The application of electronic technology pervades various facets of modern society, including the realm of medical, biological, and biomedical contexts. An area of particular interest lies in the use of antennas for biomarker monitoring, which presents intriguing non-invasive capabilities. This emerging field has garnered significant attention within the scientific community, positioning antenna-based devices as an active frontier for biomedical applications.
Researchers are currently advancing their understanding and implementation of antenna-based biomedical devices, focusing on crucial aspects such as optimized antenna design, frequency selection, strategic antenna placement, and the development of wearable or implantable devices. While substantial progress has been made in these hardware aspects, there remains a critical challenge in the processing and interpretation of the acquired data. It is here that modern artificial intelligence (AI) techniques offer ground-breaking potential, leveraging powerful pattern recognition and data processing capabilities.
This topical collection seeks to compile insightful contributions that explore the combination and potential synergies of antenna-based devices and AI processing techniques within the biomedical domain. While our emphasis is on non-invasive, wearable, and implantable devices, we also invite original research and comprehensive review works that address unresolved problems and challenges encountered in medical equipment and biomedical devices. We anticipate novel ideas, innovative devices, and cutting-edge approaches that will expand the current boundaries of scientific knowledge.
Areas of particular interest for submission include, but are not limited to:
1. Optimization of antenna design for biomedical applications.
2. Frequency selection and bandwidth utilization for effective biomarker monitoring.
3. Strategic placement of antennas in wearable or implantable devices to maximize performance.
4. Advancements in powering techniques for antenna-based biomedical devices.
5. Seamless integration of data recording, transmission, and retrieval methods.
6. AI-driven algorithms for advanced data processing and pattern recognition.
7. AI-assisted interpretation and analysis of data collected by antenna-based devices.
8. Non-invasive applications of antenna-based devices in medical settings.
9. Wearable antenna systems for continuous health monitoring.
10. Implantable antenna devices for medical diagnostics or therapeutics.
Prospective researchers are encouraged to submit their original works and comprehensive review articles, contributing to the advancement of this thrilling research field. By harnessing the convergence of antennas and AI, we expect ground-breaking advancements that address critical challenges within the medical and biomedical domains. Join us in this special issue, as we propel the future of healthcare towards unprecedented technological enhancement.
Keywords:
Artificial intelligence, Antennas, Microwaves, Sensors, Biomedical applications, Data monitoring, Wearable antennas, Implantable antennas
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
The application of electronic technology pervades various facets of modern society, including the realm of medical, biological, and biomedical contexts. An area of particular interest lies in the use of antennas for biomarker monitoring, which presents intriguing non-invasive capabilities. This emerging field has garnered significant attention within the scientific community, positioning antenna-based devices as an active frontier for biomedical applications.
Researchers are currently advancing their understanding and implementation of antenna-based biomedical devices, focusing on crucial aspects such as optimized antenna design, frequency selection, strategic antenna placement, and the development of wearable or implantable devices. While substantial progress has been made in these hardware aspects, there remains a critical challenge in the processing and interpretation of the acquired data. It is here that modern artificial intelligence (AI) techniques offer ground-breaking potential, leveraging powerful pattern recognition and data processing capabilities.
This topical collection seeks to compile insightful contributions that explore the combination and potential synergies of antenna-based devices and AI processing techniques within the biomedical domain. While our emphasis is on non-invasive, wearable, and implantable devices, we also invite original research and comprehensive review works that address unresolved problems and challenges encountered in medical equipment and biomedical devices. We anticipate novel ideas, innovative devices, and cutting-edge approaches that will expand the current boundaries of scientific knowledge.
Areas of particular interest for submission include, but are not limited to:
1. Optimization of antenna design for biomedical applications.
2. Frequency selection and bandwidth utilization for effective biomarker monitoring.
3. Strategic placement of antennas in wearable or implantable devices to maximize performance.
4. Advancements in powering techniques for antenna-based biomedical devices.
5. Seamless integration of data recording, transmission, and retrieval methods.
6. AI-driven algorithms for advanced data processing and pattern recognition.
7. AI-assisted interpretation and analysis of data collected by antenna-based devices.
8. Non-invasive applications of antenna-based devices in medical settings.
9. Wearable antenna systems for continuous health monitoring.
10. Implantable antenna devices for medical diagnostics or therapeutics.
Prospective researchers are encouraged to submit their original works and comprehensive review articles, contributing to the advancement of this thrilling research field. By harnessing the convergence of antennas and AI, we expect ground-breaking advancements that address critical challenges within the medical and biomedical domains. Join us in this special issue, as we propel the future of healthcare towards unprecedented technological enhancement.
Keywords:
Artificial intelligence, Antennas, Microwaves, Sensors, Biomedical applications, Data monitoring, Wearable antennas, Implantable antennas
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.