Statistical Methods and Machine Learning in Medical Engineering – Foot Landmark and Bone Registration Estimation

Institut

Professur für Sportgeräte und Materialien (TUM-ED)

Typ

Semesterarbeit / Masterarbeit /

Inhalt

theoretisch /  

Beschreibung

Background

In the diagnosis of foot-related conditions, it is not always feasible or advisable to acquire CT scans. This

project aims to explore the extent to which CT imaging can be avoided and whether features contained in CT

data can be estimated from 3D foot surface scans – potentially lowering patient radiation exposure and

speeding up diagnosis. Several sub-projects are available as part of this research, which can be pursued in

parallel and in close cooperation.

 

Description of Sub-Projects

Shared tasks for all theses:

• Generation of a gold-standard dataset:

CT data will be segmented using an interactive nnUNet pipeline, and anatomical

landmarks/points of interest will be annotated.

Sub-Project 1 – Statistical Shape Model (SSM) of the Foot Surface

• Develop an SSM representing the foot shape, based on the foot surface geometry extracted

from CT data.

o Conduct a literature review on state-of-the-art SSM tools and methods (e.g., Scalismo,

scalismo.org).

o Choose a method/framework.

• Apply the SSM to both CT test datasets and 3D foot scan datasets & compare the distances of

selected surface points between:

(a) the original CT surface,

(b) the CT-based SSM surface, and

(c) the scan-based SSM surface.

Sub-Project 2 – Machine Learning-Based Bone Registration

• Conduct a literature review on state-of-the-art bone registration (alignment of estimated bone

structures to a reference) methods.

• Assess identified architectures in terms of suitability under given (hardware) constraints and

select one for implementation.

• Train a model using the chosen architecture on the available training data, then validate it on

test data.

Sub-Project 3 – Machine Learning-Based Estimation of Internal Landmarks

• Similar to Sub-Project 2, but instead of estimating full bone geometries, the focus will be on

predicting discrete internal landmarks and features.

• Work will be carried out in close cooperation with Sub-Project 2 to ensure methodological

alignment.

Voraussetzungen

• Strong interest in the research topic and in exploratory investigations

• Independent working style

• Logical thinking skills and experience with statistical methods or machine learning

• Experience in data processing, with awareness of data quality and attention to detail

• Ability to work in an interdisciplinary team

• Preferably, experience in Python

Möglicher Beginn

sofort

Kontakt

Patrick Carqueville
Raum: Hochbrück Parkring 35 Raum 3.3.08
Tel.: +49 89 289 10353
patrick.carquevilletum.de

Ausschreibung