= IT Product Development =

* '''Course name''': IT Product Development

* '''Code discipline''':

* '''Subject area''': Software Engineering

* CSE101: Introduction to Programming

* CSE112: Software Systems Analysis and Design

* CSE122 OR CSE804 OR CSE809 OR CSE812

* Basic programming skills.

* OOP, and software design.

* Familiarity with some development framework or technology (web or mobile)

| From idea to MVP ||

# Introduction to Product Development

# Exploring the domain: User Research and Customer Conversations

# Documenting Requirements: MVP and App Features

# Prototyping and usability testing

| Development and Launch ||

# Product backlog and iterative development

# Estimation Techniques, Acceptance Criteria, and Definition of Done

# UX/UI Design

# Software Engineering vs Product Management

| Hypothesis-driven development ||

# Hypothesis-driven product development

# Measuring a product

# Controlled Experiments and A/B testing

The main purpose of this course is to enable a student to go from an idea to an MVP with the focus on delivering value to the customer and building the product in a data-driven evidence-based manner.

* Describe the formula for stating a product idea and the importance of delivering value

* Remember the definition and main attributes of MVP

* Explain what are the main principles for building an effective customer conversation

* Describe various classification of prototypes and where each one is applied

* State the characteristics of a DEEP product backlog

* Elaborate on the main principles of an effective UI/UX product design (hierarchy, navigation, color, discoverability, understandability)

* List the key commonalities and differences between the mentality of a software engineer and a product manager

* Explain what is hypothesis-driven development

* Describe the important aspects and elements of a controlled experiment

* Formulate and assess the product ideas

* Perform market research for existing products

* Design effective customer conversations

* Prototype UI, design and conduct usability tests

* Prototype user interface

* Design and conduct usability testing

* Populate and groom a product backlog

* Conduct Sprint Planning and Review

* Choose product metrics and apply GQM

* Integrate a third-party Analytics tools

* Design, run and conclude Controlled experiments

* Conduct user and domain research to identify user needs and possible solutions

* Elicit and document software requirements

* Organize a software process to swiftly launch an MVP and keep improving it in an iterative manner.

* Build a data pipeline to monitor metrics based on business goals and assess product progress in regards to design changes.

* Evolve and improve a product in a data-driven evidence-based iterative manner

| D. Fail || 0-59 || -

| Assignment || 50

| Quizzes || 15

| Peer review || 15

|-

| Demo day || 20

Participation is important. Showing up is the key to success in this course.<br>You will work in teams, so coordinating teamwork will be an important factor for success. This is also reflected in the peer review being a graded item.<br>Review lecture materials before classes to do well in quizzes.<br>Reading the recommended literature is optional, and will give you a deeper understanding of the material.

* Jackson, Michael. "The world and the machine." ICSE '95: Proceedings of the 17th international conference on Software engineering April 1995 Pages 283–292,

* The Guide to Product Metrics:

* Fitzpatrick, R. (2013). The Mom Test: How to talk to customers & learn if your business is a good idea when everyone is lying to you. Robfitz Ltd.

* Reis, E. (2011). The lean startup. New York: Crown Business, 27.

* Rubin, K. S. (2012). Essential Scrum: A practical guide to the most popular Agile process. Addison-Wesley.

* Firebase Analytics and A/B Testing,

* Amplitude Product Analytics,

* MixPanel Product Analytics,

{| class="wikitable"

|+ Teaching and Learning Methods within each section

|-

! Teaching Techniques !! Section 1 !! Section 2 !! Section 3

|-

| Problem-based learning (students learn by solving open-ended problems without a strictly-defined solution) || 1 || 1 || 1

|-

| Project-based learning (students work on a project) || 1 || 1 || 1

|-

| Differentiated learning (provide tasks and activities at several levels of difficulty to fit students needs and level) || 1 || 1 || 1

|-

| развивающего обучения (задания и материал "прокачивают" ещё нераскрытые возможности студентов); || 1 || 1 || 1

|-

| концентрированного обучения (занятия по одной большой теме логически объединяются); || 1 || 1 || 1

|-

| inquiry-based learning || 1 || 1 || 1

|}

! Learning Activities !! Section 1 !! Section 2 !! Section 3

| Lectures || 1 || 1 || 1

| Interactive Lectures || 1 || 1 || 1

| Lab exercises || 1 || 1 || 1

| Development of individual parts of software product code || 1 || 1 || 1

| Group projects || 1 || 1 || 1

|-

| Quizzes (written or computer based) || 1 || 1 || 1

|-

| Peer Review || 1 || 1 || 1

|-

| Discussions || 1 || 1 || 1

|-

| Presentations by students || 1 || 1 || 1

|-

| Written reports || 1 || 1 || 1

|-

| Experiments || 0 || 0 || 1

| Quiz || 1. What is a product? What are the techniques for describing a product idea in a clear concise manner? <br> 2. What user research techniques do you know? In what situations are they applied? <br> 3. What are the key customer conversation principles according to the Mom Test technique? Bring an example of bad and good questions to ask. <br> 4. What are the 4 phases of the requirements engineering process? <br> 5. How do we document requirements? What techniques do you know? || 1

| Presentation || Prepare a short 2-minutes pitch for your project idea (2-5 slides). <br> <br> Suggested structure: <br> What problem you are solving: <br> - State the problem clearly in 2-3 short sentences. <br> <br> Who are you solving it for: <br> - Who is your user/customer? <br> - Why will they be attracted to it? <br> <br> What is your proposed solution to solve that problem: <br> - One sentence description <br> - What main feature(s) will it have? || 0

| Individual Assignments || A1: Product Ideation and Market Research <br> Formulate 3 project ideas in the following format: <br> X helps Y to do Z – where X is your product’s name, Y is the target user, and Z is what user activity product help with. <br> <br> Submit Link to Screenshot board and Feature Analysis Table: <br> - Pick and explore 5 apps similar to your idea <br> - Take screenshots along the way and collect them on a board. <br> - Make a qualitative analysis table for app features. <br> <br> Prepare a short 2-minutes pitch for your project idea (2-5 slides). <br> <br> Suggested structure: <br> What problem you are solving: <br> - State the problem clearly in 2-3 short sentences. <br> <br> Who are you solving it for: <br> - Who is your user/customer? <br> - Why will they be attracted to it? <br> <br> What is your proposed solution to solve that problem: <br> - One sentence description <br> - What main feature(s) will it have? || 1

| Group Project Work || A2: Forming Teams and Identifying Stakeholders <br> Students are distributed into teams. <br> Meet your team <br> Discuss the idea <br> Agree on the roles <br> Setup task tracker (Trello or similar) <br> Identify 3-5 stakeholders and how to approach them <br> Compose a set of 5 most important questions you would ask from each stakeholder when interviewing them <br> <br> Submit <br> A pdf with the idea description, roles distribution among the team, identified stakeholders, ways to approach them, a set of questions for each stakeholder. <br> An invite link to join your task tracker <br> <br> A3: Domain Exploration and Requirements <br> User Research Process: <br> Compose the questionnaire for each stakeholder type. <br> Talk to 5-7 stakeholders. <br> Keep updating the questionnaire throughout the process <br> Compose an interview results table <br> Produce personas <br> Summarize most important learning points <br> Describe features your MVP will have (use case diagram + user story mapping) <br> <br> Submit a pdf report with: <br> Personas + corresponding questionnaires <br> Interview results table (can provide a link to spreadsheet, make sure to open access) <br> Learning points summary <br> MVP features. <br> <br> Optional: <br> Start implementation of the functionality you are certain about. <br> <br> Assignment 4. UI design, Prototyping, MVP, and Usability Testing <br> Break down MVP features into phases and cut down the specification to implement MVP V1 <br> Produce low and high fidelity designs for your product. <br> Review the phases breakdown. <br> Follow either the Prototyping or MVP path to complete the assignment. <br> <br> Prototyping path: <br> Make a clickable prototype with Figma or a similar tool <br> Make 5-10 offline stakeholders use your prototype, observe them and gather feedback <br> Embed your prototype into an online usability testing tool (e.g. Maze). <br> Run an online usability test with 5-10 online stakeholders. <br> Summarize key learning points <br> <br> MVP path: <br> Review your MVP phases. <br> Build MVP V1 <br> Make 5-10 offline stakeholders use your MVP, observe them and gather feedback <br> Integrate an online usability testing tool to observe user sessions (e.g. Smartlook). <br> Distribute the MVP to 5-10 online stakeholders and run an online usability test. <br> Summarize key learning points <br> <br> <br> Submit all of the below in one PDF: <br> Link to sketches and designs. <br> Link to your MVP/Clickable prototype. <br> Link to online usability test. <br> Names of people you conducted the tests with and which stakeholder type are they. <br> Key learning points summary. <br> <br> Make sure all links are accessible/viewable. || 1

| Quiz || 1. What does the acronym MVP stand for? What types of MVP do you know of? <br> 2. Define roles, activities, and artefacts of Scrum. What differentiates Scrum from other Agile frameworks, e.g. Kanban? <br> 3. What does DEEP criteria stand for when discussing Product Backlog? Explain each of the aspects with examples. <br> 4. Describe how Scrum activities are performed. Which of them are essential and which of them can vary depending on the product. || 1

| Presentation || Prepare a 5-mins presentation describing your: <br> product backlog <br> sprint results <br> MVP-launch plan <br> Each team will present at the class. The assessment will be based on the presentation delivery, reasoning for decision making and asking questions and providing suggestions for other teams. || 0

| Group Project Work || Assignment 5. Developing an MVP <br> 1. Populate and groom product backlog: <br> Comply with the DEEP criteria. <br> 2. Run two one-week sprints: <br> Conduct two Sprint plannings, i.e. pick the tasks for Sprint Backlog. <br> Conduct two Sprint reviews <br> Run one Sprint Retrospective <br> 3. Make a launch plan and release: <br> You need to launch in the following two weeks. <br> Decide what functionality will go into the release. <br> Release your first version in Google Play. <br> Hint: Focus on a small set of features solving a specific problem for a specific user, i.e. MVP. <br> 4. Prepare a 5-mins presentation describing your: <br> product backlog <br> sprint results <br> MVP-launch plan. <br> Demo for your launched MVP. <br> Each team will present at the class. The assessment will be based on the presentation delivery, reasoning for decision making and asking questions and providing suggestions for other teams. <br> 5. Submit a PDF with: <br> Backlogs and Launch plan <br> Link to the launched product <br> Assignment 6. Launch your product, AC and DoD. <br> 1. Improve the UX: Getting Started with the App. <br> 2. Release in Google Play: Work on packaging it nicely <br> 3. Design and deploy a landing page <br> <br> 4. Produce acceptance criteria for 3-5 most important user stories in your product. <br> 5. Produce definition of done checklist <br> 6. Estimate the items in your product backlog <br> <br> || 1

| Group presentation || Midterm Presentation <br> 1. Prepare a midterm presentation for 10-mins in which you cover: <br> The problem you are trying to solve <br> Your users and customers (personas) <br> Your solution and it's core value proposition <br> Current state of your product <br> Clear plan for the upcoming weeks <br> Your team and distribution of responsibilities <br> Demo <br> Retrospective and learning points <br> Link to your app <br> <br> Submit a pdf with: <br> Items 1, 2, 3 <br> link to the presentation <br> || 0

| Quiz || 1. What are common product hypotheses present? How can we formulate them as questions about our UX? <br> 2. Explain what is hypothesis-driven development <br> 3. Describe the important aspects and elements of a controlled experiment || 1

| Presentation || Prepare a short 2-minutes pitch for your project idea (2-5 slides). <br> <br> Suggested structure: <br> What problem you are solving: <br> - State the problem clearly in 2-3 short sentences. <br> <br> Who are you solving it for: <br> - Who is your user/customer? <br> - Why will they be attracted to it? <br> <br> What is your proposed solution to solve that problem: <br> - One sentence description <br> - What main feature(s) will it have? || 0

| Group project work || Assignment 7: Development, Observation, and Product Events. <br> 1. Continue with your development process: <br> - Hold sprint planning and reviews. <br> - Revisit estimations and keep track for velocity calculation. <br> - Host demos and release new versions to your users <br> <br> 2. Observing users: <br> - Integrate a user sessions recording tool into your product <br> - As a team: watch 100 user sessions and outline common user behavior patterns. <br> - Each team member: give product to 3 new people and observe them use it. <br> <br> 3. Product events: <br> Create a product events table. <br> Integrate a free analytics tool that supports events reporting (e.g. Amplitude, MixPanel). <br> <br> Write and submit a report: <br> - describe user behavior patterns (main ways how people use your product). <br> - learning points from the observations <br> - add the events table. <br> - describe which analytics tool you chose and why <br> <br> Assignment 8: GQM, Metrics, and Hypothesis-testing. <br> 1. GQM and Metrics Dashboard <br> - Compose a GQM for your product. <br> - Identify your focus and L1 metrics <br> - Setup an Analytics Dashboard with the metrics you chose. <br> - Add the instructors to your Analytics Dashboard. <br> <br> Hypothesis-testing: <br> - answer clarity and hypotheses: do users understand your product, is it easy for them to get started, and do they return? <br> - suggest product improvements to increase clarity, ease of starting and retention. <br> - based on the suggestions formulate 3 falsifiable hypotheses <br> - design a simple test to check each of them <br> - pick one test that could be conducted by observing your users <br> - conduct the test <br> <br> Submit: <br> - GQM, Focus and L1 Metrics breakdown. <br> - Report on the hypothesis-testing activities <br> - Access link to the dashboard. <br> Assignment 9: Running an A/B test <br> Compose an A/B test: <br> - Design a change in your product <br> - Hypothesis: Clearly state what you expect to improve as the result of the change. <br> - Parameter and Variants: Describe both A and B variants (and other if you have more). <br> - Intended sample size. <br> - OEC: Determine the target metric to run the experiment against. <br> <br> Then do one of the two options: <br> Option 1: Conduct the A/B test using a remote control and A/B testing tool (Firebase, Optimizely or like) <br> <br> Option 2: Do the statistical math yourself <br> Conduct an A/B test and collect data. <br> Do the math manually using the standard Student T-test. <br> <br> Submit a PDF with: <br> - the A/B test description <br> - report on how the experiment went. <br> - either screenshots from the tool or math calculations. || 1

# Grading criteria for the final project presentation:

# Problem: short clear statement on what you are solving, and why it’s important.

# User: should be a specific user, can start from generic and then show how you narrowed it.

# Solution: how do you target the problem, what were the initial assumptions/hypotheses

# Elicitation process: interviews, how many people, what questions you asked, what you learnt.

# Arriving at MVP: how you chose features, describe prototyping and learning from it, when did you launch, and how it went.

# Team and development process: how it evolved, what were the challenges, what fixes you made to keep progressing.

# Product demo: make it clear what your current product progress is.

# Hypothesis-driven development: how did you verify value and understandability of your product, what were the main hypotheses you had to check through MVP.

# Measuring product: what metrics you chose, why, what funnels did you set for yourself, and what was the baseline for your MVP.

# Experimentation: What usability tests and experiments you conducted, what did you learn, how did it affect your funnels and metrics.

# Grading criteria for the final project presentation:

# Problem: short clear statement on what you are solving, and why it’s important.

# User: should be a specific user, can start from generic and then show how you narrowed it.

# Solution: how do you target the problem, what were the initial assumptions/hypotheses

# Elicitation process: interviews, how many people, what questions you asked, what you learnt.

# Arriving at MVP: how you chose features, describe prototyping and learning from it, when did you launch, and how it went.

# Team and development process: how it evolved, what were the challenges, what fixes you made to keep progressing.

# Product demo: make it clear what your current product progress is.

# Hypothesis-driven development: how did you verify value and understandability of your product, what were the main hypotheses you had to check through MVP.

# Measuring product: what metrics you chose, why, what funnels did you set for yourself, and what was the baseline for your MVP.