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of a real-time computational simulation through industrial communication protocols and/or a REST API.; • Identify and/or develop tools that enable robust remote communication with a real-time
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operators and energy pilot communities, evaluating performance, usability, and the impact on operators' cognitive load. 4. REQUIRED PROFILE: Admission requirements: Electrical and computer engineering
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Institutions. Preference factors: • Experience with computational simulation models / MATLAB/Simulink.; • Knowledge of industrial-grade communication protocols (Modbus TCP, IEC 61850, etc.). ; Minimum
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Renewable Energy Communities, to enable the hybridization, utilisation and monetisation of storage flexibility, within a real-life environment. The project outcome will allow various DES, DER and several new
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); - Solid knowledge on operating systems; - Solid knowledge on distributed systems; - Experience with the C/C++ programming language. 5. EVALUATION OF APPLICATIONS AND SELECTION PROCESS: Selection criteria
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. - Knowledge of the C programming language. 5. EVALUATION OF APPLICATIONS AND SELECTION PROCESS: Selection criteria and corresponding valuation: the first phase comprises the Academic Evaluation (AC), based
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: - Knowledge of operating systems and data storage systems; - Experience in developing storage benchmarking tools; - Knowledge of the C/C++ programming language. 5. EVALUATION OF APPLICATIONS AND SELECTION
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, models, or protocols developed; - collaborate in the development of new communications solutions for extreme environments; - contribute to co-authored scientific publications within the scope of the work