Problem-based learning in communication systems using MATLAB and simulink / (Record no. 74442)
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| 000 -LEADER | |
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| fixed length control field | 09117nam a2201681 i 4500 |
| 001 - CONTROL NUMBER | |
| control field | 7434881 |
| 005 - DATE AND TIME OF LATEST TRANSACTION | |
| control field | 20220712205928.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION | |
| fixed length control field | 160412s2016 nju ob 001 eng d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| ISBN | 9781119060239 |
| -- | electronic bk. |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| -- | |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| -- | electronic bk. |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| -- | electronic bk. |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| -- | electronic bk. |
| 082 04 - CLASSIFICATION NUMBER | |
| Call Number | 621.3/8216 |
| 100 1# - AUTHOR NAME | |
| Author | Choi, Kwonhue, |
| 245 10 - TITLE STATEMENT | |
| Title | Problem-based learning in communication systems using MATLAB and simulink / |
| 300 ## - PHYSICAL DESCRIPTION | |
| Number of Pages | 1 PDF (490 pages). |
| 490 1# - SERIES STATEMENT | |
| Series statement | IEEE Series on Digital & Mobile Communication |
| 505 0# - FORMATTED CONTENTS NOTE | |
| Remark 2 | Matlab and Simulink Basics -- Numerical Integration and Orthogonal Expansion -- Fourier Series and Frequency Transfer Function -- Fourier Transform -- Convolution -- Low Pass Filter and Band Pass Filter Design -- Sampling and Reconstruction -- Correlation and Spectral Density -- Amplitude Modulation -- Quadrature Multiplexing and Frequency Division Multiplexing -- Hilbert Transform, Analytic Signal, and SSB Modulation -- Voltage-Controlled Oscillator and Frequency Modulation -- Phase-Locked Loop and Synchronization -- Probability and Random Variables -- Random Signals -- Maximum Likelihood Detection for Binary Transmission -- Signal Vector Space and Maximum Likelihood Detection I -- Signal Vector Space and Maximum Likelihood Detection II -- Correlator-Based Maximum Likelihood Detection -- Pulse Shaping and Matched Filter -- Ber Simulation at the Waveform Level -- QPSK and Offset QPSK in Simulink -- Quadrature Amplitude Modulation in Simulink -- Convolutional Code -- Fading, Diversity, and Combining -- Orthogonal Frequency Division Multiplexing in AWGN Channels -- Orthogonal Frequency Division Multiplexing Over Multipath Fading Channels -- Mimo System Part I: Space Time Code -- Mimo System Part II: Spatial Multiplexing -- Near-Ultrasonic Wireless Orthogonal Frequency Division MULTIPLEXING MODEM DESIGN. |
| 520 ## - SUMMARY, ETC. | |
| Summary, etc | Designed to help teach and understand communication systems using a classroom-tested, active learning approach. This book covers the basic concepts of signals, and analog and digital communications, to more complex simulations in communication systems. Problem-Based Learning in Communication Systems Using MATLAB and Simulink begins by introducing MATLAB and Simulink to prepare readers who are unfamiliar with these environments in order to tackle projects and exercises included in this book. Discussions on simulation of signals, filter design, sampling and reconstruction, and analog communications are covered next. The book concludes by covering advanced topics such as Viterbi decoding, OFDM and MIMO. In addition, this book contains examples of how to convert waveforms, constructed in simulation, into electric signals. It also includes problems illustrating how to complete actual wireless communications in the band near ultrasonic frequencies. A content-mapping table is included in this book to help instructors easily find lab projects for communications, wireless communications, and signal and systems classes. Special features of this book: . Discusses communication concepts and algorithms, which are explained using simulation projects, accompanied by MATLAB and Simulink. Provides step-by-step code exercises and instructions to implement execution sequences. Includes a companion website that has MATLAB and Simulink model samples and templates (link provided below) This book is intended for students and instructors, enrolled in or teaching communications systems, analog and digital communications, and wireless communication courses. Kwonhue Choi is a Professor in the Department of Information and Communication Engineering and the Principal Director of Broadband Wireless Communication (BWC) Laboratory at Yeungnam University, Korea. His research areas include efficient multiple access, diversity schemes, and cooperative communications for Fifth-Generation (5G) and beyond systems. He is the inventor of FADAC-OFDM and PSW (Properly scrambled Walsh) codes. Huaping Liu is a Professor with the School of Electrical Engineering and Computer Science at Oregon State University, USA. He was formerly a cellular network radio frequency systems engineer specializing on modeling, simulating, optimizing, and testing various digital communication systems. Dr. Liu received his PhD in Electrical Engineering at New Jersey Institute of Technology, USA. |
| 650 #0 - SUBJECT ADDED ENTRY--SUBJECT 1 | |
| Subject | Wireless communication systems. |
| 650 #0 - SUBJECT ADDED ENTRY--SUBJECT 1 | |
| Subject | Orthogonal frequency division multiplexing. |
| 650 #7 - SUBJECT ADDED ENTRY--SUBJECT 1 | |
| Subject | Orthogonal frequency division multiplexing. |
| 650 #7 - SUBJECT ADDED ENTRY--SUBJECT 1 | |
| Subject | Wireless communication systems. |
| 700 1# - AUTHOR 2 | |
| Author 2 | Liu, Huaping, |
| 856 42 - ELECTRONIC LOCATION AND ACCESS | |
| Uniform Resource Identifier | https://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=7434881 |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
| Koha item type | eBooks |
| 264 #1 - | |
| -- | Piscataway, New Jersey : |
| -- | IEEE Press., |
| -- | 2016. |
| 264 #2 - | |
| -- | [Piscataqay, New Jersey] : |
| -- | IEEE Xplore, |
| -- | [2016] |
| 336 ## - | |
| -- | text |
| -- | rdacontent |
| 337 ## - | |
| -- | electronic |
| -- | isbdmedia |
| 338 ## - | |
| -- | online resource |
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| -- | Print version record. |
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| -- | AWGN |
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| -- | AWGN channels |
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| -- | Aerospace electronics |
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| -- | Algorithm design and analysis |
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| -- | Amplitude modulation |
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| -- | Band pass filters |
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| -- | Band-pass filters |
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| -- | Binary phase shift keying |
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| -- | Clocks |
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| -- | Communication systems |
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| -- | Convolution |
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| -- | Convolutional codes |
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| -- | Correlation |
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| -- | Digital filters |
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| -- | Diversity reception |
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| -- | Encoding |
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| -- | Face |
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| -- | Fading channels |
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| -- | Finite element analysis |
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| -- | Fourier series |
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| -- | Fourier transforms |
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| -- | Frequency conversion |
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| -- | Frequency division multiplexing |
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| -- | Information filtering |
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| -- | Information filters |
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| -- | Linear systems |
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| -- | Linearity |
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| -- | Low pass filters |
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| -- | MATLAB |
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| -- | Matched filters |
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| -- | Multiplexing |
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| -- | Noise measurement |
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| -- | OFDM |
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| -- | Passband |
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| -- | Probability density function |
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| -- | Pulse generation |
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| -- | Quadrature amplitude modulation |
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| -- | Shape |
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| -- | Signal reconstruction |
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| -- | Simulation |
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| -- | Simulink |
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| -- | Software packages |
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| -- | Space-time codes |
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| -- | Spread spectrum management |
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| -- | Synchronization |
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| -- | Time-domain analysis |
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| -- | Time-frequency analysis |
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| -- | Transfer functions |
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| -- | Transmitting antennas |
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| -- | Ultrasonic wireless communication |
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| -- | Vectors |
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| -- | Voltage-controlled oscillators |
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| -- | Wireless communication |
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| -- | World Wide Web |
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