Wireless LANs and mobile networking: standards and future directions

Abstract: The emerging widespread use of wireless LAN systems together with the users' desire for such systems to interoperate has created a requirement for standards. Many standards bodies are currently defining standards for wireless systems that relate to different layers of the networklng protocol stack. Of these, two influential physical and data link layer standard3, IEEE 802.11 and the European HIPERLAN, are described. The article then considers the network layer by discussing extensions that are bcing made to th… Show more

“…If the source S and receiver R are described by (2) and (3) in an indoor environment with no reflectors, if the distance R between transmitter and receiver is large relative to the detector size, so that R  » AR, then the received irradiance is approximately constant over the surface of the detector, and furthermore, all of the signal energy will arrive at the receiver at approximately the same time. Thus, using the models described above, the impulse response for this simple system is approximately a scaled and delayed Dirac delta function: (4) Where, dis the solid angle subtended by the receiver's differenti al area (assuming A R « R )…”

“…The coefficient (n+1)/ensures that integrating R() over the surface of a hemisphere results in the source power P S. The radiation mode of n = 1 corresponds to a traditional Lambertian source. To simplify notation, a point source Tthat emits a unit impulse of optical intensity at time zero is represented by S. (2) Where is its position, is its orientation, and n is its mode number. Linearity allows us to consider only unit-impulse sources and scale the results for other sources.…”

Performance Analysis Methods of Non-directed IR Wireless Channel Preparation of Papers for Short Range Inside the Building

“…If the source S and receiver R are described by (2) and (3) in an indoor environment with no reflectors, if the distance R between transmitter and receiver is large relative to the detector size, so that R  » AR, then the received irradiance is approximately constant over the surface of the detector, and furthermore, all of the signal energy will arrive at the receiver at approximately the same time. Thus, using the models described above, the impulse response for this simple system is approximately a scaled and delayed Dirac delta function: (4) Where, dis the solid angle subtended by the receiver's differenti al area (assuming A R « R )…”

“…The coefficient (n+1)/ensures that integrating R() over the surface of a hemisphere results in the source power P S. The radiation mode of n = 1 corresponds to a traditional Lambertian source. To simplify notation, a point source Tthat emits a unit impulse of optical intensity at time zero is represented by S. (2) Where is its position, is its orientation, and n is its mode number. Linearity allows us to consider only unit-impulse sources and scale the results for other sources.…”

Performance Analysis Methods of Non-directed IR Wireless Channel Preparation of Papers for Short Range Inside the Building

“…RSVP, a resource ReSerVation Protocol that sets up resource reservations for real-time traf®c is designed for existing networks [9]. A host requesting a speci®c QoS from the network for particular application data streams uses RSVP.…”

Resource reservation with mobile hosts using fuzzy matrices

“…Various technologies are utilized in wireless data networks, such as Bluetooth [1] in personal area networks (PAN), IEEE 802.11 [2] and HyperLan [3] in wireless local area networks (WLAN), cellular digital packet data (CDPD) [4] in wireless wide area networks (WWAN). In this paper, we focus on the data service in wireless data networks and wireless voice networks [5] providing integrated voice/data services.…”

Modeling and prediction of session throughput of constant bit rate streams in wireless data networks