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Synthetic Biology – Human Body and Nanoscale Computing

IEEE Communications Society

Technical Committee on Molecular, Biological, and Multi-Scale Communications

Synthetic Biology amd Nanotechnologies empower the scientific and engineering communities with groundbreaking tools, enabling them not just to interface with existing systems at their most fundamental levels—the sub-atomic and molecular scales—but also to forge new paradigms harnessing physical phenomena inherent in micro- and nano-scales. From pioneering ultra-high-performance computing systems built on extensive chip networks and quantum computing and communication architectures, to revolutionary healthcare solutions and human-enhancement technologies rooted in synthetic biology, the spectrum of applications is vast. Achieving these advancements necessitates interdisciplinary collaboration, with teams bridging the realms of material science, physics, biology, chemistry, medicine, electrical and computer engineering, and computer science.

Danica Patrick + David Icke

 

The 11th ACM International Conference on Nanoscale Computing and Communication (ACM NanoCom 2024) continues the legacy of its ten previous editions by uniting experts ready to break barriers and bridge gaps across disciplines, both in academia and industry. ACM NanoCom 2024 aims to showcase novel research results and breakthrough ideas, while also identifying directions for short- and medium-term exploitation. Contributions encompassing both theoretical and experimental research are encouraged. The conference will feature keynote presentations at the forefront of this interdisciplinary field, alongside contributed and invited papers, work-in-progress papers, and demo presentations.

We invite submissions in areas including (but not limited to) the following:

  • Electronic, photonic, electromagnetic (terahertz, optical), and acoustic nanoscale computing and communication, including:
    • Innovative device concepts for signal generation, modulation, radiation, detection, filtering, and amplification
    • Propagation and photothermal modeling of nanoscale electronic, photonic, electromagnetic, and acoustic signals
    • Signal processing, communication, and networking protocols
  • Molecular computing and communication in biological, chemical, or mechanical environments, including:
    • Molecular computing and communication component design, integration or reprogramming through synthetic biology
    • Propagation modeling of molecular information inside and outside of the biological environments
    • Signal processing, communication, and networking protocols
    • Semantic molecular communication and information, channel modeling, and DNA encoding
  • Quantum computing and communication, including:
    • Design and modeling of quantum computing and communication architectures
    • Communication theoretic approaches for quantum communication
    • Quantum communication protocol design
  • Multi-modal interfaces between nanoscale electronic, photonic, electromagnetic, acoustic, and molecular systems, including mechanisms, devices and protocols.
  • Simulation tools and experimental platforms for nanoscale computing and communication, including early reporting of data-sets
  • Integration of nano- and macro-scale communication systems
  • Applications: Internet of Nano-Things and Bio-Nano-Things, nanosensor networks, systems-on-chip, nanomedicine, tissue engineering, medical and non-medical applications, nanonetworks in exotic materials such as functional meta-surfaces, and meta-materials
  • Disease-oriented solutions to diagnose and/or treat specific pathologies, such as neurodegenerative disorders, Alzheimer’s disease, schizophrenia, Parkinson’s disease, epilepsy, cognitive impairments, motor disorders, cardiovascular pathologies, gastrointestinal diseases such as Crohn’s disease, irritable bowel syndrome, pancreas or colon cancer, to name a few.

We invite abstract submissions to share late-breaking or work-in-progress results. This provides the chance for in-depth discussions with other conference attendees and are therefore especially well-suited for obtaining feedback on ongoing research or controversial ideas. Work-in-progress papers will be presented as posters in a dedicated session.

We invite demo submissions that briefly describe the demonstration, how it supports innovative research results, and its value for the community. We solicit demonstrations that can be shown live at the conference, but we can also offer the opportunity for a virtual demonstration via livestream or remote interaction, as appropriate. The demo session offers a unique opportunity to demonstrate ground-breaking prototypes, illustrate innovative solutions, and discuss pertinent emerging technologies with the audience. Demos will be presented in a dedicated session and each demo will be accompanied by a poster.

www.nanocom.acm.org/nanocom2024

 

A Review on Bio-Cyber Interfaces for Intrabody Molecular Communications Systems

The recent progress made on implantable micro-scale devices are covered and the perspective of improve them to foster the development of new theranostics based on data collected at the nanoscale level is introduced.

The recent advancements in bio-engineering and wireless communications systems have motivated researchers to propose novel applications for telemedicine, therapeutics and human health monitoring. For instance, through wireless medical telemetry a healthcare worker can remotely measure biological signals and control certain processes in the organism required for the maintenance of the patient’s health state. This technology can be further extended to use Bio-Nano devices to promote a real-time monitoring of the human health and storage of the gathered data in the cloud. This brings new challenges and opportunities for the development of biosensing network, which will depend on the extension of the current intrabody devices functionalities. In this paper we will cover the recent progress made on implantable micro-scale devices and introduce the perspective of improve them to foster the development of new theranostics based on data collected at the nanoscale level.

Content

The New Frankenstein Professor

2 Figure1 1

 

 

A Systematic Review of Bio-Cyber Interface Technologies and Security Issues for Internet of Bio-Nano Things
Sidra ZafarM. Nazir+6 authors A. Sabah – Computer Science, Engineering – IEEE Access 2021
This paper comprehensively reviews bio-cyber interface for IoBNT architecture like biologically inspired bio-electronic devices, RFID enabled implantable chips, and electronic tattoos, and identifies known and potential security and privacy vulnerabilities and mitigation strategies for consideration in future IoB NT designs and implementations.
[PDF]

 

Internet of Bio-Nano Things: A Review of Applications, Enabling Technologies and Key Challenges
M. KuscuB. Unluturk. Engineering, Computer Science – ITU Journal on Future and Evolving Technologies 2021
A comprehensive overview of the IoBNT framework along with its main components and applications is presented together with a detailed review of the state-of-the-art approaches and a discussion of future research directions.
[PDF]

 

Intra-Body Communications for Nervous System Applications: Current Technologies and Future Directions
A. VizzielloMaurizio MagariniP. SavazziL. Galluccio. Medicine, Engineering Comput. Networks 2023. Highly Influenced
In the past years, several implants have been developed for neural recording and stimulation and some of them have been wirelessly interconnected with external devices through EM technologies [86, 87, 88]. Some preliminary solutions have been developed in this direction [86]. This device consists of two antennas, to transfer data and wirelessly power the system, and does not acquires any chemicals, but senses neuron’s electrical pulses [86, 87].
[PDF]

 

Interfacing of Molecular Communication System With Various Communication Systems Over Internet of Every Nano Things
Lokendra Chouhan Mohamed-Slim Alouini, Engineering, Physics. IEEE Internet of Things Journal. 2023
This work demonstrates the different aspects of interfacing of molecular communication (MC) with other nano-communication systems, such as human body communication, acoustic communication, and tera-Hertz (Thz) communication systems for IoENT.
Cites background from „A Review on Bio-Cyber Interfaces for Intrabody… “
A review on the past and current designs of intrabody nanoscale devices for biocyber interface has been provided in [33].
Moreover, Thz communication have been shown the compatibility with the nanoscale devices and few works have been discussed the interfacing of MC and Thz systems as well [4], [26], [32], [33].


Universal Transceivers: Opportunities and Future Directions for the Internet of Everything (IoE)

Meltem CivasOktay CetinkayaM. KuscuÖ. Akan. Engineering, Computer Science, Frontiers in Communications and Networks 2021
This work introduces a new communication device concept, namely the universal IoE transceiver, that encompasses transceiver architectures that are characterized by multi-modality in communication and in energy harvesting and can pave the way for seamless connection and communication with the universe at a deeper level and pioneer the construction of the forthcoming IoE landscape.
[PDF]

 

ITU

ITU ist eine Sonderorganisation der Vereinten Nationen für digitale Technologie. ITU MAGAZIN.
Die Organisation besteht aus 193 Mitgliedstaaten und mehr als 1000 Unternehmen, Universitäten sowie internationalen und regionalen Organisationen. Mit Hauptsitz in Genf, Schweiz, und regionalen Büros auf allen Kontinenten ist die ITU die älteste Organisation in der UN-Familie – sie verbindet die Welt seit den Anfängen des Telegrafen im Jahr 1865.

ITU/UNESCO Broadband Commission for Sustainable Development

 

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Much more and Related Papers:

https://www.semanticscholar.org/paper/A-Review-on-Bio-Cyber-Interfaces-for-Intrabody
What Is Semantic Scholar? Semantic Scholar is a free, AI-powered research tool for scientific literature, based at Ai2.

 

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Transhumanismus was ist das?

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