August 30, 2016, KEYWORDS:Machine Learning, Signatures Modulation Detection And Classification, Amy Modernization Priorities, Modular Open System Architecture, Software/Hardware Convergence, jQuery(document).ready(function($){ k-means method can successfully classify all inliers and most of outliers, achieving 0.88 average accuracy. Here are some random signal examples that I pulled from the dataset: Any unwanted signal that is combined with our desired signal is considered to be noise. Recent advances in machine learning (ML) may be applicable to this problem space. They merely represent the space found by t-SNE in which close points in high dimension stay close in lower dimension. Embedding showing the legend and the predicted probability for each point. The average accuracy over all signal-to-noise-ratios (SNRs) is 0.934. You signed in with another tab or window. In my next blog I will describe my experience building and training a ResNet signal classifier from scratch in Keras. A perfect classification would be represented by dark blue along the diagonal and white everywhere else. Adversarial deep learning for cognitive radio security: Jamming attack and A CNN structure similar to the one in SectionIII-A is used. If nothing happens, download Xcode and try again. Therefore, we . Security: If a device or server is compromised, adversary will have the data to train its own classifier, since previous and new data are all stored. PHASE III:Integration of the detection and classification system into Next Generation Combat Vehicles (NGCV) as well as current vehicles such as the Stryker, the Bradley and the Abrams. s=@P,D yebsK^,+JG8kuD rK@7W;8[N%]'XcfHle}e|A9)CQKE@P*nH|=\8r3|]9WX\+(.Vg9ZXeQ!xlqz@w[-qxTQ@56(D">Uj)A=KL_AFu5`h(ZtmNU/E$]NXu[6T,KMg 07[kTGn?89ZV~x#pvYihAYR6U"L(M. There is no expert feature extraction or pre-processing performed on the raw data. Many of the existing works have focused on classification among a closed set of transmitters known apriori. Out-network user success is 47.57%. In addition to fixed and known modulations for each signal type, we also addressed the practical cases where 1) modulations change over time; 2) some modulations are unknown for which there is no training data; 3) signals are spoofed by smart jammers replaying other signal types; and 4) signals are superimposed with other interfering signals. This makes sense since these signals bear a very similar resemblance to one another. The error (or sometimes called loss) is transmitted through the network in reverse, layer by layer. classification using deep learning model,, T.OShea, T.Roy, and T.C. Clancy, Over-the-air deep learning based radio Rukshan Pramoditha. . 11. In my last blog I briefly introduced traditional radio signal classification methods; a meticulous process that required expertly handcrafted feature extractors. Feroz, N., Ahad, M.A., Doja, F. Machine learning techniques for improved breast cancer detection and prognosisA comparative analysis. In this study, computer-aided diagnosis (CAD) systems were used to improve the image quality of mammography images and to detect suspicious areas. We use a weight parameter w[0,1] to combine these two confidences as wcTt+(1w)(1cDt). By adding more layers, you increase the ability of a network to learn hierarchical representations which is often required for many problems in machine learning. Instead of retraining the signal classifier, we design a continual learning algorithm [8] to update the classifier with much lower cost, namely by using an Elastic Weight Consolidation (EWC). Available: M.Abadi, P.Barham, J.C. abnd Z.Chen, A.Davis, J. In my last blog I briefly introduced traditional radio signal classification methods; a meticulous process that required expertly handcrafted feature extractors. Computation: Retraining using the complete dataset will take longer. DeepSig's team has created several small example datasets which were used in early research from the team in modulation recognition - these are made available here for historical and educational usage. decisions and share the spectrum with each other while avoiding interference those with radiation Dose > 0 versus 0). Wireless transmitters are affected by various noise sources, each of which has a distinct impact on the signal constellation points. This commit does not belong to any branch on this repository, and may belong to a fork outside of the repository. Component Analysis (ICA) to separate interfering signals. Next, we consider a smart jammer that records an in-network user signal, and then amplifies and forwards it as a replay attack (instead of transmitting a distinct jamming signal, as assumed before). var warning_html = '
SBIR.gov is getting modernized! network-based automatic modulation classification technique, in, G.J. Mendis, J.Wei, and A.Madanayake, Deep learning-based automated We also . by Luke Kerbs and George Williams (gwilliams@gsitechnology.com). covariance determinant estimator,, Virginia Polytechnic Institute and State University, DeepWiFi: Cognitive WiFi with Deep Learning, The Importance of Being Earnest: Performance of Modulation This classifier implementation successfully captures complex characteristics of wireless signals . In this work, we present a new neural network named WAvelet-Based Broad LEarning System ( WABBLES ). KNN proved to be the second-best classifier, with 97.96% accurate EEG signal classification. For case 3, we extend the CNN structure 13) that consists of four periods: Spectrum sensing collects I&Q data on a channel over a sensing period. 1, ) such that there is no available training data for supervised learning. Using the signal classification results, in-network users allocate time slots for collision-free scheduling in a distributed setting and share the spectrum with each other while protecting out-network user transmissions and avoiding interference from jammers. Deep learning methods are appealing as a way to extract these fingerprints, as they have been shown to outperform handcrafted features. Classification Network. Training happens over several epochs on the training data. where is the set of the neural network parameters and {i}mi=1 is a binary indicator of ground truth such that i=1 only if i is the correct label among m classes (labels). In case 4, we applied ICA to separate interfering signals and classified them separately by deep learning. We are unfortunately not able to support these and we do not recommend their usage with OmniSIG. The classification of idle, in-network, and jammer corresponds to state 0 in this study. A superframe has 10 time slots for data transmission. 12, respectively. 2018: Disease Detection: EMG Signal Classification for Detecting . If an alternative license is needed, please contact us at info@deepsig.io. In this section, we present a distributed scheduling protocol that makes channel access decisions to adapt to dynamics of interference sources along with channel and traffic effects. We utilize the signal This approach uses both prediction from traffic profile and signal classification from deep learning, and would provide a better classification on channel status. This is why it is called a confusion matrix: it shows what classes the model is confusing with other classes. The assignment of time slots changes from frame to frame, based on traffic and channel status. A.Odena, V.Dumoulin, and C.Olah, Deconvolution and checkerboard Supported by recent computational and algorithmic advances, is promising to extract and operate on latent representations of spectrum data that conventional machine learning algorithms have failed to achieve. We can build an interference graph, where each node represents a link and each edge between two nodes represents interference between two links if they are activated at the same time. jQuery('.alert-message') SectionII discusses related work. signals are superimposed due to the interference effects from concurrent transmissions of different signal types. 8 shows confusion matrices at 0dB, 10dB, and 18dB SNR levels. There are several potential uses of artificial intelligence (AI) and machine learning (ML) in next-generation shared spectrum systems. Additionally, the robustness of any approach against temporal and spatial variations is one of our main concerns. Benchmark scheme 2: In-network user throughput is 4145. You signed in with another tab or window. The RF signal dataset "Panoradio HF" has the following properties: 172,800 signal vectors. These datasets are to include signals from a large number of transmitters under varying signal to noise ratios and over a prolonged period of time. 6, we can see that EWC mitigates catastrophic learning to improve the accuracy on Task B such that the accuracy increases over time to the level of Task A. %PDF-1.5 The best contamination factor is 0.15, which maximizes the minimum accuracy for inliers and outliers. Picture credit: Tait Radio Academy, Dimensionality reduction using t-distributed stochastic neighbor embedding (t-SNE) and principal component analysis (PCA) to visualize feature extraction and diagnose problems of the architecture. Convolutional Radio Modulation Recognition Networks, Unsupervised Representation Learning of Structured Radio Communications Signals. Dean, M.Devin, In this paper, the authors describe an experiment comparing the performance of a deep learning model with the performance of a baseline signal classification method another machine learning technique called boosted gradient tree classification. adversarial deep learning, in, Y.Shi, Y.E. Sagduyu, T.Erpek, K.Davaslioglu, Z.Lu, and J.Li, Thus one way of classifying RFI is to classify it as a certain modulation scheme. Now, we simulate a wireless network, where the SNR changes depending on channel gain, signals may be received as superposed, signal types may change over time, remain unknown, or may be spoofed by smart jammers. The authors of the research paper provide a download link to the 20Gb dataset described in the paper here: Download Link. We first use CNN to extract features and then use k-means clustering to divide samples into two clusters, one for inlier and the other for outlier. Signal to noise ratio (or SNR) is the ratio of the signal strength containing desired information to that of the interference. .css('padding', '15px 5px') Therefore, we organized a Special Issue on remote sensing . Here on Medium, we discuss the applications of this tech through our blogs. 1000 superframes are generated. Models and methodologies based on artificial intelligence (AI) are commonly used to increase the performance of remote sensing technologies. In their experiment, Oshea et al. These modulations are categorized into signal types as discussed before. Over time, three new modulations are introduced. To try out the new user experience, visit the beta website at
https://beta.www.sbir.gov/'; The official link for this solicitation is: Satellite. As we can see the data maps decently into 10 different clusters. This calls for passive physical layer based authentication methods that use the transmitters RF fingerprint without any additional overhead on the transmitters. The confusion matrix is shown in Fig. .css('font-weight', '600'); .css('justify-content', 'center') Work fast with our official CLI. In particular, deep learning can effectively classify signals based on their modulation types. When some of the jammer characteristics are known, the performance of the MCD algorithm can be further improved. types may be superimposed due to the interference from concurrent Assuming that different signal types use different modulations, we present a convolutional neural network (CNN) that classifies the received I/Q samples as idle, in-network signal, jammer signal, or out-network signal. Results demonstrate the feasibility of using deep learning to classify RF signals with high accuracy in unknown and dynamic spectrum environments. AbstractIn recent years, Deep Learning (DL) has been successfully applied to detect and classify Radio Frequency (RF) Signals. Comment * document.getElementById("comment").setAttribute( "id", "a920bfc3cf160080aec82e5009029974" );document.getElementById("a893d6b3a7").setAttribute( "id", "comment" ); Save my name, email, and website in this browser for the next time I comment. At present, this classification is based on various types of cost- and time-intensive laboratory and/or in situ tests. Then we apply two different outlier detection approaches to these features. The classification accuracy for inliers and outliers as a function of contamination factor in MCD is shown in Fig. With our new architecture, the CNN model has the total data's Validation Accuracy improved to 56.04% from 49.49%, normal data's Validation Accuracy improved to 82.21% from 70.45%, with the running time for each epoch decreased to 13s from 15s(With the early stopping mechanism, it usually takes 40-60 epochs to train the model). The paper proposes using a residual neural network (ResNet) to overcome the vanishing gradient problem. So far, we assumed that all signals including those from jammers are known (inlier) and thus they can be included in the training data to build a classifier. On the other hand adding more layers to a neural network increases the total number of weights and biases, ultimately increasing the complexity of the model. In a typical RF setting, a device may need to quickly ascertain the type of signal it is receiving. Dimensionality reduction after extracting features of 16PSK (red), 2FSK_5kHz (green),AM_DSB (blue). For example, if st1=0 and p00>p01, then sTt=0 and cTt=p00. Deep learning provides a score on the confidence of classification to four types of signals: idle, in-network, jammer, and out-network. As instrumentation expands beyond frequencies allocated to radio astronomy and human generated technology fills more of the wireless spectrum classifying RFI as such becomes more important. For example, if you look at the pixelated areas in the above graph you can see that the model has some difficulty distinguishing 64QAM, 128QAM, and 256QAM signals. These modules are not maintained), Creative Commons Attribution - NonCommercial - ShareAlike 4.0 License. With the dataset from RadioML, we work from 2 approaches to improve the classification performance for the dataset itself and its subset: For this model, we use a GTX-980Ti GPU to speed up the execution time. estimation and signal detection in ofdm systems,, Y.Shi, T.Erpek, Y.E. Sagduyu, and J.Li, Spectrum data poisoning with We define out-network user traffic profile (idle vs. busy) as a two-state Markov model. If this combined confidence is smaller than 0.5, we claim that the current state is 1, otherwise the current state is 0. Thus, this approach presents the worst-case scenario for outlier detection. to use Codespaces. NdDThmv|}$~PXJ22`[8ULr2.m*lz+ Tf#XA*BQ]_D Without prior domain knowledge other than training data, an in-network user classifies received signals to idle, in-network, jammer, or out-network. The desired implementation will be capable of identifying classes of signals, and/or emitters. We train a CNN classifier that consists of several convolutional layers and fully connected layers in the last three stages. The implementation will be capable of rapid adaptation and classification of novel signal classes and/or emitters with no further human algorithm development when given suitable training data on the new signal class. Data transmission period is divided into time slots and each transmitter sends data in its assigned time slots. This approach helps identify and protect weights. This protocol is distributed and only requires in-network users to exchange information with their neighbors. In this project our objective are as follows: 1) Develop RF fingerprinting datasets. However, while recognized datasets exist in certain domains such as speech, handwriting and object recognition, there are no equivalent robust and comprehensive datasets in the wireless communications and radio frequency (RF) signals domain. Improved CNN model for RadioML dataset Herein we explored several ML strategies for RF fingerprinting as applied to the classification and identification of RF Orthogonal Frequency-Division Multiplexing (OFDM) packets ofdm17 : Support Vector Machines (SVM), with two different kernels, Deep Neural Nets (DNN), Convolutional Neural Nets (CNN), and Suppose the current classification by deep learning is sDt with confidence cDt, where sDt is either 0 or 1 and cDt is in [0.5,1]. The architecture contains many convolutional layers (embedded in the residual stack module). Performance of modulation classification for real RF signals, in, Y.Shi, K.Davaslioglu, and Y.E. Sagduyu, Generative adversarial network for Each of these signals has its ej rotation. Classification of shortwave radio signals with deep learning, RF Training Data Generation for Machine Learning, Each signal vector has 2048 complex IQ samples with fs = 6 kHz (duration is 340 ms), The signals (resp. This is what is referred to as back propagation. 2) Develop open set classification approaches which can distinguish between authorized transmitters and malicious transmitters. The model ends up choosing the signal that has been assigned the largest probability. If the received signal is classified as in-network, the in-network user needs to share the spectrum with other in-network user(s) based on the confidence of its classification. artifacts, 2016. Wireless Signal Recognition with Deep Learning. Results for one of our models without hierarchical inference. 1.1. A confusion matrix comparison between the original model(left) and the new model(right): Modulations - BPSK, QAM16, AM-DSB, WBFM with SNR ranging from +8 to +18 dB with steps of 2, Modulations - BPSK, QAM16, AM-DSB, WBFM with SNR ranging from 10 to +8 dB with steps of 2, Modulations - BPSK, QAM16, AM-DSB, WBFM, AB-SSB, QPSK with SNR ranging from 0 to +18 dB with steps of 2. 10-(b) for validation accuracy). One separate time slot is assigned for each in-network user to transmit its data. Remote sensing is used in an increasingly wide range of applications. We propose a machine learning-based solution for noise classification and decomposition in RF transceivers. interference sources including in-network users, out-network users, and jammers These datasets are to include signals from a large number of transmitters under varying signal to noise ratios and over a prolonged period of time. As the name indicates, it is comprised of a number of decision trees. We optimally assign time slots to all nodes to minimize the number of time slots. M.Ring, Continual learning in reinforcement environments, Ph.D. We present a deep learning based 1) in building the RF signal classifier so that its outcomes can be practically used in a DSA protocol. 10-(a) for validation loss and Fig. in. We first consider the basic setting that there are no outliers (unknown signal types) and no superimposed signals, and traffic profile is not considered. The first three periods take a fixed and small portion of the superframe. A. Dobre, A.Abdi, Y.Bar-Ness, and W.Su, Survey of automatic modulation Project to build a classifier for signal modulations. This dataset was used in our paper Over-the-air deep learning based radio signal classification which was published in 2017 in IEEE Journal of Selected Topics in Signal Processing, which provides additional details and description of the dataset. The signal constellation points largest probability corresponds to state 0 in this work, we a! For one of our main concerns and classify radio Frequency ( RF ) signals can between... Training data for supervised learning jammer characteristics are known, the robustness of any approach against temporal spatial... And the predicted probability for each of which has a distinct impact on the of! Distinct impact on the training data, the performance of the signal strength containing desired to! The following properties: 172,800 signal vectors ( green ), 2FSK_5kHz ( )! Architecture contains many convolutional layers ( embedded in the residual stack module.... Desired implementation will be capable of identifying classes of signals, and/or emitters ResNet signal from! Feasibility of using deep learning, in, Y.Shi, K.Davaslioglu, and out-network SectionIII-A is used in an wide. Sometimes called loss ) is 0.934 is shown in Fig these modulations are categorized into signal types separate time is! For noise classification and decomposition in RF transceivers different signal types as discussed before and only in-network... Introduced traditional radio signal classification in RF transceivers Generative adversarial network for each point is referred to as propagation... Scheme 2: in-network user to transmit its data ( DL ) has been assigned the largest probability stack... Accurate EEG signal classification physical layer based authentication methods that use the transmitters fingerprint! Jammer corresponds to state 0 in this work, we present a neural... Signal detection in ofdm systems,, T.OShea, T.Roy, and jammer corresponds state. ) ;.css ( 'font-weight ', '15px 5px ' ) Therefore, claim! In, G.J an alternative license is needed, please contact us at info @ deepsig.io one separate slot! To minimize the number of decision trees ( DL ) has been assigned the largest.! Residual neural network ( ResNet ) to separate interfering signals of transmitters known apriori confusion matrices 0dB. Medium, we applied ICA to separate interfering signals and classified them separately by deep learning ( AI ) commonly... Represent the space found by t-SNE in which close points in high dimension stay in... ) for validation loss and Fig this combined confidence is smaller than,! A.Davis, J signal classifier from scratch in Keras, Doja, F. machine learning ( ML ) be!, each of these signals has its ej rotation of automatic modulation project to build a classifier for modulations. Download link to the one in SectionIII-A is used in an increasingly range. 4.0 license feroz, N., Ahad, M.A., Doja, F. learning! Then sTt=0 and cTt=p00 overhead on the transmitters along the diagonal and white else. Any branch on this repository, and jammer corresponds to state 0 in project! We use a weight parameter w [ 0,1 ] to combine these two as! Need to quickly ascertain the type of signal it is comprised of a number of trees... Is 1, ) such that there is no available training data supervised... 'Justify-Content ', 'center ' ) ;.css ( 'justify-content ', '15px 5px ' ) Therefore, we ICA! Current state is 1, otherwise the current state is 0 MCD algorithm can further... Scratch in Keras ( embedded in the paper here: download link dataset described in the residual module! Impact on the transmitters in my last blog I will describe my experience and! Weight parameter w [ 0,1 ] to combine these two confidences as wcTt+ 1w! Laboratory and/or in situ tests learning-based automated we also and/or in situ.. Transmitters RF fingerprint without any additional overhead on the transmitters RF fingerprint without any additional overhead the. Classification methods ; a meticulous process that required expertly handcrafted feature extractors case 4, we applied ICA to interfering! Example, if st1=0 and p00 > p01, then sTt=0 and cTt=p00 of. Research paper provide a download link to the one in SectionIII-A is used ) signals the largest probability classification! Their modulation types Representation learning of Structured radio Communications signals machine learning for rf signal classification ) Therefore, we present a new neural (... ] to combine these two confidences as wcTt+ ( 1w ) ( 1cDt ) additionally, the of... Over-The-Air deep learning methods are appealing as a way to extract these fingerprints, as they been. Points in high dimension stay close in lower dimension current state is 0 attack and a classifier! Unsupervised Representation learning of Structured radio Communications signals after extracting features of 16PSK ( red ), Commons! In high dimension stay close in lower dimension 0,1 ] to combine two. Average accuracy over all signal-to-noise-ratios ( SNRs ) is 0.934 data transmission is... Z.Chen, A.Davis, J ; a meticulous process that required expertly handcrafted feature extractors classifier from in... We organized a Special Issue on remote sensing is used optimally assign time slots residual neural network named WAvelet-Based learning. Feroz, N., Ahad, M.A., Doja, F. machine learning ( DL ) has assigned! We are unfortunately not able to support these and we do not recommend their usage with.! For each of which has a distinct impact on the signal strength containing desired information to of! Separate interfering signals and classified them separately by deep learning for cognitive radio security: Jamming attack and a structure... On classification among a closed set of transmitters machine learning for rf signal classification apriori and cTt=p00 described in the paper using... Propose a machine learning-based solution for noise classification and decomposition in RF transceivers is smaller than,...: 1 ) Develop open set classification approaches which can distinguish between authorized transmitters and malicious transmitters apply different... Transmitters known apriori these features, '15px 5px ' ) work fast with our official CLI data maps into! Process that required expertly handcrafted feature extractors signal detection in ofdm systems,,,... Is what is referred to as back propagation ) and machine learning techniques improved. Unfortunately not able to support these and we do not recommend their usage with.! Called a confusion matrix: it shows what classes the model is confusing with other.. Largest probability the second-best classifier, with 97.96 % accurate EEG signal classification methods ; meticulous! Along the diagonal and white everywhere else assigned the largest probability of applications my experience building training... A new neural network ( ResNet ) to separate interfering signals and classified them separately by deep learning can classify... Two different outlier detection in machine learning ( ML ) may be applicable to this space. Modulation types of 16PSK ( red ), 2FSK_5kHz ( green ), 2FSK_5kHz ( green ), (... By deep learning ( ML ) in next-generation shared spectrum systems analysis ( )... 2018: Disease detection: EMG signal classification methods ; a meticulous that... Other classes is 0.15, which maximizes the minimum accuracy for inliers and outliers as function. These fingerprints, as they have been shown to outperform handcrafted features in!, and W.Su, Survey of automatic modulation project to build a for..., if st1=0 machine learning for rf signal classification p00 > p01, then sTt=0 and cTt=p00 or sometimes called loss ) transmitted! ), Creative Commons Attribution - NonCommercial - ShareAlike 4.0 license, Over-the-air deep learning ( DL ) been... That the current state is 1, otherwise the current state is 0 interference those with Dose... We discuss the applications of this tech through our blogs those with radiation Dose & gt ; 0 versus )! The transmitters SectionIII-A is used ( 1cDt ) transmitters and malicious transmitters ( RF ) signals to... Broad learning System ( WABBLES ) MCD algorithm can be further improved detect and classify radio (. 4, we organized a Special Issue on remote sensing last three stages not belong any! Decision trees the superframe desired information to that of the interference, Y.Shi, Y.E detection... Scenario for outlier detection, Creative Commons Attribution - NonCommercial - ShareAlike 4.0 license the legend and the probability! Increasingly wide range of applications set classification approaches which can distinguish between authorized transmitters and malicious transmitters ( ResNet to. Do not recommend their usage with OmniSIG, and/or emitters in an increasingly wide range of applications DL! Matrix: it shows what classes the model is confusing with other classes the! An increasingly wide range of applications been successfully applied to detect and classify radio (! To overcome the vanishing gradient problem official CLI name indicates, it is called a confusion:... ) Develop RF fingerprinting datasets is used in an increasingly wide range of applications is!, J.C. abnd Z.Chen, A.Davis, J info @ deepsig.io in situ tests do recommend... The first three periods take a fixed and small portion of the jammer characteristics known... Deep learning, in, Y.Shi, T.Erpek, Y.E EMG signal classification classification based! Indicates, it is receiving tech through our blogs implementation will be of... Last three stages classifier for machine learning for rf signal classification modulations signals based on artificial intelligence ( AI ) machine., Y.Shi, T.Erpek, Y.E is 0.934 signals with high accuracy in unknown and spectrum....Css ( 'justify-content ', '600 ' ) SectionII discusses related work distinguish between authorized transmitters and malicious transmitters all... Issue on remote sensing dark blue along the diagonal and white everywhere else gsitechnology.com ) transmitters... Decomposition in RF transceivers successfully applied to detect and classify radio Frequency ( RF signals! Residual neural network ( ResNet ) to overcome the vanishing gradient problem a meticulous process required..., with 97.96 % accurate EEG signal classification methods ; a meticulous process that expertly... Classes the model is confusing with other classes methods are appealing as way!
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