How to prepare for Information Technology Engineering (AItE) | NEC License Exam | 10-Week Study Plan | by NEC License Exam Guide



This plan is designed to cover the entire syllabus in a structured way, ensuring that you thoroughly understand the concepts and are well-prepared for the exam.

10-Week Study Plan


Week 1: Basic Electrical and Electronics Engineering

  • Day 1-2: Basic Concepts: Ohm's Law, Series and Parallel Circuits, Kirchhoff’s Law.
  • Day 3: Network Theorems: Superposition, Thevenin’s, Norton’s, Maximum Power Transfer Theorems.
  • Day 4-5: Alternating Current Fundamentals: AC Generation, Waveforms, Three-phase System.
  • Day 6-7: Semiconductor Devices and Amplifiers: Diodes, BJTs, MOSFETs, Op-Amps.

Week 2: Digital Logic and Microprocessor

  • Day 1-2: Digital Logic: Number Systems, Boolean Algebra, Karnaugh Maps.
  • Day 3-4: Combinational and Arithmetic Circuits: Multiplexers, Binary Addition/Subtraction.
  • Day 5: Sequential Logic Circuit: Flip-Flops, Registers, Counters.
  • Day 6-7: Microprocessor: Internal Architecture, Assembly Language, Interfacing I/O.

Week 3: Programming Languages and Web Technology

  • Day 1-2: C Programming: Control Statements, Functions, Arrays, Strings.
  • Day 3-4: Pointers, Structures, and Data Files in C: Pointer Arithmetic, File Handling.
  • Day 5: OOP Fundamentals: Classes, Inheritance, Polymorphism.
  • Day 6-7: Web Technology: HTML, CSS, JavaScript, PHP, jQuery.

Week 4: Information System and Artificial Intelligence

  • Day 1: Fundamentals of Information Systems: IS Architecture, Security, IS Audit.
  • Day 2-3: Enterprise Management Systems: ERP, CRM, Knowledge Management.
  • Day 4-5: Implementations and Applications of IS: Cloud Computing, Recommender Systems.
  • Day 6-7: Artificial Intelligence: AI Fundamentals, Neural Networks, Expert Systems.

Week 5: Data Communication, Computer Network, and Organization

  • Day 1-2: Computer Networks: OSI Model, TCP/IP, Data Link Layer, LANs, WANs.
  • Day 3: Network Layer and Transport Layer: Routing Protocols, Subnetting, Congestion Control.
  • Day 4-5: Application Layer and Network Security: HTTP, DNS, Cryptography, SSL, IPsec.
  • Day 6-7: Synchronization and Network Management: UNIX Socket Programming, Winsock Communication.

Week 6: Computer Graphics and Multimedia System

  • Day 1-2: Computer Graphics: Display Technology, Raster-Scan Displays, OpenGL.
  • Day 3-4: 2D/3D Transformations: Translation, Rotation, Scaling, Viewing Pipeline.
  • Day 5: 3D Objects and Visible Surface Detection: Polygon Surface, Curves, Z-Buffer Algorithm.
  • Day 6-7: Illumination Models and Multimedia Systems: Basic Illumination, JPEG/MPEG, Multimedia Interfaces.

Week 7: Data Structures and Algorithms

  • Day 1-2: Introduction to Data Structures: Arrays, Stacks, Queues, Linked Lists.
  • Day 3-4: Trees and Graphs: Binary Trees, AVL Trees, Graph Traversal, Spanning Trees.
  • Day 5: Sorting and Searching: Merge Sort, Quick Sort, Binary Search, Hashing.
  • Day 6-7: Algorithm Complexity: Big O Notation, Time-Space Tradeoffs.

Week 8: Database System and Operating System

  • Day 1-2: Database Systems: E-R Model, Normalization, SQL, Query Optimization.
  • Day 3: Transaction Processing: ACID Properties, Concurrency Control.
  • Day 4-5: Operating Systems: Process Management, Scheduling, Synchronization.
  • Day 6-7: Memory Management and File Systems: Virtual Memory, Paging, File System Implementation.

Week 9: Software Engineering and Object-Oriented Analysis & Design

  • Day 1-2: Software Process and Requirements: Process Models, Requirements Elicitation.
  • Day 3: Software Design: Architectural Design, Component-based Software Engineering.
  • Day 4-5: Software Testing and Quality Management: Unit Testing, Cost Estimation, SQA.
  • Day 6-7: Object-Oriented Design: UML, Class Diagrams, Use Cases, Design Implementation.

Week 10: Information Theory System and Coding

  • Day 1-2: Information Theory: Entropy, Information Rate, Channel Capacity.
  • Day 3-4: Digital and Analog Systems: Communication Systems, Signal Properties, Noise.
  • Day 5-6: Error Detection and Correction: Hamming Code, CRC, Parity Check.
  • Day 7: Revision and Mock Tests: Go through previous year questions, sample papers, and mock tests.

Tips for Success:

  1. Consistent Study: Stick to the plan and avoid last-minute cramming.
  2. Regular Revision: Spend time each week revising the previous week’s topics.
  3. Practice Questions: Solve as many practice questions as possible, especially from past exams.
  4. Mock Tests: Take timed mock tests to simulate the exam environment and improve time management.
  5. Healthy Routine: Maintain a balanced diet, exercise regularly, and get sufficient sleep to keep your mind sharp.

By following this study plan diligently, you'll be well-prepared to tackle the NEC License Exam with confidence.

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