A wireless communication network can be viewed as a collection of nodes, located in some domain, which can in turn be transmitters or receivers (depending on the network considered, nodes may be mobile users, base stations in a cellular network, access points of a WiFi mesh etc.). At a given time, several nodes transmit simultaneously, each toward its own receiver. Each transmitter–receiver pair requires its own wireless link. The signal received from the link transmitter may be jammed by the signals received from the other transmitters. Even in the simplest model where the signal power radiated from a point decays in an isotropic way with Euclidean distance, the geometry of the locations of the nodes plays a key role since it determines the signal to interference and noise ratio (SINR) at each receiver and hence the possibility of establishing simultaneously this collection of links at a given bit rate. The interference seen by a receiver is the sum of the signal powers received from all transmitters, except its own transmitter.
標(biāo)簽: Stochastic Geometry Networks Wireless Volume and II
上傳時(shí)間: 2020-06-01
上傳用戶:shancjb
An acronym for Multiple-In, Multiple-Out, MIMO communication sends the same data as several signals simultaneously through multiple antennas, while still utilizing a single radio channel. This is a form of antenna diversity, which uses multiple antennas to improve signal quality and strength of an RF link. The data is split into multiple data streams at the transmission point and recombined on the receive side by another MIMO radio configured with the same number of antennas. The receiver is designed to take into account the slight time difference between receptions of each signal, any additional noise or interference, and even lost signals.
標(biāo)簽: Understanding_the_Basics_of_MIMO
上傳時(shí)間: 2020-06-01
上傳用戶:shancjb
Wavelength division multiplexing (WDM) refers to a multiplexing and transmission scheme in optical telecommunications fibers where different wavelengths, typically emitted by several lasers, are modulated independently (i.e., they carry independent information from the transmitters to the receivers). These wavelengths are then multiplexed in the transmitter by means of passive WDM filters, and likewise they are separated or demultiplexed in the receiver by means of the same filters or coherent detection that usually involves a tunable local oscillator (laser).
標(biāo)簽: Multiplexing Wavelength Division
上傳時(shí)間: 2020-06-01
上傳用戶:shancjb
The advent of modern wireless devices, such as smart phones and MID 1 terminals, has revolutionized the way people think of personal connectivity. Such devices encompass multiple applications ranging from voice and video to high-speed data transfer via wireless networks. The voracious appetite of twenty-first century users for supporting more wireless applications on a single device is ever increasing. These devices employ multiple radios and modems that cover multiple frequency bands and multiple standards with a manifold of wireless applications often running simultaneously.
標(biāo)簽: Architectures Wireless Receiver Design and
上傳時(shí)間: 2020-06-01
上傳用戶:shancjb
This book is about global navigation satellite systems (GNSS), their two main instru- ments, which are a receiver and a simulator, and their applications. The book is based on an operational off-the-shelf real-time software GNSS receiver and off-the-shelf GNSS signalsimulator.Theacademicversionsofthesetoolsarebundledwiththisbookandfree for readers to use for study and research.
標(biāo)簽: Navigation Geophysics Satellite Digital and
上傳時(shí)間: 2020-06-09
上傳用戶:shancjb
The purpose of this book is to present detailed fundamental information on a global positioning system (GPS) receiver. Although GPS receivers are popu- larly used in every-day life, their operation principles cannot be easily found in one book. Most other types of receivers process the input signals to obtain the necessary information easily, such as in amplitude modulation (AM) and frequency modulation (FM) radios. In a GPS receiver the signal is processed to obtain the required information, which in turn is used to calculate the user position. Therefore, at least two areas of discipline, receiver technology and navigation scheme, are employed in a GPS receiver. This book covers both areas.
標(biāo)簽: Fundamentals_of_Global_Positionin g_System_Receivers
上傳時(shí)間: 2020-06-09
上傳用戶:shancjb
In this new edition of the book, only minor changes were made to the original nine chapters but three new chapters treat topics of increasing interest to GPS users and equipment developers. One topic, improving the GPS receiver sensi- tivity may extend their operations into buildings, which is becoming important for emergency rescue and urban warfare.
標(biāo)簽: Fundamentals_of_Global_Positionin g_System
上傳時(shí)間: 2020-06-09
上傳用戶:shancjb
If one examines the current literature on GPS receiver design, most of it is quite a bit above the level of the novice. It is taken for granted that the reader is already at a fairly high level of understanding and proceeds from there. This text will be an attempt to take the reader through the concepts and circuits needed to be able to understand how a GPS receiver works from the antenna to the solution of user position.
標(biāo)簽: Fundamentals_of_Global_Positionin g_System
上傳時(shí)間: 2020-06-09
上傳用戶:shancjb
Many applications have required the positioning accuracy of a Global Navigation Satellite System (GNSS). Some applications exist in environments that attenuate GNSS signals, and, consequently, the received GNSS signals become very weak. Examplesofsuchapplicationsarewirelessdevicepositioning,positioninginsensor networks that detect natural disasters, and orbit determination of geostationary and high earth orbit (HEO) satellites. Conventional GNSS receivers are not designed to work with weak signals. This book presents novel GNSS receiver algorithms that are designed to work with very weak signals.
標(biāo)簽: Receivers Signals GNSS Weak for
上傳時(shí)間: 2020-06-09
上傳用戶:shancjb
Universival Asychronous Receiver/Transmitter(通用異步串行口),UART 是一種較為通用的數(shù)據(jù)傳輸?shù)姆椒ǎ碨tart Bit+Data+Check+StopBit),而COM 口中Rx、Tx 的數(shù)據(jù)格式即為UART。UART 和RS232是兩種異步數(shù)據(jù)傳輸標(biāo)準(zhǔn).計(jì)算機(jī)中的COM1和COM2都是RS232串行通信標(biāo)準(zhǔn)接口。當(dāng)Uart 接口連到PC 機(jī)上時(shí),需要接RS232電平轉(zhuǎn)換電路。
上傳時(shí)間: 2021-11-30
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