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1 | Promoter | Contact email address(es) | Title | Description (link to website or document) | ||||||||||||||||||||||
2 | Emanuele Garone | egarone@ulb.ac.be, michele.ambrosino@ulb.be | [Robotics] VIsual Servoing with RGB-D cameras | |||||||||||||||||||||||
3 | Emanuele Garone | egarone@ulb.ac.be | [Robotic Hummingbird] Colibri Project: embedded electronics and control | |||||||||||||||||||||||
4 | Emanuele Garone | egarone@ulb.ac.be | Design, Realization and Control of an Autonomous Car, in collaboration with the youtubber J. Bruton | |||||||||||||||||||||||
5 | Emanuele Garone | egarone@ulb.ac.be | [Automotive] Master Thesis in collaboration with Toyota Research Center (to be discussed) | |||||||||||||||||||||||
6 | Bram Vanderborght | ellen.roels@vub.be | Integration of sensors for self-healing soft robots | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/ESBIje4-AmdEv-ldjZgLVEsBSOXYDwBO32UV3ehZ3qbNUA?e=zYpUsE | ||||||||||||||||||||||
7 | Bram Vanderborght | ellen.roels@vub.be | Magnetic actuation and sensing for self-healing soft robots | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/EaCunZSgv0lJs6F8HVw3b18BIvqOTJUXQlLU4TM29IA3HA?e=t7R6F8 | ||||||||||||||||||||||
8 | Bram Vanderborght | bram.vanderborght@vub.be; pasquale.ferrentino@vub.be | Dynamic modeling of a Soft Robotic Hand | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EX89V9rodrdJv4Md4bPCjeUBEh2o44978DpIZmMJo46TiA?e=qSkF6j | ||||||||||||||||||||||
9 | Bram Vanderborght | bram.vanderborght@vub.be; pasquale.ferrentino@vub.be | Design-based avoidance of out of plane deformation in soft grippers | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EaSV2X1m0AZEgAoK88rrBn4Bitg9m6y8fCOGrCvPazUfvg?e=mOMT5A | ||||||||||||||||||||||
10 | Bram Vanderborght | seyedreza.kashef.tabrizian@vub.be; Seppe.Terryn@vub.be | Integrating of a 3D-printed healable soft resistive heater in a self-healing soft robot | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EaeS3cm1OyNEn6KF1h-luS4BAxbWUW83b93y3PA4s8i3Pw?e=zXlFN8 | ||||||||||||||||||||||
11 | Bram Vanderborght | seyedreza.kashef.tabrizian@vub.be; Seppe.Terryn@vub.be | Self-healing in soft robotics through hot air injection | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EZyu4r92s3BJq5MTXtXaNu0BKMixwT8wgaDGtpbLQ4_nbQ?e=YbHUqb | ||||||||||||||||||||||
12 | Bram Vanderborght | bryan.convens@vub.be | Aerial Robotic Swarms | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EQl8cZeqYqNFriMWtjDteGcBkbL148lqtSKrNNyYcYUF2g?e=A0ates | ||||||||||||||||||||||
13 | Bram Vanderborght | kelly.merckaert@vub.be | A Planning and Control Framework for Physical Human-Robot Interaction | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EVVnTZGmQxROmF9j2RO6aBUBRksPZceHZI4qgkYJIqbUZQ?e=4Isfb2 | ||||||||||||||||||||||
14 | Tom Verstraten | Amin.Khorasani@vub.be; Stein.Crispel@vub.be | Study of a continuously variable transmission for robotics | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/Ea46-2__dQFLqdnPiNdXYWoBeOQpPSzrCX02atgNC79Kow?e=lFpHpW | ||||||||||||||||||||||
15 | Tom Verstraten | Tom.Verstraten@vub.be | Energy-efficient spring-based actuation for robot arms | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/EX-BEkjj61VDqlhWDTZwJNcBSFoCBvuzLoyGdcIzYv1Ckw?e=ZIaqCl | ||||||||||||||||||||||
16 | Tom Verstraten | thierry.rene.hubert@vub.be | Building lightweight robotic link structure using stress constrained topology optimization. | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EdwmcoEpb2RGhR9xHJ7W8h0B-ZHIaSifjs0xdiRVdrKwKA?e=fb5jly | ||||||||||||||||||||||
17 | Tom Verstraten | thierry.rene.hubert@vub.be | MA2 thesis proposal Building lightweight robotic link structure using composite materials | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/ESRLMnDbjfpCi0QLlFEV_3MBqkkR7jMRxT_uco-q9aZ-Bg?e=ZyV3QR | ||||||||||||||||||||||
18 | Tom Verstraten | kevin.langlois@vub.be | Robotically assisted characterization of soft tissue compiance | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/EQhe3xog2JtNmbjjxww7uYYBBgApGWpIt_ewo_NN8a7IVQ?e=YmmHs9 | ||||||||||||||||||||||
19 | Pierre Lambert | pierre.lambert@ulb.be | Cleaning optical lenses from biological fluids in endoscopy (+internship in LysMedical (Waterloo (BE)) | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
20 | Pierre Lambert | pierre.lambert@ulb.be | Moving droplets with thermal gradients | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
21 | Pierre Lambert | pierre.lambert@ulb.be | Surface Tension Microrobotics (+internship in FEMTO-ST, Besançon (FR)) | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
22 | Pierre Lambert | pierre.lambert@ulb.be | Stretching and rupture of fluid films and filaments | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
23 | Pierre Lambert | pierre.lambert@ulb.be | Soft sensor for soft robotics | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
24 | Pierre Lambert | pierre.lambert@ulb.be | Materials with designed viscoelastic properties | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
25 | Pierre Lambert | pierre.lambert@ulb.be | In vitro study of nose-to-brain drug delivery using nasal replicas | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
26 | Pierre Lambert | pierre.lambert@ulb.be | CFD simulations in the field of nose-to-brain drug delivery | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
27 | Pierre Lambert | pierre.lambert@ulb.be | Using magneto-capillary assemblies to characterize the effect of a laser-induced thermocapillary flow on floating particles | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
28 | Pierre Lambert | pierre.lambert@ulb.be | Surface state enhancement for glass micro-structures manufactured with a femtosecond laser | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
29 | Pierre Lambert | pierre.lambert@ulb.be | Development of a glass flexure based kinematic mirror mechanism for a compact interferometer | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
30 | Pierre Lambert | pierre.lambert@ulb.be | Development of a two-axis force sensor array to measure the adhesion forces of an ant’s legs | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
31 | Pierre Lambert | pierre.lambert@ulb.be | Microfabrication complexes optical shapes by using a femtoprint machine | https://www.dropbox.com/s/vxysjm1yzvybwrn/2021-2022_MFE_LAMBERT.pdf?dl=0 | ||||||||||||||||||||||
32 | Omar Hegazy | omar.hegazy@vub.be | Analytic Harmonic Prediction model of a PMSM machine based on the modulation strategy ( with Punch Powertrain company) | Current Battery Electric Vehicles available in the market use different types of electric motors, but one of them is the Permanent Magnet Synchronous Machine. This machine is controlled using an alternative rotating magnetic flux in the stator, which is created by the control of a High Voltage Inverter. To this end, many different modulation techniques exist, and will affect the harmonic content of the current waveforms being sent to the machine. Those harmonics will have an effect on losses and noise, which is why a prediction model would be beneficial to take such aspects early in the design process. | ||||||||||||||||||||||
33 | Omar Hegazy | omar.hegazy@vub.be | Design of a WBG-based Integrated Modular Multifunctional Converter for automotive applications | This thesis aims to design a SiC-based integrated modular multifunctional converter to achieve high power density and efficiency for electric vehicle applications (EVs). The proposed converter and its functionalities will be analyzed by using MATLAB/Simulink® model. Furthermore, preliminary experimental results will demonstrate to validate the proposed modular multifunctional topology’s applicability and performances. | ||||||||||||||||||||||
34 | Omar Hegazy | omar.hegazy@vub.be | IGBT Temperature Monitoring and estimation of an Automotive Power Electronics Inverter | The failure of PE converters has mostly occurred to the junction-temperature variations; hence, the PE converters' thermal profile should be monitored to identify abnormal behavior in the system; thus, wear-outs or break down can be prevented by condition monitoring. This thesis aims to develop a Junction temperature (Tj) estimation tool that uses temperature-sensitive electrical parameters (TSEPs) from the Si IGBT and body diode, measured on the gate drive, to estimate the on-chip junction temperature. | ||||||||||||||||||||||
35 | Omar Hegazy | omar.hegazy@vub.be | Design and control of Modular Multilevel Converters for Stationary Applications | A modular multilevel converter (MMC) is an advanced voltage source converter applicable to a wide range of medium and high voltage applications. It has competitive advantages such as quality output performance, high modularity, simple scalability, and low voltage and current rating demand for the power switches. The students will study state of the art of the MMC technology and do the design and the simulation in MATLAB/Simulink to analyse the performance of the MMC. | ||||||||||||||||||||||
36 | Omar Hegazy | omar.hegazy@vub.be | Intelligent Gate Driver Design and Dynamic Characterization for Paralleled SiC MOSFETs in High-Power High-Voltage Inverter | The aim of this thesis is to design and develop an intelligent gate driver for Paralleled SiC MOSFETs. This deveoped gate driver will be verified via simulation and tested in the lab for further validation for inverter system. | ||||||||||||||||||||||
37 | Omar Hegazy | omar.hegazy@vub.be | Dynamic Modeling and Switching Loss Validation of GaN HEMTs | The student will deliver a dynamic model of a GaN switch with turn-on, turn off and switching loss characterization. The model characterization can be done by MATLAB/Simulink. Finally, a double-pulse test prototype have to implement to validate the switching transients. | ||||||||||||||||||||||
38 | Omar Hegazy | omar.hegazy@vub.be | Modeling and Performance Analysis of Permanent Magnet In-Wheel Motors | The thesis aims to develop FEA model of PMSM motors for In-Wheel Motor Technology and perform comparative studies to evaluate electro-magnetic performance of developed models. | ||||||||||||||||||||||
39 | Omar Hegazy | omar.hegazy@vub.be | Design and Analysis of different winding configurations of Permanent Magnet In-Wheel Motors | The aim of the thesis is to design and compare the stator windings for Permanent Magnets AC machines for In-Wheel Motor Technology. A study on the effect of Distributed vs concntrated winding on performance of the motor will be conducted. | ||||||||||||||||||||||
40 | Omar Hegazy | omar.hegazy@vub.be | Implementation and assessment of inverter switch open-fault diagniosis methods | The aim of this thesis is to select a proper switch open-fault detection and diagnosis method for a motor drive system with a dynamic load. To this extent, the student will first review the methods in the litterature and identify suitable ones. The selected methods are then implemented in Matlab/Simulink and their main charachteristics will be assessed (efectiveness, resestivity, detection time, tunning effort...) | ||||||||||||||||||||||
41 | Omar Hegazy | omar.hegazy@vub.be | Design and modeling of 48V Vehicle Powertains and Fleet Management System | The aim of this thesis is to design and model a 48-V vehicle powertrain with simplified Digital Twin system with standard and inwheel motors. Thermal management and control of the powertain will be investigated towards eco-comfort system. | ||||||||||||||||||||||
42 | Omar Hegazy | omar.hegazy@vub.be | Design and control of double side cooled SiC inverters for Automotive Applications | The aim of this thesis is to design and develop a double sided cooling system for a SiC inverter system. | ||||||||||||||||||||||
43 | Greet Van de Perre | Greet.Van.de.Perre@vub.be | Analysis and control of a flexible manipulator using strain measurements | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EXh-0wVYlohKo25oNAJFFVYBm-zfLhMBQx5fIGjGrgrE6Q?e=psFpoa | ||||||||||||||||||||||
44 | Greet Van de Perre | Greet.Van.de.Perre@vub.be | Effective Structural Health Monitoring system as embedded strain sensing technique for flexible link robots | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/ERBr5LZqxytGkcflwJF9FicBBKRBePj0LAtFDCa77T0Apw?e=VRSSgA | ||||||||||||||||||||||
45 | Dirk Lefeber | lflynn@vub.be | Design of low cost prosthesis for developing countries | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/Ee1sfrqFYz1Pvu0ygjOusAsBSoxpnr9DbKnteelzJ0kOLA?e=KmpsHP | ||||||||||||||||||||||
46 | Tom Verstraten | lflynn@vub.be | Development of a 2-Dof Ankle Actuator | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/EaemetWc905LsXbYGdgOC1sBJYYXGNyMjPHwVlUJh1cEzw?e=20KCdH | ||||||||||||||||||||||
47 | Tom Verstraten | lflynn@vub.be | Human in the loop control of powered prosthesis | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/EeNOE3HK_6pLtaxVj7Y7GXkBkrcrxWhy7rXciCERegh54A?e=u66bMy | ||||||||||||||||||||||
48 | Tom Verstraten | lflynn@vub.be | Development of an actuated cam system | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/EbLNAMfH-l1DnZJuUfY9Tq0B5fFHtOXjVroPsmGswqHFbA?e=laVfzW | ||||||||||||||||||||||
49 | Tom Verstraten | muhammad.usman@vub.be | Modeling of Remote Actuation using Flexible Shaft for a Robotic Joint | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/Ed57Yh8Y9kJJgQncjfmrqCkB5pJGCXVFAHcWg7ZJNPZLWA?e=JIDmxf | ||||||||||||||||||||||
50 | Tom Verstraten | muhammad.usman@vub.be | Remote Actuation Design for a Collaborative Arm | https://vub-my.sharepoint.com/:w:/g/personal/tom_verstraten_vub_be/Ebup1V_ZByBFn5jSO8lyfAMBKWTGa4Q2w6JIxHAcIKqigg?e=itycQK | ||||||||||||||||||||||
51 | Bram Vanderborght | greet.van.de.perre@vub.be; seppe.terryn@vub.be | Additive manufacturing of flexible sensors | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EbA2LzptPXZCjvq6oSNpLtgBkc6xqkMLLqbEZJ4NAP_aEw?e=36H5zd | ||||||||||||||||||||||
52 | Bram Vanderborght | seppe.terryn@vub.be | Multi-cycle damage-healing testing of self-healing polymers used to manufacture healable soft robots | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EQuv2osPi5BApkm770kI_I0BbjsdmwkYo-ciQfZFJWrlUQ?e=Lboo8q | ||||||||||||||||||||||
53 | Dirk Lefeber | joost.geeroms@vub.be; kevin.langlois@vub.be | A sensorized exoskeleton for improved motion intention recognition | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EWWF9TpIn59OqKjObkCQN58BRTWSemh5Z2USOJE2sPU1tg?e=ek49cc | ||||||||||||||||||||||
54 | Dirk Lefeber | Marco.Rossini@vub.ac.be | Powered Shoulder exoskeleton Assistive profiles | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EUXmyFc2r8lJsfDSqLLMJQgBdV7x7GEQ_-rAP150yeQ3yg?e=nb9vwc | ||||||||||||||||||||||
55 | Tom Verstraten | vducaste@vub.be; kevin.langlois@vub.be | Sensorized liner for Powered Prosthetics | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/Ef-R8icsTJNOnRFG1QdFFVsBfvaQk5UXJ0j0KjTx4LQfaQ?e=J1sT0a | ||||||||||||||||||||||
56 | Tom Verstraten | victor.grosu@vub.be | High level hardware architecture for wearable exoskeletons | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EVMp_WMU6_9Gn9nZ823uu-4B63o8VtwbEwuNJRK7AKo3Kg?e=U5Xoxr | ||||||||||||||||||||||
57 | Tom Verstraten | victor.grosu@vub.be | User oriented additive manufacturing for wearable robotic devices | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EU9qfAJxKbxNuUXZfoSA6WsB1NhiNsldEprqnyojZHTG2w?e=eOHgov | ||||||||||||||||||||||
58 | Bram Vanderborght | yuri.durodie@vub.be | SLAM for ground robot with UWB and odometry | https://vub-my.sharepoint.com/:b:/g/personal/tom_verstraten_vub_be/EaejGmxNkHRNo3HuQKHobGIBaASxkZRhFhlmzuuh6kMgtQ?e=an8HQr | ||||||||||||||||||||||
59 | Arnaud Deraemaeker | arnaud.deraemaeker@ulb.be | Study and development of technical solutions to protect artwork against excessive vibrations during transport | https://www.dropbox.com/s/0hmql9cjnz059g0/Master%20thesis%20EM%20Deraemaeker.pdf?dl=0 | ||||||||||||||||||||||
60 | Aurélie Bellemans | aurelie.bellemans@vub.be | Development of machine-learning methods for aerosols in engineering applications | https://vub-my.sharepoint.com/:b:/g/personal/aurelie_bellemans_vub_be/EQyLBXGajMZKgQszgRW8ViwBDw4_1toXBMhxi5W_mBgFKA?e=L1djZS | ||||||||||||||||||||||
61 | Aurélie Bellemans | aurelie.bellemans@vub.be | Machine-learning prediction of flow properties for space vehicles during atmospheric reenty | https://vub-my.sharepoint.com/:b:/g/personal/aurelie_bellemans_vub_be/EaSPqTaFwNlLgZxlp-abuRcB23p1gUOVNgTIqaTnZE-wMg?e=YL0xV0 | ||||||||||||||||||||||
62 | Aurélie Bellemans | aurelie.bellemans@vub.be | Reduction of large plasma-assisted combustion simulations using principal component analylsis and machine-learning techniques | https://vub-my.sharepoint.com/:b:/g/personal/aurelie_bellemans_vub_be/ESz6z0RNdqNCtHQPN7pLbGoB3PgiE5-iB3qzQsRBm2jFPA?e=8hx5hn | ||||||||||||||||||||||
63 | Aurélie Bellemans | aurelie.bellemans@vub.be | Chemistry classification methods for plasma-assisted combustion simulations | https://vub-my.sharepoint.com/:b:/g/personal/aurelie_bellemans_vub_be/EbLBE32Q5u5FmpsIOQVZkmwBM4J98sLbvV7kKHgRxzNGbw?e=FTeTXS | ||||||||||||||||||||||
64 | Aurélie Bellemans | aurelie.bellemans@vub.be; julien.blondeau@vub.be | Study of plasma-assisted biomass processes using 0D reactor simulations | https://vub-my.sharepoint.com/:b:/g/personal/aurelie_bellemans_vub_be/EbGIrPkHyN5Im8yU-xWxW1kBey1dYlTwzPZ1zoi4io7m6g?e=jfvs3c | ||||||||||||||||||||||
65 | Aurélie Bellemans | aurelie.bellemans@vub.be; tim.de.troyer@vub.be | Data-driven analysis of the pressure field around a cylinder using wind tunnel data and CFD simulations | https://vub-my.sharepoint.com/:b:/g/personal/tim_de_troyer_vub_be/ET7RX2JpoAJFodiv9WLQp6wBqUHi8EeDzHaoQ4Zkr_X-vA?e=nV7q4i | ||||||||||||||||||||||
66 | Svend Bram | svend.bram@vub.be | Experimental and numerical investigation of leakage in a screw compressor | https://vub-my.sharepoint.com/:b:/g/personal/svend_bram_vub_be/ETMLL1GX9p1EhP4pY85v4q8BXZdv6LoYjQqHNGG2lVro7A?e=3bW5Sb | ||||||||||||||||||||||
67 | Svend Bram | svend.bram@vub.be | A novel single-pipe thermal grid for district heating and cooling: modelling and performance evaluation | https://vub-my.sharepoint.com/:w:/g/personal/svend_bram_vub_be/EcPDUwlr2_5EkLzNX7Sh-1QBq6zzKyppbS_Qga06TcM_uA?e=lWObNU | ||||||||||||||||||||||
68 | Svend Bram | svend.bram@vub.be | Design of a smart substation for a thermal grid | https://vub-my.sharepoint.com/:w:/g/personal/svend_bram_vub_be/EcPDUwlr2_5EkLzNX7Sh-1QBq6zzKyppbS_Qga06TcM_uA?e=lWObNU | ||||||||||||||||||||||
69 | Svend Bram | svend.bram@vub.be | Modelling of the VUB campus Etterbeek as an energy hub (EHUB) | https://vub-my.sharepoint.com/:w:/g/personal/svend_bram_vub_be/EcPDUwlr2_5EkLzNX7Sh-1QBq6zzKyppbS_Qga06TcM_uA?e=lWObNU | ||||||||||||||||||||||
70 | Svend Bram | svend.bram@vub.be | Integrating uncertainty quantification (UQ) in a energy hub (EHUB) approach | https://vub-my.sharepoint.com/:w:/g/personal/svend_bram_vub_be/EcPDUwlr2_5EkLzNX7Sh-1QBq6zzKyppbS_Qga06TcM_uA?e=lWObNU | ||||||||||||||||||||||
71 | Svend Bram | svend.bram@vub.be | Using uncertainty quantification (UQ) for the design and modelling of a heat pump | https://vub-my.sharepoint.com/:w:/g/personal/svend_bram_vub_be/EcPDUwlr2_5EkLzNX7Sh-1QBq6zzKyppbS_Qga06TcM_uA?e=lWObNU | ||||||||||||||||||||||
72 | Axel Coussement | axel.coussement@ulb.be | Design of a tilt rotor, closed wing drone | https://www.dropbox.com/s/ecz3vus9pkxai1n/Design%20of%20a%20tilt%20rotor%20closed%20wing%20drone.pdf?dl=0 | ||||||||||||||||||||||
73 | Axel Coussement | axel.coussement@ulb.be | Analysis of flame radiation using machine learning algorithm to develop reduced CFD models | https://www.dropbox.com/s/ri5yvdhecnbv8cq/Radiation%20analysis%20.pdf?dl=0 | ||||||||||||||||||||||
74 | Axel Coussement | axel.coussement@ulb.be | Numerical modeling of propulsive nozzles for a hypersonic aircraft | https://www.dropbox.com/s/fnj9ydbckmd7kgg/Numerical%20modeling%20of%20propulsive%20nozzles%20for%20a%20hypersonic%20aircraft.pdf?dl=0 | ||||||||||||||||||||||
75 | Axel Coussement | axel.coussement@ulb.be | Technico-economic analysis of micro gas turbines for applications as a range extender for electric vehicles | https://www.dropbox.com/s/02u3ys5k7w4z2cn/micro-gas.pdf?dl=0 | ||||||||||||||||||||||
76 | Axel Coussement | axel.coussement@ulb.be | Implementation of simulation tools for automatic gearbox control !!!! WILL BE COUPLED WITH AN INTERNSHIP AT AW EUROPE !!! | https://www.dropbox.com/s/r37lw5hzpl65nac/Topic%20description%20control%202020.pdf?dl=0 | ||||||||||||||||||||||
77 | Axel Coussement | axel.coussement@ulb.be | CFD pre design of a flameless pure hydorgen burner, for micro-turbine applicaions | https://www.dropbox.com/s/cembj4b0y4awhaz/CFD-flameless.pdf?dl=0 | ||||||||||||||||||||||
78 | Axel Coussement | axel.coussement@ulb.be | Numerical studies of smoke stopper effectiveness in CFBT training containers - in collaboration with Brussels Fire Department | https://www.dropbox.com/s/lwkmvzr2qrhnzwm/Smoke%20stop.pdf?dl=0 | ||||||||||||||||||||||
79 | Axel Coussement | axel.coussement@ulb.be | Numerical studies of fire dynamics in CFBT training containers - in collaboration with Brussels Fire Department | https://www.dropbox.com/s/fm9beeaq5p5tlht/Containers.pdf?dl=0 | ||||||||||||||||||||||
80 | Axel Coussement | axel.coussement@ulb.be | Numerical studies of multi compartments fire training doll house - in collaboration with Brussels Fire Department | https://www.dropbox.com/s/j2iclx97zrvz87b/doll%20house.pdf?dl=0 | ||||||||||||||||||||||
81 | Antoine Nonclercq | anoncler@ulb.ac.be | [Active implants] Design and implementation of a neurostimulation electrode | https://www.dropbox.com/s/rfwp10bo4eke65y/MFE%20-%20biomechatronics%20-%20%5BActive%20implants%5D%20Design%20and%20implementation%20of%20a%20neurostimulation%20electrode.pdf?dl=0 | ||||||||||||||||||||||
82 | Antoine Nonclercq | anoncler@ulb.ac.be | [Active implants] Design and implementation of an optical system to power implantable neurostimulators | https://www.dropbox.com/s/yerj26cagnsnadj/MFE%20-%20biomechatronics%20-%20%5BActive%20implants%5D%20Design%20and%20implementation%20of%20an%20optical%20system%20to%20power%20implantable%20neurostimulators.pdf?dl=0 | ||||||||||||||||||||||
83 | Antoine Nonclercq | anoncler@ulb.ac.be | [Active implants] Design and implementation of an ultrasonic powering system for implantable devices | https://www.dropbox.com/s/h56lvhvtmgo9tms/MFE%20-%20biomechatronics%20-%20%5BActive%20implants%5D%20Design%20and%20implementation%20of%20an%20ultrasonic%20powering%20system%20for%20implantable%20devices.pdf?dl=0 | ||||||||||||||||||||||
84 | Antoine Nonclercq | anoncler@ulb.ac.be | [Active implants] Design of an implantation of a setup for monitoring of key physiological parameters linked to satiety | https://www.dropbox.com/s/xeh9852miz1m7le/MFE%20-%20biomechatronics%20-%20%5BActive%20implants%5D%20Design%20of%20an%20implantation%20of%20a%20setup%20for%20monitoring%20of%20key%20physiological%20parameters%20linked%20to%20satiety.pdf?dl=0 | ||||||||||||||||||||||
85 | Antoine Nonclercq | anoncler@ulb.ac.be | [Implantation tools] Design of an implantation tool for a minimally invasive gastrostimulator | https://www.dropbox.com/s/xyu294b0qb3p4ev/MFE%20-%20biomechatronics%20-%20%5BImplantation%20tools%5D%20Design%20of%20an%20implantation%20tool%20for%20a%20minimally%20invasive%20gastrostimulator.pdf?dl=0 | ||||||||||||||||||||||
86 | Antoine Nonclercq | anoncler@ulb.ac.be | [Neuromodelling] Design of a nerve model to optimize neurostimulation treatment against epilepsy | https://www.dropbox.com/s/ov17fl9n7nd2jjv/MFE%20-%20biomechatronics%20-%20%5BNeuromodelling%5D%20Design%20of%20a%20nerve%20model%20to%20optimize%20neurostimulation%20treatment%20against%20epilepsy.pdf?dl=0 | ||||||||||||||||||||||
87 | Antoine Nonclercq | anoncler@ulb.ac.be | [Neuroprocessing] A method to anticipate epileptic seizures at the Intensive Care Unit (ICU) | https://www.dropbox.com/s/5j58gxbkir7yq23/MFE%20-%20biomechatronics%20-%20%5BNeuroprocessing%5D%20A%20method%20to%20anticipate%20epileptic%20seizures%20at%20the%20Intensive%20Care%20Unit%20%28ICU%29.pdf?dl=0 | ||||||||||||||||||||||
88 | Antoine Nonclercq | anoncler@ulb.ac.be | [Neuroprocessing] Assessing consciousness at the Intensive Care Unit (ICU) | https://www.dropbox.com/s/aczx398dwvokq64/MFE%20-%20biomechatronics%20-%20%5BNeuroprocessing%5D%20Assessing%20consciousness%20at%20the%20Intensive%20Care%20Unit%20%28ICU%29.pdf?dl=0 | ||||||||||||||||||||||
89 | Antoine Nonclercq | anoncler@ulb.ac.be | [Neuroprocessing] Implementation and validation of a spike detection algorithm | https://www.dropbox.com/s/oc5gcc9ps3hi6hk/MFE%20-%20biomechatronics%20-%20%5BNeuroprocessing%5D%20Implementation%20and%20validation%20of%20a%20spike%20detection%20algorithm.pdf?dl=0 | ||||||||||||||||||||||
90 | Antoine Nonclercq | anoncler@ulb.ac.be | [Neuroprocessing] Stereoelectroencephalography connectivity analysis to predict brain sites involved in seizure generation | https://www.dropbox.com/s/z31g50miznw41g0/MFE%20-%20biomechatronics%20-%20%5BNeuroprocessing%5D%20Stereoelectroencephalography%20connectivity%20analysis%20to%20predict%20brain%20sites%20involved%20in%20seizure%20generation.pdf?dl=0 | ||||||||||||||||||||||
91 | Ghader Ghorbaniasl | ghader.ghorbaniasl@vub.be | Uncertainty quantification of aerodynamic and aeroacoustic performance of rudimentary landing gear components | https://www.dropbox.com/s/oguqnp5pok699rp/Proposal%20MSc_1%202021-2022.pdf?dl=0 | ||||||||||||||||||||||
92 | Ghader Ghorbaniasl | ghader.ghorbaniasl@vub.be | Aeroacoustic and aerodynamic study of cactus-shaped cylinders | https://www.dropbox.com/s/mcf0pvn0avkupzf/Proposal%20MSc_2%202021-2022.pdf?dl=0 | ||||||||||||||||||||||
93 | Ghader Ghorbaniasl | ghader.ghorbaniasl@vub.be | Uncertainty quantification in aeroacoustic of rudimentary airframe components: Noise generation by tandem of cylinders | https://www.dropbox.com/s/a8la1t0nvl3lxi1/Proposal%20MSc_3%202021-2022.pdf?dl=0 | ||||||||||||||||||||||
94 | Maitane Berecibar | maitane.berecibar@vub.be | Development of solid-state batteries, needs and challenges | |||||||||||||||||||||||
95 | Maitane Berecibar | maitane.berecibar@vub.be | Self-Healing properties of next generation of Lithium Ion battery technology | |||||||||||||||||||||||
96 | Maitane Berecibar | maitane.berecibar@vub.be | Battery Manufacturing: Digitalization, Sensorization and Autmoatization of the process | |||||||||||||||||||||||
97 | Maitane Berecibar | maitane.berecibar@vub.be | Embedded sensors on Lithium Ion battery cells | |||||||||||||||||||||||
98 | Maitane Berecibar | maitane.berecibar@vub.be | SoX estimaion algorithms with the use of Machine Learning for an EV application | |||||||||||||||||||||||
99 | Maitane Berecibar | maitane.berecibar@vub.be | Battery Themal Managemet Sysmem development for an EV application | |||||||||||||||||||||||
100 | Maitane Berecibar | maitane.berecibar@vub.be | Efficient Cooling Sysmtem development for EV application |