Nanomedicine is a field that applies nanotechnology to medicine, using nanoscale materials and devices to diagnose, treat, and prevent diseases. It leverages the unique properties of materials at the nanoscale (1-100 nanometers) to interact with biological systems at a molecular level.
Nanotheranostics refers to the use of nanoparticles that combine diagnostic and therapeutic capabilities in a single entity
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https://www.opengroup.org/sosa https://www.dhs.gov/science-and-technology/biosurveillance https://www.iarpa.gov/
national nanotechnology coordination office
https://pages.nist.gov/cpspwg/
bio cyber interface
https://teaching.eng.cam.ac.uk/content/engineering-tripos-part-iib-4b27-internet-everything-2023-24
bioelectronic patches
https://spectrum.ieee.org/amp/wireless-skin-sensors-for-newborns-will-let-parents-cuddle-fragile-babies-2650278070 https://www.iec.ch/system/files/2023-10/wsdcombinedpdf_0.pdf https://odysee.com/@Psinergy:a/trim.1B0040CE-16E5-463B-86D1-AC3CE69A034D:b https://2026.ieee-sensorsconference.org/ https://www.ieeesmc.org/blog/2023/03/27/towards-symbiotic-autonomous-systems/ https://digitalreality.ieee.org/images/files/pdf/sas-white-paper-final-nov12-2017.pdf https://www.defense.gov/News/Releases/Release/Article/3278076/dod-announces-update-to-dod-directive-300009-autonomy-in-weapon-systems/ https://spectrum.ieee.org/turning-the-body-into-a-wire
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Magnetic Human Body Communication (mHBC) is a wireless communication technology that uses the human body as a conduit for transmitting data between devices, primarily wearable or implantable ones, using magnetic fields. It's an alternative to traditional wireless communication methods that rely on radio waves, which can have higher energy consumption and may not be suitable for all body-area networking applications
https://www.researchgate.net/figure/Impedances-of-the-different-parts-of-the-human-body_tbl1_349433336
The Medical Implant Communication Service (MICS) was established by the Federal Communications Commission (FCC) in 1999. It's a system that allows ultra-low-power wireless communication for implanted medical devices.
https://pervasivecomputinginfo.blogspot.com/2018/10/ieee-802156-standard.html https://www.npr.org/2025/05/08/nx-s1-5391297/air-traffic-control-system-overhaul-modernization https://landline.media/u-s-dot-launches-framework-to-deploy-vehicle-to-everything-technology-nationwide/ https://en.wikipedia.org/wiki/Vehicle-to-everything https://en.wikipedia.org/wiki/Microsystems_Technology_Office https://www.darpa.mil/about/offices/mto
Disruptions in bioelectrical homeostasis in humans can lead to various health issues, including diseases and disorders, due to the body's inability to maintain stable internal conditions. This disruption can result from cellular malfunctions, imbalances in the internal environment, or defects in the body's control mechanisms.
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PhysioNet is a web-based research resource focused on the study of complex physiologic and clinical data. It offers a repository of biomedical data, a library of open-source software, and collaborative workspaces for researchers. PhysioNet's goal is to facilitate the sharing, reuse, and exploration of these resources, promoting open science and collaboration in the field of biomedical research.
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A human phenotype refers to the observable and measurable traits and characteristics of an individual, influenced by both their genetic makeup (genotype) and environmental factors. This includes physical appearance, physiological functions, biochemical properties, behavior, and even the products of behavior.
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Omics refers to the collective study of biological molecules within a cell, tissue, or organism. These molecules are analyzed using high-throughput technologies to gain a comprehensive understanding of their structure, function, and dynamics. Omics includes fields like genomics, proteomics, transcriptomics, and metabolomics, each focusing on different types of molecules.
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Cyberbiosecurity is an emerging field that focuses on the risks and vulnerabilities at the intersection of cybersecurity and biosecurity. It aims to protect sensitive biological data, processes, and materials from unauthorized access, misuse, or exploitation in the digital realm.
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The Ka-band refers to a range of electromagnetic frequencies, specifically 26.5 to 40 GHz, used in various applications, including satellite communications, radar systems, and wireless communication. It's known for providing higher bandwidth and data transfer rates compared to lower frequency bands like Ku-band.
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Yes, the Ka band can be used for communication with Body Area Networks (BANs). Ka band, a specific frequency range, is commonly used for short-range, high-speed data transmission, making it suitable for body-centric communications (BCC) and BANs. These networks involve wireless devices that communicate with or near the human body.
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human activity recognition radar
Mark 5:36
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