IEEE Transactions on Vehicular Technology, ISSN 0018-9545, 01/2007, Volume 56, Issue 1, pp. 27 - 34

This paper introduces a fading model, which explores the nonlinearity of the propagation medium. It derives the corresponding fading distribution-the alpha-mu...

Rayleigh scattering | Weibull fading channels | Rayleigh channels | Generalized Gamma distribution | Nakagami-m distribution | Land mobile radio | Stacy distribution | Nakagami distribution | alpha - mu distribution | Statistical distributions | Probability density function | Weibull distribution | Higher order statistics | Propagation delay | alpha-mu distribution | generalized Gamma distribution | STATISTICS | TRANSPORTATION SCIENCE & TECHNOLOGY | RADIO | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Fading | Correlation | Mathematical analysis | Exact solutions | Gaussian | Mathematical models | Statistics | Probability density functions

Rayleigh scattering | Weibull fading channels | Rayleigh channels | Generalized Gamma distribution | Nakagami-m distribution | Land mobile radio | Stacy distribution | Nakagami distribution | alpha - mu distribution | Statistical distributions | Probability density function | Weibull distribution | Higher order statistics | Propagation delay | alpha-mu distribution | generalized Gamma distribution | STATISTICS | TRANSPORTATION SCIENCE & TECHNOLOGY | RADIO | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Fading | Correlation | Mathematical analysis | Exact solutions | Gaussian | Mathematical models | Statistics | Probability density functions

Journal Article

IEEE Antennas and Wireless Propagation Letters, ISSN 1536-1225, 2017, Volume 16, pp. 104 - 108

In this letter, the performance of an energy detection (ED) is analyzed over different composite generalized multipath/gamma fading channels, namely, κ -...

Fading channels | κ −μ | Receivers | η −μ | α −μ | MATLAB | Analytical models | Energy detection | gamma distribution | mixture gamma distribution | Numerical models | Erbium | Signal to noise ratio | alpha - mu | PERFORMANCE | UNKNOWN SIGNALS | kappa - mu | MU-DISTRIBUTION | TELECOMMUNICATIONS | eta - mu | ENGINEERING, ELECTRICAL & ELECTRONIC

Fading channels | κ −μ | Receivers | η −μ | α −μ | MATLAB | Analytical models | Energy detection | gamma distribution | mixture gamma distribution | Numerical models | Erbium | Signal to noise ratio | alpha - mu | PERFORMANCE | UNKNOWN SIGNALS | kappa - mu | MU-DISTRIBUTION | TELECOMMUNICATIONS | eta - mu | ENGINEERING, ELECTRICAL & ELECTRONIC

Journal Article

IEEE Transactions on Communications, ISSN 0090-6778, 03/2018, Volume 66, Issue 3, pp. 1284 - 1295

This paper presents exact, novel formulations for the probability density function and cumulative distribution function for the product of two independent and...

Fox H-function | multipath | Rayleigh channels | η-μ distribution | Shadow mapping | α-μ distribution | shadowing | Wireless communication | outage probability | κ-μ distribution | cascaded channel | Probability density function | MIMO | Mathematical model | eta-mu distribution | kappa-mu distribution | MODEL | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | alpha-mu distribution | SHADOWING DISTRIBUTION | CAPACITIES | MULTIELEMENT TRANSMIT | Fading | Formulations | Wireless communications | Computer simulation | Performance measurement | Monte Carlo simulation | Probability density functions | Distribution functions

Fox H-function | multipath | Rayleigh channels | η-μ distribution | Shadow mapping | α-μ distribution | shadowing | Wireless communication | outage probability | κ-μ distribution | cascaded channel | Probability density function | MIMO | Mathematical model | eta-mu distribution | kappa-mu distribution | MODEL | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | alpha-mu distribution | SHADOWING DISTRIBUTION | CAPACITIES | MULTIELEMENT TRANSMIT | Fading | Formulations | Wireless communications | Computer simulation | Performance measurement | Monte Carlo simulation | Probability density functions | Distribution functions

Journal Article

IEEE Transactions on Vehicular Technology, ISSN 0018-9545, 10/2011, Volume 60, Issue 8, pp. 4063 - 4070

Correlation among channels is a physical phenomenon that affects the performance of a wireless communication system and that cannot be neglected in a myriad of...

Fading | Wireless communication | Correlation | alpha - mu distribution | diversity methods | joint distributions | Receivers | correlated fading | Approximation methods | Joints | Convergence | alpha-mu distribution | ARBITRARY CORRELATION | RAYLEIGH | NAKAGAMI-M DISTRIBUTION | TRANSPORTATION SCIENCE & TECHNOLOGY | FADING PARAMETERS | DIVERSITY | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Approximation | Mathematical analysis | Mathematical models | Density | Statistics | Distribution functions

Fading | Wireless communication | Correlation | alpha - mu distribution | diversity methods | joint distributions | Receivers | correlated fading | Approximation methods | Joints | Convergence | alpha-mu distribution | ARBITRARY CORRELATION | RAYLEIGH | NAKAGAMI-M DISTRIBUTION | TRANSPORTATION SCIENCE & TECHNOLOGY | FADING PARAMETERS | DIVERSITY | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Approximation | Mathematical analysis | Mathematical models | Density | Statistics | Distribution functions

Journal Article

IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, ISSN 1536-1276, 01/2010, Volume 9, Issue 1, pp. 45 - 50

An infinite series formulation for the multivariate alpha-mu joint probability density function with arbitrary correlation matrix and non-identically...

alpha-mu distribution | diversity systems | Correlated fading | Nakagami-m fading | NAKAGAMI-M DISTRIBUTION | FADING PARAMETERS | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Wireless communication | Outages | Correlation | Approximation | Mathematical analysis | Exact solutions | Probability density functions | Distribution functions

alpha-mu distribution | diversity systems | Correlated fading | Nakagami-m fading | NAKAGAMI-M DISTRIBUTION | FADING PARAMETERS | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Wireless communication | Outages | Correlation | Approximation | Mathematical analysis | Exact solutions | Probability density functions | Distribution functions

Journal Article

AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS, ISSN 1434-8411, 2016, Volume 70, Issue 9, pp. 1211 - 1218

This paper presents general and simple closed-form expressions for the PDF and CDF of the alpha-mu/alpha-mu composite fading distribution. These expressions...

alpha-mu distribution | CAPACITY | ERROR RATE | Multi-path fading | Composite fading channels | TELECOMMUNICATIONS | Shadowing | FADING CHANNELS | ENGINEERING, ELECTRICAL & ELECTRONIC

alpha-mu distribution | CAPACITY | ERROR RATE | Multi-path fading | Composite fading channels | TELECOMMUNICATIONS | Shadowing | FADING CHANNELS | ENGINEERING, ELECTRICAL & ELECTRONIC

Journal Article

IEEE COMMUNICATIONS LETTERS, ISSN 1089-7798, 06/2009, Volume 13, Issue 6, pp. 411 - 413

In this letter, we consider the alpha-mu channel fading model and we evaluate the moment generating function (MGF) for the probability density function...

multipath fading | outage probability | Generalized fading distribution | the alpha-mu channel fading model | average bit error rate | moment generating function (MGF) | TELECOMMUNICATIONS

multipath fading | outage probability | Generalized fading distribution | the alpha-mu channel fading model | average bit error rate | moment generating function (MGF) | TELECOMMUNICATIONS

Journal Article

OPTICS COMMUNICATIONS, ISSN 0030-4018, 06/2018, Volume 416, pp. 117 - 124

In this paper, we have analyzed the performance of dual hop radio frequency (RF)/free-space optical (FSO) fixed gain relay environment confined by atmospheric...

PERFORMANCE ANALYSIS | POINTING ERRORS | alpha - mu distribution | PROBABILITY | BER PERFORMANCE | Free space optical communication | FSO SYSTEM | LINKS | Bivariate H-function | MODEL | OPTICS | Meijer-G function

PERFORMANCE ANALYSIS | POINTING ERRORS | alpha - mu distribution | PROBABILITY | BER PERFORMANCE | Free space optical communication | FSO SYSTEM | LINKS | Bivariate H-function | MODEL | OPTICS | Meijer-G function

Journal Article

IEEE Access, ISSN 2169-3536, 2019, Volume 7, pp. 54449 - 54463

In this paper, new, exact expressions for the probability density functions and the cumulative distribution functions of the ratio of random envelopes...

Fading channels | Closed-form solutions | Bit error rate | η-μ distribution | multihop systems | α-μ distribution | Wireless communication | κ-μ distribution | D2D | spectrum sensing | Probability density function | V2V | Distribution functions | Signal to noise ratio | spectrum sharing | eta-mu distribution | kappa-mu distribution | COMPUTER SCIENCE, INFORMATION SYSTEMS | OUTAGE PROBABILITY | CAPACITY ANALYSIS | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | alpha-mu distribution | MU/ETA-MU | NUMERICAL-INTEGRATION | INTERFERENCE | FADING CHANNELS

Fading channels | Closed-form solutions | Bit error rate | η-μ distribution | multihop systems | α-μ distribution | Wireless communication | κ-μ distribution | D2D | spectrum sensing | Probability density function | V2V | Distribution functions | Signal to noise ratio | spectrum sharing | eta-mu distribution | kappa-mu distribution | COMPUTER SCIENCE, INFORMATION SYSTEMS | OUTAGE PROBABILITY | CAPACITY ANALYSIS | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | alpha-mu distribution | MU/ETA-MU | NUMERICAL-INTEGRATION | INTERFERENCE | FADING CHANNELS

Journal Article

IEEE Photonics Technology Letters, ISSN 1041-1135, 07/2011, Volume 23, Issue 13, pp. 839 - 841

In this letter, we propose a simple accurate closed-form approximation to the probability density function (pdf) of the sum of independent, identically...

Fading | multiple-input multiple-output (MIMO) systems | Atmospheric measurements | Atmospheric modeling | alpha-\mu distribution | Receivers | Apertures | MIMO | Free-space optics (FSO) | gamma-gamma (G-G) distribution | Approximation methods | alpha-mu; distribution | gammagamma (G-G) distribution | alpha-mu distribution | PHYSICS, APPLIED | PERFORMANCE | CHANNELS | OPTICS | ENGINEERING, ELECTRICAL & ELECTRONIC | Optical fibers | Approximation | Conferences | Mathematical analysis | Exact solutions | Mathematical models | Probability density functions | Fiber optics

Fading | multiple-input multiple-output (MIMO) systems | Atmospheric measurements | Atmospheric modeling | alpha-\mu distribution | Receivers | Apertures | MIMO | Free-space optics (FSO) | gamma-gamma (G-G) distribution | Approximation methods | alpha-mu; distribution | gammagamma (G-G) distribution | alpha-mu distribution | PHYSICS, APPLIED | PERFORMANCE | CHANNELS | OPTICS | ENGINEERING, ELECTRICAL & ELECTRONIC | Optical fibers | Approximation | Conferences | Mathematical analysis | Exact solutions | Mathematical models | Probability density functions | Fiber optics

Journal Article

11.
Full Text
Approximation to independent lognormal sum with alpha-mu distribution and the application

SIGNAL PROCESSING, ISSN 0165-1684, 06/2015, Volume 111, pp. 165 - 169

This paper considers the statistical distribution of the sum of independent and possibly non-identically distributed lognormal random variables (RVs). The...

Maximal ratio combining | Average bit error probability | alpha-mu approximation | Sum of lognormal random variables | CLOSED-FORM APPROXIMATIONS | PERFORMANCE | Independent and possibly non-identically distributed | ENGINEERING, ELECTRICAL & ELECTRONIC

Maximal ratio combining | Average bit error probability | alpha-mu approximation | Sum of lognormal random variables | CLOSED-FORM APPROXIMATIONS | PERFORMANCE | Independent and possibly non-identically distributed | ENGINEERING, ELECTRICAL & ELECTRONIC

Journal Article

12.
Full Text
On the distribution of GPS signal amplitudes during low-latitude ionospheric scintillation

GPS Solutions, ISSN 1080-5370, 10/2013, Volume 17, Issue 4, pp. 499 - 510

Ionospheric scintillations are fluctuations in the phase and/or amplitude of trans-ionospheric radio signals caused by electron density irregularities in the...

Ionospheric scintillation | α–μ distribution | Earth Sciences | Extraterrestrial Physics, Space Sciences | Automotive Engineering | Geophysics/Geodesy | Atmospheric Sciences | Propagation channel modeling | Electrical Engineering | Fading distributions | α-μ distribution | alpha-mu distribution | SPREAD-F | REMOTE SENSING | SATELLITE | STATISTICS | MODEL | LOOPS | PHASE TRACKING | Ionosphere | Global Positioning System | Navigation

Ionospheric scintillation | α–μ distribution | Earth Sciences | Extraterrestrial Physics, Space Sciences | Automotive Engineering | Geophysics/Geodesy | Atmospheric Sciences | Propagation channel modeling | Electrical Engineering | Fading distributions | α-μ distribution | alpha-mu distribution | SPREAD-F | REMOTE SENSING | SATELLITE | STATISTICS | MODEL | LOOPS | PHASE TRACKING | Ionosphere | Global Positioning System | Navigation

Journal Article

IEEE Transactions on Vehicular Technology, ISSN 0018-9545, 10/2009, Volume 58, Issue 8, pp. 3988 - 3999

We derive new unified probability density function (pdf) formulas based on the generalized Laguerre polynomial series expansion that cover a wide range of...

multiple-waves-plus-diffuse-power (MWDP) | Error analysis | Weibull | alpha - mu (Stacy) | kappa - mu distributions | Generalized Laguerre polynomial series expansion | Rayleigh channels | Weibull fading channels | Rician | Nakagami | sum of multiple sinusoids plus Gaussian noise | Nakagami distribution | Wireless communication | unified distribution | Rician channels | Probability density function | sum of random vectors | Polynomials | Random variables | small-scale fading | Distribution functions | Rayleigh | Multiple-waves-plus-diffuse-power (MWDP) | Sum of multiple sinusoids plus Gaussian noise | Unified distribution | α-mu; (Stacy), κ-μ distributions | Small-scale fading | Sum of random vectors | GAUSSIAN-NOISE | kappa-mu distributions | SUM | alpha-mu (Stacy) | MODEL | TELECOMMUNICATIONS | PROBABILITY DENSITY-FUNCTIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | TRANSPORTATION SCIENCE & TECHNOLOGY | STATISTICAL PROPERTIES | MU-DISTRIBUTION | VECTORS | WIRELESS COMMUNICATIONS | Usage | Random noise theory | Laguerre polynomials | Electromagnetic waves | Scattering | Research | Observations | Studies | Wireless communications | Fading | Envelopes | Mathematical analysis | Series expansion | Truncation errors | Probability density functions

multiple-waves-plus-diffuse-power (MWDP) | Error analysis | Weibull | alpha - mu (Stacy) | kappa - mu distributions | Generalized Laguerre polynomial series expansion | Rayleigh channels | Weibull fading channels | Rician | Nakagami | sum of multiple sinusoids plus Gaussian noise | Nakagami distribution | Wireless communication | unified distribution | Rician channels | Probability density function | sum of random vectors | Polynomials | Random variables | small-scale fading | Distribution functions | Rayleigh | Multiple-waves-plus-diffuse-power (MWDP) | Sum of multiple sinusoids plus Gaussian noise | Unified distribution | α-mu; (Stacy), κ-μ distributions | Small-scale fading | Sum of random vectors | GAUSSIAN-NOISE | kappa-mu distributions | SUM | alpha-mu (Stacy) | MODEL | TELECOMMUNICATIONS | PROBABILITY DENSITY-FUNCTIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | TRANSPORTATION SCIENCE & TECHNOLOGY | STATISTICAL PROPERTIES | MU-DISTRIBUTION | VECTORS | WIRELESS COMMUNICATIONS | Usage | Random noise theory | Laguerre polynomials | Electromagnetic waves | Scattering | Research | Observations | Studies | Wireless communications | Fading | Envelopes | Mathematical analysis | Series expansion | Truncation errors | Probability density functions

Journal Article

Radioengineering, ISSN 1210-2512, 12/2012, Volume 21, Issue 4, pp. 1156 - 1162

The distributions of random variables are of interest in many areas of science. In this paper, ascertaining on the importance of multi-hop transmission in...

Fading | Α-μ distribution | Multi-hop technique | Ratios of random variables | Rayleigh distribution | Nakagami-m distribution | Rician distribution | Weibull distribution | multi-hop technique | ratios of random variables | ENGINEERING, ELECTRICAL & ELECTRONIC | alpha-mu distribution | PERFORMANCE ANALYSIS | TRANSMISSION | SELECTION DIVERSITY | BOUNDS | WEIBULL FADING CHANNELS | RELAYS | α-µ distribution

Fading | Α-μ distribution | Multi-hop technique | Ratios of random variables | Rayleigh distribution | Nakagami-m distribution | Rician distribution | Weibull distribution | multi-hop technique | ratios of random variables | ENGINEERING, ELECTRICAL & ELECTRONIC | alpha-mu distribution | PERFORMANCE ANALYSIS | TRANSMISSION | SELECTION DIVERSITY | BOUNDS | WEIBULL FADING CHANNELS | RELAYS | α-µ distribution

Journal Article

15.
Full Text
Multiuser diversity for mixed RF/FSO cooperative relaying in the presence of interference

Optics Communications, ISSN 0030-4018, 07/2019, Volume 442, pp. 77 - 83

This paper presents the performance of multiuser diversity over mixed radio frequency / free space optical (RF/FSO) relay network in presence of co-channel...

Free-space optical (FSO) communication | Multiuser diversity | [formula omitted]-[formula omitted] distribution | Fox’s H-functions | Interference | alpha-mu distribution | PERFORMANCE ANALYSIS | Fox's H-functions | SYSTEMS | OPTICS | Monte Carlo method | Turbulence

Free-space optical (FSO) communication | Multiuser diversity | [formula omitted]-[formula omitted] distribution | Fox’s H-functions | Interference | alpha-mu distribution | PERFORMANCE ANALYSIS | Fox's H-functions | SYSTEMS | OPTICS | Monte Carlo method | Turbulence

Journal Article

Optics Communications, ISSN 0030-4018, 12/2015, Volume 356, pp. 530 - 535

The performance of multiple-input multiple-output free space optical (MIMO-FSO) communication systems, that adopt multipulse pulse position modulation (MPPM)...

Free-space optics | gamma-gamma channels | Multiple-input multiple-output (MIMO) | Shot-noise limited receivers | [formula omitted] distribution | Multi-pulse pulse-position modulation (MPPM) | α-μ distribution | alpha-mu distribution | PERFORMANCE ANALYSIS | TRANSMISSION | MULTIPULSE PPM | SPACE OPTICAL COMMUNICATION | OPTICS | RECEIVERS | Turbulence | Analysis | MIMO communications

Free-space optics | gamma-gamma channels | Multiple-input multiple-output (MIMO) | Shot-noise limited receivers | [formula omitted] distribution | Multi-pulse pulse-position modulation (MPPM) | α-μ distribution | alpha-mu distribution | PERFORMANCE ANALYSIS | TRANSMISSION | MULTIPULSE PPM | SPACE OPTICAL COMMUNICATION | OPTICS | RECEIVERS | Turbulence | Analysis | MIMO communications

Journal Article

WIRELESS PERSONAL COMMUNICATIONS, ISSN 0929-6212, 04/2011, Volume 57, Issue 4, pp. 735 - 751

In this paper, a general small-scale fading model for wireless communications, that explores the nonlinearity and at the same time the inhomogeneous nature of...

Fading channels | Correlation | CHANNELS | alpha-mu ' Distribution | Nakagami-m distribution | MODEL | TELECOMMUNICATIONS | Weibull distribution

Fading channels | Correlation | CHANNELS | alpha-mu ' Distribution | Nakagami-m distribution | MODEL | TELECOMMUNICATIONS | Weibull distribution

Journal Article

IEEE Transactions on Communications, ISSN 0090-6778, 09/2019, Volume 67, Issue 9, pp. 6483 - 6498

This paper investigates the secrecy performance of multiple-input multiple-output systems under generalized \alpha...

Wireless communication | MIMO systems | transmit antenna selection | secrecy performance | Transmitting antennas | Rayleigh channels | α–μ fading distribution | maximal-ratio combining | physical layer security | Security | MIMO communication | alpha-mu fading distribution | SECRECY CAPACITY ANALYSIS | KAPPA | PERFORMANCE | WIRETAP CHANNELS | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC

Wireless communication | MIMO systems | transmit antenna selection | secrecy performance | Transmitting antennas | Rayleigh channels | α–μ fading distribution | maximal-ratio combining | physical layer security | Security | MIMO communication | alpha-mu fading distribution | SECRECY CAPACITY ANALYSIS | KAPPA | PERFORMANCE | WIRETAP CHANNELS | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC

Journal Article

19.
Full Text
Composite \alpha-\mu Based DSRC Channel Model Using Large Data Set of RSSI Measurements

IEEE Transactions on Intelligent Transportation Systems, ISSN 1524-9050, 01/2019, Volume 20, Issue 1, pp. 205 - 217

Channel modeling is essential for design and performance evaluation of numerous protocols in vehicular networks. In this paper, we study and provide results...

Fading channels | Road transportation | Wireless communication | Transmitters | channel modeling | Kolmogorov-Smirnov test | Receivers | Vehicular networks | two-ray path-loss model | α–μ fading distribution | Channel models | Shadow mapping | VEHICLE | PARAMETER-ESTIMATION | ENGINEERING, ELECTRICAL & ELECTRONIC | BAND CHANNEL | ENGINEERING, CIVIL | TRANSPORTATION SCIENCE & TECHNOLOGY | SYSTEMS | alpha - mu fading distribution | MOMENTS

Fading channels | Road transportation | Wireless communication | Transmitters | channel modeling | Kolmogorov-Smirnov test | Receivers | Vehicular networks | two-ray path-loss model | α–μ fading distribution | Channel models | Shadow mapping | VEHICLE | PARAMETER-ESTIMATION | ENGINEERING, ELECTRICAL & ELECTRONIC | BAND CHANNEL | ENGINEERING, CIVIL | TRANSPORTATION SCIENCE & TECHNOLOGY | SYSTEMS | alpha - mu fading distribution | MOMENTS

Journal Article

20.
Full Text
Study of ionospheric scintillation characteristics in Australia with GNSS during 2011–2015

Advances in Space Research, ISSN 0273-1177, 06/2017, Volume 59, Issue 12, pp. 2909 - 2922

Ionospheric scintillation has a great impact on radio propagation and electronic system performance, thus is extensively studied currently. The influence of...

Ionospheric scintillation | Scintillation intensity | Nakagami-m | α-μ distribution | DISTURBANCES | STATISTICS | SOLAR MAXIMUM | alpha-mu distribution | MINIMUM | GEOSCIENCES, MULTIDISCIPLINARY | PATTERN | ASTRONOMY & ASTROPHYSICS | TRACKING | METEOROLOGY & ATMOSPHERIC SCIENCES | LATITUDE | Analysis | Ionosphere | Weather | Artificial satellites | Green technology

Ionospheric scintillation | Scintillation intensity | Nakagami-m | α-μ distribution | DISTURBANCES | STATISTICS | SOLAR MAXIMUM | alpha-mu distribution | MINIMUM | GEOSCIENCES, MULTIDISCIPLINARY | PATTERN | ASTRONOMY & ASTROPHYSICS | TRACKING | METEOROLOGY & ATMOSPHERIC SCIENCES | LATITUDE | Analysis | Ionosphere | Weather | Artificial satellites | Green technology

Journal Article

No results were found for your search.

Cannot display more than 1000 results, please narrow the terms of your search.