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Space Acceleration Measurement System-II (SAMS-II): The crew deployed a hard-wired SAMS tri-axial sensor head on a location suitable to monitor the four-bed CO2 scrubber unit. Mochii also provides a powerful new analysis platform to support novel microgravity science and engineering. Such particles can cause vehicle and equipment malfunctions and threaten crew health, but currently, samples must be returned to Earth for analysis, leaving crew and vehicle at risk. Mochii is a miniature scanning electron microscope (SEM) with spectroscopy which will be used to conduct real-time, on-site imaging and compositional measurements of particles on the ISS. Later in the day, with ground guidance, the crew performed Mochii sample imaging operations. Mochii: Following the removal of sample 6, the crew used the metal-coating capability of the Mochii to coat sample 4 and insert it into the sample camber. The investigation aims to identify, analyze, and characterize pathogenicity, antibiotic resistance, and genomics to augment the NASA GeneLab with the statistical confidence to characterize microbes associated with closed habitation and predict those that may pose a threat to crew health.
Nasa iss real time tracking series#
The Quantifying Selection for Pathogenicity and Antibiotic Resistance in Bacteria and Fungi on the ISS – a Microbial Tracking Study (Microbial Tracking-3 or MT-3) investigation continues a series focused on ongoing monitoring of pathogenicity (ability to cause disease) and antibiotic resistance in potentially disease-causing bacteria and fungi present on the ISS. Sample locations included various one square meter areas of Node 3, Node 2, Node 1, PMM, and the US Lab. Microbial Tracking-3 (MT-3): Samples were gathered for the final of five consecutive days in support of the MT-3 experiment. Taking advantage of Kibo’s unique function of having both an airlock and a robotic arm on the ISS, the ExHAM facility enables space experiments to be performed in the exposed space environment, by attachment to the JEM Exposed Facility. EMS technology initiates spontaneous (involuntary) activation of global musculature (muscle, tendon, fascia) to be monitored (muscle tone/tension and stiffness) inflight using the non-invasive Myoton technology that is currently aboard the space station for the Myotones investigation.Įxposed Experiment Handrail Attachment Mechanism (ExHAM): Following the robotic transfer of the ExHAM hardware to the JEM airlock slide table, and passing the ExHAM through the airlock to the pressurized ISS volume, the samples were detached and prepared for return to the ground.
Nasa iss real time tracking skin#
The EasyMotion investigation uses whole body Electro-Myo-Stimulation (EMS) with a wearable body skin suit for an ISS crew member to perform pre- and postflight EMS-assisted exercises. Following the experiment session, the crew removed the suit, transferred the session data, and charged the experiment batteries. The investigation seeks to improve on the quality and success rate of crystals grown in microgravity.ĮasyMotion with Cycle Ergometer with Vibration Isolation and Stabilization (CEVIS): After donning the EasyMotion Suit, the crew performed a CEVIS exercise science session. The crystals grown on the ISS are returned to Earth, and characterized using synchrotron X-ray diffraction. Advanced Nano Step, more formally known as Effects of Impurities on Perfection of Protein Crystals, Partition Functions, and Growth Mechanisms, monitors and records how the incorporation of specific impurity molecules affect the development and quality of protein crystals. Advanced Nano Step: The Advanced Nano Step experiment return bag was transferred to a MERLIN unit in preparation for return to the ground for analysis.