github

https://dmccreary.github.io/signal-processing/prompts/13-history-of-signal-processing/

[1] History - Signal Processing — The development of specialized hardware for signal processing, such as DSP chips in the 1970s and 1980s, allowed for real-time processing of signals in consumer electronics, telecommunications, and multimedia. Companies like Texas Instruments and Analog Devices spearheaded this movement, making advanced signal processing accessible and affordable.

mit

https://dsp-group.mit.edu/history/

[2] History - Digital Signals and Processing Group — HISTORY DSPG was founded by Professor Alan Oppenheim in the mid 1960's in RLE to carry out innovative research in signal processing across a broad set of applications. The research directions were motivated by the increasing awareness in a number of laboratories of the flexibility that digital computers could provide in implementing signal processing algorithms, an awareness that was the

signalprocessingsociety

https://signalprocessingsociety.org/our-story/society-history

[3] Society History | IEEE Signal Processing Society — For nearly 70 years, the Signal Processing Society has been progressing the study of signal processing through research and education. When it was founded in 1948 as the Professional Group on Audio of the Institute of Radio Engineers (IRE) - IEEE's first society - the discipline of signal processing didn't exist.

wikipedia

https://en.wikipedia.org/wiki/Signal_processing

[4] Signal processing - Wikipedia — They further state that the digital refinement of these techniques can be found in the digital control systems of the 1940s and 1950s.

hilarispublisher

https://www.hilarispublisher.com/open-access/the-evolution-of-digital-signal-processing-from-analog-to-digital.pdf

[6] PDF — real-time signal processing tasks, further expanding the capabilities of DSP systems . Discussion Digital Signal Processing has had a profound impact on various industries, revolutionizing telecommunications, audio processing, medical imaging, radar systems, and more. In telecommunications, DSP techniques enable efficient

springer

https://link.springer.com/chapter/10.1007/978-3-030-32762-0_3

[7] Digital Signal Processing for Audio Applications: Then, Now and the ... — Digital signal processing brought exciting achievements and innovations in the audio domain, during the last fifty years. Among them, this chapter focused on advanced audio augmented reality solutions, involving both virtual audio sensors and transducers, to design enhanced spatial hearing experiences in diverse application contexts, spanning from entertainment to safety.

hilarispublisher

https://www.hilarispublisher.com/open-access/digital-signal-processing-in-audio-and-speech-processing-innovations-and-trends-106795.html

[9] Digital Signal Processing in Audio and Speech Processing: Innovations ... — Digital Signal Processing continues to drive innovation and transformation in audio and speech processing, enabling a wide range of applications across various domains. From machine learning and AI integration to spatial audio processing and adaptive filtering, the latest trends in DSP are shaping the future of how we perceive, interact with

manishnarkhede

https://manishnarkhede.com/role-of-signal-processing-in-telecommunications/

[13] What is the Role of Signal Processing in Telecommunication — In telecommunications, signal processing is crucial in ensuring efficient data transmission. By employing techniques such as signal encoding, compression, ... These techniques are essential in modern telecommunications systems, as they enable faster and more efficient communication while maintaining the integrity of the transmitted signal

hilarispublisher

https://www.hilarispublisher.com/open-access/enhancing-communication-the-role-of-digital-signal-processing-in-modern-technology.pdf

[14] PDF — and video to enabling real-time data transmission in telecommunications, the backbone of modern communication technologies relies heavily on digital signal processing (DSP). ... and its impact on the way we connect and interact in today's digital landscape . ... Digital Signal Processing in Modern Technology." J Telecommun Syst Manage 13

springer

https://link.springer.com/book/10.1007/b99846

[15] Signal Processing for Telecommunications and Multimedia — In the area of telecommunications, application of signal processing allows for new generations of systems to achieve performance close to theoretical limits, while in the area of multimedia, signal processing the underlying technology making possible realization of such applications that not so long ago were considered just a science fiction or

alooba

https://www.alooba.com/skills/concepts/signal-processing-429/

[17] Signal Processing: Everything You Need to Know When Assessing Signal ... — Signal processing techniques are widely used in digital image and video processing. Methods such as compression, enhancement, and restoration help improve the quality of images and videos.

vic

https://guides.slv.vic.gov.au/digitalaudiofundamentals/audioprocessing

[19] Audio processing - Digital Audio Fundamentals - Research Guides at ... — Audio production involves processing and editing recorded material to enhance its fidelity or optimise bandwidth to ensure that it is suitable for broadcast, or wider distribution. There are many different types of signal processing that can be applied to digital audio, but the most common forms include: EQ (or equalisation), compression, reverb and echo (delay), and filtering.

thetechartist

https://thetechartist.com/signal-processing-algorithms/

[20] Understanding Signal Processing Algorithms: Concepts and Applications — Signal processing algorithms find extensive applications across various fields, significantly enhancing the quality and efficiency of data manipulation. Machine learning integration is poised to revolutionize signal processing algorithms by enabling the development of adaptive techniques that can learn from data patterns. The integration of various Machine Learning techniques into signal processing algorithms has revolutionized data analysis and interpretation. Advanced sensor technologies have revolutionized the field of signal processing algorithms by providing enhanced data capture capabilities. Signal processing algorithms aid in enhancing these signals, filtering out noise, and facilitating real-time analysis. As technology advances, the integration of machine learning and artificial intelligence techniques in signal processing algorithms promises to further enhance the accuracy and efficiency of biomedical signal analysis.

electronicdesign

https://www.electronicdesign.com/technologies/embedded/digital-ics/processors/dsp/article/21790245/dsps-thrive-in-consumer-applications

[47] DSPs Thrive In Consumer Applications - Electronic Design — DSP technology was once considered arcane, accessible to only a handful of experts. But the huge market for DSPs in consumer designs has made shattering that image a priority for vendors.

researchgate

https://www.researchgate.net/publication/224131018_DSPs_Evolving_in_Consumer_Electronics_Applications

[48] DSPs Evolving in Consumer Electronics Applications - ResearchGate — Recently, with advances in integrated circuit technology, cell phones combined with DSP and built-in Bluetooth function have become very popular in the consumer market. Compared with the PC

audioxpress

https://audioxpress.com/article/the-evolution-of-audio-dsps

[49] The Evolution of Audio DSPs - audioXpress — Behind all of these developments is the DSP. But as the user experience is enhanced, there's an ever-growing need for more and more sophisticated processing. At the same time, most of these applications are in portable devices, so battery life is vital — meaning that DSP devices need to have very low power consumption to be viable.

gminsights

https://www.gminsights.com/industry-analysis/digital-signal-processor-market

[50] Digital Signal Processor Market Size & Share Report, 2024-2032 — Based on end-user industry, the digital signal processor market is divided into IT & telecom, consumer electronics, automotive, healthcare, aerospace & defense, and others. The consumer electronics segment is the fastest growing segment with a CAGR of over 9% between 2024 and 2032.

soundguys

https://www.soundguys.com/what-is-dsp-28013/

[51] Digital signal processing (DSP) explained - SoundGuys — For example, the Apple AirPods Max uses a DSP to constantly adjust the performance of the headset to optimize the audio quality based upon what it thinks is ideal. Additionally, Sony's 360 Reality Audio can adjust its signal to achieve its magic by using a map of your ear and a machine learning library designed to calculate how your outer ear alters sound.

linkedin

https://www.linkedin.com/pulse/dsp-digital-signal-processor-chip-market-size-x7vxf

[52] DSP (Digital Signal Processor) Chip Market Size, Share And ... — Advancements in DSP chip technology are impacting the consumer electronics market by enabling higher-quality audio and video processing, improved virtual reality and augmented reality experiences

businessresearchinsights

https://www.businessresearchinsights.com/market-reports/dsp-chips-market-110481

[53] DSP Chips Market Size, Share & Growth 2033 [Latest] — Ongoing advancements in DSP chip technology, such as improvements in performance, power efficiency, and integration, are driving the market. Manufacturers are constantly working on developing more powerful and efficient DSP chips to meet the increasing demands of various applications.

researchgate

https://www.researchgate.net/publication/379542187_On_the_Intersection_of_Signal_Processing_and_Machine_Learning_A_Use_Case-Driven_Analysis_Approach

[55] On the Intersection of Signal Processing and Machine Learning: A Use ... — The merger between signal processing and Machine Learning (ML) is expected to play a major role in the next generations of sensor-enabled systems across various domains.

thelinuxcode

https://thelinuxcode.com/signal-processing-and-systems-in-programming-an-in-depth-beginners-guide/

[61] Signal Processing and Systems in Programming - An In-Depth Beginner's ... — History and Origins. Let's recap key historical milestones underpinning signal processing: 1700s - Joseph Fourier formalizes signal decomposition into sinusoidal frequencies. 1924 Harry Nyquist - Sampling criteria to avoid aliasing . 1940s Claude Shannon - Digital coding and bit rate limits of channel capacity .

github

https://dmccreary.github.io/signal-processing/sims/timeline-viewer/timeline-viewer.html

[62] Signal Processing Milestones Timeline - dmccreary.github.io — History of Electronic Signal Processing. Invention of JPEG for Image Compression. Invention of the Field-Programmable Gate Array (FPGA) First CD Player (Digital Audio Format) First Digital Signal Processor (DSP) Chip (TMS320) Introduction of Adaptive Filters. Introduction of Error-Correcting Codes.

healthresearchfunding

https://healthresearchfunding.org/claude-shannons-information-theory-explained/

[63] Claude Shannon's Information Theory Explained - HRF - Health and ... — Claude Shannon first proposed the information theory in 1948. The goal was to find the fundamental limits of communication operations and signal processing through an operation like data compression. It is a theory that has been extrapolated into thermal physics, quantum computing, linguistics, and even plagiarism detection.

flatironschool

https://flatironschool.com/blog/code-history-lesson-how-claude-shannon-and-one-formula-brought-us-into-the-information-age/

[64] How Claude Shannon and One Formula Brought Us Into the Information Age ... — Shannon did this by connecting the well-established measures of probability (statistics) and entropy (thermodynamics) to a new measure of communication, called information. Once Shannon connected these dots mathematically, it opened the door to signal processing, compression, and converting messages into code to transmit them digitally.

ijrpr

https://ijrpr.com/uploads/V6ISSUE3/IJRPR39737.pdf

[88] PDF — Such progressive steps through intelligent signal processing in complex environments. Keywords: Real-time noise reduction, Machine learning, Kalman filter, Wiener filter, Signal processing. INTRODUCTION: Real-time noise reduction using machine learning is an evolving field that combines the precision of traditional signal processing with the

ieee

https://ieeexplore.ieee.org/document/10743847

[89] Signal Processing Techniques for Noise Reduction in Industrial ... — This research proposes a complete approach for reducing noise in industrial equipment by combining well-known signal processing methods with cutting-edge algorithms. This new approach to noise cancellation and equipment health monitoring makes use of Convolutional Neural Networks (CNNs), Wavelet Denoising (WD), and Adaptive Noise Cancellation (ANC). The principal sensor readings are subjected

nih

https://pmc.ncbi.nlm.nih.gov/articles/PMC9678292/

[90] Real-time noise cancellation with deep learning - PMC — Instead, we present a new machine learning algorithm which learns in real-time (i.e., when the data is being collected) to alter the signal from the outer noise reference electrode x ˜ [n] in such a way that it eliminates the noise from the inner electrode which then results in a noise-free EEG signal. In the next two sections, we describe the

nih

https://pmc.ncbi.nlm.nih.gov/articles/PMC10740686/

[94] How Artificial Intelligence Is Shaping Medical Imaging Technology: A ... — The innovation segment explores cutting-edge developments in AI, such as deep learning algorithms, convolutional neural networks, and generative adversarial networks, which have significantly improved the accuracy and efficiency of medical image analysis. For instance, in medical imaging, where obtaining large, diverse datasets can be challenging, GANs enable researchers to generate additional, realistic medical images for training diagnostic models, ultimately improving the accuracy of disease detection . By leveraging the capabilities of AI, medical imaging data, such as CT scans and MRI images, can be transformed into detailed three-dimensional models that provide an enhanced understanding of a patient’s anatomy. 75.Trevisan de Souza V.L., Marques B.A.D., Batagelo H.C., Gois J.P. A Review on Generative Adversarial Networks for Image Generation.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2666990024000132

[95] AI in diagnostic imaging: Revolutionising accuracy and efficiency — Through 30 included studies, the review identifies four AI domains and eight functions in diagnostic imaging: 1) In the area of Image Analysis and Interpretation, AI capabilities enhanced image analysis, spotting minor discrepancies and anomalies, and by reducing human error, maintaining accuracy and mitigating the impact of fatigue or oversight, 2) The Operational Efficiency is enhanced by AI through efficiency and speed, which accelerates the diagnostic process, and cost-effectiveness, reducing healthcare costs by improving efficiency and accuracy, 3) Predictive and Personalised Healthcare benefit from AI through predictive analytics, leveraging historical data for early diagnosis, and personalised medicine, which employs patient-specific data for tailored diagnostic approaches, 4) Lastly, in Clinical Decision Support, AI assists in complex procedures by providing precise imaging support and integrates with other technologies like electronic health records for enriched health insights, showcasing ai's transformative potential in diagnostic imaging.

cambridge

https://assets.cambridge.org/97805218/64862/frontmatter/9780521864862_frontmatter.pdf

[96] PDF — Adaptive and Iterative Signal Processing in Communications Adaptive signal processing (ASP) and iterative signal processing (ISP) are important tech-niques in improving the performance of receivers in communication systems. Using exam-ples from practical transceiver designs, this book describes the fundamental theory and

thetechartist

https://thetechartist.com/signal-processing-algorithms/

[98] Understanding Signal Processing Algorithms: Concepts and Applications — Signal processing algorithms find extensive applications across various fields, significantly enhancing the quality and efficiency of data manipulation. Machine learning integration is poised to revolutionize signal processing algorithms by enabling the development of adaptive techniques that can learn from data patterns. The integration of various Machine Learning techniques into signal processing algorithms has revolutionized data analysis and interpretation. Advanced sensor technologies have revolutionized the field of signal processing algorithms by providing enhanced data capture capabilities. Signal processing algorithms aid in enhancing these signals, filtering out noise, and facilitating real-time analysis. As technology advances, the integration of machine learning and artificial intelligence techniques in signal processing algorithms promises to further enhance the accuracy and efficiency of biomedical signal analysis.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0020025525002464

[109] A Multi-Modal Unsupervised Machine Learning Approach for Biomedical ... — The core of this method integrates a multi-modality concept alongside several ML techniques, including autoencoders, convolutional neural networks (CNNs), and residual connections. Each component plays a crucial role in forming an unsupervised CPR signal processing framework.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0020025525002464

[111] A Multi-Modal Unsupervised Machine Learning Approach for Biomedical ... — A Multi-Modal Unsupervised Machine Learning Approach for Biomedical Signal Processing during Cardiopulmonary Resuscitation. ... Osama Abdeljaber, Onur Avci, and Moncef Gabbouj. 1-D convolutional neural networks for signal processing applications. In ICASSP 2019-2019 IEEE International Conference on Acoustics, Speech and Signal Processing

arxiv

https://arxiv.org/html/2503.18579v1

[112] Unsupervised Variational Acoustic Clustering This work was supported by ... — Unsupervised clustering is crucial in audio applications , particularly for hardware-constrained devices like hearing aids , where different processing is applied per detected acoustic scene . Traditional methods struggle to model the complex, high-dimensional nature of audio signals, resulting in suboptimal clustering [ 4 ] .

wikipedia

https://en.wikipedia.org/wiki/Signal_processing

[121] Signal processing - Wikipedia — They further state that the digital refinement of these techniques can be found in the digital control systems of the 1940s and 1950s.

github

https://dmccreary.github.io/signal-processing/prompts/13-history-of-signal-processing/

[122] History - Signal Processing — Signal processing techniques fuse this data into a coherent picture, enabling more accurate object detection, obstacle avoidance, and threat identification. Communication and Data Transmission Encrypted Communication : Signal processing enables drones and robots to securely transmit data back to their operators or other units in the field.

geeksforgeeks

https://www.geeksforgeeks.org/signal-processing-and-artificial-intelligence-ai/

[123] Signal Processing and Artificial Intelligence (AI) — Signal Processing and Artificial Intelligence (AI) - GeeksforGeeks Tutorials Python Data Visualization Tutorial Signal Processing and Artificial Intelligence (AI) In recent years, signal processing has gained immense importance in artificial intelligence (AI) due to its applications in image recognition, speech processing, and machine learning. In DSP, continuous analog signals are converted to digital form via sampling, and then various digital techniques are used to process the data. With ongoing advancements, particularly in AI and machine learning, signal processing will continue to evolve, offering even more sophisticated solutions to complex problems across industries. Multimodal Learning in Artificial Intelligence (AI) Multimodal AI refers to artificial intelligence systems that integrate and process multiple types of data, such as text, images, audio, and video, to understand and generate comprehensive insights and responses.

hilarispublisher

https://www.hilarispublisher.com/open-access/the-evolution-of-digital-signal-processing-from-analog-to-digital.pdf

[124] PDF — Things artificial intelligence, and autonomous systems will further expand its ... Additionally, advancements in machine learning and deep learning algorithms are opening new frontiers in signal processing, enabling tasks such as pattern recognition, anomaly detection, and predictive analytics . The evolution of Digital Signal Processing

purdue

https://engineering.purdue.edu/cdesign/wp/wp-content/uploads/2019/07/Signal-Processing-Advances-Consumer-Electronics.pdf

[126] PDF — ignal processing has played a founda-tional role in the consumer electronics revolution of the past several decades. Mobile devices, smart-home technologies, digital cameras, and countless other cutting-edge products have benefited from signal processing-enabled innovations. Signal processing's impact on con-sumer technologies shows no signs of

nih

https://pmc.ncbi.nlm.nih.gov/articles/PMC7515149/

[127] Information Theory Applications in Signal Processing - PMC — The birth of Information Theory, right after the pioneering work of Claude Shannon and his celebrated publication of the paper "A mathematical theory of Communication" [], was a milestone that fuelled the posterior development of modern communications.Since its origins, this discipline has progressively expanded its influence on statistical signal processing, a closely related research field.

signalprocessingsociety

https://signalprocessingsociety.org/our-story/signal-processing-101

[160] Signal Processing 101 | IEEE Signal Processing Society — When you’re on the go and need web access or using GPS to find your way, signal processing is the behind-the-scenes technology transforming and analyzing signals to help us communicate and learn from the technology we use on a daily basis – including cell phones, WiFi, TVs, GPS devices, radar, sonar, radio, and cloud and mobile computing.

mdpi

https://www.mdpi.com/2076-3417/13/16/9218

[167] Advancements in Medical Imaging and Image-Guided Procedures: A ... - MDPI — Innovations in medical imaging modalities, such as advanced signal processing, sensor fusion, AI, and deep learning, will enhance accuracy and precision in diagnoses. Multimodal image fusion, combined with real-time guidance, will enable more effective and minimally invasive therapies, revolutionizing patient care.

ieee

https://ieeexplore.ieee.org/document/10739132

[168] Advances in Medical Image Processing: Enhancing Diagnostics and ... — Recent advancements in medical image processing have significantly enhanced the capabilities of diagnostic imaging and treatment planning. This paper provides a comprehensive overview of the latest methodologies and technologies in image processing that contribute to more precise diagnoses and improved treatment strategies. We explore several key areas including deep learning algorithms for

ieee

https://ieeexplore.ieee.org/document/9664607

[169] Signal Processing Underpins Advances in Medical Diagnostics and ... — In an age when signal processing lies at the core of so many different technologies, nothing is more important than its contribution to health care. From improved cardiac patient support to enhanced magnetic resonance imaging (MRI) and advanced diagnostics, signal processing is helping physicians work more safely, efficiently, and accurately. Here is a look at three important research projects

ieee

https://ieeexplore.ieee.org/document/1165372

[172] New applications of digital signal processing in communications — The evolution of telecommunications towards an Integrated Services Digital Network (ISDN) offers new opportunities for signal processing, applications. Recent progress in basic techniques, like perfect signal decomposition and reconstruction or Least Squares adaptive filtering, are crucial in that evolution. Beyond the emergence of new equipment, signal processing advances are paving the way

hilarispublisher

https://www.hilarispublisher.com/open-access/the-evolution-of-telecommunications-infrastructure-from-legacy-systems-to-5g-and-beyond-109584.html

[173] The Evolution of Telecommunications Infrastructure: From Legacy Systems ... — The development of 6G will involve the exploration of new frequency bands, advanced signal processing techniques and novel network architectures . Conclusion. The evolution of telecommunications infrastructure from legacy systems to 5G and beyond represents a remarkable journey of technological advancement. Each phase has brought significant

spie

https://www.spie.org/Publications/Proceedings/Volume/12463

[188] Medical Imaging 2023: Physics of Medical Imaging - SPIE — Photon-counting CT (PCCT) is an emerging imaging technology with potential improvements in quantification and rendition of micro-structures due to its smaller detector sizes. ... calcium, and iodine). We apply two different processing techniques: 1) a modified lookup table and; 2) a model-based material estimation. These are compared with

ieee

https://ieeexplore.ieee.org/document/8103154

[201] Challenges and Open Problems in Signal Processing: Panel Discussion ... — This column summarizes the panel on open problems in signal processing, which took place on 5 March 2017 at the International Conference on Acoustics, Speech, and Signal Processing (ICASSP) in New Orleans, Louisiana. The goal of the panel was to draw attention to some of the challenges and open problems in various areas of signal processing and generate discussion on future research areas that

aimultiple

https://research.aimultiple.com/speech-recognition-challenges/

[203] Top 4 Speech Recognition Challenges & Solutions in 2025 - AIMultiple — Speech recognition technology has significantly advanced in areas like generative AI, voice biometrics, customer service, and smart home devices.1 Despite rapid adoption, implementing this technology still poses various challenges. While trying to improve the accuracy of a speech recognition model, background noise can be a significant barrier. In the same study, 66% of respondents found accent or dialect-related issues a significant challenge for adopting voice recognition tech. Watch how this TED talk explains how smart home devices collect data and the security concerns related to the technology. Additionally, privacy concerns arise due to the need to record and process voice data, and recognizing speech in noisy environments or with multiple speakers remains a challenge. Audio Data Collection for AI: Challenges & Best Practices in 2025

hilarispublisher

https://www.hilarispublisher.com/open-access/realtime-digital-signal-processing-challenges-and-solutions-106790.html

[209] Real-time Digital Signal Processing: Challenges and Solutions — Real-time digital signal processing is a cornerstone of modern technology, enabling a wide range of applications across diverse industries. However, achieving real-time processing comes with its share of challenges, including computational complexity, latency, resource constraints, and signal variability.

researchgate

https://www.researchgate.net/publication/385091955_Real-Time_Spectral_Line_Estimation_for_Dynamic_Signal_Processing_Applications

[211] Real-Time Spectral Line Estimation for Dynamic Signal Processing ... — Real-time signal processing poses significant challenges, particularly when addressing fast-changing signals that require accurate spectral line estimation. Existing methods often struggle to

researchgate

https://www.researchgate.net/publication/385589615_Adaptive_Collaborative_Signal_Augmentation_for_Real-Time_Data_Processing

[212] Adaptive Collaborative Signal Augmentation for Real-Time Data Processing — However, the effective enhancement of signal quality and processing efficiency remains a challenge, particularly in scenarios marked by diverse data sources and fluctuating conditions.

wiley

https://onlinelibrary.wiley.com/doi/pdf/10.1002/0471691852.fmatter

[213] Nonlinear Signal Processing - Wiley Online Library — Nonlinear signal processing methods in all of these applications aim at exploiting the system's nonlinearities or the statistical characteristics of the underlying signals to overcome many of the limitations of the traditional practices used in signal processing. Traditional signal processing enjoys the rich and unified theory of linear systems.

sciencedirect

https://www.sciencedirect.com/org/science/article/pii/S1526149222002880

[217] Challenges and Limitations in Speech Recognition Technology: A Critical ... — Challenges and Limitations in Speech Recognition Technology: A Critical Review of Speech Signal Processing Algorithms, Tools and Systems - ScienceDirect Challenges and Limitations in Speech Recognition Technology: A Critical Review of Speech Signal Processing Algorithms, Tools and Systems This paper aims to present a retrospective yet modern approach to the world of speech recognition systems. The development journey of ASR (Automatic Speech Recognition) has seen quite a few milestones and breakthrough technologies that have been highlighted in this paper. Since speech recognition has a vast potential in various industries like telecommunication, emotion recognition, healthcare, etc., this review would be helpful to researchers who aim at exploring more applications that society can quickly adopt in future years of evolution. For all open access content, the relevant licensing terms apply.

mit

https://www.mit.edu/~kepner/LLjournal/14_2softwaretech.pdf

[219] PDF — Figure 1 shows many of these plat-forms, along with a graph that illustrates the growth in computational requirements for future real-time signal processing applications. The challenge for these systems is the cost-effective implementation of com-plex algorithms on complex hardware.

utk

https://web.eecs.utk.edu/~dbouldin/protected/flex-arch-design-brodersen.pdf

[220] PDF — An efficient and flexible implementation of high-performance digital signal processing algorithms therefore relies on architecture optimization. Unfortunately, the lack of a systematic design approach and consistent metrics currently prevents the exploration of various realizations over a broad range of architectural options.

secjhuapl

https://secwww.jhuapl.edu/techdigest/Content/techdigest/pdf/V09-N03/09-03-Bath.pdf

[223] PDF — IN SIGNAL PROCESSING Signal-processing theory continues to evolve toward discrete, nonrecursive models and solutions, and toward real-time adaptation. Hardware is evolving toward larger building blocks and programmability. There are challenges remaining in the areas of throughput, inherently nonlinear problems, and cost reduc­ tion. BACKGROUND

springeropen

https://asp-eurasipjournals.springeropen.com/articles/10.1186/s13634-024-01182-8

[235] Emerging trends in signal processing and machine learning for ... — Location-based services, safety-critical applications, and modern intelligent transportation systems require reliable, continuous, and precise positioning, navigation, and timing (PNT) information. Global Navigation Satellite Systems (GNSS) are the main source of positioning data in open sky conditions; however, their vulnerabilities to radio interferences and signal propagation limit their use in challenging environments. Articles in the special issue span detection methods, estimation algorithms, signal optimization, and the application of machine learning, providing comprehensive insights into enhancing navigation and positioning accuracy. Modern PNT solutions rely on a sophisticated interplay of diverse sensors and systems to deliver precise and reliable information about position, navigation, and time . Emerging trends in signal processing, multi-sensor fusion, machine learning, and distributed networks offer promising solutions to enhance the accuracy, reliability, and robustness of PNT systems.

researchgate

https://www.researchgate.net/publication/380365499_Hybrid_Learning_Systems_Integrating_Traditional_Machine_Learning_with_Deep_learning_Techniques

[242] Hybrid Learning Systems: Integrating Traditional Machine Learning with ... — The Hybrid Learning System represents that integrates traditional machine learning (ML) algorithms with advanced deep learning techniques, aiming to leverage the strengths of both domains to

arxiv

https://arxiv.org/abs/2403.17181

[243] On the Intersection of Signal Processing and Machine Learning: A Use ... — Recent advancements in sensing, measurement, and computing technologies have significantly expanded the potential for signal-based applications, leveraging the synergy between signal processing and Machine Learning (ML) to improve both performance and reliability. This fusion represents a critical point in the evolution of signal-based systems, highlighting the need to bridge the existing

data-science-ua

https://data-science-ua.com/machine-learning-for-signal-processing/

[245] Machine learning for signal processing - Data Science UA — Machine learning for signal processing - Data Science UA Machine learning and signal processing go hand in hand, revolutionizing various industries by enabling more accurate, efficient, and intelligent data analysis. Instead of manually designing and implementing signal processing algorithms for specific tasks, machine learning models can be trained to learn and adapt to patterns in the data. For a successful implementation of a signal processing project using machine learning, labeled or annotated data is typically required. The typical steps in developing a signal processing solution using machine learning methods include data collection and preprocessing, feature extraction, algorithm selection and training, model optimization, validation, and testing. Projects involving machine learning in signal processing often face challenges such as data quality and quantity, algorithm selection, overfitting, interpretability of results, and real-time processing requirements.

researchgate

https://www.researchgate.net/publication/325325668_Introduction_to_the_Issue_on_Hybrid_Analog-Digital_Signal_Processing_for_Hardware-Efficient_Large-Scale_Antenna_Arrays_Part_I

[263] Introduction to the Issue on Hybrid Analog-Digital Signal Processing ... — Hybrid analog-digital (HAD) processing provides a key technology for the coming generations of wireless networks, as a means of obtaining hardware-efficient transceivers.

ieee

https://ieeexplore.ieee.org/document/9102249

[264] Generalized Framework for Hybrid Analog/Digital Signal Processing in ... — The conventional fully-digital implementation of massive-MIMO systems is not efficient due to the large required number of radio-frequency (RF) chains. To address this issue, hybrid analog/digital (A/D) beamforming was proposed and to date remains a topic of ongoing research. In this paper, we explore the hybrid A/D structure as a general framework for signal processing in massive and ultra

interdigital

https://www.interdigital.com/research_papers/generalized-framework-for-hybrid-analogdigital-signal-processing-in-massive-mimo-systems

[265] Generalized Framework for Hybrid AnalogDigital Signal Processing in ... — In this paper, we explore the hybrid A/D structure as a general framework for signal processing in massive and ultra-massive-MIMO systems. To exploit the full potential of the analog domain, we first focus on the analog signal processing (ASP) network.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0165168425000404

[266] A low computational complexity and high accuracy DOA estimation method ... — The large-scale, partially connected phase-shifter Hybrid Analog-Digital System (HADS) has attracted significant attention due to its low hardware complexity, high reconfigurability, and robustness to failures. Direction-of-Arrival (DOA) estimation presents a critical challenge in HADS, as it directly impacts the Signal-to-Noise Ratio (SNR) and throughput. Existing DOA estimation methods in