Max Planck Institute for Chemical Physics of Solids.
The Max Planck School of Cognition offers an international four-year doctoral program starting with a one-year orientation period followed by three years of research for the doctorate. Students can enter with a Bachelor’s (fast-track) or a Master’s degree.
International Max Planck Research School Many-Particle Systems in Structured Environments in Dresden (Germany) This IMPRS, which is devoted to addressing some of the central contemporary themes in theoretical and computational physics, chemistry and materials science, seeks young scientists for its doctoral programme.
Distributed Wireless Control (Master thesis) Abstract In a new research project, we seek to integrate recent advances in wireless networking with networked control to develop a superior solution for reliable and economic wireless control for cyber-physical systems (CPSs).
The IMPRS-CellDevoSys is as international, structured PhD hosted at the MPI-CBG.It is part of the well-established Dresden International PhD Program (DIPP) which combines two powerful partners dedicated to first-class research and doctoral training: the IMPRS-CellDevoSys and the Dresden International Graduate School for Biomedicine and Bioengineering (DIGS-BB).
Max Planck Schools. In addition to the four International Max Planck Research Schools, our institute also participates in two Max Planck Schools started in 2019. The Max Planck Schools are a joint initiative of the Max Planck Society, German universities, as well as non-university research organizations. As national networks for graduate education, they complement the highly successful.
Max Planck Institute for Plant Breeding Research Home. Graduates. PhD Programme; PhD Programme. Our PhD programme is designed to last three to four years.. A core component of the PhD programme is the thesis adivisory committee (TAC). The TAC consists of the direct thesis supervisor and additional co-supervisors that will guide our.
The next generation of engineered systems will tightly integrate the physical world with computing and communication systems. These cyber-physical systems (CPSs) will exceed present day systems in complexity, performance, and their level of autonomy; and they are widely anticipated to play a major role in future applications such as transportation, smart grid, or autonomous robotics.