MCC + AI + CSS + SPCC
₹3,000.00
₹2,099.00
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MCC (Mobile Communication and Computing)
- Introduction to Mobile Computing
- GPRS Architecture
- GSM architecture
- Multiplexing
- GEO MEO LEO Types of satellite Orbit
- Handover and Types of Handover
- Privacy and Authentication in GSM
- Types of Handoffs and Handover
- Mobile IP and Packet through tunnel working
- 3G UMTS architecture
- Wireless Local Loop
- PSTN Architecture
- Cellular IP Standard
- Bluetooth Architecture
- Android architecture
- 4G architecture
- Frequency reuse concept in cellular system
- Macro Mobility- MIPv6 and FMIPv6
- Micro Mobility- HAWAII Architecture
- Micro Mobility- HMIPv6 Hierarchical MIPv6
- IP Address v/s MAC Address
- IPv4 Header Format
- IPv6
- IPv4 vs IPv6
- SAE/LTE Architecture Part #1
- SAE/LTE Architecture Part #2
- VoLTE
- Self-Organizing Networks (SON) Framework
- IEEE 802.11 Architecture
- IEEE 802.11 Protocol Architecture
- Wifi Security – Wired Equivalent Privacy (WEP)
- Wireless LAN Threats and Security
- WiFi Protected Access
- 5G Introduction
- HiperLAN Type 1
- MCC Importance
- Mobile Communication and Computing Notes ( Toppers Solution )
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Artificial Intelligence
- Agent and Peas Description
- Types of Agent
- Learning Agent
- BFS Algorithm with solved Example
- DFS ( Depth First Search ) Algorithm with solved Example
- IDFS ( Iterative Depth First Search ) Algorithm with solved Example
- Hill Climbing
- Min Max Solved Example
- Alpha-Beta Pruning Solved Example
- A star Solved Example
- Genetic Algorithm
- Genetic Algorithm Max one Problem Solved Example
- Propositional Logic (PL) Introduction
- PL to CNF Conversion With Solved Example
- First-Order Logic (FOL) Solved Example
- Resolution Tree Sum Part #1
- Resolution Tree Sum Part #2
- Partial Order Planning with Example
- Expert System
- Wumpus World
- Natural Language Processing
- Decision Tree Solved Example
- Bayesian Network toothache and Cavity sum
- Supervised and Unsupervised Learning (AI and SC)
- Bayesian Belief Network
- Hill Climbing algorithm
- Importance + Strategy to Score Good marks in Artificial intelligence paper
- Heuristic function (block world and 8 Puzzle )
- GBFS Solved Example
- Notes: Module 1
- Notes: Module 2
- Notes: Module 3
- Notes: Module 4
- Notes: Module 5
- Notes: Module 6
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Cryptography and System Security
- Module 1: Introduction to Cryptography and Security System
- Module 1: Security Goals and Mechanism
- Module 1: Symmetric Cipher
- Module 1: Mono Alphabetic Cipher
- Module 1: Poly Alphabetic Cipher
- Module 1: Substitution Cipher
- Module 1: Transposition Cipher
- Module 2: Stream and Block Cipher
- Module 2: DES Algorithm Full Working
- Module 2: DES key Generation Explain Step by Step
- Module 2: AES Algorithm Full working
- Module 2: Modes of Operation
- Module 2: Public Key cryptogrpahy
- Module 2: RSA Algorithm with Solved Example
- Module 2: Diffie Hellman
- Module 2: How to find modulus of Exponential Number (high power value )
- Module 3: MD5 (Message Digest Algorithm)
- Module 3: SHA-1 Algorithm Full Working
- Module 3: MAC
- Module 3: Digital Certificate and X.509
- Module 4: Kerberos
- Module 4: Digital Signature Full working Explained
- Module 5: DOS and DDOS Attack
- Module 5: SSL ( Secure Socket Layer protocol )
- Module 5: IPSEC introduction
- Module 5: IP SEC Security Protocols
- Module 5: IPSEC Modes of Operation
- Module 5: IDS and its Types
- Module 6: Buffer Overflow and Buffer Overflow attack
- Module 6: Malicious Software ( Virus and worms )
- Module 6: Virus and worms
- Module 6: SQL Injection
- Module 7: IDEA Algorithm Full Working
- Module 7: Blowfish Algorithm Full working
- Module 7: Confusion and Diffusion
- Module 7: Meet in the Middle
- Module 7: Phishing Attack
- Module 7: Session Hijacking and Spoofing Attack
- Module 7: OS Security Memory and Address Protection
- Module 7: E commerce Security and Payment gateway
- Notes: Index
- Notes: Module 1
- Notes: Module 2
- Notes: Module 3
- Notes: Module 4
- Notes: Module 5
- Notes: Module 6
- Notes: Module 7
- Notes: Module 8
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System Programming and Compiler Construction [SPCC ]
- Module 1: System Programming and Compiler Design Introduction
- Module 2: What is Assembler and Assembly Language
- Module 2: Forward reference problem
- Module 2: Assembly language statement
- Module 2: Flow chart of two pass assembler
- Module 3: Macros and Macro-processors
- Module 3: Macro vs Subroutine
- Module 3: Macros pass 1 and pass 2 flowchart
- Module 4: Editor Basics with Architecture in System Programming
- Module 5: Phases of compiler
- Module 5: Eliminate left recursion and left factoring
- Module 5: How to Find First and Follow Basics (part 1)
- Module 5: First and Follow solved example (part 2)
- Module 5: First and Follow solved example (Part 3)
- Module 5: Predictive Parser (Part 1)
- Module 5: Predictive Parser (Part 2)
- Module 5: Recursive Descent parser with solved example
- Module 5: Operator Precedence Parser with Solved Example(part 1)
- Module 5: Operator Precedence Parser with Solved Example (part 2)
- Module 5: LR Parsing | LR (0) item | LR (0) Parsing table solved Example
- Module 5: SLR (1) parsing with solved example| SLR (1) parsing table |
- Module 5: Examples of LR(0) or SLR(1)
- Module 5: CLR1 and LALR1 with Solved Example
- Module 6: DAG(direct a cyclic graph)
- Module 6: Yacc (Yet another compiler compiler )
- Module 6: Activation Records in Compiler Design
- Module 6: Synthesized & Inherited Attributes
- Module 6: Peep Hole Optimization
- Index : Loaders
- Index : Linkers
- Index : Compile and go loader, General Loader and Absolute Loader
- Index : Subroutine Linkage, Relocating Loader and Direct Link Loader
- Index : Dynamic Loading Loader, Dynamic Linking Loader and Linkage Editor_1
- Notes: SPCC important Question for Computer Branch Mumbai University
- Notes: Introduction to SPCC
- Notes: Assemblers
- Notes: Macro and Macroprocessor
- Notes: Editor
- Notes: Loaders and Linkers
- Notes: Compilers
- Notes: Syntax Analysis
- Notes: Syntax Directed Transaction
- Notes Lexical Analysis
- Notes: Intermediate Code Generation
- Notes: Code Generation
- Notes: Code Optimization
- Notes: Run Time Storage
- Notes: Compiler – Compilers
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