The 16 papers in this special issue were presented at the 2022 ieee biomedical circuits and systems conference (BioCAS) in Taipei, Taiwan, from October 13-15, 2022. BioCAS 2022 was jointly sponsored by the ieee Circui...
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The 16 papers in this special issue were presented at the 2022 ieee biomedical circuits and systems conference (BioCAS) in Taipei, Taiwan, from October 13-15, 2022. BioCAS 2022 was jointly sponsored by the ieeecircuits and systems (CAS) Society, ieee Solid-State circuits (SSC) Society, and the ieee Engineering in Medicine and Biology (EMB) Society.
The development of biomedical image technology has brought significant advancements to healthcare and frontier research. Over the past 20 years, BioCAS has witnessed and documented comprehensive achievements in biomed...
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ISBN:
(纸本)9798350354966;9798350354959
The development of biomedical image technology has brought significant advancements to healthcare and frontier research. Over the past 20 years, BioCAS has witnessed and documented comprehensive achievements in biomedical image sensor design and processing algorithms. This paper provides a systematic review of the work related to biomedical image acquisition and processing technology in BioCAS and offers a perspective on future developments in this field.
The ieee International Symposium on circuits and systems (ISCAS) is the flagship conference of the ieeecircuits and systems (CAS) Society and the world's premiere forum for researchers in the fields of theory, de...
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The ieee International Symposium on circuits and systems (ISCAS) is the flagship conference of the ieeecircuits and systems (CAS) Society and the world's premiere forum for researchers in the fields of theory, design and implementation of circuits and systems. The ieee TRANSACTIONS ON biomedicalcircuits AND systems (TBioCAS) highlights selected papers from ISCAS on topics related to biological and healthcare applications. This special section features four selected papers from ISCAS 2022, held in Austin, Texas, USA from May 28 to June 1, 2022.
The ieee Asia Pacific conference on circuits and systems (APCCAS) is the regional flagship conference of the ieeecircuits and systems Society (CASS) in Asia. This conference is a major international forum established...
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The ieee Asia Pacific conference on circuits and systems (APCCAS) is the regional flagship conference of the ieeecircuits and systems Society (CASS) in Asia. This conference is a major international forum established by the ieeecircuits and systems Society for researchers to exchange their latest findings in circuits and systems. It covers a wide range of topics, including analog, mixed-signal, digital, communication, sensory, biomedical, power/energy, nonlinear, and artificial intelligence circuits and systems.
This special issue of the ieee Transactions on biomedicalcircuits and systems presents 4 high-quality invited research papers from the 2022 ieee Asia Pacific conference on circuits and systems (APCCAS) in Shenzhen, C...
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This paper shows a circuit concept for low-energy neuromorphic hardware for Spiking Neural Networks (SNNs). Combining continuous time-encoded values with time-discrete circuitry helps to improve energy-efficiency. Sim...
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ISBN:
(纸本)9798350354966;9798350354959
This paper shows a circuit concept for low-energy neuromorphic hardware for Spiking Neural Networks (SNNs). Combining continuous time-encoded values with time-discrete circuitry helps to improve energy-efficiency. Simple design blocks for neurons and synapses make a scalable neural network design process possible. The direct connection between neurons and synapses in an analog manner reduces latency and energy consumption. The functionality was proven by a small neural net solving a classification problem on silicon. Measurements show a FOM of 86.9 fJ for one synaptic operation.
Technological innovation in biomedical science, driven by semiconductor circuit and system engineering, has enabled faster diagnosis, continuous health monitoring, and advanced treatment approaches. Recent advances in...
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ISBN:
(纸本)9798350354966;9798350354959
Technological innovation in biomedical science, driven by semiconductor circuit and system engineering, has enabled faster diagnosis, continuous health monitoring, and advanced treatment approaches. Recent advances in non-invasive, wearable biosensor interfaces and imaging have significantly improved performance and reduced costs, enhancing accessibility to medical technology. These sensors, benefiting from semiconductor technology, offer convenience, low infection risk, and cost-effective solutions for medical monitoring. This paper explores the principles, challenges, and advancements in non-invasive sensor technology, including electrodes, optical elements, and Electrical Impedance Tomography (EIT). The integration of semiconductor technology in these applications is paving the way for personalized medicine and point-of-care solutions, with promising potential to improve patient care and healthcare outcomes.
Mechanical ventilation is critical to patients suffering from respiratory disorders. However, patient-ventilator asynchrony(PVA) events seriously impact patients' comfort in rehabilitation or treatment progress an...
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ISBN:
(纸本)9798350354966;9798350354959
Mechanical ventilation is critical to patients suffering from respiratory disorders. However, patient-ventilator asynchrony(PVA) events seriously impact patients' comfort in rehabilitation or treatment progress and, sometimes, threaten clinical safety. Thus, detecting and altering abnormal mechanical ventilation events are vital in biomedical state monitoring. This paper proposes a topological nonlinear analysis approach to identifying PVA events, addressing the recognition challenge during mechanical ventilation. The proposed approach distinguished itself in the experimental validations performed with clinical data collected from 22 subjects for recognizing common PVA events, including double triggering, ineffective efforts, premature cycling, and delayed cycling. The proposed topological feature shows advantages compared to other related nonlinear dynamics descriptors, which is supposed to be a novel solution for PVA analysis.
The ieee International Solid-State circuitsconference (ISSCC) is the flagship conference of the ieee Solid-State circuits Society and the foremost global forum for presenting advances in solid-state circuits and syst...
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The ieee International Solid-State circuitsconference (ISSCC) is the flagship conference of the ieee Solid-State circuits Society and the foremost global forum for presenting advances in solid-state circuits and systems-on-a-chip. Starting from 2010, the ieee Transactions on biomedicalcircuits and systems has highlighted selected papers from ISSCC on topics related to biological and healthcare applications. This special section features five selected papers from ISSCC 2023, held in San Francisco, California, USA from February 19 to February 23, 2023.
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