UWB technology and its application

Santhanam, Manisundaram

January 2012

Despite the fact ultra-wideband (UWB) technology has been around for over 30 years, there is a newfound excitement about its potential for communications. With the advantageous qualities of multipath immunity and low power spectral density, researchers are examining fundamental questions about UWB communication systems. Majorly the whole report gives a complete picture about properties of UWB signal and its advantages and disadvantages, generation of the UWB pulse using various techniques, Modulation scheme, Test bed, applications, UWB regulations. The report mainly concerns with the survey about various techniques and also its comparison of generating UWB pulses using various components. There is a general description on various modulation and demodulation scheme that are relevant to UWB technology and its various applications concerning different fields.   This report clearly explains how UWB is far better than RFID and difference between active and passive RFID and its communication protocol, message format. Clear explanation about advantage of higher operating frequencies and low power spectral density. Properties of UWB pulse gives clear idea why we go for UWB and in near future lot of applications will discover. Generation of UWB is a tedious process and in this report readers can understand the various method of generation its advantages and its drawbacks. Modulation and demodulation scheme gives clear idea about how UWB are modulated and demodulated as well as its probability of error and in which situation which modulation is suitable. By using future testbed concept, smaller size UWB chip will be designed and used in various application efficiently. Application gives clear idea about how to take advantage of various properties.

UWB technology

uwb technology

testbed

generation of uwb

modulation of uwb

DEVELOPMENT OF AN ULTRA-WIDEBAND (UWB) PULSE GENERATOR AND PRINTED ANTENNA FOR CONCEALED WEAPONS DETECTION RADAR / DESIGNING A UWB GENERATOR AND ANTENNA FOR CWD RADAR

Eveleigh, Eric Andrew

January 2020

This thesis demonstrates the further development of an ultra-wideband (UWB) pulse generator and of an UWB antenna. Custom prototypes of these devices were initially developed for an ongoing research project. The project topic is a compact and portable concealed weapons detection (CWD) radar system to find objects such as firearms, knives, and grenades hidden on persons as they pass by. The system uses the UWB pulse generator as a transmitter, while the UWB antenna radiates the pulse and receives the corresponding backscatter from targets and other objects. Initial device prototypes do not perform adequately according to project specifications. A key specification is of adequate operation over the entire 0.5 GHz to 5 GHz frequency band, where adequate operation is defined distinctly for the antenna and pulse generator. In this work, empirical investigations of both devices are performed using techniques such as simulation, fabrication, and measurement. Through these investigations, the designs of the devices have been incrementally modified. Measured performance data suggest that the research has yielded designs with substantially improved bandwidth as a result. Bandwidth increases from 3.31 GHz to 4.36 GHz (31.7%) for the pulse generator and from 0.46 GHz to 4.98 GHz (983%) for the antenna are demonstrated. Future work is needed to establish the effects of fabrication tolerance, component tolerance, and human error on the variation of the observed device performance. / Thesis / Master of Applied Science (MASc) / This thesis is about the improvement of a radio antenna and a transmitter. These are ultimately intended as components in a system for detecting weapons (such as firearms, knives, etc.) concealed within the clothing or bags of nearby persons. The detection happens by transmitting specific radio signals which interact harmlessly with a person being scanned, and then are received back by the system. This is a form of radio detection and ranging (RADAR). The research on these devices has consisted of computer simulations and real-life measurements. As a result, it appears that the transmitter and radio antenna have been improved to be more suitable for the desired application than they were originally.

Electromagnetics

Antennas

Ultra-wideband (UWB) Technology

Radar

Microwaves

Concealed Weapons Detection (CWD)

Simulation

Fabrication

Engineering

Public Safety

Allocation conjointe des canaux de fréquence et des créneaux de temps et routage avec QdS dans les réseaux de capteurs sans fil denses et étendus / Joint allocation of channels of frequency and time slots with QoS routing for large-scale Wireless Sensor Networks

Ben Slimane, Jamila

12 March 2013

Le thème général du sujet tourne autour de l'optimisation inter-couche des réseaux de capteurs basés sur la technologie ultra large bande ULB (UWB, Ultra Wide Band) moyennant des solutions protocolaires permettant d'un côté de répondre au besoin de qualité de service QdS à critères multiples dans les réseaux de capteurs sans fil et d'autre côté d'assurer le partage et l'allocation efficace les ressources disponibles (spectrale et temporelle) ainsi que l'optimisation de la consommation d'énergie dans des tels réseaux. Le domaine d'application cible choisi dans le présent travail est les systèmes de suivi des patients au sein d'un réseau de capteurs déployé en hôpital intelligent (WHSN, Large-scale Wireless Hospital Sensor Network). Dans ce contexte, nous avons proposé le modèle UWBCAS pour assurer le partage des ressources spectrales entre les PANs. Puis, nous avons conçu et implémenté un protocole MAC multi-canal multi-créneau de temps avec support de qualité de service, PMCMTP, pour assurer une allocation conjointe des canaux de fréquence et des créneaux de temps au sein de chaque réseau PAN. Enfin nous avons proposé l'algorithme JSAR qui traite à la fois les problèmes d'ordonnancement des cycles d'activités des membres du réseau dans le but d'optimiser la consommation d'énergie, d'allocation efficace des canaux de fréquence et des créneaux de temps afin d'améliorer le taux d'utilisation des ressources et les performances du réseau et de routage avec support de QdS à critères multiples afin de répondre aux besoins des applications supportées / The general context of the present memory is about the cross-layer optimization of wireless sensors networks based on ultra wide band technology UWB. The proposed solutions ensure the share and the efficient allocation of spectral and temporal resources, the optimization of the energy consumption and the support of multi-constraints quality of services QoS. The most challenging issue is providing a tradeoff between the resource efficiency and the multiconstrained QoS support. For this purpose, we proposed a new Wireless Hospital Sensor Network (WHSN) three-tiered architecture in order to support large-scale deployment and to improve the network performance. Then we designed a channel allocation scheme (UWBCAS,)and a prioritized multi-channel multi-time slot MAC protocol (PMCMTP) to enhance network performance and maximize the resource utilization. Finally, we proposed a joint duty cycle scheduling, resource allocation and multi-constrained QoS routing algorithm (JSAR) which simultaneously combines, a duty cycle scheduling scheme for energy saving, a resource allocation scheme for efficient use of frequency channels and time slots, and an heuristic for multi-constrained routing protocol

Réseau de capteurs

Technologie ULB

WHSN

Allocation des ressources

QdS à critères multiples

Optimisation inter-couche

WSN

UWB technology

WHSN

Resource allocation

Multi-constrained routing

Cross-layer optimization

621.382 1

004.6

Optimisation des performances de réseaux de capteurs dynamiques par le contrôle de synchronisation dans les systèmes ultra large bande / Optimizing the performance of dynamic sensor networks by controlling the synchronization in ultra wide band systems

Alhakim, Rshdee

29 January 2013

Dans cette thèse nous nous sommes principalement concentrés sur les transmissions impulsion radio Ultra Large Bande (UWB-IR) qui a plusieurs avantages grâce à la nature de sa bande très large (entre 3.1GHZ et 10.6GHz) qui permet un débit élevé et une très bonne résolution temporelle. Ainsi, la très courte durée des impulsions émises assure une transmission robuste dans un canal multi-trajets dense. Enfin la faible densité spectrale de puissance du signal permet au système UWB de coexister avec les applications existantes. En raison de toutes ces caractéristiques, la technologie UWB a été considérée comme une technologie prometteuse pour les applications WSN. Cependant, il existe plusieurs défis technologiques pour l'implémentation des systèmes UWB. A savoir, une distorsion différente de la forme d'onde du signal reçu pour chaque trajet, la conception d'antennes très larges bandes de petites dimensions et non coûteuses, la synchronisation d'un signal impulsionnel, l'utilisation de modulation d'onde d'ordre élevé pour améliorer le débit etc. Dans ce travail, Nous allons nous intéresser à l'étude et l'amélioration de la synchronisation temporelle dans les systèmes ULB. / The basic concept of Impulse-Radio UWB (IR-UWB) technology is to transmit and receive baseband impulse waveform streams of very low power density and ultra-short duration pulses (typically at nanosecond scale). These properties of UWB give rise to fine time-domain resolution, rich multipath diversity, low power and low cost on-chip implementation facility, high secure and safety, enhanced penetration capability, high user capacity, and potential spectrum compatibility with existing narrowband systems. Due to all these features, UWB technology has been considered as a feasible technology for WSN applications. While UWB has many reasons to make it a useful and exciting technology for wireless sensor networks and many other applications, it also has some challenges which must be overcome for it to become a popular approach, such as interference from other UWB users, accurate modelling of the UWB channel in various environments, wideband RF component (antennas, low noise amplifiers) designs, accurate synchronization, high sampling rate for digital implementations, and so on. In this thesis, we will focus only on one of the most critical issues in ultra wideband systems: Timing Synchronization.

Technologie ULB (Ultra large bande)

Synchronisation

Détection & estimation

Poursuite

Commande par modèle interne

Digital wireless communication channel

(Ultra wide band) UWB technology

Synchronisation

Detection & estimation

Tracking

Internal model control

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