Modelování propagačního kanálu pro off-body komunikaci v oblasti milimetrových vln / Modelling of mmWave Propagation Channel for Off-body Communication Scenarios

Zeman, Kryštof

January 2019

Předkládaná disertační práce je zaměřena na \uv{Modelování propagačního kanálu pro off-body komunikaci v oblasti milimetrových vln}. Navzdory pokrokům v rámci bezdrátových sítí v přímé blízkosti člověka stále systémy 5. generace postrádají dostatečnou šířku pásma a dostatečně nízkou odezvu. To je způsobeno neefektivním využíváním rádiového spektra. Tento nedostatek je potřeba co nejdříve odstranit a právě z tohoto důvodu je hlavním cílem této práce navrhnout vylepšený model rádiového kanálů pro off-body komunikaci. Úkolem tohoto modelu je umožnit uživatelům efektivněji a přesněji simulovat propagaci signálu v rámci daného prostředí. Navržený model je dále optimalizován a ověřen vůči nejnovějším měřením, získaným z literatury. Nakonec je tento model implementován do simulačního nástroje NS-3, pomocí kterého je následně využit k simulaci množství scénářů. Hlavním výstupem této práce je ověřený model přenosového kanálu pro off-body komunikaci v rámci milimetrových vln, společně s jeho implementací do simulačního nástroje NS-3, díky čemuž je dostupný pro širokou veřejnost.

Simulace zpoždění při přenosu dat mezi stanicemi v IP sítích / Simulation of data transmission latency between nodes in IP networks

Balej, Jiří

January 2010

This master thesis is focused on the delays incurred in data transmitting over IP networks. The top of the paper is devoted to points, where delay is invoked and causes of the latency. For individual sources of delay are are described the parameters that affect the usual size of latency. The next section describes the types of networks and their typical delay. In the paper are also discussed tools for measuring delay and determining the number of intermediate devices. The thesis contains results of measurements delay time in the real network. For these results are listed conclusions about the delay for one intermediate device. There is also said general ratio of crow-fly distance and calculated distance. The last part deals the simulation of delay in the NS2 program. The results of thesis are scripts that shows the relation of delay and the number of switches, routers, and the length of the path.

Modelování propagace signálu bezdrátových sítí LTE a WiFi uvnitř budov / Modeling of Signal Propagation in Wireless LTE and WiFi Networks in Indoor Deployment

Olbert, Jaroslav

January 2017

Masters thessis deals with the problematics of wireless signal propagation modeling inside buildings. The theoretical part of this thessis describes principles and methods of electromagnetic waves spreading in open areas and in indoor deployment. There are also described methods used for calculating the path of signal propagation ray-launching and ray-tracing. This part also includes description of an algorithm and equations used for simulating 5GHz WiFi signal propagation inside the Department of telecommunications corridors. Second part of this thessis includes a description of a NS-3 module mmWave, which was used for simulations of IEEE 802.11ad (WiGig) standard. There are also results of these simulations and their detailed description. At the end of this thessis comparison of these results with values gained by real environment measurements can be found.

RF signal modeling and deployment strategy targeting outdoor RSS-based localization and tracking applications in wireless sensor network / Μοντελοποίηση μετάδοσης ράδιο-σημάτων και στρατηγική ανάπτυξης ασύρματων δικτύων αισθητήρων εξωτερικού χώρου με στόχο τον εντοπισμό και ιχνηλάτηση μέσω του λαμβανομένου ράδιο-σήματος

Stoyanova, Tsenka

14 May 2012

The localization of the sensor nodes is a fundamental issue in the area of wireless sensor networks (WSNs). An attractive way for estimating the location of mobile or static wireless objects is by using the received signal strength (RSS) attenuation with the distance, which does not require any additional hardware. This is possible due to the fact that in most sensor nodes radios the received signal strength indicator (RSSI) is a standard feature and can be obtained automatically by the received messages. On the other hand the RSS is known for being noisy, unstable, variable and difficult to use in practice. For achieving a better understanding of the nature of these difficulties and limitations, and for identifying the range of applicability of the RSS in localization and tracking scenarios, a thorough study about the RSS and its dependence on the various factors and environmental conditions is essential. The present doctoral dissertation investigates the feasibility of sensor node localization and target tracking with the resources of the WSN technology, when using only the RSS of the exchanged messages. Moreover, it offers experimental support to the hypothesis that proper modeling of the RSS behavior and appropriate selection of the topology parameters are essential for the applicability of WSN in real world conditions. In brief, the present doctoral dissertation concerns with: (i) identifying the main factors that influence the accuracy, the variability and the reliability of the obtained RSS, (ii) modeling the RF signal propagation in the context of WSNs, and (iii)defining the basic deployment constraints and evaluation of the topology parameters that can guarantee successful localization and tracking. For assessing the practical value of various RF-models, experiments using Tmote Sky and TelosB sensor nodes in real-field outdoor environment were carried out. The impact of a number of factors, such as the operating frequency of the radio, the transmitter–receiver distance, the variation of transceivers hardware due to manufacturing tolerances, the antenna orientation, and the environmental conditions, on the RSS was investigated. The influence of the various factors that affect the RF signal propagation and some constraints imposed by the WSN nature was accounted in order to design practical models, suitable for outdoor unobstructed and outdoor tree-obstructed environments. A pre-deployment simulation framework has been introduced and in its context a RF signal propagation-based connectivity strategy (RFCS) has been developed to fulfill three deployment provisions: (i) discovering the most appropriate height from the ground and distances for the sensor nodes, (ii) reducing the transmission power, and (iii) minimizing the interference from non-neighbor nodes. The RFCS uses a RF signal propagation model to predict the RSS in order to identify the most appropriate communication-based deployment parameters, i.e. T-R distance, height from the ground and transmission power. The localization and tracking considerations, by means of localization and tracking techniques, topology parameters and factors influencing the localization and tracking accuracy, are combined in illustrative simulation examples to evaluate their significance concerning the performance of the localization and tracking task. Furthermore, the propagation model and the topology parameters being identified were validated in real outdoor sensor node localization and target tracking tests. / -

Wireless sensor networks

Received signal strength

Localization

Target tracking

RF signal propagation modeling

Deployment

621.384

Εντοπισμός θέσης

Ιχνηλάτηση

Τοποθέτηση

Untersuchung von Methoden zur Laufzeitmessung in Wireless LAN Netzwerken zum Zwecke der Positionsbestimmung

Haustein, Mario

24 March 2011

Ortsbasierte Dienste erfreuen sich in den letzten Jahren starker Beliebtheit. Für deren Umsetzung sind sog. Lokalisierungsdienste notwendig, welche eine Ortung von Mobilgeräten erlauben. Das GPS stellt den wohl populärsten Lokalisierungsdienst dar, ist jedoch innerhalb von Gebäuden nur sehr beschränkt einsetzbar. In der Vergangenheit wurden deshalb Methoden vorgeschlagen, die zur Positionsbestimmung auf die Messung der Empfangsfeldstärke von WLAN-Aussendungen zurückgreifen. Im Rahmen der Diplomarbeit soll untersucht werden, ob sich ebenfalls eine Postionsbestimmung anhand von Laufzeiten der WLAN-Signale umsetzen lässt. Bedingung hierbei ist, dass der Lokalisierungsdienst - eine reine Softwarelösung darstellt und keine Modifikationen an Hard- oder Firmware voraussetzt und - die Lokalisierung ohne für diese Zwecke ausgelegte Spezialhardware umsetzbar ist. Diese Anforderungen sollen sicherstellen, dass der zu entwickelnde Lokalisierungsdienst mit bereits installierter, handelsübliche Hardware umsetzbar ist. Es sind in Frage kommende Verfahren zur Bestimmung der Signallaufzeit zu erörtern. Für die Laufzeitmessung in Frage kommenden Zeitquellen sollen zugänglich gemacht und auf ihre Tauglichkeit untersucht werden. Durch Messreihen ist zu untersuchen, ob mit den vorgeschlagenen Messverfahren eine Lokalisierung möglich ist und in welchem Rahmen sich die zu erwartende Genauigkeit bewegt. Die in dieser Arbeit beschriebenen Konzepte sollen im Rahmen einer Proof of Concept Anwendung implementiert werden. Die Software soll unter dem Gesichtspunkt der Wiederverwendbarkeit entwickelt werden, um eine spätere Nutzung im Rahmen anderer Projekte zu ermöglichen.

info:eu-repo/classification/ddc/000

ddc:000

Feasibility of Troposphere Propagation Delay Modeling of GPS Signals using Three-Dimensional Weather Radar Reflectivity Returns

Muvvala, Priyanka

26 July 2011

No description available.

Aerospace Engineering

Atmosphere

Electrical Engineering

Engineering

ray tracing

weather radar troposphere delay modeling

troposphere index of refraction

refractivity

GPS troposphere delay

real time troposphere mitigation

atmopshere refractivity