|
Number |
Student Learning Outcome |
How is this outcome assessed? |
|
1 |
·
The ability to interface
computing devices to the physical world; design and program control
algorithms; and devise and implement intelligent control systems. |
·
Upper level labs that
require students to innovate, design, and implement physical and
programmatic control algorithms. |
|
2 |
·
The ability to
engineer, design, and implement both hardware and software aspects of
interconnected systems to form a network. |
·
Students demonstrate
competence through lab assignments requiring networking of computers
utilizing software of their own design. |
|
3 |
·
The ability to apply a
systematic approach to the definition and solution of problems that
are able to be solved by software. |
·
Students demonstrate
competence through successful completion of their senior project. |
|
4 |
·
The ability to apply
computational theory using formal theoretical abstract concepts to
either create solutions or evaluate existing solutions and determine
their efficiency, practicality, and feasibility. |
·
Students demonstrate
competence through in-class discussion, algorithmic design, and
programming assignments. |
|
1. Column 3, "How is this outcome assessed?" may be completed if
the information is available. A fourth column will be added next
year, "What are the results of the assessment of this learning
outcome?" |
