Space exploration has driven significant advances in biotechnology and electronic systems, opening new opportunities to study biological phenomena under extreme conditions. This project focuses on the development and implementation of integrated technologies in microsatellites to facilitate research in microgravity, specifically targeting gene expression and its real-time monitoring through a multidisciplinary approach that combines biotechnology, biomedical instrumentation, and aerospace technology to overcome the unique challenges of studying life in space and make a significant contribution to scientific progress in this field.
1. Development of an Electronic Device to Measure Changes in Gene Expression under Microgravity Conditions(Link)(Progress_1)(Progress_2)(Desing Cc)(Desing Jr)(Desing Lj)(Streamlines)(Velocity vectors)(Simulation Br_01)(Simulation Br_02).
2. Design of the Microsatellite Payload System to Integrate the Biochip and Provide Suitable Conditions for Biological Experiments in Microgravity(Link).
3. Implementation of a Communication System in the BioChipSat for Real-Time Transmission of Data Obtained from Each Unit of the BioChipSat to the Ground Control Station, Ensuring Data Integrity Throughout the Process.(Link)(Progress_1)(Progress_2)(Progress_3)(Progress_4)(Progress_5)
4. Evaluation of the BioChipSat Performance under Simulated Microgravity Conditions.(Link)
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