الفهرس الالي لمكتبة كلية العلوم و علوم التكنولوجيا
Détail de l'auteur
Auteur D. G. Smith |
Documents disponibles écrits par cet auteur
Affiner la recherche Interroger des sources externes
Titre : Telecommunications engineering Type de document : texte imprimé Auteurs : J. Dunlop, Auteur ; D. G. Smith, Auteur Mention d'édition : 3rd. ed. Editeur : London : Chapman & Hall Année de publication : 1994 Importance : xxii, 589 p. Présentation : ill. Format : 25*18 cm ISBN/ISSN/EAN : 978-0-412-56270-9 Note générale : ASIN : B076LXFKWF
Éditeur : Routledge; 3e édition (19 octobre 2017)
Langue : Anglais
Taille du fichier : 15010 KB
Utilisation simultanée de l'appareil : Jusqu'à 4 appareils simultanés, selon les limites de l'éditeur
Synthèse vocale : Activée
Lecteur d’écran : Pris en charge
Confort de lecture : Activé
X-Ray : Non activée
Word Wise : Non activé
Nombre de pages de l'édition imprimée : 593 pages
Pagination - ISBN de l'édition imprimée de référence : 0412562707Langues : Anglais (eng) Mots-clés : Telecommunications engineering signal channels analogue cpmmunications high frequence transmission lines antennasmicrowave telephony television packer swiched satellite Index. décimale : 621.38 Résumé : Telecommunication engineering is concerned with the transmission of in- formation between two distant points. Intuitively we may say that a signal contains information if it teils us something we did not already know. This definition is too imprecise for telecommunications studies, and we shall devote a section oftbis chapter to a formal description ofinformation. For the present it is sufficient to say that a signal that contains information varies in an unpredictable or random manner. We have thus specified a primary characteristic of the signals in telecommunications systems; they are random in nature. These random signals can be broadly subdivided into discrete signals that have a fixed number of possible values, and continuous signals that have any value between given Iimits. Whichever type of signal we deal with, the tele- communication system that it uses can be represented by the generalized model of Fig. 1. 1. The centrat feature of this model is the transmission medium or channel. Some examples of channels are coaxial cables, radio links, optical fibres and ultrasonic transmission through solids and liquids. It is clear from these examples that the characteristics of channels can vary widely. The common feature of all channels, however, is that they modify or distort the waveform of the transmitted signal. In some cases the distortion can be so severe that the signal becomes totally unrecognizable. In many instances it is possible to minimize distortion by careful choice of the transmitted signal waveform.sommaire:signals and channels-analogue modulation theory-discrete signals-noise in analogue communications systems-noise in digital communications systems-high-frequency transmission lines Telecommunications engineering [texte imprimé] / J. Dunlop, Auteur ; D. G. Smith, Auteur . - 3rd. ed. . - London : Chapman & Hall, 1994 . - xxii, 589 p. : ill. ; 25*18 cm.
ISBN : 978-0-412-56270-9
ASIN : B076LXFKWF
Éditeur : Routledge; 3e édition (19 octobre 2017)
Langue : Anglais
Taille du fichier : 15010 KB
Utilisation simultanée de l'appareil : Jusqu'à 4 appareils simultanés, selon les limites de l'éditeur
Synthèse vocale : Activée
Lecteur d’écran : Pris en charge
Confort de lecture : Activé
X-Ray : Non activée
Word Wise : Non activé
Nombre de pages de l'édition imprimée : 593 pages
Pagination - ISBN de l'édition imprimée de référence : 0412562707
Langues : Anglais (eng)
Mots-clés : Telecommunications engineering signal channels analogue cpmmunications high frequence transmission lines antennasmicrowave telephony television packer swiched satellite Index. décimale : 621.38 Résumé : Telecommunication engineering is concerned with the transmission of in- formation between two distant points. Intuitively we may say that a signal contains information if it teils us something we did not already know. This definition is too imprecise for telecommunications studies, and we shall devote a section oftbis chapter to a formal description ofinformation. For the present it is sufficient to say that a signal that contains information varies in an unpredictable or random manner. We have thus specified a primary characteristic of the signals in telecommunications systems; they are random in nature. These random signals can be broadly subdivided into discrete signals that have a fixed number of possible values, and continuous signals that have any value between given Iimits. Whichever type of signal we deal with, the tele- communication system that it uses can be represented by the generalized model of Fig. 1. 1. The centrat feature of this model is the transmission medium or channel. Some examples of channels are coaxial cables, radio links, optical fibres and ultrasonic transmission through solids and liquids. It is clear from these examples that the characteristics of channels can vary widely. The common feature of all channels, however, is that they modify or distort the waveform of the transmitted signal. In some cases the distortion can be so severe that the signal becomes totally unrecognizable. In many instances it is possible to minimize distortion by careful choice of the transmitted signal waveform.sommaire:signals and channels-analogue modulation theory-discrete signals-noise in analogue communications systems-noise in digital communications systems-high-frequency transmission lines Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité ST2062 621.38/158.1 Ouvrage Faculté des Sciences et de la Technologie 600 - Technologie (Sciences appliquées) Exclu du prêt
