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the works in technical reports or papers. Knowledge of network placement optimization for various topologies, e.g., Erdos-Renyi random network, scale-free, small world, etc, will be advantageous. key
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used to determine optimal pipeline operating conditions and develop guidelines for pipeline operation, providing practical recommendations for impurity concentrations ensuring safe and efficient
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, contributing to innovative projects that drive our mission forward. This involves researching, developing, testing, and processing materials like metals, plastics, and ceramics to improve product performance
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Health Framework and Evaluation Toolkit, defining optimal indicators, effective evaluation approaches and benchmarks for meaningful menstrual health improvements. This is an exciting opportunity
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This position focuses on Advanced Solidification & Alloy Performance Improvement for recycling Al alloys. This role focuses on advanced solidification technologies to address impurity-related
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the performance of RF sensors in increasingly challenging operational environments. This work spans active radar, passive radar, and electronic support measures (ESM) systems, which were traditionally developed as
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implementing ultra-low flux melt refining for gas-fired, reverberatory, and other industrial aluminium furnaces. The work includes designing process recipes with flow control, thermal management, and alkali
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under normal and fault conditions. Analyse simulation and HIL results to optimize EMS performance, including support for autonomous vessel operation. To liaise and communicate with any relevant internal
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the mentorship of leading experts in one of the following priority research areas: Research area 1: Intelligent Structural Optimization using Physics-Informed Reinforcement Learning Research area 2: AI-Enhanced
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reduction technologies. Explore emerging technologies, frameworks, and practices to advance product solutions in industries. Conduct product family Innovation Quadrant (IQ) analysis and resource optimization