MSIT-ESE Independent Study
An Independent Study course is one that is designed by the student to pursue in-depth study in a particular area of interest. A minimum of one independent study course must be completed for 12 units. Each independent study, regardless of the proposed units, fulfills the requirement of one elective course only. A maximum of two independent studies are permitted to apply toward degree completion requirements.
The purpose of the independent study is for you to further explore an area of interest you may have just scratched the surface of during one of the core courses.
While the independent study is intended for individual students, it may be completed in very small teams. All members of the team must have completed the core courses in the MSE/MSIT program. A team project must be more significant in scope than a project by an individual.
Note: All independent study proposals are due no less than 2 weeks prior to the completion of the semester preceding the semester in which the proposed independent study course will take place.
The steps for the independent study are
- Propose a project. This will take the form of a formal document and will be considered the first deliverable of the project. The proposal must include
- an executive summary
- a definition of the work to be completed, including
- final report
- an advisor (a Carnegie Mellon faculty member)
- a proposal of how you want the grade to be generated from the independent material
- Click here to download the Independent Study Proposal Form
- Deliverables will always include a report which will discuss the strengths and weaknesses of the technique in the chosen domain and relate what went well and poorly during the independent study.
- Discuss the project.
- Receive approval.
- Begin the project.
- Report periodically to your faculty mentor.
Independent Study Samples
Y6 Copter and Flight Control Platform (2014)
The objective of the independent study project was to research, design and build a non-symmetrical 3-axis copter as well an automatic Arduino flight control software package. The project itself was challenging due to the inherent technical hurdles posed by non-symmetrical flight platforms. The independent study resulted in the creation of four unique control systems of varying complexity which can automatically issue flight commands to the Y6 platform.
Instructor: Anthony Lattanze