Certified IoT Architect| Arcitura certified
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The IoT Architect track is comprised of three courses that develop skills in Internet of Things (IoT) technology and architecture, along with proficiency in radio protocols, telemetry messaging and IoT architecture layers. The final course module consists of a series of lab exercises that require participants to apply their knowledge of the preceding courses in order to fulfill project requirements and solve real world problems. Completion of these courses as part of a virtual or on-site workshop results in each participant receiving an official Digital Certificate of Completion, as well as a Digital Training Badge from Acclaim/Credly.
To achieve the IoT Architect Certification, Exam IOT90.01 must be completed with a passing grade. A Certified IoT Architect understands the business value behind the utilization of the Internet of Things, and has demonstrated proficiency in the design of IoT devices and solutions with scalable connectivity and based on a range of functional distribution models, including models based on edge computing. Those who achieve this certification receive an official Digital Certificate of Excellence, as well as a Digital Certification Badge from Acclaim/Credly, with an account that supports the online verification of certification status.
Machine Learning Specialist Certification Bangalore
Machine Learning Specialist Certification
Machine Learning Specialist Certification
Training Bangalore
Machine Learning Specialist Certification
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What is the minimum and maximum size of the class?
Minimum class size is 12 and maximum class size is 42.
Is there any online/virtual training for IoT Architect certification classes?
Yes, there is no online/virtual training for IoT. Course requires in-depth knowledge of the IoT which you get from our certified experts who lead the workshop.
What do I get if I attend 2 days IoT Architect training?
Successfully passing (65%) the 60-minute examination, consisting of 40 multiple-choice questions, leads to the IoT Architect certificate. The certification is governed and maintained by Arcitura.
To achieve the IoT Architect Certification, Exam IOT90.01 must be completed with a passing grade. A Certified IoT Architect understands the business value behind the utilization of the Internet of Things, and has demonstrated proficiency in the design of IoT devices and solutions with scalable connectivity and based on a range of functional distribution models, including models based on edge computing. Those who achieve this certification receive an official Digital Certificate of Excellence, as well as a Digital Certification Badge from Acclaim/Credly, with an account that supports the online verification of certification status.
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Course Content
Day 1 - Fundamentals of IoT
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Understanding Things, Connectivity, Data, Processing, Commands and Business Analytics
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IoT Business and Technology Drivers, Benefits and Challenges
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Miniaturization and Nanotechnology
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IoT Connectivity and Contextual Realtime Data
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IoT Business Domains (Personal, Home, Enterprise, Utilities, Mobile)
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IoT vs. the Internet
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Resource-Constrained Devices and Low-Power Wide-Area Networks (LPWANs)
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Active and Passive Devices (including RFID)
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Telemetry and Command Data
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Sensors (Mechanical, Resistive, Optical, Ranging, MEMS)
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Microcontrollers, Firmware and Power Sources
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IoT Gateways and Common Gateway Functions
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Introduction to Edge and Fog Computing
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IoT Platforms and Common Platform Functions
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IoT Architecture Layers and Action Modeling
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Key IoT Architecture Design Considerations
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Radio Transports (Leased vs. Unleased, High Band vs. Low Band)
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IoT Messaging with REST, HTTP and the Constrained Application Protocol (CoAp)
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REST Properties and Constrains with IoT and CoAp
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HTTP Resource Identifiers, Media Types and Method with IoT and CoAps
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IoT Publish-and-Subscribe and MQ Telemetry Transport (MQTT)
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Non-Binary Data Serialization for IoT with JSONs
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Binary Data Serialization for IoT with Protocol Buffers
Day 2 - IoT Technology and Architecture
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Components of an IoT Device (including sensor, actuator, modem, control logic, etc.)
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IoT Platforms, Gateways and Publish-Subscribe Systems
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Device Shadows and Device Shadow Registries
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Trusted Platform Module (TPM) and the Truncated Exponential Back-off Algorithm
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Fundamental Functional Distribution Patterns
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Autonomous Controlling Device Model, Intermediary Controlling Model
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Multi-Gateway Intermediary Controlling Model, Recipient Device Controlling Model
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Telemetry Processing Patterns
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Minimalized Data, Canonical Data Format
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Telemetry Modeling, Intermediary Metadata Provisioning
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Information Transduction and Encoding
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Performance Optimization Patterns
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Observe Messaging, Transport Quality Traffic Profile
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Reconnection Request Regulation, Device Workload Regulation
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Security, Reliability and Utility Patterns
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Radio Transport Encryption, Firmware Integrity Attestation
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Message Bookkeeping, Multimode Communication
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Network-Based Positioning and Triangulation