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37-409: Signal refers to both the process and the result of transmission of data over some media accomplished by embedding some variation. Signals are important in multiple subject fields including signal processing , information theory and biology . In signal processing, a signal is a function that conveys information about a phenomenon. Any quantity that can vary over space or time can be used as

74-472: A x ] {\displaystyle x(n)=x(n+N)\quad \forall n\in [n_{0},n_{max}]} Where: T {\displaystyle T} = fundamental time period , 1 / T = f {\displaystyle 1/T=f} = fundamental frequency . The same can be applied to N {\displaystyle N} . A periodic signal will repeat for every period. Signals can be classified as continuous or discrete time . In

111-425: A microphone induces corresponding fluctuations in the current produced by a coil in an electromagnetic microphone or the voltage produced by a condenser microphone . The voltage or the current is said to be an analog of the sound. An analog signal is subject to electronic noise and distortion introduced by communication channels , recording and signal processing operations, which can progressively degrade

148-406: A sensor , and often the original form of a signal is converted to another form of energy using a transducer . For example, a microphone converts an acoustic signal to a voltage waveform, and a speaker does the reverse. Another important property of a signal is its entropy or information content . Information theory serves as the formal study of signals and their content. The information of

185-463: A digital message, or of a digitized analog signal, is known as data transmission . Examples of transmission are the sending of signals with limited duration, for example, a block or packet of data, a phone call, or an email. This article related to telecommunications is a stub . You can help Misplaced Pages by expanding it . Analog signal An analog signal ( American English ) or analogue signal ( British and Commonwealth English )

222-497: A digital signal may be considered to be the sequence of codes represented by such a physical quantity. The physical quantity may be a variable electric current or voltage, the intensity, phase or polarization of an optical or other electromagnetic field , acoustic pressure, the magnetization of a magnetic storage media, etc. Digital signals are present in all digital electronics , notably computing equipment and data transmission . With digital signals, system noise, provided it

259-449: A discrete-time signal is the sampling of a continuous signal, approximating the signal by a sequence of its values at particular time instants. If a signal is to be represented as a sequence of digital data, it is impossible to maintain exact precision – each number in the sequence must have a finite number of digits. As a result, the values of such a signal must be quantized into a finite set for practical representation. Quantization

296-466: A finite positive value, but their energy are infinite . P = lim T → ∞ 1 T ∫ − T / 2 T / 2 s 2 ( t ) d t {\displaystyle P=\lim _{T\rightarrow \infty }{\frac {1}{T}}\int _{-T/2}^{T/2}s^{2}(t)dt} Deterministic signals are those whose values at any time are predictable and can be calculated by

333-758: A fixed number of bits. The resulting stream of numbers is stored as digital data on a discrete-time and quantized-amplitude signal. Computers and other digital devices are restricted to discrete time. According to the strengths of signals, practical signals can be classified into two categories: energy signals and power signals. Energy signals: Those signals' energy are equal to a finite positive value, but their average powers are 0; 0 < E = ∫ − ∞ ∞ s 2 ( t ) d t < ∞ {\displaystyle 0<E=\int _{-\infty }^{\infty }s^{2}(t)dt<\infty } Power signals: Those signals' average power are equal to

370-466: A mathematical equation. Random signals are signals that take on random values at any given time instant and must be modeled stochastically . An even signal satisfies the condition x ( t ) = x ( − t ) {\displaystyle x(t)=x(-t)} or equivalently if the following equation holds for all t {\displaystyle t} and − t {\displaystyle -t} in

407-435: A probabilistic approach to suppressing random disturbances. Engineering disciplines such as electrical engineering have advanced the design, study, and implementation of systems involving transmission , storage , and manipulation of information. In the latter half of the 20th century, electrical engineering itself separated into several disciplines: electronic engineering and computer engineering developed to specialize in

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444-475: A remote location by a transmitter and received using radio receivers . In electrical engineering (EE) programs, signals are covered in a class and field of study known as signals and systems . Depending on the school, undergraduate EE students generally take the class as juniors or seniors, normally depending on the number and level of previous linear algebra and differential equation classes they have taken. The field studies input and output signals, and

481-466: A sequence of discrete values which can only take on one of a finite number of values. The term analog signal usually refers to electrical signals ; however, analog signals may use other mediums such as mechanical , pneumatic or hydraulic . An analog signal uses some property of the medium to convey the signal's information. For example, an aneroid barometer uses rotary position as the signal to convey pressure information. In an electrical signal,

518-418: A signal is often accompanied by noise , which primarily refers to unwanted modifications of signals, but is often extended to include unwanted signals conflicting with desired signals ( crosstalk ). The reduction of noise is covered in part under the heading of signal integrity . The separation of desired signals from background noise is the field of signal recovery , one branch of which is estimation theory ,

555-425: A signal to share messages between observers. The IEEE Transactions on Signal Processing includes audio , video , speech, image , sonar , and radar as examples of signals. A signal may also be defined as any observable change in a quantity over space or time (a time series ), even if it does not carry information. In nature, signals can be actions done by an organism to alert other organisms, ranging from

592-414: Is a subset of the field of mathematical modeling . It involves circuit analysis and design via mathematical modeling and some numerical methods, and was updated several decades ago with dynamical systems tools including differential equations, and recently, Lagrangians . Students are expected to understand the modeling tools as well as the mathematics, physics, circuit analysis, and transformations between

629-407: Is any continuous signal for which the time-varying feature of the signal is a representation of some other time varying quantity, i.e., analogous to another time varying signal. For example, in an analog audio signal , the instantaneous voltage of the signal varies continuously with the sound pressure . It differs from a digital signal , in which the continuous quantity is a representation of

666-446: Is any continuous-time signal representing some other quantity, i.e., analogous to another quantity. For example, in an analog audio signal , the instantaneous signal voltage varies continuously with the pressure of the sound waves . In contrast, a digital signal represents the original time-varying quantity as a sampled sequence of quantized values. Digital sampling imposes some bandwidth and dynamic range constraints on

703-615: Is between discrete-valued and continuous-valued. Particularly in digital signal processing , a digital signal may be defined as a sequence of discrete values, typically associated with an underlying continuous-valued physical process. In digital electronics , digital signals are the continuous-time waveform signals in a digital system, representing a bit-stream. Signals may also be categorized by their spatial distributions as either point source signals (PSSs) or distributed source signals (DSSs). In Signals and Systems, signals can be classified according to many criteria, mainly: according to

740-402: Is made by a transducer that converts the signal from its original form to a waveform expressed as a current or a voltage , or electromagnetic radiation , for example, an optical signal or radio transmission . Once expressed as an electronic signal, the signal is available for further processing by electrical devices such as electronic amplifiers and filters , and can be transmitted to

777-445: Is not too great, will not affect system operation whereas noise always degrades the operation of analog signals to some degree. Digital signals often arise via sampling of analog signals, for example, a continually fluctuating voltage on a line that can be digitized by an analog-to-digital converter circuit, wherein the circuit will read the voltage level on the line, say, every 50  microseconds and represent each reading with

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814-432: Is said to be periodic if it satisfies the condition: x ( t ) = x ( t + T ) ∀ t ∈ [ t 0 , t m a x ] {\displaystyle x(t)=x(t+T)\quad \forall t\in [t_{0},t_{max}]} or x ( n ) = x ( n + N ) ∀ n ∈ [ n 0 , n m

851-401: Is the process of converting a continuous analog audio signal to a digital signal with discrete numerical values of integers. Naturally occurring signals can be converted to electronic signals by various sensors . Examples include: Signal processing is the manipulation of signals. A common example is signal transmission between different locations. The embodiment of a signal in electrical form

888-557: Is to say, sound ) strike the diaphragm of a microphone which induces corresponding electrical fluctuations. The voltage or the current is said to be an analog of the sound. A digital signal is a signal that is constructed from a discrete set of waveforms of a physical quantity so as to represent a sequence of discrete values. A logic signal is a digital signal with only two possible values, and describes an arbitrary bit stream . Other types of digital signals can represent three-valued logic or higher valued logics. Alternatively,

925-457: The signal-to-noise ratio (SNR). As the signal is transmitted, copied, or processed, the unavoidable noise introduced in the signal path will accumulate as a generation loss , progressively and irreversibly degrading the SNR, until in extreme cases, the signal can be overwhelmed. Noise can show up as hiss and intermodulation distortion in audio signals, or snow in video signals . Generation loss

962-441: The voltage , current , or frequency of the signal may be varied to represent the information. Any information may be conveyed by an analog signal; often such a signal is a measured response to changes in physical phenomena, such as sound , light , temperature , position, or pressure . The physical variable is converted to an analog signal by a transducer . For example, in sound recording, fluctuations in air pressure (that

999-414: The voltage , current , or frequency of the signal may be varied to represent the information. Any information may be conveyed by an analog signal; such a signal may be a measured response to changes in a physical variable, such as sound , light , temperature , position, or pressure . The physical variable is converted to an analog signal by a transducer . For example, sound striking the diaphragm of

1036-691: The 8 domains. Because mechanical engineering (ME) topics like friction, dampening etc. have very close analogies in signal science (inductance, resistance, voltage, etc.), many of the tools originally used in ME transformations (Laplace and Fourier transforms, Lagrangians, sampling theory, probability, difference equations, etc.) have now been applied to signals, circuits, systems and their components, analysis and design in EE. Dynamical systems that involve noise, filtering and other random or chaotic attractors and repellers have now placed stochastic sciences and statistics between

1073-657: The EE, as well as, recently, computer engineering exams. Signal transmission In telecommunications , transmission (sometimes abbreviated as "TX") is the process of sending or propagating an analog or digital signal via a medium that is wired , wireless , or fiber-optic . Transmission system technologies typically refer to physical layer protocol duties such as modulation , demodulation , line coding , equalization , error control , bit synchronization and multiplexing , but it may also involve higher-layer protocol duties, for example, digitizing an analog signal, and data compression . Transmission of

1110-624: The design and analysis of systems that manipulate physical signals, while design engineering developed to address the functional design of signals in user–machine interfaces . Definitions specific to sub-fields are common: Signals can be categorized in various ways. The most common distinction is between discrete and continuous spaces that the functions are defined over, for example, discrete and continuous-time domains. Discrete-time signals are often referred to as time series in other fields. Continuous-time signals are often referred to as continuous signals . A second important distinction

1147-579: The different feature of values, classified into analog signals and digital signals ; according to the determinacy of signals, classified into deterministic signals and random signals; according to the strength of signals , classified into energy signals and power signals. Two main types of signals encountered in practice are analog and digital . The figure shows a digital signal that results from approximating an analog signal by its values at particular time instants. Digital signals are quantized , while analog signals are continuous. An analog signal

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1184-465: The domain of x {\displaystyle x} : An odd signal satisfies the condition x ( t ) = − x ( − t ) {\displaystyle x(t)=-x(-t)} or equivalently if the following equation holds for all t {\displaystyle t} and − t {\displaystyle -t} in the domain of x {\displaystyle x} : A signal

1221-477: The mathematical abstraction, the domain of a continuous-time signal is the set of real numbers (or some interval thereof), whereas the domain of a discrete-time (DT) signal is the set of integers (or other subsets of real numbers). What these integers represent depends on the nature of the signal; most often it is time. A continuous-time signal is any function which is defined at every time t in an interval, most commonly an infinite interval. A simple source for

1258-540: The mathematical representations between them known as systems, in four domains: time, frequency, s and z . Since signals and systems are both studied in these four domains, there are 8 major divisions of study. As an example, when working with continuous-time signals ( t ), one might transform from the time domain to a frequency or s domain; or from discrete time ( n ) to frequency or z domains. Systems also can be transformed between these domains like signals, with continuous to s and discrete to z . Signals and systems

1295-531: The more deterministic discrete and continuous functions in the field. (Deterministic as used here means signals that are completely determined as functions of time). EE taxonomists are still not decided where signals and systems falls within the whole field of signal processing vs. circuit analysis and mathematical modeling, but the common link of the topics that are covered in the course of study has brightened boundaries with dozens of books, journals, etc. called "Signals and Systems", and used as text and test prep for

1332-462: The release of plant chemicals to warn nearby plants of a predator, to sounds or motions made by animals to alert other animals of food. Signaling occurs in all organisms even at cellular levels, with cell signaling . Signaling theory , in evolutionary biology , proposes that a substantial driver for evolution is the ability of animals to communicate with each other by developing ways of signaling. In human engineering, signals are typically provided by

1369-449: The representation and adds quantization error . The term analog signal usually refers to electrical signals; however, mechanical , pneumatic , hydraulic , and other systems may also convey or be considered analog signals. An analog signal uses some property of the medium to convey the signal's information. For example, an aneroid barometer uses rotary position as the signal to convey pressure information. In an electrical signal,

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