Principles of Mobile CommunicationPrinciples of Mobile Communication provides an authoritative treatment of the fundamentals of mobile communications, one of the fastest growing areas of the modern telecommunications industry. The book stresses the fundamentals of mobile communications engineering that are important for the design of any mobile system. Less emphasis is placed on the description of existing and proposed wireless standards. This focus on fundamental issues should be of benefit not only to students taking formal instruction but also to practising engineers who are likely to already have a detailed familiarity with the standards and are seeking to deepen their knowledge of this important field. The book stresses mathematical modeling and analysis, rather than providing a qualitative overview. It has been specifically developed as a textbook for graduate level instruction and a reference book for practising engineers and those seeking to pursue research in the area. The book contains sufficient background material for the novice, yet enough advanced material for a sequence of graduate level courses. Principles of Mobile Communication treats a variety of contemporary issues, many of which have been treated before only in the journals. Some material in the book has never appeared before in the literature. The book provides an up-to-date treatment of the subject area at a level of detail that is not available in other books. Also, the book is unique in that the whole range of topics covered is not presently available in any other book. Throughout the book, detailed derivations are provided and extensive references to the literature are made. This is of value to the reader wishing to gain detailed knowledge of a particular topic. |
Contents
PROPAGATION MODELING | 35 |
COCHANNEL INTERFERENCE | 115 |
MODULATED SIGNALS AND THEIR POWER | 143 |
DIGITAL SIGNALING ON FLAT FADING | 215 |
DIGITAL SIGNALING ON ISI CHANNELS | 263 |
BANDWIDTH EFFICIENT CODING | 341 |
CODE DIVISION MULTIPLE ACCESS | 409 |
CELLULAR COVERAGE PLANNING | 467 |
LINK QUALITY MEASUREMENT | 503 |
CHANNEL ASSIGNMENT TECHNIQUES | 555 |
A PROBABILITY AND RANDOM PROCESSES | 597 |
629 | |
659 | |
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Common terms and phrases
8-state antenna approximation assume autocorrelation AWGN AWGN channel bandwidth bit energy-to-noise ratio bit error probability carrier carrier-to-interference ratio CDMA cell cellular systems channel assignment Chernoff bound co-channel interference complex envelope convolutional codes crosscorrelation decoding defined density distribution diversity branches Doppler encoder equalizer error event Euclidean distance fading channels fading ISI channels Figure flat fading flat fading channels forward channel frequency Gaussian random ha(t handoff handoff algorithms handoff queue impulse response interleaving isotropic scattering k₁ km/h linear link quality low-pass microcells microcellular MLSE mobile modulation multipath obtained output pairwise error probability path loss performance phase probability of CCI propagation radio random process random variable Rayleigh fading received signal reverse channel samples shown in Fig signal constellation signal strength simulation spread spectrum T-spaced TDMA transmitted trellis code uncorrelated variance vector velocity estimators Viterbi algorithm waveform