Space exploration is truly fascinating. From the space race led by governments as an outgrowth of the Cold War to the new era of space commercialization led by private companies and startups, more than AA 50 years have passed, characterized by great leaps forward and discoveries. We will learn how space missions are designed, from concept to execution, based on the professional experience of the lecturer and numerous examples of space missions, including unique hardware demonstrations by startups of the Silicon Valley and NASA. We will study the essentials of science case development and systems engineering as applicable to a variety of mission types. We will explore the various elements of a space mission, including the spacecraft, scientific instruments, ground, and launch segments with their functionalities. Special emphasis will be given to the design cycle, to understand how space missions are born, from the stakeholders' needs, through analysis, synthesis, all the way to their integration and validation. We will compare the current designs with those employed in the early days of the space age and show the importance of economics in the development of spacecraft. Finally, we will brainstorm startup ideas and apply the concepts learned to a space mission design as a team.
3 units · Letter (ABCD/NP) · GER: WAY-AQR, WAY-SMA
Space exploration is truly fascinating. From the space race led by governments as an outgrowth of the Cold War to the new era of space commercialization led by private companies and startups, more than 50 years have passed, characterized by great leaps forward and discoveries. We will learn how space missions are designed, from concept to execution, based on the professional experience of the lecturer and numerous examples of space missions, including unique hardware demonstrations by startups of the Silicon Valley and NASA. We will study the essentials of science case development and systems engineering as applicable to a variety of mission types. We will explore the various elements of a space mission, including the spacecraft, scientific instruments, ground, and launch segments with their functionalities. Special emphasis will be given to the design cycle, to understand how space missions are born, from the stakeholders' needs, through analysis, synthesis, all the way to their integration and validation. We will compare the current designs with those employed in the early days of the space age and show the importance of economics in the development of spacecraft. Finally, we will brainstorm startup ideas and apply the concepts learned to a space mission design as a team.
Offered in Autumn 2025 at Stanford University.