Assignment P2 (Spring 2019)
Answer the following prompt in a maximum of 8 pages (excluding references) in JDF format. Any content beyond 8 pages will not be considered for a grade. 8 pages is a maximum, not a target; our recommended per-section lengths intentionally add to less than 8 pages to leave you room to decide where to delve into more detail. This length is intentionally set expecting that your submission will include diagrams, drawings, pictures, etc. These should be incorporated into the body of the paper unless specifically required to be included in an appendix.
If you would like to include additional information beyond the word limit, you may include it in clearly-marked appendices. These materials will not be used in grading your assignment, but they may help you get better feedback from your classmates and grader.
Question 1 (from Lesson 2.3): ~1.5 pages
The current process that Georgia Tech uses for enrolling in classes is not very direct. First, briefly describe one of the processes by which people look up and enroll in classes at Georgia Tech. Make sure to describe the steps they walk through in order. (Note that although registration is now closed, you can mimic most of the process in OSCAR. We do not grade your description for accuracy, so feel free to fill in any blanks from memory.)
Then, describe a redesign of the system that more significantly leverages direct manipulation. Answer the question: how is this new way more “direct” than the current way? In answering, specifically comment on the new way using the vocabulary of direct manipulation covered in the lesson.
Finally, describe two specific benefits of this redesign. These benefits should go beyond it simply being “better”; in what ways is it better? Is it more efficient, and if so, how is that measured? Is the user better able to cross the gulfs of execution and evaluation? Does the interface demonstrate a better understanding of the user’s knowledge and needs?
Note that the same registration process is used for both on-campus and online students; you may write about either, but make it clear which you chose. If you choose to write about on-campus students, note there may be other constraints that you can use (time conflicts, distance between classrooms) that are not applicable to online students.
Hint: Remember, direct manipulation is more than just good design. Direct manipulation involves interacting more closely with the actual object of the task. In your redesign, make sure you’re focusing on direct manipulation, not just general improvement.
Question 2 (from Lesson 2.3): ~1.5 pages
Select an task (besides driving) that you do on a regular basis that has become invisible by learning; that is, an interface that you used to spend a lot of time thinking about, but now ignore in favor of focusing on the task. Feel free to choose a task you perform that does not currently have a computational interface (such as a cookbook and thermometer or hand-written spreadsheet).
First, describe the components of the interface you used to think about a lot. Then, describe your thought process now, and especially explain why you no longer have to spend as much time focusing on the interface. Finally, briefly describe how you might design or redesign the computational interface to get you to the point of invisibility more quickly.
Hint: This question is best-suited for an interface with which you are now an expert despite some early difficulty. Many video games demonstrate this type of learning curve, as do many pieces of software for complex tasks. You may also think outside the box: perhaps you used to struggle with cooking or budgeting, but have since gotten better.
Question 3 (from Lesson 2.4): ~1.5 pages.
In the lectures, we discuss three types of human perception that are commonly used in user interface design (visual, auditory, haptic).
First, select one of the following five task domains:
- Using an advanced treadmill or exercise bike, including heart monitoring, calorie-counting, rate variation, etc.
- Cooking a meal, including using the various appliances and utensils
- Playing a video game, optionally including games in virtual or augmented reality
- Using a smartwatch to navigate a route as a pedestrian
- Playing with an infant’s discovery toy, such as this one
Using your chosen task domain, describe how each of these three types of human perception are used to give the user feedback.
Then, for each type of these three types of human perception, design how that type of perception could be used to give feedback about something that does not currently use that modality. For example, what kind of haptic feedback might you give a player in a game? What kind of visual feedback might you give a person on an exercise bike? Make sure to design features that you haven’t seen before, but don’t worry if the feature actually does exist on a device you haven’t seen before.
Finally, briefly name a different kind of human perception outside these three, and describe one way it is or could be used for feedback in your chosen task domain.
Hint: Here’s a list of other senses besides the five we recognize most commonly. Remember, you do not need to focus exclusively on feedback designed into the interface. You could instead discuss feedback that is inherent to the task: for example, if this question was about driving a car, the driver can feel the car itself turning in response to movements to the steering wheel.
Question 4 (from Lesson 2.4): ~1.5 pages
In the lecture, we give five suggestions for reducing cognitive load in interface design: using multiple modalities, letting the modalities complement each other, giving the user control of the pace, emphasizing essential content while minimizing clutter, and offloading tasks from the user onto the interface.
Select two of these tips. For each tip, select an interface from your everyday life that violates the suggestion. Briefly describe the interface, and then describe violation of the tip. Then, briefly redesign the interface to incorporate the tip into its design.
Hint: If you’re stuck, try thinking of an interface that currently follows the tip, and then try to brainstorm a similar interface that does not follow that tip. Be cautious with the fifth tip: if you aim to automate a significant part of the task, then you should focus on the interaction between the user and the interface that triggers the task and captures the user’s input rather than how the task is actually automated.
Complete your assignment using JDF, then save your submission as a PDF. Assignments should be submitted to the corresponding assignment submission page in Canvas. You should submit a single PDF for this assignment. This PDF will be ported over to Peer Feedback for peer review by your classmates. If your assignment involves things (like videos, working prototypes, etc.) that cannot be provided in PDF, you should provide them separately (through OneDrive, Google Drive, Dropbox, etc.) and submit a PDF that links to or otherwise describes how to access that material.
This is an individual assignment. All work you submit should be your own. Make sure to cite any sources you reference, and use quotes and in-line citations to mark any direct quotes.
Late work is not accepted without advanced agreement except in cases of medical or family emergencies. In the case of such an emergency, please contact the Dean of Students.
Your assignment will be graded on a 20-point scale coinciding with a rubric designed to mirror the question structure. Make sure to answer every question posted by the prompt. Pay special attention to bolded words and question marks in the question text.
After submission, your assignment will be ported to Peer Feedback for review by your classmates. Grading is not the primary function of this peer review process; the primary function is simply to give you the opportunity to read and comment on your classmates’ ideas, and receive additional feedback on your own. All grades will come from the graders alone.
You will typically be assigned three classmates to review. You receive 1.5 participation points for completing a peer review by the end of the day Thursday; 1.0 for completing a peer review by the end of the day Sunday; and 0.5 for completing it after Sunday but before the end of the semester. For more details, see the participation policy.