P. Lohmander, Olaiya Ao, Oyafajo At, Atayese Mo, Bodunde Jg
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Dynamics and control of the CO2 level via a differential equation and alternative global emission strategies
We will investigate if it is possible to develop a theoretical mathematical model of the dynamics of CO2. Such a model should be consistent with fundamental scientific principles. Furthermore, it should be possible to use the model to reproduce historical time series of empirical data. If such a model can be developed, it should be possible to use it also for predictions. Then, the most important application is to investigate how the global CO2 level can be dynamically changed via different emissions strategies.
期刊介绍:
First published in 1986, the International Journal of Robotics and Automation was one of the inaugural publications in the field of robotics. This journal covers contemporary developments in theory, design, and applications focused on all areas of robotics and automation systems, including new methods of machine learning, pattern recognition, biologically inspired evolutionary algorithms, fuzzy and neural networks in robotics and automation systems, computer vision, autonomous robots, human-robot interaction, microrobotics, medical robotics, mobile robots, biomechantronic systems, autonomous design of robotic systems, sensors, communication, and signal processing.
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