Mobile Engineering: Cross-Platform Development Curriculum

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Curriculum

Mobile Engineering: Cross-Platform Development

Structured, hands-on learning path for Mobile Engineering: Cross-Platform Development with detailed weekly outcomes and practical delivery.

Duration: 20 Weeks
Level: Intermediate
Study Time: 2 hours/week + labs
School: Hexadigitall Academy
20 WeeksIntermediateProject-Based

Welcome to Mobile Engineering: Cross-Platform Development! 🎓

This curriculum for Mobile Engineering: Cross-Platform Development follows a Bloom-aligned progression from practical foundations to measurable professional outcomes, with weekly evidence, labs, and portfolio outputs matched to intermediate expectations.

Each week advances from comprehension and application toward evaluation and creation, ensuring progressive learning and capstone readiness.

Your success is our priority. By the end, you will produce portfolio-ready artifacts and confidently explain your technical decisions. You will graduate with a professionally curated portfolio that demonstrates scope, depth, and delivery quality. You will graduate with a professionally curated portfolio that demonstrates scope, depth, and delivery quality. You will graduate with a professionally curated portfolio that demonstrates scope, depth, and delivery quality. You will graduate with a professionally curated portfolio that demonstrates scope, depth, and delivery quality.

Prerequisites

  • Project management fundamentals: scope definition, stakeholder communication, and timeline estimation accuracy
  • Business analysis skills: requirements gathering, user story crafting, and acceptance criteria specification
  • Process mapping and workflow redesign experience with focus on efficiency and stakeholder value
  • Familiarity with project management tools (Jira, Asana, Monday) and kanban board optimization

Essential Resources

  • Project Charter template, WBS examples, and stakeholder analysis worksheets
  • Risk register, change log, and lessons learned repository templates
  • ROI calculation models, benefits tracking dashboards, and governance frameworks

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Business Analysis & Data-Driven Decision Making

Deepen market research, competitive analysis, and ROI modeling

Learning Roadmap

  • Early Weeks: Project fundamentals, planning, and stakeholder management
  • Middle Weeks: Execution excellence, risk management, and adaptive strategies
  • Late Weeks: Delivery validation, lessons learned, and strategic impact

Detailed Weekly Curriculum

Each week includes outcomes and practical lab work aligned to the curriculum structure.

Week 1

Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1)

2 hours + labs
Learning Outcomes
  • Understand the principles of Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1) and link them to course outcomes through progressive practical delivery milestones.
  • Apply Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1) in a guided scenario using realistic tools, constraints, and quality gates.
  • Analyze trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1), then record rationale for stakeholder review.
  • Document a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1) outputs to a dashboard/report with reproducible refresh steps.
Week 2

Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1)

2 hours + labs
Learning Outcomes
  • Understand the principles of Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1) and link them to course outcomes through progressive practical delivery milestones.
  • Apply Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1) in a guided scenario using realistic tools, constraints, and quality gates.
  • Analyze trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1), then record rationale for stakeholder review.
  • Document a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1) outputs to a dashboard/report with reproducible refresh steps.
Week 3

Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1)

2 hours + labs
Learning Outcomes
  • Understand the principles of Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1) and link them to course outcomes through progressive practical delivery milestones.
  • Apply Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1) in a guided scenario using realistic tools, constraints, and quality gates.
  • Analyze trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1), then record rationale for stakeholder review.
  • Document a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1) outputs to a dashboard/report with reproducible refresh steps.
Week 4

Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 1)

2 hours + labs
Learning Outcomes
  • Understand the principles of Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 1) and link them to course outcomes through progressive practical delivery milestones.
  • Apply Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 1) in a guided scenario using realistic tools, constraints, and quality gates.
  • Analyze trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 1), then record rationale for stakeholder review.
  • Document a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 1) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 1) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 1) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 1) outputs to a dashboard/report with reproducible refresh steps.
Week 5

Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 1)

2 hours + labs
Learning Outcomes
  • Understand the principles of Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 1) and link them to course outcomes through progressive practical delivery milestones.
  • Apply Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 1) in a guided scenario using realistic tools, constraints, and quality gates.
  • Analyze trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 1), then record rationale for stakeholder review.
  • Document a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 1) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 1) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 1) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 1) outputs to a dashboard/report with reproducible refresh steps.
Week 6

Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 1)

2 hours + labs
Learning Outcomes
  • Understand the principles of Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 1) and link them to course outcomes through progressive practical delivery milestones.
  • Apply Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 1) in a guided scenario using realistic tools, constraints, and quality gates.
  • Analyze trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 1), then record rationale for stakeholder review.
  • Document a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 1) with measurable success criteria and next actions.
Lab Exercise
  • Apply security controls for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 1), including access boundaries and data protection baselines.
  • Run vulnerability or control validation for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 1) and triage findings by severity.
  • Implement remediation steps for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 1) and verify closure with re-test evidence.
Week 7

Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1)

2 hours + labs
Learning Outcomes
  • Understand the principles of Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1) and link them to course outcomes through progressive practical delivery milestones.
  • Apply Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1) in a guided scenario using realistic tools, constraints, and quality gates.
  • Analyze trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1), then record rationale for stakeholder review.
  • Document a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1) outputs to a dashboard/report with reproducible refresh steps.
Week 8

Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1)

2 hours + labs
Learning Outcomes
  • Apply the principles of Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1) and link them to course outcomes through progressive practical delivery milestones.
  • Analyze Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1) in a guided scenario using realistic tools, constraints, and quality gates.
  • Evaluate trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1), then record rationale for stakeholder review.
  • Justify a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1) outputs to a dashboard/report with reproducible refresh steps.
Week 9

Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2)

2 hours + labs
Learning Outcomes
  • Apply the principles of Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2) and link them to course outcomes through progressive practical delivery milestones.
  • Analyze Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2) in a guided scenario using realistic tools, constraints, and quality gates.
  • Evaluate trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2), then record rationale for stakeholder review.
  • Justify a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2) outputs to a dashboard/report with reproducible refresh steps.
Week 10

Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 2)

2 hours + labs
Learning Outcomes
  • Apply the principles of Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 2) and link them to course outcomes through progressive practical delivery milestones.
  • Analyze Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 2) in a guided scenario using realistic tools, constraints, and quality gates.
  • Evaluate trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 2), then record rationale for stakeholder review.
  • Justify a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 2) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 2) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 2) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 2) outputs to a dashboard/report with reproducible refresh steps.
Week 11

Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 2)

2 hours + labs
Learning Outcomes
  • Apply the principles of Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 2) and link them to course outcomes through progressive practical delivery milestones.
  • Analyze Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 2) in a guided scenario using realistic tools, constraints, and quality gates.
  • Evaluate trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 2), then record rationale for stakeholder review.
  • Justify a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 2) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 2) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 2) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 2) outputs to a dashboard/report with reproducible refresh steps.
Week 12

Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 2)

2 hours + labs
Learning Outcomes
  • Apply the principles of Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 2) and link them to course outcomes through progressive practical delivery milestones.
  • Analyze Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 2) in a guided scenario using realistic tools, constraints, and quality gates.
  • Evaluate trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 2), then record rationale for stakeholder review.
  • Justify a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 2) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 2) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 2) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 2) outputs to a dashboard/report with reproducible refresh steps.
Week 13

Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 2)

2 hours + labs
Learning Outcomes
  • Apply the principles of Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 2) and link them to course outcomes through progressive practical delivery milestones.
  • Analyze Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 2) in a guided scenario using realistic tools, constraints, and quality gates.
  • Evaluate trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 2), then record rationale for stakeholder review.
  • Justify a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 2) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 2) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 2) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Reporting and Communication Excellence (Sprint 2) outputs to a dashboard/report with reproducible refresh steps.
Week 14

Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 2)

2 hours + labs
Learning Outcomes
  • Analyze the principles of Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 2) and link them to course outcomes through progressive practical delivery milestones.
  • Evaluate Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 2) in a guided scenario using realistic tools, constraints, and quality gates.
  • Create trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 2), then record rationale for stakeholder review.
  • Defend a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 2) with measurable success criteria and next actions.
Lab Exercise
  • Apply security controls for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 2), including access boundaries and data protection baselines.
  • Run vulnerability or control validation for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 2) and triage findings by severity.
  • Implement remediation steps for Mobile Engineering: Cross-Platform Development: Risk and Governance Controls (Sprint 2) and verify closure with re-test evidence.
Week 15

Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 2)

2 hours + labs
Learning Outcomes
  • Analyze the principles of Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 2) and link them to course outcomes through progressive practical delivery milestones.
  • Evaluate Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 2) in a guided scenario using realistic tools, constraints, and quality gates.
  • Create trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 2), then record rationale for stakeholder review.
  • Defend a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 2) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 2) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 2) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 2) outputs to a dashboard/report with reproducible refresh steps.
Week 16

Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 2)

2 hours + labs
Learning Outcomes
  • Analyze the principles of Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 2) and link them to course outcomes through progressive practical delivery milestones.
  • Evaluate Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 2) in a guided scenario using realistic tools, constraints, and quality gates.
  • Create trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 2), then record rationale for stakeholder review.
  • Defend a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 2) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 2) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 2) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 2) outputs to a dashboard/report with reproducible refresh steps.
Week 17

Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3)

2 hours + labs
Learning Outcomes
  • Analyze the principles of Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3) and link them to course outcomes through progressive practical delivery milestones.
  • Evaluate Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3) in a guided scenario using realistic tools, constraints, and quality gates.
  • Create trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3), then record rationale for stakeholder review.
  • Defend a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3) outputs to a dashboard/report with reproducible refresh steps.
Week 18

Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3)

2 hours + labs
Learning Outcomes
  • Analyze the principles of Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3) and link them to course outcomes through progressive practical delivery milestones.
  • Evaluate Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3) in a guided scenario using realistic tools, constraints, and quality gates.
  • Create trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3), then record rationale for stakeholder review.
  • Defend a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3) outputs to a dashboard/report with reproducible refresh steps.
Week 19

Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3)

2 hours + labs
Learning Outcomes
  • Analyze the principles of Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3) and link them to course outcomes through progressive practical delivery milestones.
  • Evaluate Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3) in a guided scenario using realistic tools, constraints, and quality gates.
  • Create trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3), then record rationale for stakeholder review.
  • Defend a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3) outputs to a dashboard/report with reproducible refresh steps.
Week 20

Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 3)

2 hours + labs
Learning Outcomes
  • Analyze the principles of Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 3) and link them to course outcomes through progressive practical delivery milestones.
  • Evaluate Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 3) in a guided scenario using realistic tools, constraints, and quality gates.
  • Create trade-offs, risks, and decision points for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 3), then record rationale for stakeholder review.
  • Defend a portfolio-ready delivery strategy memo for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 3) with measurable success criteria and next actions.
Lab Exercise
  • Implement a working data workflow for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 3) with schema/model decisions documented.
  • Run quality checks and performance tuning for Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 3) queries or transformations.
  • Publish Mobile Engineering: Cross-Platform Development: Decision Frameworks and Trade-offs (Sprint 3) outputs to a dashboard/report with reproducible refresh steps.

Capstone Projects

Project 1: Mobile Engineering: Cross-Platform Development Foundation Build

Deliver a concrete foundation implementation covering the first phase of the curriculum.

  • Implement and validate Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 1).
  • Integrate Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 1) with reusable workflow standards.
  • Publish evidence for Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 1) with test and quality artifacts.

Project 2: Mobile Engineering: Cross-Platform Development Integrated Systems Build

Combine mid-program competencies into a production-style integrated workflow.

  • Build an end-to-end flow around Mobile Engineering: Cross-Platform Development: Program Execution and Cadence (Sprint 1) and Mobile Engineering: Cross-Platform Development: Continuous Improvement and Scale (Sprint 1).
  • Add controls, observability, and rollback paths for reliability.
  • Document architecture decisions and trade-offs tied to Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 2).

Project 3: Mobile Engineering: Cross-Platform Development Capstone Delivery

Ship a portfolio-ready capstone with measurable outcomes and stakeholder-ready presentation.

  • Deliver a complete implementation centered on Mobile Engineering: Cross-Platform Development: Domain Foundations and Problem Definition (Sprint 3).
  • Validate readiness for Mobile Engineering: Cross-Platform Development: Stakeholder Discovery and Requirements (Sprint 3) using objective acceptance checks.
  • Present final defense and roadmap based on Mobile Engineering: Cross-Platform Development: Process Mapping and Workflow Design (Sprint 3) outcomes.