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workflows between field acquisition teams, data center staff, and research collaborators to ensure seamless data transfer and integration. -Support daily operations of servers, networks, storage, and cloud
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, integration, and analysis of large, diverse datasets obtained from Unmanned Aerial System (UAS), Satellite imagery, ground sensors, and field measurements. -The candidate will work on Texas Climate Smart
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design, prototyping, testing, and refinement of robotic systems and automation solutions, including sensor integration and feedback control. Collaborate with a multidisciplinary team to design and execute
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faculty in biological disciplines across the university and provides ample opportunities for networking and collaboration. The successful candidate will be expected to work on campus in person
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plant physiology under controlled environments Experience using data loggers and environmental sensors for automated data acquisition, as well as conducting leaf gas exchange and chlorophyll fluorescence
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protected and open field cultivation systems Use lab and field equipment (ICP, HPLC, gas exchange analyzer, soil/root/plant sensors, chlorophyll fluorescence, etc.), data loggers and image processing tools
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with others. Preferred Knowledge, Skills, and Abilities: Ability to develop and use ethograms for behavioral data collection Proficiency in social network analysis All positions are security-sensitive
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. Experience with transcriptomic analysis and coexpression gene network analysis. Understanding of polyphenol based chemical compounds, pathways, and metabolites. Other Requirements: Ability to lift or move