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(Created page with "Who are we What do we do Where to find us ===Available Projects=== <DynamicPageList> category = Available category = Digital category = Low Power Embedded Systems suppresser...")
 
 
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Who are we
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[[File:AutonomousSensors.jpg|thumb|600px]]
What do we do
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Where to find us
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==Short Description==
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Wearable and sensing technology is gaining popularity, with people wearing and surrounded by everything “smart” from clothing to glasses and watches. In the following links you can find many interesting project working with sensors technology. The students can deal with design, hardware and software implementation and in-field evaluation of a novel sensor-rich smart wearable and IoT device with wireless interface and eventually powered by energy harvesting. Many of them are in collaboration with Swiss's companies that are interested in IoT and especially autonomous sensing systems
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Depending on the applicant's profile and project type, his tasks may involve some of the following:
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* lab. testing/characterization of the existing prototype: verification of the prototype's characteristics w.r. design specification (simulations), measuring power-consumption, and assessing detection performance in lab. Conditions
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* Highlevel software programming, machine learning, wireless communication
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* programming the circuit for specific application, field testing, data acquisition
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* Designing PCB with micro-controllers, wireless interface, energy harvesting and sensors and test on the field.
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* Firmware implementation for low power and application.
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* Analog/digital design using discrete components.
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 +
 
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===Prerequisites===
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(''not all need to be met'' by the single candidate)
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* experience using the laboratory instrumentation - signal generators, oscilloscopes, DAQ cards, Matlab etc.
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* analog electronics and signal conditioning with operational amplifiers: amplifiers, filters, integrators etc.
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* knowledge of microcontroller programming and PC programming (C/C++, preferably microcontroller with Bluetooth Low Energy but it is not mandatory)
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* basic knowledge on signal processing is a plus.
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* plus is knowledge on printed circuit board (PCB) using Altium.
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For a complete list of many cool project please go to the following links
  
  
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category = Available
 
category = Available
 
category = Digital
 
category = Digital
category = Low Power Embedded Systems
 
suppresserrors=true
 
</DynamicPageList>
 
 
===Projects In Progress===
 
<DynamicPageList>
 
category = In progress
 
category = Digital
 
category = Low Power Embedded Systems
 
suppresserrors=true
 
</DynamicPageList>
 
 
===Completed Projects===
 
<DynamicPageList>
 
category = Completed
 
category = Digital
 
category = Low Power Embedded Systems
 
 
suppresserrors=true
 
suppresserrors=true
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category = SmartSensors
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Category:Low Power Embedded Systems
 
</DynamicPageList>
 
</DynamicPageList>

Latest revision as of 16:28, 13 November 2017

AutonomousSensors.jpg

Short Description

Wearable and sensing technology is gaining popularity, with people wearing and surrounded by everything “smart” from clothing to glasses and watches. In the following links you can find many interesting project working with sensors technology. The students can deal with design, hardware and software implementation and in-field evaluation of a novel sensor-rich smart wearable and IoT device with wireless interface and eventually powered by energy harvesting. Many of them are in collaboration with Swiss's companies that are interested in IoT and especially autonomous sensing systems

Depending on the applicant's profile and project type, his tasks may involve some of the following:

  • lab. testing/characterization of the existing prototype: verification of the prototype's characteristics w.r. design specification (simulations), measuring power-consumption, and assessing detection performance in lab. Conditions
  • Highlevel software programming, machine learning, wireless communication
  • programming the circuit for specific application, field testing, data acquisition
  • Designing PCB with micro-controllers, wireless interface, energy harvesting and sensors and test on the field.
  • Firmware implementation for low power and application.
  • Analog/digital design using discrete components.


Prerequisites

(not all need to be met by the single candidate)

  • experience using the laboratory instrumentation - signal generators, oscilloscopes, DAQ cards, Matlab etc.
  • analog electronics and signal conditioning with operational amplifiers: amplifiers, filters, integrators etc.
  • knowledge of microcontroller programming and PC programming (C/C++, preferably microcontroller with Bluetooth Low Energy but it is not mandatory)
  • basic knowledge on signal processing is a plus.
  • plus is knowledge on printed circuit board (PCB) using Altium.

For a complete list of many cool project please go to the following links


Available Projects