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34 results about "Neyman pearson" patented technology

Then, the Neyman–Pearson lemma states that the likelihood ratio, (), is the most powerful test at significance level α. If the test is most powerful for all ∈, it is said to be uniformly most powerful (UMP) for alternatives in the set .

Epilepsia electroencephalogram signal classified detection device and method

The invention discloses an epilepsia electroencephalogram signal classified detection device which comprises a module for carrying out small wave analysis on a normal electroencephalogram signal and an epilepsia electroencephalogram signal, a module for calculating approximate entropy of each layer of detailed signal obtained after small wave decomposition of the small wave analysis device, and a module for further carrying out classified detection utilizing a Neyman-Pearson criteria. According to the invention, various different types of epilepsia activities are distinguished from the obtained epilepsia signal by clinical data, electroencephalogram signal characteristics are extracted by a small wave analysis and approximate entropy combined mode, judgment and detection are carried out by the NEYMAN-PEARSON criteria, and as compared with the obtained result with unclassified detection result, the detection rate of the epilepsia electrical activity of brain is improved.
Owner:SHANGHAI NORMAL UNIVERSITY

Method for determining quality of iris image based on machine learning

The invention discloses a method for determining the quality of an iris image based on machine learning. The method comprises the following steps of: pre-processing the iris image; extracting quality factors of the iris image; fitting probability density functions of positive and negative samples of single quality factors by using multiple Gaussian models; performing fusion by using an improved Neyman-Pearson method to acquire the quality score of the iris image; and determining an optimal quality level by a hypothesis testing method. The invention provides a robust detecting method aiming at defocusing, motion blur and heterotropia; and multiple quality factors are fused by introducing the Neyman-Pearson method to form the quality score, and the image quality level with statistical significance is acquired by the hypothesis testing method. The method can be used for quality determination when the iris image is acquired and performance prediction aiming at a recognition algorithm.
Owner:INST OF AUTOMATION CHINESE ACAD OF SCI

SAR image variation detecting method based on two-dimension gamma distribution

The invention provides a method for detecting SAR image change based on two-dimensional Gamma distribution, comprising the following steps: according to the input SAR image to be detected and reference image data, the parameters of the two-dimensional Gamma distribution is estimated by a moment estimation method; likelihood ratio statistics are formed by Neyman-Pearson criterion; based on the two-dimensional distribution, clutter suppression is carried out according to the dependency of the image data, thus gaining the image after clutter suppression; CFAR normalization is carried out on the image after clutter suppression; furthermore, global thresholds are set so as to binarize the image, thus obtaining an initial detection result; the binary image after detection is processed morphologically, counting-filtered, and target-clustered so as to further eliminate isolated false alarm points, thus gaining the final detection result. The method reaches higher detection rate based on the low false alarm point, and is applicable to detect artificial objects under various clutter environments, more especially under the strong clutter environments.
Owner:BEIHANG UNIV +1

Anti-jamming Effectiveness Evaluation Method of Radar Network Based on Geometric Distribution Curve of Detection Probability

InactiveCN102298140AIntuitive measure of noise immunityMeasuring Noise ImmunityWave based measurement systemsSurvivabilitySignal-to-noise ratio (imaging)
The invention discloses a radar network anti-jamming efficiency evaluation method based on a detection probability geometric distribution curve, which belongs to the field of radar data processing. Considering that the radar network is faced with various complex interferences during wartime, evaluating the anti-jamming capability of the radar network is an urgent task for the construction of the current radar network and the improvement of the combat capability and survivability of the radar network. The present invention is based on solving such problems. First, a series of equally spaced points are selected in the Cartesian coordinate system with each radar in the network as the center, and converted to the polar coordinate system, and then the signal-to-noise ratio of each point is calculated in the polar coordinate system to obtain the detection probability of each point , and finally use rank K rule or Neyman-Pearson criterion in the distributed detection center of the radar network to fuse the detections of each radar, calculate the total detection probability and connect the points with the same detection probability to obtain the geometric distribution curve of the detection probability of the radar network .
Owner:NAVAL AERONAUTICAL & ASTRONAUTICAL UNIV PLA

System and method for diagnosing pathologic heart conditions

A method of diagnosing pathologic heart conditions in which a time series of heart sounds is filtered and parsed into a sequence of individual heart cycles. A systolic interval as well as systolic sub-intervals are identified for each heart cycle. The systolic intervals and ECG peaks are then digitally filtered to optimize for click detection. For each heartcycle, systole time limits are determined, a time series of the transform at specific wavelet scales are input to a Neyman-Pearson “constant false alarm rate” (CFAR) detector to identify anomalously high wavelet coefficients, and a vector of detections vs. time is created. The series of anomalously high detections (one series for each heart cycle) are then assembled into a matrix and convolved with an averaging vector yielding detection statistics across heart cycles and time intervals consistent with an observed spread of click occurrence times. A click score is then determined as the maximum element of the vector formed by the median wavelet coefficient amplitude across heart cycles squared at each time sample multiplied element-wise by the vector formed by the sum across heart cycles of the number of detections at each time sample. The click score is compared to a threshold value set by a desired probability of detection vs. a probability of false alarm tradeoff. If the click score is less than the threshold then a “no click” indicator is displayed. If the click score is greater than the threshold then a “click present” indicator is displayed.
Owner:THE JOHN HOPKINS UNIV SCHOOL OF MEDICINE

Method for detecting multi-station radar signal fusion based on Neyman-Pearson rule digitalizing

The invention belongs to the technical field of radar and discloses a method for detecting multi-station radar signal fusion based on Neyman-Pearson rule digitalizing. The method comprises the following steps: arranging a multi-station radar system, including a signal fusion detection center and N radar stations; confirming a digitalizing bit b for a received echo signal by each radar station, thereby acquiring the quantity of digitalizing zones: M=2b; giving a false alarm probability of the signal fusion detection center and confirming the digital thresholds of the N radar stations; digitalizing the echo signal by the N radar stations according to the respective digital thresholds and transmitting a corresponding mark after the digitalizing to the signal fusion detection center; detecting a target by the signal fusion detection center according to the false alarm probability and the corresponding mark after the digitalizing for the echo signal by the N radar stations; and reducing the communication bandwidth required when the radar station echo signal is transmitted to the signal fusion detection center.
Owner:XIDIAN UNIV

Spectrum detection method based on number of multi taper method-singular value decomposition (MTM-SVD) adaptive sensor

The invention discloses a spectrum detection method based on the number of MTM-SVD adaptive sensor, and relates to the technical field of cognitive radio spectrum detection method. The MTM-SVD spectrum detection technology has the advantages that the prior information of a primary user is not needed, the detection and the reconstruction of signals submerged in colour noises are processed effectively, algorithm velocity is fast and the like, so the method of the invention can derive a threshold formula according to Neyman-Pearson standard based on MTM-SVD algorithm and determine the optimal number of real needed sensors. The receiving signals on each sensor are sampled, the characteristic spectrum of each sampled signal is calculated, and a new judgment amount TM(fi) is calculated according to the obtained characteristic spectrum; the new judgment amount TM(fi) is compared with a threshold th satisfying a false-alarm probability Pf to judge whether the spectrum is occupied or not. Compared with traditional energy detection, the method of the invention reduces the complexity of system while detecting the signal of the primary user correctively.
Owner:SHANGHAI NORMAL UNIVERSITY

Method and apparatus for providing signal analysis of a bionems resonator or transducer

An outputs signal, v(t), is generated from a bioNEMs transducer and mixed with a reference signal and then filtered to generate a correlator output, r(t). The correlator output is detected to generate a signal u(t) and then determined whether the signal u(t) satisfies a predetermined threshold. If qualified, it is then decided whether the signal u(t) represents a predetermined type of interaction between a free ligand in a fluid in which the NEMS device is immersed and a receptor attached to the transducer. The threshold is the Neyman-Pearson criterion based on a predetermined probability of false detection, Pfa. The interaction may be binding of a free ligand to the receptor or releasing a bound ligand from the receptor by competitive binding with the free ligand. The step of detecting comprises detecting the envelope of the signal, r(t).
Owner:CALIFORNIA INST OF TECH

Carrier sensing, signal quality and link quality in a receiver

In a receiver, two low-pass equivalent signal detection criterions when the timing, phase and amplitude of the received signal are known and unknown, respectively, are provided for the detection of the presence of a Barker sequence in a received signal by Neyman-Pearson hypothesis testing rule. In addition, signal quality and link quality to measure the current quality of environments for signal reception are provided by the employment of a differential decoder and a Viterbi decoder in the baseband receiver.
Owner:MEDIATEK INC

Neyman-Pearson criterion-based zero speed detection method

InactiveCN103499354AOvercome the disadvantage of low accuracyImprove stabilityMeasurement devicesHypothesisMathematical model
The invention discloses a Neyman-Pearson criterion-based zero speed detection method, which comprises the following steps of receiving measured information output by sensors in real time during footstep motions in a single-soldier navigation system by using a handheld computer; determining a window function N according to system sampling frequency and data transmission speed; converting a zero speed detection problem into a modeled mathematical problem by utilizing a double-hypothesis testing theory, and obtaining a Neyman-Pearson criterion-based zero detection inequality; determining mathematical models of output signals of miniature inertia measurement unit sensors and received signals of the handheld computer; calculating a joint probability density function of the output signals of the miniature inertia measurement unit sensors; replacing unknown elements in the inequality with maximum likelihood estimation values of unknown signal elements to obtain an extensive probability likelihood ratio inequality; and substituting the output data of a miniature inertia measurement unit into the extensive probability likelihood ratio inequality, and further detecting a zero speed state. According to the method, problems are mathematized and modeled, and the detection accuracy is improved.
Owner:HARBIN ENG UNIV

Anomalous sound detection apparatus, degree-of-anomaly calculation apparatus, anomalous sound generation apparatus, anomalous sound detection training apparatus, anomalous signal detection apparatus, anomalous signal detection training apparatus, and methods and programs therefor

To provide an anomalous sound detection training technique by which a feature amount extraction function for detecting anomalous sound can be generated irrespective of whether training data for anomalous signals is available or not. An anomalous sound detection training apparatus includes: a first function updating unit 3 that updates a feature amount extraction function and an feature amount inverse transformation function, which are input, based on an optimization index of a variational autoencoder; an acoustic feature extraction unit 4 that extracts an acoustic feature of normal sound based on training data for normal sound; a normal sound model updating unit 5 that updates a normal sound model by using the acoustic feature that is extracted; a threshold updating unit 6 that obtains a threshold φρ corresponding to a false positive rate ρ, which has a predetermined value, by using the training data for normal sound and the feature amount extraction function that is input; and a second function updating unit 8 that updates the feature amount extraction function that is updated, based on a Neyman-Pearson-type optimization index defined by the threshold φρ that is obtained, and repeatedly performs processing of each of the above-mentioned units.
Owner:NIPPON TELEGRAPH & TELEPHONE CORP

Waveform optimization method of static clutter environment moving target detection based on priori knowledge

The invention provides a waveform optimization method of static clutter environment moving target detection based on priori knowledge. The waveform optimization method of static clutter environment moving target detection based on priori knowledge can utilize the priori knowledge to obtain the priori information of target response and clutter response, can determine the moving target echo signal model, can design a transmitted waveform frequency domain according to the Neyman-Pearson criterion so as to optimize the waveform, facing the moving target, based on the verification and measurement ratio, can analyze different noise types, can design the optimum transmitted waveform energy spectrum ESD, and then can perform inverse transformation on the time domain for the next impulse transmission. Therefore, in the same false alarm probability, the detection probability facing the moving target can achieve maximum.
Owner:SHANGHAI RADIO EQUIP RES INST

Energy detection method based on p-power wireless cooperative spectrum sensing

The invention discloses an energy detection method based on p-power wireless cooperative spectrum sensing. The energy detection method includes the following steps that under the Gaussian channel environment, p-power is used for replacing 2-power to obtain energy of each path of wireless electric signals, and a detection signal is substituted into a likelihood function to obtain detection statistics; a judgment threshold based on p-power detection is worked out by means of the Neyman-Pearson criterion according to given false alarm probability; the obtained statistics and the judgment threshold based on p-power detection are compared. According to the energy detection method, p-power is used for replacing changeless 2-power and is applied to cooperative spectrum detection; meanwhile, the mean and variance of decision variable p-power are approximated as the mean and variance of Gamma distribution, energy detection based on p-power wireless cooperative spectrum sensing is achieved, complexity is low, timeliness is high, p values can be selected according to different channel environments and signal intensity, and therefore detection performance is effectively improved.
Owner:HOHAI UNIV

Antenna arrangement method for improving MIMO-OTH radar detecting performance in ionized layer double-Gaussian model

The invention discloses an antenna arrangement method for improving the MIMO-OTH radar detecting performance in an ionized layer double-Gaussian model. The antenna arrangement method includes the following steps that a detection signal is used for receiving two times of ionized layer reflection before the detection signal reaches the receiving end, the reflection coefficient of each time conforms to complex Gaussian random distribution, an ionized layer double-Gaussian reflection model is established, and the number of multiple paths is obtained based on the calculation of the distance between an antenna and a target according to the MQP model. By analyzing an echo signal of an MIMO-OTH radar, an MIMO-OTH radar signal model under the ionized layer double-Gaussian reflection model is established. The MIMO-OTH diversity gain expression and the diversity gain of MIMO-OTH radar target detection under the ionized layer double-Gaussian model are obtained by utilizing the Neyman-pearson criterion and the Gaussian optimal detector to establish a hypothesis testing problem and calculating the cumulative distribution function of the statistic. The number of the multiple paths is changed by selecting a proper radar antenna position, and therefore the radar system can obtain the maximum diversity gain. The antenna arrangement method is simple, convenient to operate and capable of improving the detection performance of the radar system.
Owner:UNIV OF ELECTRONIC SCI & TECH OF CHINA

Ultra-broadband pulsing signal two-step capturing method based on energy detection

A ultra-wideband pulse signal two-step acquisition method based on the energy detection is divided into two main steps: first searching the energy window of the signal component, through the Neyman-Pearson rule, computing the detection probability of the DP energy window through the energy statistic characteristics of the UWB channel under the condition with certain false alarm probability; determining the precise position inside the energy window of DP. The invention overcomes the defect of low signal detection precision and larger operand of DP signal in the prior art, which not only advances the precision to acquire the signal but also reduces the cost of the hardware, increases the detecting efficiency.
Owner:HARBIN INST OF TECH SHENZHEN GRADUATE SCHOOL

Repeating false target discriminating method based on angular glint

The invention relates to a repeating false target discriminating method based on angular glint. The method is characterized by establishing an angular glint statistical model according to a monopulse amplitude-comparing angle measurement method and performing correct discrimination by analyzing a difference between the azimuth error variances of an authentic target and a repeating false target and by using a Neyman-Pearson theorem and a generalized likelihood ratio test (GLRT) method, and comprises a step 1 of establishing angular glint statistical model according to the monopulse amplitude-comparing angle measurement method; a step 2 of estimating the parameter of angular observations in order to prepare for further target detection; a step 3 of acquiring a detection threshold according to a set false alarm probability, and then obtaining a detector output by using an echo signal in order to determine a threshold and finally obtain a detection result.
Owner:NAT UNIV OF DEFENSE TECH

Method for performing waveform optimization on motion target in complex clutter environment

The invention discloses a method for performing waveform optimization on a motion target in a complex clutter environment. The method includes calculating a motion target model having constant radialvelocity, and determining static clutter response and motion clutter response in a complex clutter environment; obtaining the optimal waveform of a noise characteristic based echo signal facing detection probability according to a Neyman-Pearson criterion; and obtaining the optimal energy spectral density (ESD) of an emission signal according to the minimum value of power spectral density (PSD) inthe noise characteristics. Through prior information such as static clutter, motion clutter and targets, the method can design an energy spectrum of the emission signal and detect a motion target byutilizing the optimal waveform in the case of different noise; and compared with traditional linear frequency modulation and phase encoding signals, the method can make the detection probability facing to the motion target reach to the maximum in the case of the same false alarm probability.
Owner:SHANGHAI RADIO EQUIP RES INST

Pipeline robot extremely-low frequency signal detecting apparatus based on orthogonal coil sensors

The invention provides a pipeline robot extremely-low frequency signal detecting apparatus based on orthogonal coil sensors. The apparatus comprises a model establishing module used for establishing an orthogonal signal model according to Morlet wavelet envelopes; a parameter fusion module used for generating a key parameter fusion scheme according to the orthogonal signal model; a relation establishing module used for establishing the one-to-one correspondence relation between a combined envelope attenuation rate and the moving speed of a pipeline robot; a statistic acquiring module used for adopting orthogonal signal energy matching the moving speed of the pipeline robot to acquire detection statistic according to the one-to-one correspondence relation; a threshold acquiring module used for acquiring a decision threshold according to the detection statistic and the Neyman-Pearson criteria; and a detecting module used for achieving detection and decision of extremely-low frequency transient weak signals according to the decision threshold. The apparatus which can reliably detect extremely-low frequency weak transient signals has the advantages of great matching capabilities, high signal detecting probability and good real-time performance.
Owner:TSINGHUA UNIV

Metagenome characteristic selecting method based on variable importance scoring and Neyman-Pearson detection

The invention discloses a metagenome characteristic selecting method based on variable importance scoring and Neyman-Pearson detection. The method comprises the steps of 1, for one input metagenome classification operable unit dataset, calculating correlation between each microbe characteristic and a sample phenotype by means of symmetric uncertainty, screening the characteristics according to correlation scores, and generating a sub-dataset; 2, sampling the sub-dataset in a sampling-with-replacement mode, selecting first k characteristics by means of variable importance scoring, iterating thesteps, and after iteration, performing statistics on the number-of-appearances of each characteristic; and 3, calculating a threshold on the condition of a given parameter by means of a Neyman-Pearson detection method, performing screening and determining the characteristics with the number-of-appearances which is higher than the threshold as a candidate characteristic set, and determining the front k characteristics with highest number-of-appearances as a target characteristic subset. The metagenome characteristic selecting method has advantages of remarkably improving classification result,realizing higher stability and facilitating subsequent medical experiment of the metagenome by the generated candidate characteristic set.
Owner:XI AN JIAOTONG UNIV

A URLLC system performance evaluation method and system based on physical layer authentication

The invention discloses a URLLC system performance evaluation method based on physical layer authentication. The method comprises the steps that a transmitting end transmits a frame to a receiving end, the frame comprises a pilot signal, an authentication signal and an information signal, the authentication signal is superposed on the information signal, the information signal is obtained by performing channel coding and modulation on an initial signal, and the authentication signal is obtained based on the information signal, a Hash function and a secret key; The receiving end calculates theframe error probability based on the frame, further calculates the decoding probability of data transmission, obtains the false alarm probability based on the frame and hypothesis inspection conditions, and further obtains the average false alarm probability; based on the Neyman-Pearson theory theory, an average false alarm probability is set to be equal to an upper limit of the false alarm probability, an optimal threshold is obtained, a detection probability is obtained based on the optimal threshold, and an average detection probability is obtained based on the detection probability; And when the decoding probability and the average detection probability meet system requirements, the frame passes the authentication, and the receiving end obtains the throughput based on the decoding probability and the average detection probability so as to evaluate the performance of the URLLC system.
Owner:SHENZHEN UNIV

False target identification method based on angular scintillation forwarding

The invention relates to a repeating false target discriminating method based on angular glint. The method is characterized by establishing an angular glint statistical model according to a monopulse amplitude-comparing angle measurement method and performing correct discrimination by analyzing a difference between the azimuth error variances of an authentic target and a repeating false target and by using a Neyman-Pearson theorem and a generalized likelihood ratio test (GLRT) method, and comprises a step 1 of establishing angular glint statistical model according to the monopulse amplitude-comparing angle measurement method; a step 2 of estimating the parameter of angular observations in order to prepare for further target detection; a step 3 of acquiring a detection threshold according to a set false alarm probability, and then obtaining a detector output by using an echo signal in order to determine a threshold and finally obtain a detection result.
Owner:NAT UNIV OF DEFENSE TECH

Ultra-broadband pulsing signal two-step capturing method based on energy detection

A ultra-wideband pulse signal two-step acquisition method based on the energy detection is divided into two main steps: first searching the energy window of the signal component, through the Neyman-Pearson rule, computing the detection probability of the DP energy window through the energy statistic characteristics of the UWB channel under the condition with certain false alarm probability; determining the precise position inside the energy window of DP. The invention overcomes the defect of low signal detection precision and larger operand of DP signal in the prior art, which not only advances the precision to acquire the signal but also reduces the cost of the hardware, increases the detecting efficiency.
Owner:HARBIN INST OF TECH SHENZHEN GRADUATE SCHOOL

A resource optimization method of a URLLC system based on a retransmission mechanism of a heuristic algorithm

The invention provides a resource optimization method of a URLLC system based on a retransmission mechanism of a heuristic algorithm. The method comprises the following steps: a first node and a second node perform wireless transmission through a plurality of frames, the first node obtains a false alarm probability based on a fourth frame and a hypothetical test condition, and obtains an optimal threshold based on a Neyman-Pearson theory to determine a detection probability; When the detection probability satisfies a system threshold, the first node sends a retransmission data frame, and calculates a frame error probability, a first reliability parameter and a second reliability parameter to determine a first throughput and a second throughput; When the first total transmitting energy, thesecond total transmitting energy, the information bit length of the source information and the frame length meet the requirements, based on mixed frog leaping-frame length, the first node and the second node adaptively distribute the transmitting power and the signal length of the pilot signal according to an extreme value optimization algorithm, so that the first throughput is maximized; And comparing the reliability parameter with a preset frame error probability to obtain a maximum first throughput or a maximum second throughput.
Owner:SHENZHEN UNIV

A Zero Speed ​​Detection Method Based on Neiman-Pearson Criterion

InactiveCN103499354BOvercome the disadvantage of low accuracyImprove stabilityMeasurement devicesNormal densityHypothesis
The invention discloses a zero-speed detection method based on the Neiman-Pearson criterion. The method includes: receiving the measurement information output by the sensor when the footsteps are moving in the individual soldier navigation system in real time with a hand-held palm computer; according to the system sampling frequency and data transmission Determine the window function N of the speed; use the double hypothesis test theory to transform the zero-speed detection problem into a modeled mathematical problem, and obtain the zero-speed detection inequality under the Neiman-Pearson criterion; determine the output signal of the miniature inertial measurement unit sensor and the handheld computer The mathematical model of the received signal; obtain the joint probability density function of the output signal of the miniature inertial measurement unit sensor; use the maximum likelihood estimation value of the unknown signal element to replace the unknown element in the zero-speed detection inequality to obtain the extensive probability likelihood ratio inequality; the miniature The inertial measurement unit output data is substituted into the extensive probability-likelihood ratio inequality to detect the zero-velocity condition. The invention makes the problem of the detection method mathematized and modeled, and improves the detection precision.
Owner:HARBIN ENG UNIV

Physical layer security authentication method based on large-scale fading characteristics

The invention belongs to the technical field of wireless communication, and relates to a physical layer security authentication method based on large-scale fading characteristics. According to the method, a large amount of channel information in one information packet is analyzed to obtain large-scale fading characteristics, and the correlation degree of the large-scale fading characteristics corresponding to the adjacent information packets is obtained by utilizing the normalized Euclidean distance, so that the Neyman-Pearson) verification is carried out to authenticate the identity of the user. According to the method, the user is authenticated on the basis of the large-scale fading characteristics of the channel, and compared with instantaneous channel information, the related conditions of the large-scale fading characteristics are looser, namely, when the moving distance of the user is large, certain correlation can still be kept between the large-scale fading characteristics corresponding to the user before and after moving.
Owner:UNIV OF ELECTRONIC SCI & TECH OF CHINA
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