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kod: CWICP-201 | wersja: 1.0

The Certified Wireless IoT Connectivity Professional (CWICP) understands IoT connectivity standards and operation in business and industrial networks. This knowledge can be applied to deploy and troubleshoot the most common wireless IoT protocols with an in-depth understanding of their operations. A CWICP should be able to identify the technology and security requirements for a given IoT solution.

CWICP is built on the CWISA certification, which is a prerequisite to CWICP. This certification covers:

  • RF characteristics related to IoT protocols
  • The MAC and PHY of the most common wireless IoT protocols
  • Security features of wireless IoT protocols
  • Troubleshooting methods for wireless IoT connections
  • Mutiple protocols covered in detail
    • IEEE 802.15.4
    • Zigbee
    • ISA100.11a
    • WirelessHART
    • 6LoWPAN
    • Thread
    • Bluetooth
    • LoRaWAN
    • Sigfox
    • Z-Wave

Each participant in an authorized CWNP CWICP training held in Compendium CE will receive a free CWICP-201 Certified Wireless IoT Connectivity Professional Exam voucher.

Plan szkolenia Rozwiń listę

  1. Wireless IoT Technologies and Solutions
    • Understand wireless IoT architectures
    • Identify the benefits and constraints of various wireless IoT architectures and technologies
    • Understand and apply knowledge of the benefits and constraints/limitations of discrete IoT related features for the purpose of making recommendations on technologies that will meet a requirement, such as battery life/time, distance, etc.
    • Understand wireless IoT components
    • Differentiate between component interactions and architectures of specific wireless IoT
    • technologies
  2. Wireless IoT RF Characteristics
    • Understand frequency band characteristics
    • Understand the characteristics of commonly used IoT frequency bands, specifically 400MHz,
    • 800/900MHz, 2.4GHz
    • Concepts and relationships of frequencies to FSPL
    • Effect of receive sensitivity on RSSI across various bands (Friis Transmission Equation)
    • Incumbents in the airspace
    • Propagation characteristics
    • Explain channel widths, SNR and other power considerations
    • Understand the characteristics of commonly used IoT RF bands
    • Relationship of channel widths to SNR (SNR as a function of channel width)
    • Rx/Tx power considerations,
    • Causes and effects of dynamic range compression and desense
  3. Wireless IoT PHY Structure and Operations
    • Understand 802.15.4 PHY structure and operations used in IoT
    • Understand LoRa PHY structure and operations
    • Understand Sigfox PHY structure
    • Understand Z-Wave PHY structure
    • Understand Bluetooth PHY structure and operations used in IoT
    • Understand Bluetooth Low Energy (BLE) PHY structure and operations used in IoT
  4. Wireless IoT MAC Layer Structure and Operations (20%)
    • Understand 802.15.4 MAC layer structure and operations for IoT
    • Understand LoRaWAN MAC layer structure and operations for IoT
    • Understand Bluetooth Low Energy (BLE) MAC layer structure and operations for IoT
  5. Wireless IoT Upper Layers Protocols
    • Understand Zigbee upper layer protocols network topology including:
    • Understand 6LoWPAN upper layer protocols
    • Understand Thread upper layer protocols
    • Understand WirelessHART and ISA100.11a upper layer protocols
    • Understand ISA100.11a Data Link and Network layer interactions and operations
  6. Wireless IoT Security
    • Understand and apply IoT privacy and integrity concepts
    • Understand and apply secure provisioning & access control in IoT
    • Implement IoT technology against a defined security policy
    • Implement network segmentation as required
    • Understand the different security requirements of data-centric vs. action-centric IoT solutions
  7. Validate and Troubleshoot Wireless IoT Solutions (10%)
    • Identify and solve common IoT issues and/or misconfiguration
    • Demonstrate applied knowledge of the IoT-related PHY, MAC, and upper layers concepts for
    • troubleshooting and configuration changes when required
    • Validate against a defined set of requirements
    • Validate against recommended best practices
Pobierz konspekt szkolenia w formacie PDF

Dodatkowe informacje

Wymagania wstępne

Basic Understanding of topics taught in CWISA
Poziom trudności
Czas trwania 4 dni
Certyfikat

The participants will obtain certificates signed by Compendium CE (course completion).

When you pass the CWICP exam and hold a valid CWISA certification, you earn the CWICP certification and credits towards the CWISE certification should you choose to pursue it. The Certified Wireless IoT Connectivity Professional (CWICP) understands IoT connectivity standards and operation in business and industrial networks. This knowledge can be applied to deploy and troubleshoot the most common wireless IoT protocols with an in-depth understanding of their operations. A CWICP should be able to identify the technology and security requirements for a given IoT solution.

CWICP exam is available through the Pearson VUE test centers.

Each participant in an authorized CWNP CWICP training held in Compendium CE will receive a free CWICP-201 Certified Wireless IoT Connectivity Professional Exam voucher.
Prowadzący

Authorized CWNP Trainer.

Pozostałe szkolenia CWNP | Wireless IoT

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