N1_DNASPA Administering Cisco DNA Spaces

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 productivitySection 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 reopeningSection 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 reportingSection 4 – DNA Spaces and Data Compliance • Protecting data at rest and in transit • Data Security Law complianceSection 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 FlowsSection 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 PracticesSection 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 applicationSection 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 precisionLab 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 AccountLab 2: Add Wireless LAN Controllers • Step 1: Add Controllers • Step 2: Check WLC Connectivity on the Connector • Step 3: Check status on the WLCLab 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 HierarchyLab 4: Location Analytics • Step 1: Navigate to Location Analytics • Step 2: View the different Analytics • Step 3: Apply FiltersLab 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 gadgetsLab 6: Location Personas • Step 1: Setting up Visitor and Employee Personas • Step 2: Viewing Configured PersonasLab 7: Engagement Rules • Step 1: Setting up Engagement Rules with Personas • Step 2: View Visitor Engagement MetricsLab 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: MonitorLab 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.