Author :
Lansford, Jim ; Stephens, Adrian ; Nevo, Ron
Abstract :
This article provides an introduction to issues of coexistence between Bluetooth and Wi-FiTM (IEEE 802.11b), with particular attention to scenarios requiring simultaneous operation, or Sim-OPTM, of both systems in very close proximity. The article explains basic interference mechanisms and quantifies their impact through both actual measurements and simulation. We have developed a detailed simulator that fully models behavior of the physical layer (PHY) and media access control (MAC) of both Bluetooth and 802.11b; it is used to expand the analysis and project the mutual impact of collocated Bluetooth and 802.11b systems across a number of geometries, system parameter settings, and design choices, complementing efforts within the IEEE 802.15.2 Task Group, which are also discussed. The article concludes with a discussion of techniques with the potential to greatly improve the performance of collocated Bluetooth and Wi-Fi systems. A key result of this investigation is that while performance of both systems can degrade when they are collocated, a number of techniques can be employed to virtually eliminate the problems
Keywords :
IEEE standards; access protocols; digital simulation; electric noise measurement; personal communication networks; radio networks; radiofrequency interference; telecommunication computing; telecommunication standards; wireless LAN; 802.11b systems; Bluetooth; IEEE 802.11b; IEEE 802.15.2 Task Group; ISM band; MAC; RFI; Sim-OP; Wi-Fi system; computer model; interference mechanisms; measurements; media access control; noise; physical layer; simulation; simulator; simultaneous operation; system design; system geometries; system parameter; system performance; wireless LAN; wireless personal area network; Analytical models; Application software; Bluetooth; Degradation; Geometry; Interference; Personal digital assistants; Physical layer; Solid modeling; Wireless LAN;
