Wednesday, July 1, 2026

Chapter 2 Part 4 Section 2.2.1 (Mental, Conceptual, and Implementation Models) and Section 2.3 (Interface Metaphors) IT4106 - User Experience Design

2.2.1 Mental, Conceptual & Implementation Models

🎯 Learning Objectives
  • Define Mental, Conceptual, and Implementation Models.
  • Compare the three models.
  • Explain why all three models are important in UX design.
🧠 1. Mental Model (User's View)

When designing software, different people see the system in different ways. Users think about how they expect the system to work.

Definition

A Mental Model is the user's understanding or expectation of how a system works based on their previous knowledge and experience.

Simple Definition: What users think will happen when they use a system.

Examples

  • Print Button: A user expects clicking "Print" will immediately print the document.
  • Elevator: Press button → Elevator arrives → Door opens. (Users already know this flow).

Characteristics

  • Based on user experience.
  • Different users may have different mental models.
  • Can be correct or incorrect.
  • Changes as users gain experience.
📐 2. Conceptual & 3. Implementation Models

2. Conceptual Model (Designer's View)

Definition: The designer's representation of how the system should work from the user's point of view. It is the plan for how users interact with the system.

Example (Online Shopping):
Browse Products → Add to Cart → Checkout → Payment → Order Confirmation.

Characteristics: Created during design, user-centered, easy to understand, independent of programming.

3. Implementation Model (Developer's View)

Definition: Describes how the system is actually built using programming, databases, and hardware.

Example (Login Process):
Validate username → Check password → Query database → Create session → Open dashboard.

Characteristics: Technical, used by developers, includes code/APIs, hidden from users.

🔄 Comparison & Real-Life Example (ATM)

Comparison Table

FeatureMental ModelConceptual ModelImplementation Model
Created ByUserDesignerDeveloper
FocusUser expectationsSystem behaviourTechnical implementation
Technical DetailsNoNoYes
Used ForUnderstandingDesigning interfaceBuilding software

Real-Life Example: ATM Machine

  • Mental Model: "I insert card, enter PIN, get cash."
  • Conceptual Model: Insert Card → Enter PIN → Choose Transaction → Receive Cash.
  • Implementation Model: Read card mag-stripe → Verify PIN in DB → Check balance → Update records → Dispense cash → Print receipt.
🤝 Why Models Must Match & Activity

Why Should These Models Match?

A good UX design ensures that the Conceptual Model matches the User's Mental Model. If users expect one thing but the system behaves differently, they become confused.

Example of Mismatch: If clicking a "Shopping Cart" icon unexpectedly opens the "User Profile" instead of the cart, the user's mental model and the system's conceptual model do not match.
📝 Classroom Activity: Choose a mobile app (e.g., WhatsApp). Identify the User's Mental Model, Designer's Conceptual Model, and Developer's Implementation Model. Discuss how they work together.

Summary

  • Mental Model: What the user thinks the system does.
  • Conceptual Model: How the designer wants the system to work.
  • Implementation Model: How the developer actually builds the system.

2.3 Interface Metaphors

🎯 Learning Objectives & Introduction
  • Define an interface metaphor.
  • Explain why interface metaphors are used in UX design.
  • Identify common interface metaphors.
  • Discuss advantages and disadvantages.

Introduction

When learning new software, users understand it quickly if it resembles something they already know. UX designers use interface metaphors to make digital systems familiar.

Definition: The use of familiar real-world objects or concepts in a computer interface to help users understand how the system works.

Simple Definition: A real-world object used to represent a digital function.

🖼️ Common Interface Metaphors

🖥️ Desktop

Screen looks like an office desk with files and folders.

📂 Folder

Stores documents like a physical office folder.

🗑️ Recycle Bin

Temporarily stores deleted files before permanent removal.

🛒 Shopping Cart

Holds selected items before checkout (e.g., Daraz, Amazon).

🔍 Magnifying Glass

Represents the "Search" function.

✉️ Envelope

Represents Email or Messages.

📷 Camera

Represents taking photos or opening the camera app.

📅 Calendar

Represents schedules, events, and appointments.

💾 Floppy Disk

The universal "Save" icon (even though disks are obsolete).

✨ Characteristics, Pros & Cons

Characteristics of a Good Metaphor

  • Be familiar to users.
  • Be easy to understand.
  • Represent the function correctly.
  • Be consistent throughout the system.

Advantages

  • Easy for beginners to learn.
  • Reduces training requirements.
  • Makes interfaces intuitive.
  • Helps users remember functions.

Disadvantages

  • Some metaphors become outdated (e.g., Floppy Disk).
  • Different cultures may interpret metaphors differently.
  • Overusing metaphors can limit creativity.
  • Some digital functions have no real-world equivalent.
📊 Summary Table & Activity

Quick Reference Table

Interface MetaphorRepresents
FolderStore files
Shopping CartSelected products
Recycle BinDeleted files
EnvelopeEmail
CameraTake photos
CalendarEvents/Schedules
Magnifying GlassSearch
BookmarkSave webpage
📝 Classroom Activity: Look at your smartphone and identify five interface metaphors (e.g., Gear icon for Settings). Discuss why these icons help users understand the application.

Summary

An Interface Metaphor uses familiar real-world objects to represent digital functions. Good metaphors improve usability, reduce learning time, and enhance the overall user experience by leveraging what users already know.

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  • 🤖 AI & Smart Applications: Step-by-step implementation of AI, Machine Learning (ML), and automation modules.
  • Guaranteed Success: Help with documentation, system architecture, coding, and viva preparation.

🏫 School ICT & Corporate Beginner Classes

  • 💻 Non-IT Staff Computer Basics: Absolute beginner-friendly online classes covering essential computer skills, office tools, and internet operations.
  • 🎒 Primary & Secondary (Grades 1-10): Interactive online ICT classes tailored to build strong foundations from early ages.
  • 📝 Exam Prep: Dedicated training packages for GCE O/L, GCE A/L ICT, and GIT exams.
  • 🌍 Global Syllabuses: Complete curriculum coverage for Local, Edexcel, and Cambridge in English & Tamil Mediums.

📢 Software Development & Digital Marketing Services

  • ⚙️ Software & Web Development: Professional custom software application and website development built using PHP & MySQL.
  • 🎯 Social Media Management: Content creation, publishing, and channel management for Facebook, Instagram, TikTok, and YouTube.
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📞 Connect With Us Instantly

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CHAPTER 2: Part 3 CONCEPTUAL INTERACTION IT4106 - User Experience Design BIT UCSC 2nd Year 2nd Semester Notes PDF Download ICT Classes

2.1.4 Principles of Good Interaction Design

🎯 Learning Objectives

After studying this lesson, students should be able to:

  • Define Interaction Design Principles.
  • Explain why design principles are important.
  • Describe the eight fundamental principles of interaction design.
  • Apply these principles when designing user interfaces.
  • Identify poor interface designs by analyzing design principles.
📖 Introduction & What are Design Principles?

Imagine two websites that sell the same product. Website A is simple, organized, and easy to use. Website B is confusing, cluttered, and difficult to navigate. Most people will choose Website A. Why? The difference is good interaction design.

What are Interaction Design Principles?

Definition: A set of guidelines used by UX designers to create systems that are easy, efficient, consistent, and satisfying for users.

Simple Definition: Rules that help designers create user-friendly software.

Why are they Important?

Following these principles helps designers:

  • Reduce user confusion and prevent errors.
  • Improve usability, efficiency, and user satisfaction.
  • Reduce training time and build user confidence.
👁️ 1. Visibility & 2. Feedback

1. Visibility

Definition: Making important functions and controls easy for users to see. If users cannot see a function, they cannot use it.

Good Design: A large green "Checkout" button placed clearly at the bottom of the cart.
Bad Design: The checkout button is hidden inside a complex menu.

Design Tips: Make important buttons large, use readable fonts, highlight primary actions, and avoid hiding important features.

2. Feedback

Definition: The information provided by the system after a user performs an action. It tells users what happened.

Types of Feedback:

  • Visual: Loading bar, animation, check mark, progress indicator.
  • Audio: Notification sound, keyboard click, camera shutter.
  • Haptic: Phone vibration, game controller vibration.

Why it matters: Without feedback, users might click "Pay" multiple times if there is no loading indicator, causing duplicate transactions.

🚧 3. Constraints & 4. Consistency

3. Constraints

Definition: Limitations placed on users to prevent incorrect actions. They stop users from making mistakes.

Types of Constraints:

  • Physical: A USB plug only fits in one orientation.
  • Logical: The "Next" button is disabled until all required fields are filled.
  • Cultural: Red means Stop, Green means Go.
  • Semantic: A steering wheel belongs in front of the driver.

4. Consistency

Definition: Using the same design patterns, layouts, terminology, and behaviors throughout a system. Similar things should behave in similar ways.

Example: If the "Save" button is blue on one page, it should be blue on every other page. Android apps consistently place the "Back" button in the same location.
🚪 5. Affordance & 6. Signifiers

5. Affordance

Definition: The properties of an object that suggest how it can be used. It tells users what an object allows them to do.

  • Door Handle: Affords "Pull".
  • Push Plate: Affords "Push".
  • Button: Affords "Click".
  • Slider: Affords "Drag".

6. Signifiers

Definition: Visual, textual, or audio cues that indicate how an object should be used.

Difference Between Affordance and Signifier

FeatureAffordanceSignifier
DefinitionWhat the object can doHow users know what it can do
ExampleA button affords clickingIts blue color and shadow signify it is clickable

Examples of Signifiers: Underlined text (hyperlink), Play icon ▶ (video), Hamburger menu ☰ (navigation), Bell icon (notifications).

🗺️ 7. Mapping & 8. Learnability

7. Mapping

Definition: The relationship between controls and the effects they produce. Users should easily understand which control affects which function.

Good Example: A stove with four burners and four knobs. Good mapping places each knob in the exact same spatial arrangement as the burners. Poor mapping forces users to guess which knob controls which burner.

8. Learnability

Definition: The ease with which new users can learn to use a system effectively. A learnable system is easy for beginners to understand.

Example: Most people can learn to use WhatsApp within minutes because its interface is simple, familiar, and features clear navigation.

📊 Summary Table & Classroom Activity

Summary of the 8 Principles

PrincipleMeaningExample
VisibilityImportant functions are easy to seeLarge "Checkout" button
FeedbackSystem informs users about actions"File Saved Successfully"
ConstraintsPrevent incorrect actionsPassword complexity rules
ConsistencySimilar elements behave similarlySame menu layout on every page
AffordanceObject suggests its useButton suggests clicking
SignifiersCues indicate how to use somethingUnderlined hyperlink
MappingClear relationship between control & effectCorrect stove knob layout
LearnabilityEasy for beginners to learnWhatsApp interface
📝 Classroom Activity: Visit any popular e-commerce website (such as Daraz or Amazon) and identify examples of the 8 principles. Discuss how these principles improve the user experience.
🏁 Topic 2.1 Status & Final Summary
✅ Topic 2.1 (Conceptualizing Interaction) Completed!
We have now covered:
  • ✅ Introduction to Interaction & Conceptualizing Interaction
  • ✅ Types of Interaction (Instructing, Conversing, Manipulating, Exploring)
  • ✅ Interaction Paradigms (CLI to AI)
  • ✅ Direct vs. Indirect Manipulation
  • ✅ Principles of Good Interaction Design

Final Summary: Interaction Design Principles are the foundation of good UX. By applying visibility, feedback, constraints, consistency, affordance, signifiers, mapping, and learnability, designers can create systems that are intuitive, efficient, and enjoyable to use.

2.2 Conceptual Models

🎯 Learning Objectives
  • Define a conceptual model.
  • Explain why conceptual models are important.
  • Identify the components of a conceptual model.
  • Differentiate between conceptual, mental, and implementation models.
  • Develop simple conceptual models for software systems.
📖 Introduction & What is a Conceptual Model?

Before developing any software, designers need to understand how users think the system should work. Instead of immediately designing screens or writing code, UX designers first create a conceptual model.

Definition

A Conceptual Model is a high-level representation of how a system works from the user's perspective. It explains the objects, actions, and relationships within the system without focusing on technical implementation.

Simple Definition: A plan or blueprint that shows how users interact with a system.

Example: ATM System

Insert Card ↓ Enter PIN ↓ Choose Transaction ↓ Process Request ↓ Display Result ↓ Return Card

This shows how the system works from a user perspective, not how it is programmed.

Why are Conceptual Models Important?

  • Help understand user requirements and simplify complex systems.
  • Improve communication among developers, designers, and stakeholders.
  • Reduce design errors, save development time/cost, and improve UX.
🧩 Components of a Conceptual Model

A conceptual model usually includes four main components:

1. Objects

The items users interact with (e.g., Button, File, Folder, Shopping Cart, Product, Customer).

2. Actions

What users can do with objects (e.g., Open, Save, Delete, Search, Add to Cart, Login).

3. Relationships

How objects are connected. Example: Customer → Places → Order; Order → Contains → Products.

4. Feedback

How the system informs users about the result of their actions (e.g., "Login Successful", "Order Confirmed").

Example: Online Shopping System

ObjectAction
ProductView, Add to Cart
CartCheckout
UserLogin
OrderTrack
✨ Characteristics, Examples & Pros/Cons

Characteristics of a Good Conceptual Model

A good conceptual model should be: Simple, Easy to understand, Consistent, User-centered, Logical, Flexible, and Easy to learn.

Real-World Example: Library Management System

  • Objects: Book, Student, Librarian.
  • Actions: Search Book, Borrow Book, Return Book, Renew Book.
Search Book → Select Book → Borrow Book → Return Book

Advantages & Disadvantages

AdvantagesDisadvantages
  • Easy to understand.
  • Reduces confusion.
  • Helps identify design problems early.
  • Improves team communication.
  • Does not show technical details.
  • May need updates when requirements change.
  • Different people may interpret the model differently.
📝 Classroom Activity & Summary
📝 Classroom Activity: Design a conceptual model for a Food Delivery App.

Expected Answer (Flow):
Login → Browse Restaurants → Select Food → Add to Cart → Checkout → Payment → Track Order

Summary

A Conceptual Model is a simplified representation of how a system works from the user's point of view. It identifies the objects, actions, relationships, and feedback within a system. Creating a conceptual model before development helps designers build systems that are easier to understand and use.

🎓 Expert ICT, Coding, School Classes, Digital Marketing & University Project Guidance

Struggling with your university final year project? Want to master coding, upscale your business with expert digital marketing, or learn absolute computer basics from scratch? We offer high-quality individual and group online classes conducted in English, Sinhala, or Tamil mediums. Get guaranteed academic success and professional growth with tailored guidance.


🎓 University Final Year Project Guidance & AI

Get specialized, end-to-end mentoring and technical support to pass your degree or master's program with flying colors:

  • 🏫 Targeted Institutes: Expert guidance tailored for BIT UCSC, UoM, SLIIT, NIBM, and other leading universities.
  • 🔬 Postgraduate Support: Comprehensive assistance for MSc Software Final Year Projects.
  • 🤖 AI & Smart Applications: Step-by-step implementation of AI, Machine Learning (ML), and automation modules.
  • Guaranteed Success: Help with documentation, system architecture, coding, and viva preparation.

🏫 School ICT & Corporate Beginner Classes

  • 💻 Non-IT Staff Computer Basics: Absolute beginner-friendly online classes covering essential computer skills, office tools, and internet operations.
  • 🎒 Primary & Secondary (Grades 1-10): Interactive online ICT classes tailored to build strong foundations from early ages.
  • 📝 Exam Prep: Dedicated training packages for GCE O/L, GCE A/L ICT, and GIT exams.
  • 🌍 Global Syllabuses: Complete curriculum coverage for Local, Edexcel, and Cambridge in English & Tamil Mediums.

📢 Software Development & Digital Marketing Services

  • ⚙️ Software & Web Development: Professional custom software application and website development built using PHP & MySQL.
  • 🎯 Social Media Management: Content creation, publishing, and channel management for Facebook, Instagram, TikTok, and YouTube.
  • 📈 Ad Boosting: Highly targeted paid advertising campaigns to drive leads, traffic, and sales to your business.

📞 Connect With Us Instantly

Book your slot for online classes or get a premium tech service quote today!

💬 WhatsApp: +94 729622034

📧 Email: ITClassSL@gmail.com


🌐 Explore Our Resources & Communities

Stay updated with our latest tutorials, project ideas, and student guides across all our official platforms:

CHAPTER 2: Part 2 IT4106 - User Experience Design BIT UCSC UoM Computer ICT Notes Online Classes

2.1.2 Interaction Paradigms

🎯 Learning Objectives

After studying this section, students should be able to:

  • Define an interaction paradigm.
  • Explain the evolution of interaction paradigms.
  • Identify different interaction paradigms.
  • Compare traditional and modern interaction paradigms.
  • Explain how interaction paradigms influence User Experience (UX).
📖 Introduction & What is a Paradigm?

Technology has changed dramatically over the past few decades. The way people interacted with computers in the 1960s is very different from how we interact with today's smartphones, smartwatches, and AI assistants. These changes are known as Interaction Paradigms.

What is a Paradigm?

Definition: A paradigm is a model, pattern, or way of thinking that guides how something is designed or performed. In computer science, it represents a standard approach used to solve problems or design systems.

Simple Definition: A paradigm is a general way of doing something.

Example (Transportation): People first travelled by walking → horse carts → bicycles → cars → electric vehicles. Each represents a different transportation paradigm. Similarly, computers evolved from command-line systems to graphical interfaces, touch screens, and voice-controlled systems.
💡 What is an Interaction Paradigm?

Definition

An Interaction Paradigm is the overall approach or style used for communication between users and computer systems. It defines how users perform tasks and how the system responds.

Simple Definition: The method through which people communicate with computers.

Why are Interaction Paradigms Important?

Interaction paradigms influence user behaviour, satisfaction, productivity, learnability, and accessibility. A good interaction paradigm makes software intuitive and reduces the learning curve.

Example (Windows GUI): Click icons → Open folders → Drag files → Delete documents. This follows the Graphical User Interface (GUI) paradigm.
🖥️ Evolution: CLI & GUI

1. Command-Line Interface (CLI)

Users type text commands to communicate with the computer (e.g., Windows Command Prompt, Linux Terminal, MS-DOS).

mkdir Projects (Creates a new folder) cd Projects (Moves into the directory) dir (Displays all files)
  • Advantages: Very fast for experts, low resource usage, powerful for automation.
  • Disadvantages: Must memorize commands, typing errors cause failures, not suitable for beginners.

2. Graphical User Interface (GUI)

Users interact using graphical elements such as icons, windows, buttons, and menus (e.g., Windows 11, macOS, Android).

Click Folder → Folder Opens → Select File → Drag File → Drop into Another Folder
  • Advantages: Easy to learn, visual, no command memorization, suitable for beginners.
  • Disadvantages: Consumes more memory, may become cluttered if poorly designed.
🌐 Evolution: Web, Mobile & Touch

3. Web-Based Interaction

Users communicate with applications through web browsers (e.g., Google, Facebook, YouTube, Amazon).

  • Pros: Accessible anywhere, no installation, easy updates, cross-platform.
  • Cons: Internet required, performance depends on network speed.

4. Mobile Interaction

Users interact through touch, swipe, pinch, voice, and biometrics (e.g., WhatsApp, TikTok, Banking Apps).

  • Pros: Portable, natural, location-aware, camera integration.
  • Cons: Small screen, limited keyboard, battery dependency.

5. Touch-Based Interaction

Users directly manipulate objects using gestures like tap, swipe, pinch, spread, and rotate (e.g., Google Maps zooming).

🚀 Evolution: Voice, Gesture, VR, AR & AI

6. Voice User Interface (VUI)

Users communicate using spoken language (e.g., Siri, Alexa, ChatGPT Voice). Pros: Hands-free, accessible. Cons: Recognition errors, privacy concerns.

7. Gesture-Based Interaction

Users control systems through body movements (e.g., Microsoft Kinect, VR Controllers).

8. Virtual Reality (VR) & 9. Augmented Reality (AR)

VR: Creates a completely digital environment (e.g., Meta Quest). AR: Adds digital info to the real world (e.g., Pokémon GO, IKEA Place).

10. AI-Based Interaction

Users communicate naturally, and systems understand intentions (e.g., ChatGPT, Copilot). Users simply say "Summarize this document," and the AI generates it.

📊 Comparison & Case Study: Banking

Comparison of Interaction Paradigms

ParadigmInput MethodExamplesSuitable For
Command LineKeyboard CommandsLinux TerminalExperts
GUIMouse + KeyboardWindowsGeneral Users
WebBrowserGoogle, FacebookInternet Apps
Mobile/TouchTouchAndroid, iPhoneSmartphones
VoiceSpeechSiri, AlexaHands-Free
VR/ARHeadset/CameraMeta Quest, Pokémon GOSimulation/Real-World
AI-BasedNatural LanguageChatGPTIntelligent Assistance

Case Study: Evolution of Banking

1980: Visit Branch → Paper Forms → Manual Processing ↓ 2000: ATM Machines → Card + PIN → Cash Withdrawal ↓ 2010: Internet Banking → Web Browser → Transfer Money Online ↓ 2025: Mobile + AI → Face Recognition → Voice Commands → Instant Payments
🔑 Key Points to Remember
  • An interaction paradigm is the overall method through which users interact with a computer system.
  • Paradigms evolved from CLI → GUI → Web → Mobile → Touch → Voice → Gesture → VR → AR → AI.
  • Each paradigm has its own strengths, limitations, and suitable application areas.
  • UX designers must select the paradigm that best matches users' goals, skills, and context of use.

2.1.3 Direct & Indirect Manipulation

📝 Note for Lecturer: Although "Direct vs. Indirect Manipulation" is not explicitly listed in the syllabus, it is a core concept under Conceptualizing Interaction (from the recommended textbook). Understanding this helps students grasp why some interfaces feel intuitive and others do not.
🎯 Learning Objectives
  • Define Direct and Indirect Manipulation.
  • Explain the characteristics of Direct Manipulation.
  • Compare Direct and Indirect Manipulation.
  • Identify real-world applications of both interaction styles.
  • Apply Direct Manipulation principles in interface design.
📖 Introduction & What is Direct Manipulation?

One of the main goals of UX Design is to make systems feel natural. This idea was introduced by Ben Shneiderman in the early 1980s.

What is Direct Manipulation?

Definition: An interaction style where users directly interact with visible objects on the screen instead of entering commands. Objects respond immediately with continuous visual feedback.

Simple Definition: Users directly touch, move, or control objects on the screen.

Direct vs Indirect Example (Moving a File)

DIRECT: Click file → Drag it → Drop into folder (File moves immediately) INDIRECT: Type "Move File" → Type destination → Press Enter (User gives instructions)
✨ Characteristics & Real-Life Examples

3 Characteristics of Direct Manipulation (Shneiderman)

  1. Continuous Representation of Objects: Objects remain visible throughout the interaction (e.g., you can always see files and folders on the Desktop).
  2. Physical Actions Instead of Complex Commands: Users interact using simple actions like click, drag, drop, touch, swipe, pinch.
  3. Immediate Feedback: Every action produces an immediate response (e.g., dragging a folder moves it instantly).

Real-Life Examples

  • Smartphones: Touch, swipe, pinch, rotate. Everything responds instantly.
  • Google Maps: Pinch to zoom, drag to move, rotate to change direction.
  • Microsoft Paint / Canva: Draw, erase, resize, move shapes in real-time.
  • Mobile Photo Gallery: Swipe for next photo, pinch to zoom.
⚖️ Advantages & Disadvantages of Direct Manipulation

Advantages

  • Easy to Learn: Beginners (even children) quickly understand how to use it.
  • Faster Interaction: Dragging files is faster than typing file paths.
  • Immediate Feedback: Users know instantly if an action succeeded.
  • Fewer Errors: Objects remain visible, reducing mistakes.
  • More Enjoyable: Smooth animations improve satisfaction.

Disadvantages

  • Requires Graphical Interfaces: Cannot be used in simple text-based systems.
  • High Hardware Requirements: Needs graphics processing and touch-sensitive screens.
  • Screen Size Limitations: Small mobile screens can become crowded.
  • Accessibility Issues: Visually impaired users may need screen readers instead.
⌨️ What is Indirect Manipulation?

Definition

Indirect Manipulation is an interaction style where users communicate using commands, menus, forms, or keyboard input instead of directly controlling objects.

Simple Definition: Telling the computer what to do instead of directly moving objects.

Examples

Command Prompt, Linux Terminal, PowerShell, SQL Commands, Programming Languages.

Instead of dragging a file, the user types: move Report.docx D:\Documents (The computer executes the command) In Linux: cp file.txt backup/

Pros & Cons

  • Advantages: Very powerful, suitable for experts, supports automation, works without GUI, consumes fewer resources.
  • Disadvantages: Requires memorizing commands, steeper learning curve, higher chance of typing errors, less intuitive.
🔄 Direct vs Indirect Manipulation

Comparison Table

FeatureDirect ManipulationIndirect Manipulation
InteractionDirectly controls objectsUses commands or menus
LearningEasyMore difficult
FeedbackImmediateOften delayed
User TypeBeginners & general usersAdvanced & technical users
ExamplesSmartphones, Canva, MapsLinux Terminal, CMD
Error RateLowerHigher (if commands are wrong)

Real-World Comparison: Deleting a File

Direct Manipulation

Open folder → Select file → Press Delete → Confirmation dialog → File moved to Recycle Bin

Indirect Manipulation

Open Terminal → Navigate to folder → Type: rm report.pdf → Press Enter → File deleted
Which is Better? There is no universally better approach. It depends on user experience level, task complexity, and environment. A graphic designer benefits from Direct Manipulation (Photoshop), while a system administrator benefits from Indirect Manipulation (Linux terminal for automation).
🛠️ Design Guidelines, Activity & Summary

Design Guidelines for Direct Manipulation

  • Keep important objects visible.
  • Provide immediate feedback for every action.
  • Allow users to undo mistakes.
  • Use familiar gestures (drag, drop, swipe, pinch).
  • Maintain consistency and minimize unnecessary typing.
  • Use animations carefully to reinforce actions, not distract.
📝 Classroom Activity: Identify whether the following are Direct or Indirect Manipulation.
ActivityAnswer
Dragging a file into a folderDirect
Typing mkdir Project in LinuxIndirect
Pinching to zoom on Google MapsDirect
Running a SQL query in a databaseIndirect
Rotating an image using touch gesturesDirect

Summary

Direct Manipulation allows users to interact directly with visible objects using actions like clicking and dragging. It provides immediate feedback and is easy to learn.

Indirect Manipulation requires users to issue commands through keyboards or menus. It is powerful for advanced users but has a steeper learning curve.

Good UX designers choose the interaction style based on users' needs, task complexity, and the context in which the system will be used.

🎓 Expert ICT, Coding, School Classes, Digital Marketing & University Project Guidance

Struggling with your university final year project? Want to master coding, upscale your business with expert digital marketing, or learn absolute computer basics from scratch? We offer high-quality individual and group online classes conducted in English, Sinhala, or Tamil mediums. Get guaranteed academic success and professional growth with tailored guidance.


🎓 University Final Year Project Guidance & AI

Get specialized, end-to-end mentoring and technical support to pass your degree or master's program with flying colors:

  • 🏫 Targeted Institutes: Expert guidance tailored for BIT UCSC, UoM, SLIIT, NIBM, and other leading universities.
  • 🔬 Postgraduate Support: Comprehensive assistance for MSc Software Final Year Projects.
  • 🤖 AI & Smart Applications: Step-by-step implementation of AI, Machine Learning (ML), and automation modules.
  • Guaranteed Success: Help with documentation, system architecture, coding, and viva preparation.

🏫 School ICT & Corporate Beginner Classes

  • 💻 Non-IT Staff Computer Basics: Absolute beginner-friendly online classes covering essential computer skills, office tools, and internet operations.
  • 🎒 Primary & Secondary (Grades 1-10): Interactive online ICT classes tailored to build strong foundations from early ages.
  • 📝 Exam Prep: Dedicated training packages for GCE O/L, GCE A/L ICT, and GIT exams.
  • 🌍 Global Syllabuses: Complete curriculum coverage for Local, Edexcel, and Cambridge in English & Tamil Mediums.

📢 Software Development & Digital Marketing Services

  • ⚙️ Software & Web Development: Professional custom software application and website development built using PHP & MySQL.
  • 🎯 Social Media Management: Content creation, publishing, and channel management for Facebook, Instagram, TikTok, and YouTube.
  • 📈 Ad Boosting: Highly targeted paid advertising campaigns to drive leads, traffic, and sales to your business.

📞 Connect With Us Instantly

Book your slot for online classes or get a premium tech service quote today!

💬 WhatsApp: +94 729622034

📧 Email: ITClassSL@gmail.com


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CHAPTER 2 Part 1: CONCEPTUAL INTERACTION IT4106 - User Experience Design Online ICT BIT UCSC Notes

CHAPTER 2: CONCEPTUAL INTERACTION

🎯 2.1 Conceptualizing Interaction - Learning Objectives

At the end of this lesson, students should be able to:

  • Define interaction and conceptualizing interaction.
  • Explain why conceptualizing interaction is important in User Experience (UX) Design.
  • Identify the four main types of interaction.
  • Apply conceptual interaction principles when designing software systems.
  • Analyze different software interfaces based on interaction concepts.
📖 Introduction

Whenever we use a computer, smartphone, ATM, website, or mobile application, we are constantly communicating with a computer system. This communication is known as interaction. Every click, swipe, touch, voice command, or keyboard input is an interaction between the user and the system.

Before software developers start writing code, UX designers must carefully think about how users will interact with the system. This planning process is called Conceptualizing Interaction.

Conceptualizing interaction is one of the most important stages of User Experience (UX) Design because it determines whether a system will be easy or difficult to use.

Example: When you open WhatsApp, you immediately know how to send a message because the interaction is simple and familiar. However, if every button had confusing labels or unnecessary steps, users would struggle to perform even simple tasks. Therefore, UX designers focus on designing interactions that are simple, natural, efficient, and enjoyable.
💡 What is Interaction?

Definition

Interaction is the communication or exchange of information between a user and a computer system while performing a task. According to Human-Computer Interaction (HCI), interaction occurs whenever a user performs an action and the computer responds to that action.

Simple Definition: Interaction is the process through which a user communicates with a computer to accomplish a specific goal.

Understanding Interaction

Interaction is not simply pressing buttons. It is a complete communication cycle consisting of four stages:

  1. The user performs an action.
  2. The system receives the action.
  3. The system processes the request.
  4. The system provides feedback.

This process continues until the user's goal has been achieved.

Example: Using an ATM

Insert ATM Card ↓ ATM reads the card ↓ Enter PIN ↓ ATM verifies PIN ↓ Choose "Withdraw Cash" ↓ Enter Amount ↓ ATM checks account balance ↓ Cash is dispensed ↓ Receipt printed

Every step above is an interaction between the customer and the ATM.

Everyday Examples of Interaction

DeviceUser ActionSystem Response
SmartphoneTouch iconOpens application
ATMInsert cardDisplays PIN screen
FacebookClick LikeUpdates Like count
YouTubePress PlayStarts video
Google SearchEnter keywordsDisplays search results
Food Delivery AppPlace OrderConfirms order
Online BankingTransfer moneyDisplays success message

Components of Interaction

Every interaction has four main components:

  • 1. User: The person who uses the system (e.g., Student, Customer, Doctor).
  • 2. Goal: The reason why the user is using the system (e.g., Withdraw money, Watch a video).
  • 3. Action: The operation performed by the user (e.g., Clicking, Typing, Swiping).
  • 4. Feedback: The response given by the computer system (e.g., Success message, Sound notification, Loading animation). Without feedback, users do not know whether the system has received their request.
🧠 What is Conceptualizing Interaction?

Definitions

Academic Definition: Conceptualizing Interaction is the process of designing and planning how users will interact with a computer system before the interface is developed. It involves identifying user goals, tasks, system behaviour, expectations, and feedback mechanisms.

Simple Definition: Conceptualizing interaction means thinking about how people will use a system before designing its screens or writing any code. It is the planning stage of interaction design.

Why is Conceptualizing Interaction Important?

A well-designed interaction makes software easier to understand and more enjoyable to use.

  • 1. Reduces User Confusion: Users can easily understand how the system works (e.g., "Add to Cart" vs "Acquire Merchandise").
  • 2. Saves Time: Users complete tasks faster because they know what to do (e.g., Google Search requires only one box).
  • 3. Reduces Errors: A clear interaction design prevents mistakes (e.g., Windows asking "Are you sure you want to delete this file?").
  • 4. Improves User Satisfaction: Simple systems make users feel confident and comfortable.
  • 5. Reduces Development Cost: Identifying interaction problems during the design phase is much cheaper than fixing them after development.

Real-World Example: Food Delivery App

The user's goal is to order a pizza. The conceptual interaction flow:

Open App ↓ Browse Restaurants ↓ Select Restaurant ↓ Choose Pizza ↓ Add to Cart ↓ Checkout ↓ Choose Payment Method ↓ Confirm Order ↓ Track Delivery

Note: This is not the interface design. It is a conceptual interaction flow, showing how users achieve their goal.

Characteristics of Good Interaction

  • Simplicity: Users should be able to complete tasks with minimal effort.
  • Consistency: Buttons, menus, and actions should behave the same way throughout the application.
  • Visibility: Important options should be easy to find.
  • Feedback: The system should always inform users about the results of their actions.
  • Learnability: New users should be able to understand the system quickly.
  • Efficiency: Experienced users should be able to complete tasks rapidly.
  • Error Prevention: The system should minimize the chances of user mistakes and provide recovery options.
🔄 2.1.1 Types of Interaction (Overview)

People interact with computers in different ways depending on the type of system they are using. To design effective software, UX designers must understand these different interaction styles.

According to Helen Sharp, Yvonne Rogers, and Jennifer Preece, there are four fundamental types of interaction: Instructing, Conversing, Manipulating, and Exploring.

Interaction TypeUser ActivityCommon Examples
InstructingGiving commandsATM, Calculator, Printer
ConversingCommunicating using languageChatGPT, Siri, Alexa
ManipulatingMoving or controlling objectsPhotoshop, Mobile Touch Screens
ExploringNavigating through environmentsGoogle Maps, VR Games
⌨️ 1. Instructing

Definition

Instructing is an interaction style in which the user gives explicit commands to the computer, and the computer performs the requested task. The user tells the computer what to do, and the computer follows the instruction.

Interaction Process

User gives command ↓ Computer receives command ↓ Computer processes command ↓ Computer displays result

Real-Life Examples

  • ATM: Insert Card → Enter PIN → Select Withdraw → Enter Amount → Receive Cash.
  • Microsoft Word: User clicks File → Save. System saves the document.
  • Online Banking: User clicks Transfer Money → Enters Amount → Clicks Confirm → System transfers money.
  • Restaurant POS: Cashier → Select Food → Enter Quantity → Generate Bill → Print Receipt.

Advantages & Disadvantages

Advantages:

  • Easy to Learn: Users simply follow instructions.
  • Fast: Commands are executed immediately.
  • Accurate: The computer performs exactly what is requested.
  • Suitable for Repetitive Tasks: Great for factories, banks, and POS systems.

Disadvantages:

  • Users must know which command to use (e.g., finding "Export PDF").
  • Wrong commands produce errors (e.g., deleting the wrong file).
  • Too many menus may confuse users.
📝 Classroom Activity: Ask students to list five commands used in Microsoft Word.
Possible Answers: Save, Print, Undo, Copy, Paste.
💬 2. Conversing

Definition

Conversing is an interaction style in which users communicate with the computer using natural language, just as they communicate with another person. The system interprets the user's language and provides an appropriate response using AI and Natural Language Processing (NLP).

Common Conversational Systems

ChatGPT, Google Assistant, Siri, Alexa, Customer Service Chatbots, Banking Chatbots.

Real-Life Example: Sri Lankan Bank Chatbot

Customer types: "I forgot my debit card PIN."

Chatbot replies: "Please visit your nearest branch or use Internet Banking to reset your PIN."

Advantages & Disadvantages

Advantages:

  • Natural: Feels like talking to another person.
  • Easy for Beginners: No need to remember commands.
  • Faster: Especially useful while driving (e.g., "Call Mom").
  • Accessible: Helps visually impaired users.

Disadvantages:

  • AI may misunderstand questions (e.g., due to accent differences).
  • Internet connection is usually required.
  • Privacy concerns (voice assistants continuously listen for wake words).
🗣️ Classroom Discussion: Why is ChatGPT considered Conversing instead of Instructing?
Expected Answer: Because users communicate using natural language instead of fixed, rigid commands.
🖱️ 3. Manipulating

Definition

Manipulating is an interaction style in which users directly control objects displayed on the screen. Instead of typing commands, users move, drag, resize, rotate, or touch objects.

Interaction Process

User touches object ↓ Object responds immediately ↓ User sees changes instantly

Real-Life Example: Google Maps

Users zoom, rotate, drag, and explore. No typing is required.

Advantages & Disadvantages

Advantages:

  • Easy to understand and highly natural.
  • Provides immediate feedback.
  • Reduces typing and is highly suitable for touch screens.

Disadvantages:

  • Requires graphical interfaces.
  • Less suitable for visually impaired users without accessibility support.
  • Can be difficult on very small screens.

Software Examples: Adobe Photoshop, Microsoft Paint, Google Maps, Canva, AutoCAD, Mobile Phones, Tablets.

🗺️ 4. Exploring

Definition

Exploring is an interaction style where users navigate through a digital environment to discover information or locations. Users decide where to go and what to investigate.

Real-Life Examples

  • Google Street View: Users move through roads and cities as if they are physically there.
  • University Virtual Tour: Students walk through classrooms, libraries, laboratories, and hostels using a computer.
  • Others: Google Earth, Virtual Reality, Museum Tours, Video Games, 3D Campus Tours.

Advantages & Disadvantages

Advantages:

  • Highly engaging and excellent for education.
  • Supports visualization and creates immersive experiences.

Disadvantages:

  • Requires powerful hardware.
  • VR equipment can be expensive.
  • May cause motion sickness in some users.
📊 Comparison & Key Points to Remember

Comparison of the Four Interaction Types

Interaction TypeMain IdeaExamplesBest Used For
InstructingUser gives commandsATM, Calculator, WordPerforming specific tasks
ConversingCommunicating using natural languageChatGPT, Siri, AlexaAI assistants and customer support
ManipulatingDirectly controls screen objectsPhotoshop, Google MapsDesign tools and touch interfaces
ExploringNavigates through virtual environmentsGoogle Earth, VR, GamesLearning, simulation, navigation

Key Points to Remember

  • Instructing = Giving commands.
  • Conversing = Talking with the computer using natural language.
  • Manipulating = Directly interacting with objects on the screen.
  • Exploring = Navigating through digital or virtual environments.

These four interaction types are fundamental concepts in UX design because they help designers choose the most appropriate way for users to interact with a system based on its purpose and target audience.

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