COURSE OBJECTIVE:
Upon completing this course, the learner will be able to meet these overall objectives:
• Understand DNA Spaces benefits
• Use DNA Spaces in three phases
• Explore the DNA Spaces security features in the context of data compliance
• Analyze DNA Spaces components, architectures, and use cases
• Consider DNA Spaces migration options
• Analyze data provided by DNA Spaces
• Discuss the DNA Spaces indoor Internet of Things (IoT) service and its use cases
• Explore Open Roaming
• Configure DNA Spaces onboarding
• Configure and demonstrate DNA Spaces IoT Services
• Configure DNA Spaces profiles, engagements, and triggers
• Configure a captive portal
• Perform API calls to DNA Spaces
TARGET AUDIENCE:
The primary audience for this course is as follows:
System Engineers
Network Engineers
Technical Managers
System Administrators
System Architects
Technical Decision Makers
COURSE PREREQUISITES:
The knowledge and skills that the learner should have before attending this course are as follows:
• Basic knowledge of networking concepts.
• Basic knowledge of Wi-Fi concepts.
• Basic knowledge of computer security.
COURSE CONTENT:
Section 1 – DNA Spaces Solutions Overview
• Introduction – What is “DNA Spaces”?
• Resolution of physical-space blind spot to better understand behavior and location of people and things
• Operationalizing DNA Spaces
• Providing Data Analytics for Business Intelligence
• Operational Efficiency and productivity
• Improve customer experience
• Understand behavior and monetization
• Onboarding to provide customer acquisition and loyalty
• Enhance IT productivity
Section 2 – DNA Spaces Use Cases
• Example Use Cases by Vertical
• Retail
• Healthcare
• Carpeted Enterprises
• Education
• Hospitality
• Manufacturing
• Education
• “Back-to-Business” – Observations, recommendations, and applications specific to safe Covid-19 reopening
Section 3 – ‘SEE-EXTEND-ACT': Three-phased approach to extract maximum value from your Cisco wireless infrastructure.
• SEE-EXTEND-ACT
• Overview
• SEE what's happening at your properties
• Behavior Metrics
• Right Now
• Camera metrics
• Open roaming
• Location Analytics
• Detect and Locate
• Impact Analysis
• EXTEND platform capabilities and drive business Outcomes
• High-performance streaming API (Firehose)
• Dashboard
• Native integration into enterprise software
• Apps Center for industry-specific solutions
• ACT on insights with digitization toolkits
• Internet of Things (IoT)
• Captive Portal
• Location Personas
• Engagements
• Asset Locator
• Proximity reporting
Section 4 – DNA Spaces and Data Compliance
• Protecting data at rest and in transit
• Data Security Law compliance
Section 5 – Architecture Overview and Location Compute Models
• Supported Topologies
• On-premise Direct-Connect
• On-premise Cloud-enabled Connected Mobility Experience
• DNA Spaces Connector
• Meraki
• Compute Model – On-Premise
• Compute Model – Cloud
• Migrating from Connected Mobility Experience/Mobility Services Engine (CMX/MSE) to DNA Spaces
• Why Migrate to DNA Spaces?
• Migration Options – Overview
• Migration Option 1 – Keep AireOS WLC and PI onpremise
• Migration Option 2 – Keep only AireOS WLC onpremise
• Migration Option 3 – Keep only Prime on-premise
• Migration Option 4 – Full stack migration
• DNA Spaces – Ports, Protocols, and Data Flows
Section 6 – Getting started with DNA Spaces: Onboarding
• Account Creation
• Connecting to DNA Spaces and Network Onboarding
• Connecting to DNA Spaces – Introduction
• Cisco Wireless Connectors
• Meraki Connector
• Configuring Locations
• Location Hierarchy – Introduction
• Location Hierarchy Creation – Automated Map Import
• Location Hierarchy Creation – Manual Configuration
• Location Hierarchy Configuration Best Practices
Section 7 – Advanced Topics
• Open Roaming
• Problem Statement
• The Players
• On-Boarding
• Configuration
• Indoor Internet of Things (IoT)
• Indoor IoT Problems
• Indoor IoT Solutions with DNA Spaces
• Indoor IoT Components
• Indoor IoT Gateway Types
• Indoor IoT Control Flows
• Indoor IoT Configuration
• Configure Asset Management using IoT device
• DNA Spaces APIs and Firehose
• API configuration
• SLA and monitoring
• Firehose configuration (streaming data support)
• DNA Spaces App Center
• Extend location data into enterprise software platforms
• Review enterprise application
Section 8 – DNA Spaces and Data Analytics
• Introduction to Data Analytics
• Data analytics review – mathematical, probability, and Statistical functions
• Introduction to graphical functions and data structures to represent data
• Extracting data using DNA Spaces APIs
• Proposed use cases:
• Determining physical location density based on telemetry data
• Build and index people proximity in a given space using dynamic clustering
• Predicting when a space's capacity limits will be reached telemetry data
• Calculation of dynamic proximity coefficient. Example: ‘x' number of people crowded around a moving crane. Currently this is done using RFID tags with maximu distance of 15 meters within 3 meters of precision
Lab Outline:
Lab 1: Configure DNA Spaces Connector
• Step 1: Log in to DNA Spaces Account
• Step 2: Configure Spaces connector
• Step 3: View the token
• Step 4: Log in to On-premise Connector and verify settings
• Step 5: Configure Token
• Step 6: View Connector Status On-premise
• Step 7: View Connector Status in Cloud Account
Lab 2: Add Wireless LAN Controllers
• Step 1: Add Controllers
• Step 2: Check WLC Connectivity on the Connector
• Step 3: Check status on the WLC
Lab 3: Maps and Location Hierarchy
• Step 1: Configure or Export Maps from Cisco Prime
• Step 2: Upload Maps in DNA Spaces
• Step 3: View the Location Hierarchy
• Step 4: Add META Data about the site
• Step 5: Enter Location Details
• Step 6: Add Zone
• Step 7: Select Access Points for Zone
• Step 8: View the updated Location Hierarchy
Lab 4: Location Analytics
• Step 1: Navigate to Location Analytics
• Step 2: View the different Analytics
• Step 3: Apply Filters
Lab 5: Captive Portal Setup
• Step 1: Captive Portal Setup
• Step 2: Select Authentication
• Step 3: Select Email
• Step 3: Enable Data Capture
• Step 4: Review User Agreements
• Step 5: Portal Editor
• Step 6: Verify Portal Created
• Step 7: Configure SSID
• Step 8: Captive Portal Rule Creation
• Step 9: Provide Rules
• Step 10: Portal Status
• Step 11: Setting up WLAN on the WLC
• Step 12: Connect your gadgets
Lab 6: Location Personas
• Step 1: Setting up Visitor and Employee Personas
• Step 2: Viewing Configured Personas
Lab 7: Engagement Rules
• Step 1: Setting up Engagement Rules with Personas
• Step 2: View Visitor Engagement Metrics
Lab 8: Add IoT Services
• Step 1: Configure AP Gateway
• Step 2: Deploy IoT Devices and/or sensors
• Step 3: Configure and enable IoT Streams
• Step 4: Configure Access Point as Beacon or Gateway
• Step 5: Troubleshoot
• Step 6: Monitor
Lab 9: REST API Query
• Step 1: Go to Detect & Locate App
• Step 2: Navigate to Notifications
• Step 3: Get the API Keys
• Step 4: Get Postman App
• Step 5: Open the application and create a new request
• Step 6: Create Request
• Step 7: Prepare the query
• Step 8: Submit/Send the query
• Step 7: Prepare the query
• Step 8: Submit/Send the query
FOLLOW ON COURSES:
Not available. Please contact.