| 13-07-2023 |
Plataforma de gestión de talento para innovadores universitarios.
El talento disciplinario en la universidad es amplio y abundante. Múltiples ideas y proyectos se generan en base a este talento, pero la mayoría no tiene el apoyo interdisciplinario suficiente que podría proporcionar uno o más socios de carreras y experiencias diferentes, por lo que no se lanzan o fracasan en el intento.En vista a esto, existe una oportunidad para lanzar una solución que mejore la conectividad de los silos de innovación de la universidad y acerque a los estudiantes a posibles oportunidades institucionales dentro de la misma universidad. El estudiante se embarcará en apoyar el proceso previo de investigación para el lanzamiento de una PoC en base a este problema. Esto incluye investigación de datos, estado actual, recoleccion de usuarios y programación de módulos front/back, en busca a dejar preparado/lanzar un MVP que aborde la oportunidad. Recomendado (bonus): ING2030, IIC2143, IIC2513 El líder de esta oportunidad es el profesor Nicolás Acosta.
Prerequisitos:
no tiene.
Tiene un método de evaluación Nota 1-7, con 10 créditos y tiene 1/3 vacantes disponibles |
Mentor(es): Ver en la plataforma |
| 13-07-2023 |
Prerequisites:
None.
Evaluation method: Nota 1-7, with 1/3 available vacants |
Mentor(s): Open in the plataform |
| 19-07-2021 |
Open Hardware for the plate-deposition of microfluidic droplets
The sorting of microfluidic droplets allows the experimental handling of millions of molecular biology experiments in a day. If cells in droplets are to be further cultivated, it is necessary to collect and individualise them, which can be done in a well-plate or on a rotating round culture plate. In this project, the aim is to develop such a droplet deposition system using prototyping methods, literature examples, and open source hardware.
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
| 19-07-2021 |
Development of an open hardware based wide field computational microscope for pollen recognition
Development of a working low-cost computational wide-field microscope for honey-pollen imaging (remotely at home) and analysis of generated data with MatLab or Python. A 3D printed prototype already exsists based on the publication 'Low-cost, sub-micron resolution, wide-field computational microscopy using opensource hardware’. Students should already have basic experience with prototyping and coding.
Keywords:
programación
automatización
microscopia
IMPRESION 3D
interdisciplinaria
libre hardware
polen
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
| 19-07-2021 |
Generation of multi-colour 3d printable models of bacterial pumps for antibiotic resistance
This is a remote research project to generate good 3d printable models from protein structures in biological databases of the cell-membrane pumps that cause antibiotic resistances in bacteria. In addition to improving the 3d printability of the protein complexes, the quaternary structure of the proteins should also be used to segment the model into up to 4 materials (different colours for 3d prints), which help to understand the function of the pumps. Basic experience in 3d printing and interest to find solutions to problems independently is a requirement.
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
| 19-01-2020 |
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |