
Advanced Space and Satellite Engineering (Level 2)
This advanced training course provides an in-depth exploration of complex space systems, orbital mechanics, satellite technology, mission operations, and space law. Participants will gain expertise in advanced satellite subsystems, propulsion systems, and communications technology. The course also covers mission planning, spacecraft reliability, autonomous systems, and the legal and ethical considerations in space exploration. With a focus on practical application, students will work on designing complex missions and research projects.
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Course Duration:
48 Hours with 1 Capstone Project
Level:
Intermediate to Advanced

Course Objectives
Understand advanced orbital mechanics, perturbation effects, and mission design techniques.
Learn the latest advancements in satellite subsystems, including propulsion, power systems, and thermal control.
Gain knowledge of advanced satellite communication systems and data handling methods.
Develop expertise in spacecraft reliability, redundancy, and testing procedures.
Explore the intricacies of multi-satellite constellations, systems engineering, and integration.
Study space law and policy, including the ethical and sustainability issues related to space activities.
Master the concepts of satellite operations, autonomous systems, and artificial intelligence for space missions.
Design and plan a complex space mission as part of a capstone project or research component.
Prerequisites
A solid understanding of basic orbital mechanics, spacecraft subsystems, and systems engineering principles.
Prior experience or coursework in satellite engineering or related fields.
Familiarity with basic concepts in space law and policy, or prior completion of an introductory space systems course.
Basic knowledge of AI, machine learning, and data handling would be beneficial for autonomous systems topics.
