Radiofrequency communication through tissue

AI Thread Summary
A biologist is developing a biocommunication project using a Piezo sensor to detect bone cracks through electromagnetic interference (EMI) and plans to transmit the data via radio-frequency (RF) technology through muscle and skin. The project involves attaching an RF transmitter to the sensor at the bone and a receiver at the skin, but the biologist is unsure about the appropriate transmitter and receiver to use. Recommendations include researching RF communication through tissue and considering the frequency range, with 2.550 GHz suggested as effective. The discussion also highlights the importance of antenna design and the need for clarity on whether the ultrasonic signal is analog or digital. Overall, the project aims to facilitate data transmission from within the body using RF technology.
mit_cool
Messages
20
Reaction score
1
Hello,
I am a Biologist currently working on a Biocommunication related project.
To explain the project, I am going to use a Piezo sensor attached to the bone and it can detect bone cracks using EMI. I would first energize Piezo sensor with certain frquencies and it generates Ultrasonic waves that can detect crack. However after detection, I want to transmit the data over the muscle and skin using Radio-frequency technology.
I am thinking to attach one RF transmitter to the sensor at the bone and keep the receiver at the skin.

As a newbie, I have no idea which kind of transmitter and receiver I should buy and use.

Would be great if anyone can help.

Thanks,
Mit
 
Engineering news on Phys.org
I googled the title of this thread, and got lots of useful hits:

https://www.google.com/search?q=rf+communication+through+tissue&ie=utf-8&oe=utf-8&client=firefox-b-1

There are a number of good articles about RF transmission through tissues (and other body structures), like this one:

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3715232/

I'm not sure there is an off-the-shelf system that you can just buy to use. Do you have any EEs on your team who could build something up once you settle on the most appropriate RF band to use?
 
Many thanks. I will check the articles to understand the RF communication through tissue.
 
mit_cool said:
Hello,
I am a Biologist currently working on a Biocommunication related project.
To explain the project, I am going to use a Piezo sensor attached to the bone and it can detect bone cracks using EMI. I would first energize Piezo sensor with certain frquencies and it generates Ultrasonic waves that can detect crack. However after detection, I want to transmit the data over the muscle and skin using Radio-frequency technology.
I am thinking to attach one RF transmitter to the sensor at the bone and keep the receiver at the skin.

As a newbie, I have no idea which kind of transmitter and receiver I should buy and use.

Would be great if anyone can help.

Thanks,
Mit
2.550 GHz is easy to work with and works well trough skin. I'd suggest looking around on NCBI as well.
 
Many Thanks
 
  • Like
Likes berkeman
mit_cool said:
As a newbie, I have no idea which kind of transmitter and receiver I should buy and use.
It would help to know if your ultrasonic generator and detector are based on a pulse, a chirp or continuous wave.
Is the detected signal an analog or digital signal?
What is the bandwidth of the detected ultrasonic signal?
Any signal will pass through tissue given sufficient power. The antenna design will need to be considered carefully.
 
An IC design engineer that used to work here had previously helped to design the IC that went into a small pill that was swallowed by the patient. It transmitted data as it passed through the patient, and was eliminated smoothly along with other solid waste. He doesn't work here any more, and unfortunately I don't remember the name of the company that he did it for.

But I did a Goggle search just now for RF Pill Transponder, and got some good hits. Maybe have a look at the hit list to see if it helps in your investigation:

https://www.google.com/search?q=rf+pill+transponder&ie=utf-8&oe=utf-8&client=firefox-b-1
 
  • Like
Likes dlgoff and anorlunda
Baluncore said:
It would help to know if your ultrasonic generator and detector are based on a pulse, a chirp or continuous wave.
Is the detected signal an analog or digital signal?
What is the bandwidth of the detected ultrasonic signal?
Any signal will pass through tissue given sufficient power. The antenna design will need to be considered carefully.

Hi. The generated signal is Continuous Analog wave between the range of 40 to 250 Khz.
 
berkeman said:
An IC design engineer that used to work here had previously helped to design the IC that went into a small pill that was swallowed by the patient. It transmitted data as it passed through the patient, and was eliminated smoothly along with other solid waste. He doesn't work here any more, and unfortunately I don't remember the name of the company that he did it for.

But I did a Goggle search just now for RF Pill Transponder, and got some good hits. Maybe have a look at the hit list to see if it helps in your investigation:

https://www.google.com/search?q=rf+pill+transponder&ie=utf-8&oe=utf-8&client=firefox-b-1
Thanks
 

Similar threads

Don't know how to make an ultrasonic sensor circuit....
Replies
1
Views
2K
Optical-EME for licensed amateur radio operators
Replies
19
Views
1K
Role of the capacitor, coil and choke in this television receiver design
Replies
26
Views
4K
Using RF Transmitter/Receiver to power LEDs from a Sensor?
Replies
4
Views
3K
Cell Phone Tower Communication: How Does it Work?
Replies
1
Views
2K
How Can I Design a 4-Button IR Transmitter for Buggy Control?
Replies
12
Views
5K
Implementation of Transmitter and Receiver for GPR
Replies
2
Views
2K
Electrical Raspberry Pi Zero W receiver / transmitter
Replies
7
Views
2K
Trying to get raw signal from SRF02 ultrasonic sensor
Replies
1
Views
2K
Help with an Electromagnetic tether robot
Replies
2
Views
2K

Hot Threads

Recent Insights

Back
Top