Système Embarqué - Objet Connecté
Is a device integrated with sensors and communication technologies, allowing the collection and exchange of data via the Internet. A connected object for the embedded system is a smart device, often integrated into embedded systems, that collects and transmits data via the Internet for specific applications.
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Training objectives: connected objects
Operational objective:
Understand the technologies and application areas for implementing an IoT project.
Educational objectives:
At the end of this Connected objects training, you master the fundamental elements for:
- Understanding the evolution of M2M towards the All-Internet and its multiple implications
- Integrate the notion of value, identify the market, and promote your offer
- Establish an end-to-end IoT-oriented technical architecture, adapted to your business
- Know how to analyze the technologies, solutions, and functionalities that make IoT possible
- Develop your critical sense and detect opportunities
Who is this training for?
Audience :
This IoT course is aimed at IT managers and employees, project managers, designers, developers, managers, marketing departments and more generally anyone involved in a project around connected objects.
Prerequisites:
No specific technical knowledge is required. However, basic computer literacy is preferable.
A pedagogy based on practice
- Acquire essential skills by validating professional projects.
- Progress with the help of a professional expert.
- Gain real know-how as well as a portfolio to demonstrate it.
Content of the Connected Objects course:
Vocabulary and concepts:
The evolution of communications
What is a connected object?
Understand the acronyms IOT, M2M, V2V, V2I, NFC, etc.
Different types of connected objects
No more human intervention with M2M (Machine To Machine)?Vocabulary quiz to have a common reference
Issues, markets, applications and services:
Dizzying figures
Wearable consumer items
Installed consumer objects (home automation, car, security)
The evolution of business models
The private market (home, wearable objects, health, leisure, etc.)
Connected objects for industry (label, camera, glasses, robot, drone, etc.)
Examples of services (agriculture; food, insurance, automotive, construction, finance, energy)
New logistics for distribution
Health and connected objects (monitoring, smartwatch, data management, prevention, etc.)
Biometrics and security
Smart cities or “SmartCity” (lighting, pollution, waste, parking, counting, etc.)
Summary of current and future service opportunities
Launch your IoT project
The main phases of a “connected object” project
Conception and design of the object
Specifications (measurement accuracy, robustness, cost, etc.)
The prototypes
Technical choices
Legal aspects
Testing and quality
Distribution channels
Daily fleet monitoring (statistics)
Monitoring points of an IoT project in the company:
– Focus on technical aspects
– Underestimating development costs
– Putting it on the market too quickly
– Ignoring your target and the competition
– Example of project failure
Architecture and technologies
IoT topologies and architectures
Specific features of a so-called “embedded” system
General view of a standard architecture (sensors, terminals, internet, Cloud, Big Data, etc.)
Embedded processors (ARM, Intel, consumption, disturbances, etc.)
Real-time and specialized OS (Rtos, WindRiver, TinyOS, LiteOS)
Thread concepts
Overview of sensors and MEMS (temperature, pressure, micro-valve, nano-sensors, etc.)
Relay objects (router, gateway, etc.)
Sensors and labels: radio label, graphic label, Electronic Product Code (EPC)
Motion detectors in space
“Human body” detectors (eye movement, finger movements, etc.)
Wireless energy transmission (Qi)
Communications of connected objects
Why are there so many wireless protocols?
Radio transmission
Quels standards ?
The RFID (Radio Frequency Identification) protocol
The BLE (Bluetooth Low Energy) protocol
3/4G networks
Benefits of 5G for connected objects
Wifi (802.11ah) and LiFi (light) networks
Narrow Band Networks
LR-WPAN (Low-Rate Wireless Personal Area Network) or 802.15.4 networks
Protocols for the building KNK, Modbus, Mbus
Industrial protocols profinet, profibus, IEC 61850
IPV6 and connected objects (thread protocol, Matter)
Dialogue of objects “between themselves”: Message Queuing Telemetry Transport (MQTT)
NFC (Near Field Communication) technology
Managing disconnected (asynchronous) mode
Data processing (Big Data)
The types of data produced by IoT
The data format
Why is Big Data linked to connected objects?
The place of the Cloud
Semantic analysis and data fusion
Examples of Big Data Architecture
Build your own app
What are the differences with mobile applications (Android, iOS, etc.)?
Standard components available (Raspberry Pi, Arduino, etc.)
What remains to be developed
Interface standards
Some platforms and tools (Eclipse Mihini, Koneki, etc.)
Prototyping and modeling
Operator offers
A network dedicated to connected objects?
The complementarity of Lora (Long Range) / 4G
The “pluses” of Lora Wan (device identification, etc.)
Example of offers (Orange, Objenious, etc.)
Services offered by operators (collection, provision, billing)
Associated costs
Hidden costs
Sécurité des objets connectés
The risks of “everything connected”
Law and connected objects (CNIL)
Expected developments
Encryption, Authentication, Biometrics
Examples of security architecture
“Intelligent” firewall and connected objects
Examples of hacking of connected objects
Individual and privileged supervision.
- Benefit from weekly individual sessions with an expert mentor in the field
- quickly in your projects thanks to its excellence in sharing its know-how
The Empire Training community
- Count on a close-knit community of students ready to help you 24/7.
Online pre-registration
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