An investigation of bluetooth mergence with ultra wideband

This article investigates the viability of a merger between Bluetooth and Ultra Wideband by developing and implementing a Bluetooth over Ultra Wideband data channeling system with an emphasis on the design of an economically feasible system and the viability of the proposed merger points. The designed system is then applied to transfer Bluetooth data over a compliant UWB Medium Access Control (MAC) and Physical (PHY) layer radio channel to prove its functioning and unveil the advantages UWB may provide to Bluetooth with regards to speed and distance.http://www.sciencedirect.com/science/journal/1570870

An investigation into the viability of UWB as lower-layer for Bluetooth

This report presents an investigation into some merging options between an upper-layer Bluetooth (BT) protocol stack with a lower-layer ECMA-368/9 Ultra Wideband (UWB) radio connection. A Bluetooth over Ultra Wideband (BToUWB) system is implemented by channelling an existing compliant Bluetooth connection’s data over an Ultra Wideband Medium Access Control (MAC) and Physical (PHY) layer radio channel. The aim of this project is to provide a description of the methodology used to create a BToUWB link and evaluate some advantages pertaining to the merger between the two Wireless Personal Area Network (WPAN) technologies. Prior to channelling data over a UWB connection, a compliant Bluetooth and UWB connection were configured between two Linux enabled computers by use of Bluetooth and UWB enabled Universal Serial Bus (USB) dongles. BlueZ, the official Bluetooth stack for Linux, were used to implement a modified Bluetooth stack. By modifying the open source BlueZ files, the Host Controller Interface (HCI) commands sent to the HCI sublayer by upper layer Logical Link Control and Adaptation Protocol (L2CAP) and Synchronous Connection-Oriented (SCO) implementations were hijacked and routed to a UWB “router and convergence” implementation for transmission over the UWB subsytem. Similarly lower level HCI events were spoofed to the L2CAP and SCO layers by the UWB convergence implementation upon receiving packets from the UWB subsystem. The commercial availability of UWB hardware through Wireless USB dongles enabled the realization of a compliant UWB link between the systems, requiring special driver modifications and Intel provided firmware to establish a WiMedia Logical Link Control Protocol (WLP) network. A specially developed test program generates L2CAP, Radio Frequency Communication (RFCOMM) and SCO Bluetooth data for testing the BToUWB link. The various Bluetooth data packets are routed from the Bluetooth stack to a developed kernel space routing module, which encapsulated the packets and route them via the WLP interface over the wireless high-speed UWB network to the remote system. On the remote side, the packets propagate its way back up through the UWB hardware and software module, and to the router module via call-back functions in the WLP interface. The router module strips the headers and injects the packets back into the Bluetooth L2CAP, RFCOMM or SCO layer for further Bluetooth processing. A test program running on the remote system, receives the test data and loops it back for asynchronous analyses, or stores it for later comparison in synchronous analyses. The results obtained from the system analyses shows how a Bluetooth system can benefit from implementing UWB as lower layer wireless interface over a short range by either improved asynchronous bandwidth, or synchronous reliability. The results also show some limitations of the pilot UWB hardware and firmware available over longer distances. In general, the successful transmission of Bluetooth data over the BToUWB implemented system proves the HCI layer to be a viable mergence point between the two protocols.Dissertation (MEng)--University of Pretoria, 2009.Electrical, Electronic and Computer Engineeringunrestricte

Modeling of Time-of-arrival for CM4 Body Area Networks Channel

In Time-of-Arrival (TOA) based indoor human tracking system, the human body mounted with the target sensor can cause non-line-of-sight (NLOS) scenario and result in significant ranging error. In this thesis, we measured the TOA ranging error in a typical indoor environment and analyzed sources of inaccuracy in TOAbased indoor localization system. To quantitatively describe the TOA ranging error caused by human body, we introduce a statistical TOA ranging error model for body mounted sensors based on the measurement results. This model separates the ranging error into multipath error and NLOS error caused by the on-body creeping wave phenomenon. Both multipath error and NLOS error are modeled as a Gaussian variable. The distribution of multipath error is only relative to the bandwidth of the system while the distribution of NLOS error is relative to the angle between human facing direction and the direction of Transmitter-Receiver, signal to noise ratio (SNR) and bandwidth of the system, which clearly shows the effects of human body on TOA ranging. An efficient way to fight against the TOA ranging error caused by human body is to employ site-specific channel models by using ray-tracing technology. However, existing ray-tracing softwares lack the propagation model that takes the effects of human body into account. To address that issue, this thesis presents a empirical model for near human body ultra-wideband (UWB) propagation channel that is valid for the frequency range from 3GHz to 8GHz. It is based on measurements conducted in a anechoic chamber which can be regarded as free space. The empirical model shows the joint propagation characteristics of the on body channel and the channel between body surface and external access point. It includes the loss of the first path, arrival time of the first path and the total pathloss. Models for all three aspects have been partitioned into two sections by a break point due to the geometrical property of human body and the creeping wave phenomenon. The investigation on first path behavior can be regarded as a theoretical basis of raytracing technique that takes the effects of human body into consideration

Proceedings of the Third Edition of the Annual Conference on Wireless On-demand Network Systems and Services (WONS 2006)

Ce fichier regroupe en un seul documents l'ensemble des articles accéptés pour la conférences WONS2006/http://citi.insa-lyon.fr/wons2006/index.htmlThis year, 56 papers were submitted. From the Open Call submissions we accepted 16 papers as full papers (up to 12 pages) and 8 papers as short papers (up to 6 pages). All the accepted papers will be presented orally in the Workshop sessions. More precisely, the selected papers have been organized in 7 session: Channel access and scheduling, Energy-aware Protocols, QoS in Mobile Ad-Hoc networks, Multihop Performance Issues, Wireless Internet, Applications and finally Security Issues. The papers (and authors) come from all parts of the world, confirming the international stature of this Workshop. The majority of the contributions are from Europe (France, Germany, Greece, Italy, Netherlands, Norway, Switzerland, UK). However, a significant number is from Australia, Brazil, Canada, Iran, Korea and USA. The proceedings also include two invited papers. We take this opportunity to thank all the authors who submitted their papers to WONS 2006. You helped make this event again a success