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Computerized simulation. --- FIR filters. --- Frequency response. --- Bit error rate.

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Binary phase. --- Cryptography. --- Bit error rate. --- Errors. --- Coding.

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Deep space. --- Pulse position modulation. --- Wireless communication. --- Free-space optical communication. --- Turbulence. --- Bit error rate. --- Mathematical models.

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Miniaturization of electronic devices and recent developments in wireless communication technology are leading to the creation of a range of personal information appliances, or biotic sensors, which can be attached to or implanted in human bodies. The wireless networking of such devices is known as the wireless body area network (BAN). BAN can share information effectively and securely, reduce functional redundancies, and allow new conveniences and services. Moreover, it provides new possibilities for high-quality service from hospitals, by linking various biotic sensors to establish a body-area network of personal health information. In Body Area Communications: Channel Modeling, Communication Systems, and EMC, Wang and Wang provide a systematic introduction to body area networks leading readers from an introductory level to in-depth and more advanced topics. . Provides a concise introduction to this emerging topic based on classroom-tested materials. Details the latest IEEE 802.15.6 standard activities. Moves from very basic physics, to useful mathematic models, and then to practical considerations. Covers not only EM physics and communications, but also biological applications. Topics approached include: link budget, bit error rate performance, RAKE and diversity reception; SAR analysis for human safety evaluation; and modeling of electromagnetic interference to implanted cardiac pacemakers . Provides Matlab and Fortran programs for download from the Companion WebsiteThis book is ideal for graduate students, engineers and researchers interested in body area networks, or those who would like to apply expertise in signal processing, application development and implementation, IC design, instrumentation, software framework, hardware/software optimization, distributed processing, and communications to BAN applications. Researchers and practicing engineers in biomedical engineering, who are interested in extending techniques to the wireless communications space, will also find this book to be a helpful reference.

Body area networks (Electronics) --- Medical telematics. --- Electronic books. --- Amplitude shift keying --- Artificial intelligence --- Bit error rate --- Blood pressure --- Body area networks --- Channel models --- Communication systems --- Conductivity --- Demodulation --- Electrocardiography --- Electromagnetic compatibility --- Electromagnets --- Equations --- Error statistics --- Fading --- Finite element methods --- Human factors --- Impulse response --- Loss measurement --- Microwave integrated circuits --- Path planning --- Propagation losses --- Time domain analysis --- Transmitters --- Ultra wideband technology

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The rapid proliferation of the Internet has been driving communication networks closer and closer to their limits, while available bandwidth is disappearing due to an ever-increasing network load. Over the past decade, optical fiber communication technology has increased per fiber data rate from 10 Tb/s to exceeding 10 Pb/s. The major explosion came after the maturity of coherent detection and advanced digital signal processing (DSP). DSP has played a critical role in accommodating channel impairments mitigation, enabling advanced modulation formats for spectral efficiency transmission and realizing flexible bandwidth. This book aims to explore novel, advanced DSP techniques to enable multi-Tb/s/channel optical transmission to address pressing bandwidth and power-efficiency demands. It provides state-of-the-art advances and future perspectives of DSP as well.

equalization --- n/a --- space division multiplexing --- multi-input multi-output --- mode-division multiplexing --- mode-dependent loss --- caching --- neural network --- mitigation of optical transceiver impairments --- four-level pulse amplitude modulation --- least mean squares --- frequency-domain equalization --- nonlinearity compensation --- optical fiber communication --- optical communication --- modulators --- digital signal processing --- quadrature phase-shift keying --- space–time block-coding --- pointing error --- Device to Device --- fiber optics communications --- cycle-slip --- coherent communications --- coherent communication --- pluggable module --- recursive least squares --- data center interconnect --- average symbol length --- pulse position modulation–binary phase shift keying–subcarrier intensity modulation (PPM–BPSK–SIM) --- 400 Gigabit Ethernet --- direct detection --- QSFP-DD transceiver --- low-density parity-check (LDPC) --- coherent detection --- free space optical (FSO) --- carrier phase estimation --- optical communications --- bit error rate (BER) --- machine learning --- fiber optics links and subsystems --- short-reach optical links --- Indian Buffet Process --- pilot-aided-phase-unwrap --- space-time block-coding --- pulse position modulation-binary phase shift keying-subcarrier intensity modulation (PPM-BPSK-SIM)