Inside the Body’s Future: How Bio-Nano Things Will Change Disease Detection
The Perspective on Bio-Nano Interface Technology for Convid-19
https://www.frontiersin.org/.../fnano.2020.586250/full
The digital nervous system (DNS), a smart healthcare body-area network (BAN).
Separate nodes on the human body work in unison to sense and communicate health parameters and actuate medical treatments.
An intelligent and efficient wireless body area network to control coronavrus outbreak
An Intelligent and Energy‑Efcient Wireless Body Area Network
to Control CoronaUirus Outbreak Wireless Body Area Networks with the Internet
of Things for Monitoring of CONVID‑19 Patients
WBAN belongs to category of !!!!continuous health monitoring!!!!
systems known as external monitoring health care systems
(eHealth),
which are used to perform local monitoring and
controlling.
These systems aim at treating the sick without
their having required to visit the hospitals frequently
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7909758/
"Nanorobot Hardware Architecture for Medical Defense"
ISSN 1424-8220
https://www.mdpi.org/sensors/papers/s8052932.pdf .....
Building digital twins of the human immune system: toward a roadmap
https://www.nature.com/articles/s41746-022-00610-z
Intra-body communications for nervous system applications: Current technologies and future directions
https://www.sciencedirect.com/science/article/pii/S1389128623001639#fig3
Nano-networks Communication Architecture: Modeling and Functions
https://www.researchgate.net/figure/Schematic-representation-of-IoBNT-20_fig13_326679828
What Is the Internet of Bio-Nano Things?
https://www.iottechtrends.com/the-internet-of-bio-nano-things/
THE INTERNET OF BIO-NANOTHINGS
The IoBNT stands as a paradigm-shifting concept for communication and network engineering,
where novel challenges are faced to develop efficient and safe techniques for the exchange of
information, interaction, and networking within the biochemical domain, while enabling an
interface to the electrical domain of the Internet
https://web.archive.org/.../bwn.ece.../papers/2015/j3.pdf
Internet of Bio-Nano Things
https://ioe.eng.cam.ac.uk/Research/Research-Areas
Internet of Nano, Bio-Nano, Biodegradable and Ingestible Things: A Survey
Convid-19, Psychological Operations, and the War
for Technocracy
https://ia800304.us.archive.org/.../978-3-031-41850-1.pdf
The Internet of bio-nano things in blood vessels: System design and prototypes
https://ieeexplore.ieee.org/document/10102779
Internet of Bio-Nano Things: A Review of
Applications, Enabling Technologies and Key
Challenges
https://arxiv.org/pdf/2112.09249.pdf
S.5002 - FDA Modernization Act 2.0
https://www.congress.gov/.../117th-congress/senate-bill/5002
Intra-body nano-network - Brief summary by Mik Andersen
https://www.slideshare.net/slideshow/intrabody-nanonetwork-brief-summary-by-mik-andersen/266083307?
Noise Analysis in Ligand-Binding Reception for Molecular Communication in Nanonetworks
Molecular communication (MC) will enable the ex-change of information among nanoscale devices.
In this novel bio-inspired communication paradigm, molecules are employed to en-code, transmit and receive information.
In the most general case,these molecules are propagated in the medium by means of free dif-fusion.
An information theoretical analysis of diffusion-based MCis required to better understand the potential of this novel com-munication mechanism.
The study and the modeling of the noise sources is of utmost importance for this analysis.
The objective of this paper is to provide a mathematical study of the noise at the reception of the molecular information in a diffusion-based MC system when the ligand-binding reception is employed.
Biological Response to Carbon-Family Nanomaterials: Interactions at the Nano-Bio Interface
https://www.frontiersin.org/.../10.../fbioe.2019.00004/full
Combinatorial Nano–Bio Interfaces
Scientists Create First Synthetic Cell
https://rumble.com/vxa9sl-scientists-create-first-synthetic-cell.html
SYNTHETIC FIBER NETWORK
https://rumble.com/v4kf6d8-synthetic-fiber-network.html
They've created the first fully functioning, reproducing cell controlled by synthetic DNA
First Self-Replicating, Synthetic Bacterial Cell Constructed by J. Craig
"We're not creating life from scratch in the test tube," he said. "We're creating new life forms by creating new versions of the genetic code."
Craig Venter: Pushing Biotechnological Boundaries
https://abcnews.go.com/Nightline/TenWays/story?id=3931896&page=1
Rethinking the role of the state in technology development: DARPA and the case for embedded network governance This paper explores the role of the state in re-architecting social networks and thereby new technology directions in the United States.
It draws on a case study of DARPA's Microsystems Technology Office from 1992 to 2008. Leveraging one of the most radical directorships in DARPA's history, I argue that the perceived “death” of DARPA under Tony Tether was because past analyses, by focusing on the organization's culture and structure, overlooked a set of lasting, informal institutions among DARPA program managers.
I find that despite significant changes in the recipients and outcomes of DARPA attentions, these same institutions for directing technology were in place both before and during Tether's directorship.
Drawing on these results, I suggest that we must add to technology policy-making a new option—embedded network governance.
https://www.sciencedirect.com/.../abs/pii/S0048733310001587
Human Augmentation strategic implications project
https://assets.publishing.service.gov.uk/media/609d23c6e90e07357baa8388/Human_Augmentation_SIP_access2.pdf
In May 2022, the World Economic Forum launched
the Defining and Building the Metaverse Initiative,
which orchestrates an integrated approach to the
development and governance of the metaverse.
https://initiatives.weforum.org/defining-and.../home
Established in 2007, we are pioneer in developing and manufacturing microfluidic (BioMEMS/NEMS) systems and consumables for variety of in-vitro diagnostics, point-of-care, clinical, biomedical, pharmaceutical, life science and analytical applications.
https://www.biomemssolutions.com/?
Craig Venter · Biologist, genetics pioneer
In 2001, Craig Venter made headlines for sequencing the human genome. In 2003, he started mapping the ocean's biodiversity. And now he's created the first synthetic lifeforms -- microorganisms that can produce alternative fuels.
https://www.edge.org/conversation/j_craig_venter-changing-one-species-to-anotherrig
Embedded Military post & 2023 brain summit https://rumble.com/v4qy7y3-embedded-military-post-and-2023-brain-summit.html Intra-body Networks and Molecular Communication Networks in Diagnostic Sciences
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9671267/ Integrated Disease Surveillance and Response (IDSR)
https://www.cdc.gov/globalhealth/healthprotection/idsr/index.html
Pathogen Asset Control System (PACS)
is a comprehensive and flexible software solution for accounting and tracking of
Biological Materials in Laboratories
PACS was developed by DTRA to support the Mission of
the Biological Threat Reduction Program (BTRP)
• Enhance capability to identify and consolidate collections of pathogens and diseases of
Biosecurity concern
• Enhance Biosafety and Biosecurity of the stored Biological Materials
https://pacs.btrp.net/wp-content/uploads/2020/03/PACS_One_Pager.pdf
Proposed Energy Efficiency and Power Management Framework for Energy Harvesting –Wireless Body Area Network
https://www.researchgate.net/figure/Block-diagram-of-the-major-components-of-EH-WBAN_fig1_359071904 Molecular Nano Neural Networks (M3N):In-Body Intelligence for the IoBNT
Sensor Open Systems Architecture (SOSA) initiative
https://www.opengroup.org/sosa
The Sensor Open Systems Architecture (SOSA™) in a Nutshell
https://ndiastorage.blob.core.usgovcloudapi.net/ndia/2018/systems/Thurs_21371_Davidson.pdf
Future Airborne Capability Environment® (FACE) | www.opengroup.org
https://www.opengroup.org/face
U.S. ARMY COMBAT CAPABILITIES DEVELOPMENT COMMAND
C5ISR CENTER C5ISR/EW Modular Open Suite of Standards (CMOSS) Overview
DEPARTMENT OF THE ARMY
PROGRAM EXECUTIVE OFFICE
INTELLIGENCE, ELECTRONIC WARFARE AND SENSORS
Vehicular Integration for C4ISR/EW Interoperability (VICTORY)
Background: The Vehicular Integration for C4ISR/EW Interoperability (VICTORY)
initiative was started as a way to correct the problems created by the "bolt-on" approach
to fielding equipment on US Army vehicles.
OUSD(R&E) Review of MOSA Tools and Practices
https://www.cto.mil/wp-content/uploads/2023/06/MOSA-Tools-2022.pdf IB-MAC: Transmission Latency-Aware MAC for Electro-Magnetic Intra-Body Communications
https://www.mdpi.com/1424-8220/19/2/341
Strategies for Optimal MAC Parameters Tuning in IEEE 802.15.6 Wearable Wireless Sensor Networks
Challenges and Issues for Wireless Sensor Networks: A Survey
original link found on NYUAD Institute
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