Draft-N 2.0 : En jämförande studie av täckningsgrad och bandbredd i trådlösa nätverk av typ hot-spot med IEEE 802.11A/G respektive IEEE 802.11N Draft 2.0

Mölleborg, Gabriel, Henriksson, Joel

January 2008

Rapporten är en jämförande studie av täckningsgrad och bandbredd i trådlösa nätverk av typ hot-spot med IEEE 802.11A/G respektive IEEE 802.11N Draft 2.0. Studien är gjord i tre olika scenarion på Kvarnholmen i Kalmar under april och maj månad 2008.

IEEE

hot-spot

802.11A

802.11G

802.11N

5 GHz

2.4 GHz

bandbredd

täckning

signalnivå

MIMO

kapsling

accesspunkt

WLAN

Channel Bonding.

Computer Sciences

Datavetenskap (datalogi)

Koexistence systémů LoRa a Wi-Fi v RF pásmu 2.4 GHz / Coexistence of LoRa and Wi-Fi in the RF band 2.4 GHz

Kaučiarik, Filip

January 2020

Diplomová práca sa zaoberá štúdiom koexistencie, ktorá môže nastať medzi bezdrôtovými komunikačnými systémami LoRa a Wi-Fi v bezlicenčnom ISM pásme 2,4 GHz. V teoretickej časti práce sú stručne popísané fyzické vrstvy obidvoch systémov. Následne sú definované spoločné frekvenčné pásma a koexistenčné scenáre, ktoré môžu vzniknúť medzi uvažovanými systémami v spoločnom rádiofrekvenčnom (RF) pásme. V experimentálnej časti práce je prezentované laboratórne meracie pracovisko, ktoré bolo navrhnuté na meranie rôznych koexistenčných scenárov medzi technológiou LoRa a Wi-Fi. Funkčnosť navrhnutej koncepcie je overená experimentálnym meraním. Výsledky meraní sú detailne komentované a prezentované. Je navrhnutá laboratórna úloha a vzorový protokol pre vzdelávacie účely v Laboratóriu Mobilných a Bezdrôtových komunikácií.

Cooperative wireless channel characterization and modeling: application to body area and cellular networks

Liu, Lingfeng

23 March 2012

Cooperative wireless communication is an attractive technique to explore the spatial channel resources by coordination across multiple links, which can greatly improve the communication performance over single links. In this dissertation, we study the cooperative multi-link channel properties by geometric approaches in body area networks (BANs) and cellular networks respectively.<p><p>In the part of BANs, the dynamic narrowband on-body channels under body motions are modeled statistically on their temporal and spatial fading based on anechoic and indoor measurements. Common body scattering is observed to form inter-link correlation between links closely distributed and between links having synchronized movements of communication nodes. An analytical model is developed to explain the physical mechanisms of the dynamic body scattering. The on-body channel impacts to simple cooperation protocols are evaluated based on realistic measurements. <p><p>In the part of cellular networks, the cluster-level multi-link COST 2100 MIMO channel model is developed with concrete modeling concepts, complete parameterization and implementation methods, and a compatible structure for both single-link and multi-link scenarios. The cluster link-commonness is introduced to the model to describe the multi-link properties. The multi-link impacts by the model are also evaluated in a distributed MIMO system by comparing its sum-rate capacity at different ratios of cluster link-commonness. / Doctorat en Sciences de l'ingénieur / info:eu-repo/semantics/nonPublished

Electricité

Sciences exactes et naturelles

Wireless communication systems

Wireless sensor networks

Transmission sans fil

Réseaux de capteurs sans fil

visibility region

capacity

channel modeling

cooperative wireless communication

multiple cylinder scattering

Doppler spectrum

2.4 GHz

IEEE 802.15.6

UWB

COST 2100 channel model

MIMO

cooperative relay

cluster

DMC

BAN

body area network

distributed MIMO

diversity

polarization

MPC

on-body channel

dynamic body scattering

surface wave

fading

shadowing

pathloss

cross-channel correlation

Channel Probing for an Indoor Wireless Communications Channel

Hunter, Brandon

13 March 2003

The statistics of the amplitude, time and angle of arrival of multipaths in an indoor environment are all necessary components of multipath models used to simulate the performance of spatial diversity in receive antenna configurations. The model presented by Saleh and Valenzuela, was added to by Spencer et. al., and included all three of these parameters for a 7 GHz channel. A system was built to measure these multipath parameters at 2.4 GHz for multiple locations in an indoor environment. Another system was built to measure the angle of transmission for a 6 GHz channel. The addition of this parameter allows spatial diversity at the transmitter along with the receiver to be simulated. The process of going from raw measurement data to discrete arrivals and then to clustered arrivals is analyzed. Many possible errors associated with discrete arrival processing are discussed along with possible solutions. Four clustering methods are compared and their relative strengths and weaknesses are pointed out. The effects that errors in the clustering process have on parameter estimation and model performance are also simulated.

multipath

multipath propagation

propagation environment

indoor propagation

indoor multipath

indoor multipath propagation

channel probing

channel

probing

indoor wireless communications channel

indoor

wireless communications

indoor wireless communications

wireless

communications

wireless communications channel

MIMO

SISO

multiple input multiple output

single input single output

antenna diversity

antenna

diversity

antenna array

channel modeling

modeling

model

wireless propagation

clustering methods

clustering algorithms

clustering

parameter estimation

parameter

channel matrix

h matrix

ray tracing

point spread function

psf

deconvolution

clean

algorithm

clean algorithm

antenna pattern

network analyzer

temporal pattern

2.4 ghz system

6 ghz system

channel capacity

capacity estimate

channel capacity estimate

propagation environment

scattering

transfer matrix

matrix

water filling solution

water filling method

water filling

Saleh

Valenzuela

Saleh and Valenzuela Model

arrival

time of arrival

angle of arrival

direction of arrival

arrival amplitude

arrivals

antenna positioner

data

simulations

measurements

angle of departure

direction of departure

correlation

convolution

errors

error

CFA

CFAD

constant false alarm

constant false alarm detection

signal

signal dependent clutter

clutter

returns

transmitter

transmit

receive

receiver

transmit antenna

receive antenna

spatial correlation

system PSF

system point spread function

mapping

fuzzy c-means clustering

fuzzy clustering

c-means clustering

c-means

fuzzy

k-means

euclidean distance

time

amplitude

delay

performance prediction

performance prediction errors

fuzzy weighted distance method

rectangular method

weighted rectangular method

statistics

statistical

statistical model

Electrical and Computer Engineering