aircraft assembly hangar and a medium-size production hall. These measurements are the first ones reported for off-the-shelf UWB devices in such setting and shed light on the potential of UWB to support emerging industrial applications. By comparing the packet loss rate to well-established ZigBee devices, we show that UWB can largely reduce the need of relay nodes, contributing to a lower end-to-end latency. We argue that this, together with inherent features that are not easy to replicate by other physical layers, position UWB as a promising industrial communications technology. |
Keywords: | connectivity; ultra-wideband; UWB; industrial scenario; packet loss; |
Type: | Registered lecture |
Homepage: | - |
Event: | European Wireless 2018 (Catania) |
Date: | 03.05.2018 |
lecture status: |
Participants
Jorge Friedrich Schmidt (internal) |
|
||||
Daniel Neuhold (internal) |
|
||||
Jirka Klaue
|
|
||||
Dominic Schupke
|
|
||||
Christian Bettstetter (internal) |
|
Assignment
Organisation | Address | ||||
---|---|---|---|---|---|
Fakultät für Technische Wissenschaften
Institut für Vernetzte und Eingebettete Systeme
|
AT - 9020 Klagenfurt am Wörthersee |
Categorisation
Subject areas | |
Research Cluster | No research Research Cluster selected |
Focus of lecture |
Classification raster of the assigned organisational units:
|
Group of participants |
|
Published? |
|
working groups |
|
Cooperations
Research activities
Projects |
|
Publications |
|
Events |
|
Lectures |
|