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Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp

Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp

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Introduction:

Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp course with Hands-on Labs

Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp, is a 3-days Hands-on Bluetooth Classic and Bluetooth LE (ble) Training Bootcamp with workshops, and exercises. This is a practical Classic Bluetooth and BLE Training with hands-on activities.

Learn about Bluetooth Classic and Bluetooth Low Energy (BLE) wireless technology standards. Both Classic Bluetooth and BLE operate in the 2400-2483.5 MHz range within the ISM 2.4 GHz frequency band. In Classic Bluetooth, data is split into packets and exchanged through Bluetooth channels (79 designated channels, 1 MHz in bandwidth).

BLE also operates in the 2.4 GHz ISM band and unlike classic Bluetooth it remains in sleep mode most of the time (low duty cycle).

Topics Include Details of Classic Bluetooth and BLE Profiles and Protocols:

• Profiles and Services
• Classic Bluetooth Physical Layer Classic Bluetooth Controller stack
• Classic Bluetooth Host stack
• BLE Profiles and Services
• Bluetooth Low Energy (BLE) Controller and Host stack
• Generic Access Profile (GAP)
• Generic Attribute Profile (GATT)
• LE Privacy
• BLE HCI Commands
• Privacy and White List
• Logical Link Control and Adaptation Layer Protocol (LCAP)
• Host Controller Interface (HCI)
• BLE Link Layer
• BLE Physical Layer

Duration: 3 days

Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp
 
Bluetooth Training and Bluetooth Low Energy Training (Ble) BootcampRelated Courses
 

Customize It:

• If you are familiar with some aspects of this Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp course, we can omit or shorten their discussion.
• We can adjust the emphasis placed on the various topics or build the Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp course around the mix of technologies of interest to you (including technologies other than those included in this outline).
• If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp course in manner understandable to lay audiences.

Audience / Target Group:

The target audience for this Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp course:

• Operators, Engineers, Designers, Architect, Software and Hardware Developers, Project Managers, Product Managers, Sales and Support and anyone else who is interested to understand concepts behind Tactical Data Links

Objectives:

Upon completing this Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp course, learners will be able to meet these objectives:

• List the requirements and capabilities of Classic Bluetooth
• List the requirements of Bluetooth Low Energy (BLE) including Bluetooth 4.2 (BLE) and Bluetooth 5
• Compare Classic Bluetooth vs. Bluetooth Low Energy (BLE)
• Explain the simplified architecture of both Classic Bluetooth and Bluetooth Low Energy (BLE)
• Describe enhanced features in LTE Bluetooth Low Energy (BLE)
• Describe Profile and Services in Classic Bluetooth and Bluetooth Low Energy (BLE)
• Describe implementation models for both Classic Bluetooth and Bluetooth Low Energy (BLE)
• Describe the concept of GAP/GATT in Bluetooth Low Energy (BLE)
• Explain the security features in both Classic Bluetooth and Bluetooth Low Energy (BLE)
• Sniff L2 and L3 packets in both Classic Bluetooth and Bluetooth Low Energy (BLE) using sniffers and devices
• Analyze L2/L3 packets in both Classic Bluetooth and Bluetooth Low Energy (BLE)
• Analyze and compare Physical Layer of Classic Bluetooth and Bluetooth Low Energy (BLE) using spectrum analyzers

Bluetooth Training and Bluetooth Low Energy Training (Ble) Bootcamp – Course Syllabus:

Bluetooth Classic and BLE Combo Training Bootcamp Agenda

Introduction to Bluetooth Classic

What is Bluetooth technology?
Bluetooth Standards
IEEE Related Standards
The Bluetooth Special Interest Group (SIG)
Conformance and Compatibility Testing
Applications for Bluetooth
Classic Bluetooth
Bluetooth Services
Basic Bluetooth Operation
Configuring Bluetooth Devices
Device Discovery and Service Discovery
Data Throughput and Range
Spectrum
Frequency Hopping Spread Spectrum
Interference
Class of Radio
Power and Range

Classic Bluetooth Protocols

PHY characteristics
Adaptive Frequency Hopping (AFH)
Link management protocol (LMP)
Packet structure, signaling, discover and connection procedures
Logical link control and adaptation protocol (L2CAP)
Host/controller interface (HCI)
Bluetooth network encapsulation protocol (BNEP)
Radio frequency communication (RFCOMM)
Service discovery protocol (SDP)
Audio/video control transport protocol (AVCTP)
Audio/video data transport protocol (AVDTP)
Asynchronous Connection-oriented (ACL)
Synchronous connection-oriented (SCO)

Classic Bluetooth Operation

Bluetooth Operations
Classic Bluetooth packet structure and connection procedures
Device Discoverability
Device Connectability
Bluetooth Classic Architecture
Masters and Slaves
Piconets and Scatternets
Device Addressing
Pairing and Bonding
Inquiry and Paging
Security
Link Keys
Authentication
L2 Packet Exchange
Bluetooth Packets
Packet structure, signaling, discover and connection procedures
Advertising Packets, and Scan Response Data
Data exchange

Working with Classic Bluetooth Profiles

Advanced Audio Distribution Profile (A2DP)
Hands-Free Profile (HFP)
Human Interface Device Profile (HID)
Synchronous Connection-Oriented (SCO)
Headset Profile (HSP)
Audio/Video Remote Control Profile (AVRCP)

Introduction to Bluetooth Low Energy (BLE)

BLE Background theory
BLE vs. Bluetooth Classic
BLE features
BLE Profiles and Services
The lowest power consumption
Robustness, security, and reliability
Wireless co-existence
Connection range and data rates
Ease of use and integration

Overview of BLE Protocols

Generic Access Profile (GAP)
Generic Attribute Profile (GATT)
Attribute Protocol (ATT)
Security Manager (SM)
Security and AES Encryption (NIST and NSA versions)
Logical Link Control and Adaptation Protocol (L2CAP)
Enhancements to L2CAP for Low Energy
Host Controller Interface (HCI), Host side
Host Controller Interface (HCI), Controller side
Enhancements to HCI Protocol
Direct Test Mode (DTM)
BLE Link Layer
BLE PHY Characteristics

BLE Operation

Bluetooth Configuration
Core Configurations
Basic operations (GAP)
Device roles
Connections in BLE
Event flow and handling
Scanning
Connecting
Service Discovery
Device discovery
Connection management
Pairing
Bonding
Sending and receiving data
Low power idle mode operation
Device discovery
Reliable point-to-multipoint data transfer
Advanced power-save
Advanced encryption functionalities
Single mode and dual mode
BLE Device Roles
Central and peripheral roles
Server and client roles
Advertising and Scan Response Data
Establishing a connection
Connected Network Topology
GATT Transactions
Services and Characteristics
Profiles vs. Services
Characteristics

Introduction to Bluetooth 5

Bluetooth Core 5.0
Bluetooth 5.0 Architecture
Changes from v4.2 to v5.0
Bluetooth 5.0 Features Added
Integrated in v5.0
Deprecated Features
Slot Availability Mask (SAM)
2 Msym/s PHY for LE
LE Long Range
High Duty Cycle Non-Connectable Advertising
LE Advertising Extensions

Practical Activities

Quizzes and homework
Hands-on labs and demos
Hands-on Activities: Working with Classic and BLE Profiles
Hands-on Activities: Introduction, Setup, Pairing and Bonding Bluetooth Devices (classic and BLE)
Hands-on Activities: Sniffing Bluetooth L2 packets
Hands-on Activities: Sniffing BLE Bluetooth
Hands-on Activities: Analyzing Bluetooth and BLE L1 (Physical Layer)
Hands-on Activities: Capturing Bluetooth and BLE L2/L3 Packets
Hands-on Activities: Working with Profiles
Hands-on Activities: Create your own Profile

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