Forwarded from La Fern
International research project ERMES on transmission pathways for actively implantable devices launched
7.5.2025 | DIT Press Office
On April 18, the international partners of the ERMES project launched their research collaboration on information transmission for active implantable medical devices (AIMD) in Catania, Sicily. During the kick-off meeting, Prof. Dr. Thiha Aung of the Deggendorf Institute of Technology (DIT) was ceremoniously presented with the signed consortium agreement, which contractually stipulates the framework for the research collaboration, which has a budget of 3.7 million euros.
The goal of the project is to develop a novel concept for information transmission for active implantable medical devices. Initial research work focused on the characterization of synthetic molecular communication channels and the development of suitable transmitter and receiver systems was presented at the meeting. Based on these results, the next work packages were defined, including the validation of the molecular transmission pathways in 3D in vitro and in vivo models and the development of an initial demonstrator.
AIMDs (Active Implantable Medical Devices) are surgically implanted in the body to administer medications, replace missing or defective body parts, and monitor bodily functions or organs.
Well-known examples are technical devices such as pacemakers or implantable defibrillators. Conventional transmission pathways offer only limited options for externally controlling and monitoring functions, which represents a significant obstacle to new developments.
A synthetic molecular communication architecture is intended to enable secure and efficient data transmission both inside and outside the body – a previously unsolved challenge in modern medical technology.
Project details
For the ERMES project (Information transfer between medical doctors and implanted medical devices via synthetic molecular communication), the European Union is providing more than 3.7 million euros for a period of 36 months as part of the highly competitive Horizon Europe – EIC Pathfinder Open funding program.
In addition to the DIT, the project's Bavarian partner institutions include the University of Regensburg, represented by Prof. Dr. Silke Härteis, and the Friedrich-Alexander University Erlangen-Nuremberg, represented by Dr. Maximilian Schäfer.
The international partners include renowned universities and research institutions in Italy, Finland, and France.
Image (DIT): Prof. Dr. Thiha Aung of DIT was ceremoniously presented with the signed Consortium Agreement during the kick-off meeting.
© 2025 | Deggendorf University of Applied Sciences | Imprint | Privacy Policy | Accessibility Statement
https://1-th--deg-de.translate.goog/de/Presseartikel?id=32804696&_x_tr_enc=1&_x_tr_sl=auto&_x_tr_tl=en&_x_tr_hl=sv&_x_tr_pto=wapp
7.5.2025 | DIT Press Office
On April 18, the international partners of the ERMES project launched their research collaboration on information transmission for active implantable medical devices (AIMD) in Catania, Sicily. During the kick-off meeting, Prof. Dr. Thiha Aung of the Deggendorf Institute of Technology (DIT) was ceremoniously presented with the signed consortium agreement, which contractually stipulates the framework for the research collaboration, which has a budget of 3.7 million euros.
The goal of the project is to develop a novel concept for information transmission for active implantable medical devices. Initial research work focused on the characterization of synthetic molecular communication channels and the development of suitable transmitter and receiver systems was presented at the meeting. Based on these results, the next work packages were defined, including the validation of the molecular transmission pathways in 3D in vitro and in vivo models and the development of an initial demonstrator.
AIMDs (Active Implantable Medical Devices) are surgically implanted in the body to administer medications, replace missing or defective body parts, and monitor bodily functions or organs.
Well-known examples are technical devices such as pacemakers or implantable defibrillators. Conventional transmission pathways offer only limited options for externally controlling and monitoring functions, which represents a significant obstacle to new developments.
A synthetic molecular communication architecture is intended to enable secure and efficient data transmission both inside and outside the body – a previously unsolved challenge in modern medical technology.
Project details
For the ERMES project (Information transfer between medical doctors and implanted medical devices via synthetic molecular communication), the European Union is providing more than 3.7 million euros for a period of 36 months as part of the highly competitive Horizon Europe – EIC Pathfinder Open funding program.
In addition to the DIT, the project's Bavarian partner institutions include the University of Regensburg, represented by Prof. Dr. Silke Härteis, and the Friedrich-Alexander University Erlangen-Nuremberg, represented by Dr. Maximilian Schäfer.
The international partners include renowned universities and research institutions in Italy, Finland, and France.
Image (DIT): Prof. Dr. Thiha Aung of DIT was ceremoniously presented with the signed Consortium Agreement during the kick-off meeting.
© 2025 | Deggendorf University of Applied Sciences | Imprint | Privacy Policy | Accessibility Statement
https://1-th--deg-de.translate.goog/de/Presseartikel?id=32804696&_x_tr_enc=1&_x_tr_sl=auto&_x_tr_tl=en&_x_tr_hl=sv&_x_tr_pto=wapp
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Projekt ERMES zu Übertragungswegen für aktiv implantierbare Geräte gestartet
Internationales Forschungsprojekt ERMES zu Übertragungswegen für aktiv implantierbare Geräte gestartet
Forwarded from HumanResistanceAlliance (Human Resistance Alliance [ HRA ])
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Anti ZOG Resistance
Old Channel (banned on Google play app): Join us 👉https://t.me/HumanResistanceAllianceHRA
New Channel: Join us 👉https://t.me/HumanResistanceResurrection
Old Channel (banned on Google play app): Join us 👉https://t.me/HumanResistanceAllianceHRA
New Channel: Join us 👉https://t.me/HumanResistanceResurrection
Forwarded from Nonvaxer420 RUMBLE
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https://x.com/Imbackbitches45/status/1938667248677261346?t=RIw_Jy612thX6O5BkjU-ng&s=19
The DARPA Perspective on AI and Autonomy at the DOD https://rumble.com/v6vep9p-the-darpa-perspective-on-ai-and-autonomy-at-the-dod.html
The DARPA Perspective on AI and Autonomy at the DOD https://rumble.com/v6vep9p-the-darpa-perspective-on-ai-and-autonomy-at-the-dod.html
Forwarded from User One
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Forwarded from User One
[IEEE] MIMO Multitarget Detection + Localization [2025].pdf
3.6 MB
Low-Complexity Multitarget Detection and Localization Method for Distributed MIMO Radar (2025)
Direct position determination (DPD) for multiple targets in distributed multiple-input multiple-output (MIMO) radar has been a challenging problem. This article proposed a low-complexity multitarget detection and localization method for distributed MIMO radar. To address the problem of exponential expansion of the state space caused by high-dimensional detection in traditional DPD, a low-dimensional detector is proposed. Specifically, we divide the radar-sensed scene into discrete 2-D grid cells and derive the maximum likelihood estimation (MLE) function as well as the generalized likelihood ratio test (GLRT) detector in the 2-D scene. In addition, the probability of a false alarm (PFA) for the derived GLRT detector has an analytic solution, ensuring each grid cell maintains a constant PFA. Since the proposed detector introduces a large number of false targets, we further propose the clean with protecte...
AbstractDirect position determination (DPD) for multiple targets in distributed multiple-input multiple-output (MIMO) radar has been a challenging problem. This article proposed a low-complexity multitarget detection and localization method for distributed MIMO radar. To address the problem of exponential expansion of the state space caused by high-dimensional detection in traditional DPD, a low-dimensional detector is proposed. Specifically, we divide the radar-sensed scene into discrete 2-D grid cells and derive the maximum likelihood estimation (MLE) function as well as the generalized likelihood ratio test (GLRT) detector in the 2-D scene. In addition, the probability of a false alarm (PFA) for the derived GLRT detector has an analytic solution, ensuring each grid cell maintains a constant PFA. Since the proposed detector introduces a large number of false targets, we further propose the clean with protecte...
Forwarded from Lil Anomaly
I feel like this is a key phrase that should get pointed out more often to people who are just learning about all of this. Why are they called cell phones and cellular networks?
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Forwarded from Missy
Intra-body-nano-network-Brief-summary-by-Mik-Andersen.pdf
11.8 MB
This is premium information, a must read for everyone in this group!!!
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Forwarded from Nonvaxer420 RUMBLE
6G Deployment Dates https://search.brave.com/search?q=6g+deployment+dates&source=android&summary=1&conversation=cce37d281d9f6250822cfd
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Humans Powering 6G https://search.brave.com/search?q=using+humans+to+power+6g&source=android&summary=1&conversation=9b1092d982ed830ee4fa4a
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6G Biodigital Convergence https://search.brave.com/search?q=6G+Biodigital+Convergence+&source=web&summary=1&conversation=507be047e5ad81c61cc277
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6G AI Convergence https://search.brave.com/search?q=6G+iobnt+and+AI+Convergence&source=android&summary=1&conversation=15a354a04cd43db0037abf
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6G and IoBNT https://search.brave.com/search?q=iobnt+in+6g&source=android&summary=1&conversation=5c6a95ded6f19d85b5d79e
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Biosensing in 6G https://search.brave.com/search?q=biosensing+in+6g&source=android&summary=1&conversation=a9a94d01de91668a063b3f
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intrabody biosensing in 6g https://search.brave.com/search?q=intrabody+biosensing+in+6g&source=web
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intrabody biosensing in 6g https://search.brave.com/search?q=intrabody+biosensing+in+6g&source=web
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Joint Communication and Bio-Sensing With Plasmonic Nano-Systems to Prevent the Spread of Infectious Diseases in the Internet of Nano-Bio Things https://search.brave.com/search?q=Joint+Communication+and+Bio-Sensing+With+Plasmonic+Nano-Systems+to+Prevent+the+Spread+of+Infectious+Diseases+in+the+Internet+of+Nano-Bio+Things&source=android&summary=1&conversation=00955a82e3ace38a708e8a
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Nanotechnology in Smart Cities
https://search.brave.com/search?q=Nanonetworks+smart+city&source=web&summary=1&conversation=f2a237cc606a0d1d3fc72b
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Real-time healthcare monitoring in smart cities https://search.brave.com/search?q=healthcare+real+time+monitoring+in+smart+city&source=android&summary=1&conversation=14e84b61d737e14be9e7c6
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Iobnt IoE in 6G https://search.brave.com/search?q=iobnt+ioe+in+6g&source=web&summary=1&conversation=774930efb9030e3f63db75
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Healthcare in IoE IoBNT https://search.brave.com/search?q=healthcare+in+the+ioe+iobnt&source=web&summary=1&conversation=0cc5c1232ba3a66b0cf324
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Iobnt IoE in 6G https://search.brave.com/search?q=iobnt+ioe+in+6g&source=web&summary=1&conversation=774930efb9030e3f63db75
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Healthcare in IoE IoBNT https://search.brave.com/search?q=healthcare+in+the+ioe+iobnt&source=web&summary=1&conversation=0cc5c1232ba3a66b0cf324
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Internet of Behaviors 6G https://search.brave.com/search?q=internet+of+Behaviors+6g&source=android&summary=1&conversation=1f4992300cf5bdf33b45a0
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IoBNT project, focusing on nano communication and molecular communication for life sciences applications.
https://search.brave.com/search?q=IoBNT+project%2C+focusing+on+nano+communication+and+molecular+communication+for+life+sciences+applications.&source=android&summary=1&conversation=dfc1d4d9d1e44ba6ca8fa1
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Universities teaching the internet of bio-nano Things https://search.brave.com/search?q=Universities+teaching+the+internet+of+bio-nano+Things&source=android&summary=1&conversation=b571296a6c9fad5af78578
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ioe iobnt Cambridge University
https://search.brave.com/search?q=ioe+iobnt+Cambridge+University+&source=web&summary=1&conversation=e2ef21bb810df6700dab8a
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thz biosensing https://search.brave.com/search?q=thz+biosensing&source=web&summary=1&conversation=dca98f7d50c305215551e4
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Nanotechnology in Smart Cities
https://search.brave.com/search?q=Nanonetworks+smart+city&source=web&summary=1&conversation=f2a237cc606a0d1d3fc72b
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Real-time healthcare monitoring in smart cities https://search.brave.com/search?q=healthcare+real+time+monitoring+in+smart+city&source=android&summary=1&conversation=14e84b61d737e14be9e7c6
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Humans Powering 6G https://search.brave.com/search?q=using+humans+to+power+6g&source=android&summary=1&conversation=9b1092d982ed830ee4fa4a
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6G Biodigital Convergence https://search.brave.com/search?q=6G+Biodigital+Convergence+&source=web&summary=1&conversation=507be047e5ad81c61cc277
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6G AI Convergence https://search.brave.com/search?q=6G+iobnt+and+AI+Convergence&source=android&summary=1&conversation=15a354a04cd43db0037abf
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6G and IoBNT https://search.brave.com/search?q=iobnt+in+6g&source=android&summary=1&conversation=5c6a95ded6f19d85b5d79e
.
Biosensing in 6G https://search.brave.com/search?q=biosensing+in+6g&source=android&summary=1&conversation=a9a94d01de91668a063b3f
.
intrabody biosensing in 6g https://search.brave.com/search?q=intrabody+biosensing+in+6g&source=web
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intrabody biosensing in 6g https://search.brave.com/search?q=intrabody+biosensing+in+6g&source=web
.
Joint Communication and Bio-Sensing With Plasmonic Nano-Systems to Prevent the Spread of Infectious Diseases in the Internet of Nano-Bio Things https://search.brave.com/search?q=Joint+Communication+and+Bio-Sensing+With+Plasmonic+Nano-Systems+to+Prevent+the+Spread+of+Infectious+Diseases+in+the+Internet+of+Nano-Bio+Things&source=android&summary=1&conversation=00955a82e3ace38a708e8a
.
.
Nanotechnology in Smart Cities
https://search.brave.com/search?q=Nanonetworks+smart+city&source=web&summary=1&conversation=f2a237cc606a0d1d3fc72b
.
Real-time healthcare monitoring in smart cities https://search.brave.com/search?q=healthcare+real+time+monitoring+in+smart+city&source=android&summary=1&conversation=14e84b61d737e14be9e7c6
.
Iobnt IoE in 6G https://search.brave.com/search?q=iobnt+ioe+in+6g&source=web&summary=1&conversation=774930efb9030e3f63db75
.
Healthcare in IoE IoBNT https://search.brave.com/search?q=healthcare+in+the+ioe+iobnt&source=web&summary=1&conversation=0cc5c1232ba3a66b0cf324
.
Iobnt IoE in 6G https://search.brave.com/search?q=iobnt+ioe+in+6g&source=web&summary=1&conversation=774930efb9030e3f63db75
.
Healthcare in IoE IoBNT https://search.brave.com/search?q=healthcare+in+the+ioe+iobnt&source=web&summary=1&conversation=0cc5c1232ba3a66b0cf324
.
Internet of Behaviors 6G https://search.brave.com/search?q=internet+of+Behaviors+6g&source=android&summary=1&conversation=1f4992300cf5bdf33b45a0
.
IoBNT project, focusing on nano communication and molecular communication for life sciences applications.
https://search.brave.com/search?q=IoBNT+project%2C+focusing+on+nano+communication+and+molecular+communication+for+life+sciences+applications.&source=android&summary=1&conversation=dfc1d4d9d1e44ba6ca8fa1
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Universities teaching the internet of bio-nano Things https://search.brave.com/search?q=Universities+teaching+the+internet+of+bio-nano+Things&source=android&summary=1&conversation=b571296a6c9fad5af78578
.
ioe iobnt Cambridge University
https://search.brave.com/search?q=ioe+iobnt+Cambridge+University+&source=web&summary=1&conversation=e2ef21bb810df6700dab8a
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thz biosensing https://search.brave.com/search?q=thz+biosensing&source=web&summary=1&conversation=dca98f7d50c305215551e4
.
Nanotechnology in Smart Cities
https://search.brave.com/search?q=Nanonetworks+smart+city&source=web&summary=1&conversation=f2a237cc606a0d1d3fc72b
.
Real-time healthcare monitoring in smart cities https://search.brave.com/search?q=healthcare+real+time+monitoring+in+smart+city&source=android&summary=1&conversation=14e84b61d737e14be9e7c6
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Forwarded from The Dollar Vigilante (Official Channel)
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The Super Artificial Intelligence and Nanotech Complete Subjugation of Humanity Is Here
These shootings happen from people being connected to the IoBNT. These are remote weapons being used against humanity amplified by the receiving and transmitting of signals to the human mind.
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