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(Short Description)
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This project focusses on the development of an unobtrusive multisensory embedded system to help ski jumpers and coaches to better quantify jumping performances.
 
This project focusses on the development of an unobtrusive multisensory embedded system to help ski jumpers and coaches to better quantify jumping performances.
  
Within the short duration of a ski-jump (< 10 seconds) and exposed to the conditions of nature (snow, wind, temperature) athletes must solve extremely difficult optimisation problems. Flight trajectories of athletes are decisive for victory in a ski jumping competition. They are influenced by the properties of the inrun, the take-off speeds, the applied forces, the athletes’ body position as well as ski edging angles during flight. Due to the complexity of such a flight situation sensors and devices attached to the body must be imperceptible to athletes to not interfere with the athlete's sensible jumping system.  
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Within the short duration of a ski-jump (< 10 seconds) and exposed to the conditions of nature (snow, wind, temperature) athletes must solve extremely difficult optimisation problems. Flight trajectories of athletes are decisive for victory in a ski jumping competition. They are influenced by the properties of the inrun, the take-off speeds, the applied forces, the athletes’ body position as well as ski edging angles during flight. Due to the complexity of such a flight situation sensors and devices attached to the body must be tiny and nearly imperceptible to athletes to not interfere with the athlete's sensible jumping system.  
 
 
  
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The challenge of this project lies in the combination and synchronization of sensors and the wireless transmission of data between the flying athlete and the coaching tower.
  
 
===Status: Available ===
 
===Status: Available ===
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==Detailed Task Description==
 
==Detailed Task Description==
  

Revision as of 15:00, 29 January 2023

SkiJumperInAir.png


Short Description

This project focusses on the development of an unobtrusive multisensory embedded system to help ski jumpers and coaches to better quantify jumping performances.

Within the short duration of a ski-jump (< 10 seconds) and exposed to the conditions of nature (snow, wind, temperature) athletes must solve extremely difficult optimisation problems. Flight trajectories of athletes are decisive for victory in a ski jumping competition. They are influenced by the properties of the inrun, the take-off speeds, the applied forces, the athletes’ body position as well as ski edging angles during flight. Due to the complexity of such a flight situation sensors and devices attached to the body must be tiny and nearly imperceptible to athletes to not interfere with the athlete's sensible jumping system.

The challenge of this project lies in the combination and synchronization of sensors and the wireless transmission of data between the flying athlete and the coaching tower.

Status: Available

Looking for 1-2 Semester/Master students
Contact: Christoph Leitner

Prerequisites

VLSI I
VLSI II (recommended)

Character

20% Theory
40% ASIC Design
40% EDA tools

Professor

Luca Benini

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Detailed Task Description

Goals

Practical Details

Results

Links

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