2013, ISBN 1611493900, ix, 293
Book
2017, 1, ISBN 9781472472885, Volume 1, xxvi, 309 pages
iDue to growing negative perceptions about relations between historically entrenched, dominant populations and various minority groups, issues relating to the...
Multiculturalism | Governmental investigations | Religion and state | Religion & Law | Public Policy | Religion & Politics | Political Sociology | Race & Ethnic Studies | Religion in Context | Globalisation | Sociology of Religion | Case studies
Multiculturalism | Governmental investigations | Religion and state | Religion & Law | Public Policy | Religion & Politics | Political Sociology | Race & Ethnic Studies | Religion in Context | Globalisation | Sociology of Religion | Case studies
Book
2011, Society of Biblical Literature Septuagint and cognate studies, ISBN 9781589835856, Volume no. 58, 211
Book
2001, ISBN 9780739102626, vii, 241
Multiculturalism | Austen, Jane, 1775-1817. Pride and prejudice | Theory, etc | English literature | Shakespeare, William, 1564-1616. Hamlet | History | Orwell, George, 1903-1950. Nineteen eighty-four | Hurston, Zora Neale Their eyes were watching God | Politics and literature | Culture in literature | History and criticism | Social values in literature | American literature
Book
IEEE Transactions on Vehicular Technology, ISSN 0018-9545, 07/2011, Volume 60, Issue 6, pp. 2631 - 2643
The closed-form expressions for the exact average symbol error probability (SEP) and bit error probability (BEP) of arbitrary M-ary cross quadrature amplitude...
Hoyt | maximal-ratio combining (MRC) | cross quadrature amplitude modulation (XQAM) | Quadrature amplitude modulation | Error probability | AWGN | Rayleigh channels | symbol error probability (SEP) | Closed-form solution | Lauricella hypergeometric function | Diversity reception | Bit error probability (BEP) | Nakagami- m | eta - mu channel | Rayleigh | ORDER RECTANGULAR QAM | COMMUNICATION-SYSTEMS | PERFORMANCE | DIVERSITY RECEPTION | Nakagami-m | GAUSSIAN Q-FUNCTIONS | TELECOMMUNICATIONS | CLOSED-FORM EXPRESSIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | AVERAGE | MODULATION SCHEMES | TRANSPORTATION SCIENCE & TECHNOLOGY | eta-mu channel | MULTICHANNEL RECEPTION | M-ARY SIGNALS | Measurement | Fading channels | Technology application | Random noise theory | Rayleigh scattering | Innovations | Amplitude modulation | Methods | Fading | Hypergeometric functions | Errors | Mathematical analysis | Symbols | Exact solutions | Mathematical models | Channels
Hoyt | maximal-ratio combining (MRC) | cross quadrature amplitude modulation (XQAM) | Quadrature amplitude modulation | Error probability | AWGN | Rayleigh channels | symbol error probability (SEP) | Closed-form solution | Lauricella hypergeometric function | Diversity reception | Bit error probability (BEP) | Nakagami- m | eta - mu channel | Rayleigh | ORDER RECTANGULAR QAM | COMMUNICATION-SYSTEMS | PERFORMANCE | DIVERSITY RECEPTION | Nakagami-m | GAUSSIAN Q-FUNCTIONS | TELECOMMUNICATIONS | CLOSED-FORM EXPRESSIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | AVERAGE | MODULATION SCHEMES | TRANSPORTATION SCIENCE & TECHNOLOGY | eta-mu channel | MULTICHANNEL RECEPTION | M-ARY SIGNALS | Measurement | Fading channels | Technology application | Random noise theory | Rayleigh scattering | Innovations | Amplitude modulation | Methods | Fading | Hypergeometric functions | Errors | Mathematical analysis | Symbols | Exact solutions | Mathematical models | Channels
Journal Article
IEEE Transactions on Communications, ISSN 0090-6778, 09/2011, Volume 59, Issue 9, pp. 2443 - 2453
A comprehensive performance analysis of the energy detector over fading channels with single antenna reception or with antenna diversity reception is...
maximal ratio combining | Rayleigh channels | Nakagami distribution | equal gain combining | Marcum-Q integrals | cognitive radio | Energy detection | Diversity reception | Nakagami-m fading | Rician channels | Detectors | MGF approach | Rayleigh fading | selection combining | Signal to noise ratio | Rician fading | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Fading channels | Signal processing | Research | Studies | Fading | Mathematical analysis | Series (mathematics) | Truncation errors | Mathematical models | Channels | Antennas | Probability density functions
maximal ratio combining | Rayleigh channels | Nakagami distribution | equal gain combining | Marcum-Q integrals | cognitive radio | Energy detection | Diversity reception | Nakagami-m fading | Rician channels | Detectors | MGF approach | Rayleigh fading | selection combining | Signal to noise ratio | Rician fading | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Fading channels | Signal processing | Research | Studies | Fading | Mathematical analysis | Series (mathematics) | Truncation errors | Mathematical models | Channels | Antennas | Probability density functions
Journal Article
2016, IET Telecommunications Series, ISBN 9781849199896, Volume 65, xiii, 437
Body-centric wireless networking and communications is an emerging 4G technology for short (1-5 m) and very short (below 1 m) range communications systems,...
Body area networks (Electronics) | Computer networks | Body-centric wireless communication devices | Textile substrate integrated waveguide technology | Millimetre wave antenna arrays | Radiotelemetry | Biological effects of microwaves | Cooperative communication | Ultra wideband communication | Antenna-human body interactions | Body area networks | In vivo wireless channel modeling | Motion capture applications | Biomedical telemetry | Next-generation wearable microwave systems | Body-centric nano-networks | Frequency 60 ghz | Mimo communication | Ultra wideband body-centric networks | Front-end design | Cooperative communications | Ultra wideband radio channel characterisation | Diversity communications | Localisation applications | Next generation networks | Diversity reception | Substrate integrated waveguides | Mimo | Body-centric radio channel sparse characterization | Capsule telemetry | Wireless channels
Body area networks (Electronics) | Computer networks | Body-centric wireless communication devices | Textile substrate integrated waveguide technology | Millimetre wave antenna arrays | Radiotelemetry | Biological effects of microwaves | Cooperative communication | Ultra wideband communication | Antenna-human body interactions | Body area networks | In vivo wireless channel modeling | Motion capture applications | Biomedical telemetry | Next-generation wearable microwave systems | Body-centric nano-networks | Frequency 60 ghz | Mimo communication | Ultra wideband body-centric networks | Front-end design | Cooperative communications | Ultra wideband radio channel characterisation | Diversity communications | Localisation applications | Next generation networks | Diversity reception | Substrate integrated waveguides | Mimo | Body-centric radio channel sparse characterization | Capsule telemetry | Wireless channels
Book
IEEE Transactions on Signal Processing, ISSN 1053-587X, 07/2015, Volume 63, Issue 13, pp. 3537 - 3548
We study a quantized distributed reception scenario in which a transmitter equipped with multiple antennas sends multiple streams via spatial multiplexing to a...
Wireless communication | Wireless sensor networks | Transmitters | spatial multiplexing | Receiving antennas | Internet of things (IoT) | MIMO | quantized distributed reception | multiple-input multiple-output (MIMO) | Signal to noise ratio | SCENARIOS | RADIO ACCESS NETWORKS | PERFORMANCE | EXPANSIONS | COMPRESSION | SENSOR NETWORKS | ENGINEERING, ELECTRICAL & ELECTRONIC | CHANNEL | FAULT-TOLERANT CLASSIFICATION | DIVERSITY | COMMUNICATION | Multiplexing | Usage | Digital multiplexing | Research | Multichannel communication | MIMO communications
Wireless communication | Wireless sensor networks | Transmitters | spatial multiplexing | Receiving antennas | Internet of things (IoT) | MIMO | quantized distributed reception | multiple-input multiple-output (MIMO) | Signal to noise ratio | SCENARIOS | RADIO ACCESS NETWORKS | PERFORMANCE | EXPANSIONS | COMPRESSION | SENSOR NETWORKS | ENGINEERING, ELECTRICAL & ELECTRONIC | CHANNEL | FAULT-TOLERANT CLASSIFICATION | DIVERSITY | COMMUNICATION | Multiplexing | Usage | Digital multiplexing | Research | Multichannel communication | MIMO communications
Journal Article
IEEE Transactions on Wireless Communications, ISSN 1536-1276, 01/2016, Volume 15, Issue 1, pp. 699 - 713
Prior performance analyses of diversity receptions over arbitrarily correlated Nakagami-m fading channels use power correlation matrix to define correlation...
Fading | Wireless communication | Correlation | Error analysis | outage probability | Diversity reception | Correlated Nakagami-m fading channels | error rate | Joints | Signal to noise ratio | diversity reception | BIVARIATE RICIAN DISTRIBUTION | RAYLEIGH | ERROR RATE ANALYSIS | TRIVARIATE | INFINITE-SERIES REPRESENTATIONS | M DISTRIBUTIONS | TELECOMMUNICATIONS | RECEIVERS | ENGINEERING, ELECTRICAL & ELECTRONIC | MRC PERFORMANCE | COVARIANCE-MATRIX | SYSTEMS | Computer simulation | Correlation analysis | Asymptotic properties | Mathematical analysis | Channels | Probability density functions
Fading | Wireless communication | Correlation | Error analysis | outage probability | Diversity reception | Correlated Nakagami-m fading channels | error rate | Joints | Signal to noise ratio | diversity reception | BIVARIATE RICIAN DISTRIBUTION | RAYLEIGH | ERROR RATE ANALYSIS | TRIVARIATE | INFINITE-SERIES REPRESENTATIONS | M DISTRIBUTIONS | TELECOMMUNICATIONS | RECEIVERS | ENGINEERING, ELECTRICAL & ELECTRONIC | MRC PERFORMANCE | COVARIANCE-MATRIX | SYSTEMS | Computer simulation | Correlation analysis | Asymptotic properties | Mathematical analysis | Channels | Probability density functions
Journal Article
IEEE Transactions on Wireless Communications, ISSN 1536-1276, 12/2007, Volume 6, Issue 12, pp. 4238 - 4243
A detailed performance analysis for the most important diversity receivers operating over a composite fading channel modeled by the generalized-K (Kg)...
Fading | Rayleigh scattering | Error probability | Diffraction | Diversity reception | Satellite broadcasting | Switches | Performance analysis | Mathematical model | Shadow mapping | Bit error probability (BEP) | Multipath/shadow fading | Maximal ratio combining (MRC) | Switch and stay combining (SSC) | Generalized-K distribution | Equal gain combining (EGC) | Outage probability | Selection combining (SC) | DPSK | TELECOMMUNICATIONS | RECEIVERS | generalized-K distribution | STATISTICAL-MODEL | ENGINEERING, ELECTRICAL & ELECTRONIC | PERFORMANCE ANALYSIS | DISTRIBUTIONS | selection combining (SC) | equal gain combining (EGC) | OUTAGE | bit error probability (BEP) | outage probability | switch and stay combining (SSC) | ERROR RATES | MOBILE SATELLITE CHANNELS | multipath/shadow fading | EQUAL-GAIN DIVERSITY | maximal ratio combining (MRC) | Studies | Codes | Wireless communication | Mathematical analysis | Exact solutions | Receivers | Mathematical models | Channels | Gain
Fading | Rayleigh scattering | Error probability | Diffraction | Diversity reception | Satellite broadcasting | Switches | Performance analysis | Mathematical model | Shadow mapping | Bit error probability (BEP) | Multipath/shadow fading | Maximal ratio combining (MRC) | Switch and stay combining (SSC) | Generalized-K distribution | Equal gain combining (EGC) | Outage probability | Selection combining (SC) | DPSK | TELECOMMUNICATIONS | RECEIVERS | generalized-K distribution | STATISTICAL-MODEL | ENGINEERING, ELECTRICAL & ELECTRONIC | PERFORMANCE ANALYSIS | DISTRIBUTIONS | selection combining (SC) | equal gain combining (EGC) | OUTAGE | bit error probability (BEP) | outage probability | switch and stay combining (SSC) | ERROR RATES | MOBILE SATELLITE CHANNELS | multipath/shadow fading | EQUAL-GAIN DIVERSITY | maximal ratio combining (MRC) | Studies | Codes | Wireless communication | Mathematical analysis | Exact solutions | Receivers | Mathematical models | Channels | Gain
Journal Article
American Journal of Botany, ISSN 0002-9122, 03/2016, Volume 103, Issue 3, pp. 396 - 407
PREMISE OF THE STUDY: Coflowering plants are at risk for receiving pollen from heterospecifics as well as conspecifics, yet evidence shows wide variation in...
floral specialization | diversity | heterospecific pollen | pollinator sharing | co‐flowering community | floral visitor assemblage | ecological generalization | Ecological generalization | Floral specialization | Floral visitor assemblage | Pollinator sharing | Heterospecific pollen | Diversity | Co-flowering community | FLOWER SIZE | CHARACTER DISPLACEMENT | BIODIVERSITY HOTSPOTS | PLANT SCIENCES | MEDITERRANEAN BASIN | co-flowering community | COMMUNITY STRUCTURE | FLORAL NEIGHBORHOOD | PLANT-POLLINATOR NETWORKS | REPRODUCTIVE SUCCESS | LIMITATION | Regression Analysis | Flowers - physiology | Species Specificity | Biodiversity | Pollen - physiology | Pollination - physiology | Pollen | Research | Analysis | Pollination | Biological diversity
floral specialization | diversity | heterospecific pollen | pollinator sharing | co‐flowering community | floral visitor assemblage | ecological generalization | Ecological generalization | Floral specialization | Floral visitor assemblage | Pollinator sharing | Heterospecific pollen | Diversity | Co-flowering community | FLOWER SIZE | CHARACTER DISPLACEMENT | BIODIVERSITY HOTSPOTS | PLANT SCIENCES | MEDITERRANEAN BASIN | co-flowering community | COMMUNITY STRUCTURE | FLORAL NEIGHBORHOOD | PLANT-POLLINATOR NETWORKS | REPRODUCTIVE SUCCESS | LIMITATION | Regression Analysis | Flowers - physiology | Species Specificity | Biodiversity | Pollen - physiology | Pollination - physiology | Pollen | Research | Analysis | Pollination | Biological diversity
Journal Article
IEEE Transactions on Vehicular Technology, ISSN 0018-9545, 09/2014, Volume 63, Issue 7, pp. 3209 - 3222
Performance analysis of the p-norm detector to date has been limited to ad hoc approximations, nonfading channels, and Rayleigh fading. To overcome these...
Approximation methods | Diversity reception | Detectors | Rayleigh channels | Signal to noise ratio | Convergence | diversity combining | p-norm detector | energy detector (ED) | Detection probability | false alarm probability | moment-generating function (mgf) | ALPHA-MU-DISTRIBUTION | APPROXIMATIONS | LAGUERRES SERIES | SIGNALS | SUM | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | ENERGY DETECTION | AREA | TRANSPORTATION SCIENCE & TECHNOLOGY | KAPPA-MU | Fading channels | Random noise theory | Usage | Series, Infinite | Innovations | Approximation theory | Distribution (Probability theory) | Methods | Codes | Sensors | Fading | Approximation | Mathematical analysis | Exact solutions | Inversions | Mathematical models | Acceleration | Channels
Approximation methods | Diversity reception | Detectors | Rayleigh channels | Signal to noise ratio | Convergence | diversity combining | p-norm detector | energy detector (ED) | Detection probability | false alarm probability | moment-generating function (mgf) | ALPHA-MU-DISTRIBUTION | APPROXIMATIONS | LAGUERRES SERIES | SIGNALS | SUM | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | ENERGY DETECTION | AREA | TRANSPORTATION SCIENCE & TECHNOLOGY | KAPPA-MU | Fading channels | Random noise theory | Usage | Series, Infinite | Innovations | Approximation theory | Distribution (Probability theory) | Methods | Codes | Sensors | Fading | Approximation | Mathematical analysis | Exact solutions | Inversions | Mathematical models | Acceleration | Channels
Journal Article
IEEE Transactions on Wireless Communications, ISSN 1536-1276, 09/2014, Volume 13, Issue 9, pp. 4721 - 4730
In this paper, we analyze the error probability and ergodic capacity performance for diversity reception schemes over generalized-K fading channels using a...
Fading | Wireless communication | Error probability | Diversity reception | Probability density function | Arrays | Signal to noise ratio | diversity technique | mixture gamma distribution | statistical metrics | error probability | Generalized-K fading | capacity | PERFORMANCE ANALYSIS | RATES | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Probability | Codes | Wideband communications | Errors | Error analysis | Exact solutions | Mathematical models | Probability distribution functions | Channels | Ergodic processes
Fading | Wireless communication | Error probability | Diversity reception | Probability density function | Arrays | Signal to noise ratio | diversity technique | mixture gamma distribution | statistical metrics | error probability | Generalized-K fading | capacity | PERFORMANCE ANALYSIS | RATES | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Probability | Codes | Wideband communications | Errors | Error analysis | Exact solutions | Mathematical models | Probability distribution functions | Channels | Ergodic processes
Journal Article
IEEE Transactions on Broadcasting, ISSN 0018-9316, 06/2013, Volume 59, Issue 2, pp. 306 - 316
This paper provides minimum C/N values for correct reception of DVB-T2 signals under fixed reception conditions. The C/N values are obtained after analyzing...
Antenna measurements | Transmitters | Noise | Laboratories | Urban areas | Receivers | Digital video broadcasting | Digital TV | DVB-T2 | network planning | digital video broadcasting | SIGNAL SPACE DIVERSITY | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Television broadcasting | Digital video | Standards | Innovations | Networks | Thresholds | Pilots | Broadcasting | Empirical analysis | Channels | Constellations
Antenna measurements | Transmitters | Noise | Laboratories | Urban areas | Receivers | Digital video broadcasting | Digital TV | DVB-T2 | network planning | digital video broadcasting | SIGNAL SPACE DIVERSITY | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Television broadcasting | Digital video | Standards | Innovations | Networks | Thresholds | Pilots | Broadcasting | Empirical analysis | Channels | Constellations
Journal Article
Optics Express, ISSN 1094-4087, 10/2018, Volume 26, Issue 22, pp. 28879 - 28890
This paper numerically and experimentally investigates the performance of free-space optical receiver using modes diversity coherent receipt under...
SYSTEM | QPSK | TRANSMISSION | FREQUENCY | SENSITIVITY | OPTICS | PULSE-POSITION MODULATION | RECEIVERS | SPATIAL DIVERSITY | MIRROR
SYSTEM | QPSK | TRANSMISSION | FREQUENCY | SENSITIVITY | OPTICS | PULSE-POSITION MODULATION | RECEIVERS | SPATIAL DIVERSITY | MIRROR
Journal Article
Optics Communications, ISSN 0030-4018, 12/2019, Volume 452, pp. 101 - 108
In order to reconstruct the wavefront of reception diversity atmospheric laser communication, the paper first improves the reconstructing modal method of...
Wavefront reconstruction | Atmospheric turbulence | Fractional Brownian motion | Mutual information | Reception diversity | SPACE OPTICAL COMMUNICATION | OPTICS
Wavefront reconstruction | Atmospheric turbulence | Fractional Brownian motion | Mutual information | Reception diversity | SPACE OPTICAL COMMUNICATION | OPTICS
Journal Article
IEEE Transactions on Vehicular Technology, ISSN 0018-9545, 09/2017, Volume 66, Issue 9, pp. 8103 - 8118
In this work, we investigate the performance of multicarrier index keying (MCIK) orthogonal frequency division multiplexing (OFDM) proposing a hybrid low...
Greedy detection (GD) | OFDM | multicarrier index keying (MCIK) | Diversity reception | Receiving antennas | Modulation | symbol error probability (SEP) | Complexity theory | orthogonal frequency division multiplexing (OFDM) | Indexes | SYSTEM | TRANSPORTATION SCIENCE & TECHNOLOGY | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Keying | Subcarriers | Computer simulation | Mathematical analysis | Exact solutions | Error detection | Activation | Closed form solutions | Orthogonal Frequency Division Multiplexing | Antennas | Complexity
Greedy detection (GD) | OFDM | multicarrier index keying (MCIK) | Diversity reception | Receiving antennas | Modulation | symbol error probability (SEP) | Complexity theory | orthogonal frequency division multiplexing (OFDM) | Indexes | SYSTEM | TRANSPORTATION SCIENCE & TECHNOLOGY | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Keying | Subcarriers | Computer simulation | Mathematical analysis | Exact solutions | Error detection | Activation | Closed form solutions | Orthogonal Frequency Division Multiplexing | Antennas | Complexity
Journal Article