Wireless Design By Arash Deljoo

Enterprise Wireless Design

What you'll learn

Wireless Design

Conducting an Offsite Site Survey

Physical and Logical Infrastructure Requirements

Applying Wireless Design Requirements

Designing Radio Management

Designing Wireless Mesh Networks

Designing for Client Mobility

Designing High Availability

Requirements

Wireless Fundamentals

Description

In this course you will learn about this topics and more:1-1 Wireless Design - Following a Design Process1-2 Wireless Design - Evaluating Customer Requirements1-3 Wireless Design - Evaluating Client Requirements1-4 Wireless Design - AP Deployment Models2-1 Conducting an Offsite Site Survey - The Effect of Material Attenuation on Wireless Design2-2 Conducting an Offsite Site Survey - Common Deployment Models for Different Industries2-3 Conducting an Offsite Site Survey - Designing with Regulations in Mind2-4 Conducting an Offsite Site Survey - Choosing the Right Survey Type2-5 Conducting an Offsite Site Survey - A Survey of Wireless Planning Tools2-6 Conducting an Offsite Site Survey - Conducting a Predictive Site Survey4-1 Physical and Logical Infrastructure Requirements - PoE,PoE+,UPoE,UPoE+4-2 Physical and Logical Infrastructure Requirements - Power Injectors4-3 Physical and Logical Infrastructure Requirements - MultiGigabit4-4 Physical and Logical Infrastructure Requirements - Mounting Access Points4-5 Physical and Logical Infrastructure Requirements - Grounding and Securing Access Points4-6 Physical and Logical Infrastructure Requirements - CAPWAP Flow4-7 Physical and Logical Infrastructure Requirements - AAA and DHCP Services Logical Path4-8 Physical and Logical Infrastructure Requirements - Licensing Overview5-1 Applying Wireless Design Requirements - Defining AP Coverage5-2 Applying Wireless Design Requirements - Considering Receive Sensitivity5-3 Applying Wireless Design Requirements - Considering the Signal-to-Noise Ratio5-4 Applying Wireless Design Requirements - Further AP Cell Considerations6-1 Designing Radio Management - Understanding RRM6-2 Designing Radio Management - Discovering the RF Neighborhood with NDP6-3 Designing Radio Management - RF Groups6-4 Designing Radio Management - Transmit Power Level (TPC)6-5 Designing Radio Management - Dynamic Channel Assignment (DCA)6-6 Designing Radio Management - Coverage Hole Detection6-7 Designing Radio Management - Flexible Radio Assignment (FRA)6-8 Designing Radio Management - Localizing RRM with RF Profiles6-9 Designing Radio Management - Optimizing AP Cell Sensitivity with RxSOP7-1 Designing Wireless Mesh Networks - Mesh Network Architecture and Components7-2 Designing Wireless Mesh Networks - Mesh Access Points8-1 Designing for Client Mobility - Roaming Review8-2 Designing for Client Mobility - Layer 2 Roaming8-3 Designing for Client Mobility - Layer 3 Roaming8-4 Designing for Client Mobility - Organizing Roaming Behavior with Mobility Groups8-5 Designing for Client Mobility - Exploring Mobility Operations8-6 Designing for Client Mobility - Optimizing the AP Scanning Process9-1 Designing High Availability - Foundation topics9-2 Designing High Availability - Making Controller Connectivity More Resilient9-3 Designing High Availability - Designing High Availability for APs9-4 Designing High Availability - AP Prioritization9-5 Designing High Availability - Designing High Availability for Controllers

Overview

Section 1: Wireless Design

Lecture 1 Following a Design Process

Lecture 2 Evaluating Customer Requirements

Lecture 3 Evaluating Client Requirements

Lecture 4 AP Deployment Models

Section 2: Conducting an Offsite Site Survey

Lecture 5 The Effect of Material Attenuation on Wireless Design

Lecture 6 Common Deployment Models for Different Industries

Lecture 7 Designing with Regulations in Mind

Lecture 8 Choosing the Right Survey Type

Lecture 9 A Survey of Wireless Planning Tools

Lecture 10 Conducting a Predictive Site Survey

Section 3: Physical and Logical Infrastructure Requirements

Lecture 11 PoE,PoE+,UPoE,UPoE+

Lecture 12 Power Injectors

Lecture 13 MultiGigabit

Lecture 14 Mounting Access Points

Lecture 15 Grounding and Securing Access Points

Lecture 16 CAPWAP Flow

Lecture 17 AAA and DHCP Services Logical Path

Lecture 18 Licensing Overview

Section 4: Applying Wireless Design Requirements

Lecture 19 Defining AP Coverage

Lecture 20 Considering Receive Sensitivity

Lecture 21 Considering the Signal-to-Noise Ratio

Lecture 22 Further AP Cell Considerations

Section 5: Designing Radio Management

Lecture 23 Understanding RRM

Lecture 24 Discovering the RF Neighborhood with NDP

Lecture 25 RF Groups

Lecture 26 Transmit Power Level (TPC)

Lecture 27 Dynamic Channel Assignment (DCA)

Lecture 28 Coverage Hole Detection

Lecture 29 Flexible Radio Assignment (FRA)

Lecture 30 Localizing RRM with RF Profiles

Lecture 31 Optimizing AP Cell Sensitivity with RxSOP

Section 6: Designing Wireless Mesh Networks

Lecture 32 Mesh Network Architecture and Components

Lecture 33 Mesh Access Points

Section 7: Designing for Client Mobility

Lecture 34 Roaming Review

Lecture 35 Layer 2 Roaming

Lecture 36 Layer 3 Roaming

Lecture 37 Organizing Roaming Behavior with Mobility Groups

Lecture 38 Exploring Mobility Operations

Lecture 39 Optimizing the AP Scanning Process

Section 8: Foundation topics

Lecture 40 Foundation topics

Lecture 41 Making Controller Connectivity More Resilient

Lecture 42 Designing High Availability for APs

Lecture 43 AP Prioritization

Lecture 44 Designing High Availability for Controllers

Enterprise Wireless Engineer,Enterprise Wireless Designer