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Difference between revisions of "Battery indifferent wearable Ultrasound"

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Within this framework, at IIS we have recently developed an ultra-low power wearable US probe, based on an MSP430 and nRF52 microcontrollers, operating with a single US channel and consuming less than 20mW [1].
 
Within this framework, at IIS we have recently developed an ultra-low power wearable US probe, based on an MSP430 and nRF52 microcontrollers, operating with a single US channel and consuming less than 20mW [1].
  
Despite the low energy requirements, the proposed solution cannot operate for an arbitrarily long time. To address this limitation, this project aims to include energy harvesting solutions to the probe, making a tradeoff between data freshness and consumed power, with the ultimate goal to reach a "Battery Indifferent" operation.
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Despite the low energy requirements, the proposed solution cannot operate for an arbitrarily long time. To address this limitation, this project aims to include energy harvesting solutions [2] to the probe, making a tradeoff between data freshness and consumed power, with the ultimate goal to reach a "Battery Indifferent" operation.
 
   
 
   
  
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===Literature===
 
===Literature===
 
* [https://iis-projects.ee.ethz.ch/index.php?title=Ultra_low_power_wearable_ultrasound_probe] Ultra low power wearable ultrasound probe
 
* [https://iis-projects.ee.ethz.ch/index.php?title=Ultra_low_power_wearable_ultrasound_probe] Ultra low power wearable ultrasound probe
 +
* [https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=9116218] InfiniWolf
  
 
=== Prerequisites ===
 
=== Prerequisites ===

Latest revision as of 10:16, 21 March 2022

ULPdot.jpg
Alioto batteryless.png

Short Description

Ultrasound (US) imaging is a non-invasive imaging technique that provides visible information on the structure of musculoskeletal tissues, organs, and vascular system. Recent research trends include the development of wearable US probes, with minimal power consumption and reduced count of piezoelectric elements. In fact, meaningful physiological information can be derived also from single-element transducers. Within this framework, at IIS we have recently developed an ultra-low power wearable US probe, based on an MSP430 and nRF52 microcontrollers, operating with a single US channel and consuming less than 20mW [1].

Despite the low energy requirements, the proposed solution cannot operate for an arbitrarily long time. To address this limitation, this project aims to include energy harvesting solutions [2] to the probe, making a tradeoff between data freshness and consumed power, with the ultimate goal to reach a "Battery Indifferent" operation.


Goal & Tasks

In this project, you will work on the extension of a novel wearable US probe [1] to extend its lifetime thanks to energy harvesting solutions. The main tasks are:

  • Exploration of different energy harvesting solutions for wearables
  • PCB design of the new version of the integrated probe
  • microcontroller programming to enable an intermittent mode of operation based on the available energy budget


Literature

  • [1] Ultra low power wearable ultrasound probe
  • [2] InfiniWolf

Prerequisites

  • embedded C
  • Python
  • Microcontrollers
  • PCB design

Status: Available

Looking for Interested Students
Supervision: Sergei Vostrikov, Andrea Cossettini

Character

10% Literature Study
50% PCB design
40% Microcontroller programming


Professor

Luca Benini

Practical Details

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