2.0 Opportunites

Describe how you can test each component. Determine how each component must perform for the overall design to be a success. Then describe in detail the test results that will distinguish acceptable performance for each test.

Roomba Cover

We can test the component by how the circumference fits on top of the Roomba and if we can still press the power button for the Roomba. It must also perform as a durable base for our air purifier. When the air purifier is put flat on the Roomba cover and still allows for the turning on and off of the Roomba, then the component has given us successful results.

Roomba Side Cover

We can test the component by how it fits the circumference of the side of the Roomba and if it can still filter air, use its sensor, and charge itself. It must also be able to accommodate the hooks that will attach to the air purifier halo. If it allows for the purifier to be stabilized onto the Roomba with the hooks, then the component has given us successful results.

Air Purifier Halo

We can test the component by how it fits the top of the air purifier and how it fits the hooks in the Roomba side cover

Hooks(Upper, Lower)

Pins

We can test the pins through a stress test, and seeing that they won’t snap before _ pounds

Battery Holder

We can test the battery holder by how it is able to hold the battery and support the hooks.

CONCLUSION

Which subsystem or element of your design do you believe has the highest probability of causing your design to function incorrectly? How are you planning to avoid the issue(s)?

The hooks are due to their durability and angle. In the future, we hope to use a stronger filament for the hooks.

Think of an existing product or system and describe one element of that system that could be enhanced to dramatically improve the overall system.

The HEPA and Ionic filter in a combined system as either a dual back-to-back filter or a switch system to utilize a specific would be nice.

Notebook References