Table of Contents
The Internet of Things
Let’s take an example of IoT to clear the picture.
Classification of Sensors
What is the significance of sensors?
First, see how these are made.
What is required for sensors to function?
Electric current
Electrical circuits
Conductivity
How do sensors function?
The idea of IoT sensors and what difference does it make?
What is IoT?
1. Gathering and Sending Information
2. Getting and Acting on Information
3. Doing Both
The Internet of Things in different
settings
The Internet of Things is a reality in
business and more Understanding the
advantages
The Internet of Things as a developing
reality
Normal components in IoT
Internet of Things Connectivity
The Things in the Internet of Things
Characterizing attributes of IoT
The Internet of Things and Data
Correspondence in the Internet of Things
Web of Things, Intelligence and activity
Automation
Ecosystem of IoT
The outstanding development of the
Internet of Things
Forecasts on the number of connected
gadgets – a constantly changing picture
Web of Things business across
enterprises: areas and use cases
Among the purposes behind this wonder:
Why Do We Use Sensors?
The information estimated by sensors
can be utilized in:
Top Applications of Sensors
1. Car
2. Manufacturing
3. Aeronautics
4. Clinical and Healthcare
5. Marine
List of Sensors And Their Specifications
Types of sensors
Vision and Imaging Sensors
Inspection
Line Scan Cameras
3D Cameras
Triggering off
Temperature or Thermal Sensors
Temperature sensor types
Thermocouples
RTDs (Resistance Temperature
Detectors)
Thermistor Temperature Sensors
Semiconductor Temperature Sensors
Thermometers
Vibrating Wire Temperature Sensors
Radiation Sensors
Semiconductor Temperature Sensors
Principles of Radiation
Types of radiation locators
The most well-known kinds of radiation
indicators include:
Gas-filled radiation identifiers
Scintillation radiation detectors
Solid-state radiation detectors
Different kinds of radiation detectors
Personal radiation detectors (PRDs)
Handheld review or survey meters
Radiation Isotope Identification Devices
(RIIDs)
Radiation Portal Monitors (RPMs)
Choice Considerations
The selection contemplations for
radiation detectors include:
Proximity Sensors
Capacitive Proximity Sensor Working
Principle
Capacitive Proximity Sensor Design
Significant Features of Capacitive
Sensors
Capacitive Sensing Range
Key Specifications
Pressure Sensors
Normal Types of Pressure Sensors
Pressure Terminology
Pressure measurement technologies and
innovations
Types of Pressure Sensors
Aneroid Barometer Sensors
Manometer Sensors
Bourdon Tube Pressure Sensors
Vacuum Pressure Sensors
Sealed Pressure Sensors
Pressure sensor specifications
Uses of Pressure Sensors
Position Sensors
Types of Position Sensors
Potentiometric Position Sensors
Inductive Position Sensors
Eddy Current-Based Position Sensors
Capacitive Position Sensors
Magnetostrictive Position Sensors
Hall Effect-Based Magnetic Position
Sensors
Fiber-Optic Position Sensors
Optical Position Sensors
Ultrasonic Position Sensors
Position Sensor Specifications
Position Sensor Applications
Photoelectric Sensors
What is a Photoelectric Sensor?
How Does a Photoelectric Sensor Work?
Photoelectric Sensor Types
Applications for Photoelectric Sensors
Particle Sensors
Types of Particle Sensors
Aerosol or Airborne Particle Sensors
Solid Particle Sensors
Fluid or Liquid Particle Sensors
Calorimeters
Motion Sensors
There are multiple PIR sensors for motion detection like:
Microwave Sensors
Ultrasonic Sensors
Tomographic Motion Detector
Dual innovation Motion Sensors
Metal Sensors
Food/Drug Processing
Manufacturing/Process Protection
Security
Level Sensors
Level Sensors and Level Gauges General
Types of Level Sensors Level Sensor
Types and Technologies
Float switches or sensors
Rotary paddle level switches or sensors
Hydrostatic level sensors
Load cell level sensors Optical level sensors
Vibrating (tuning fork) level sensors
Ultrasonic level sensors
Electromagnetic (radar) level sensors
Laser level sensors
Magneto restrictive level sensors
Capacitive level sensors
Conductive or resistive level sensors
Selection considerations
Leak Sensors
Expected sources of water spills
Types of leak sensors
Different techniques for leak detection
Applications for leak sensors
Humidity Sensors
What is humidity and how could it be estimated
Types of humidity sensors
Capacitive humidity sensors
Resistive humidity sensors
Thermal conductivity humidity sensors
Humidity sensor applications
Gas and Chemical Sensors
Gas Sensors
Portable or dynamic gadgets
Fixed gadgets
Gas and chemical sensor industry- explicit applications
Force Sensors
Types of Force Sensors Load Cells
Strain gages
Force Sensing Resistors (FSRs)
Some other force sensors Flow Sensors
Kinds of Flow Sensors
Positive displacement flow sensors
Mass flow sensors
Velocity flow sensors
Considerations for selection
Flaw Sensors
Ultrasonic
Eddy Current
Radiographic and Vision Systems
Flame Sensors
Flame Rods
Optical – CAD Cell
Optical – Infrared
Optical – Ultraviolet
Optical – IR/UV
Visual Flame Imaging
Selection consideration
Electrical Sensors
Current Sensors
Voltage sensors
Contact Sensors
Kinds of contact sensors
Thermocouples Thermistors
Fluid in-glass Thermometers
Obstruction Temperature Detectors (RTDs)
Bimetallic Thermometers
Phase Change Devices
Non-Contact Sensors
Color Sensor
Industrial Sensors - Considerations
Sensor Applications in Industry
The role of IoT in smart cities- Security and surveillance
What Is a Smart City?
What is the uplifting news?
Benefits of IoT
What is the part of the cell phone in IoT?
Smart Infrastructure
The City Air Management Tool (CyAM)
Road Lighting
Traffic Management
Public Safety Management
Water Management Systems
Smart Parking
Smart Waste Management
Security and observation
Areas to use the Internet of Things in a Smart City
Future IoT Applications
The future of Smart Cities
The role of IoT in the prediction of the environment
IoT Moving Towards Smart Environment
IoT Based Environmental Monitoring Observing Devices
IoT Applications in Environmental Aspects
Water Pollution
IoT Solutions for Water Monitoring
System Requirements and Design Considerations
Air Pollution
Smart Technologies for Air Pollution
Air Monitoring Systems
Weather Monitoring
Advantages of IoT in Weather Forecast
IoT Weather Monitoring System
Radiation Monitoring Based IoT
Chemical Monitoring and Tracking System
The Role of IoT in Healthcare:
Applications and Implementation
Understanding the Role of IoT in Healthcare system
Clinical data network to give choice help Advantages of IoT in the Healthcare Industry
1) Decreased Operational Cost
2) Better Patient Experience
3) Reduced Errors
4) Improved Outcomes of Treatment
5) Improved Disease Management
6) Simultaneous revealing and checking
7) End-to-end system connectivity and moderateness
8) Data collection and investigation
9) Tracking and alarms
10) Remote clinical help
Execution of IoT in the Healthcare Ecosystem
How IoT is useful in medical services
What clinical gadgets can be connected utilizing the medical care IoT arrangement?
Cost-effectiveness of IoT medical services arrangements
Reclassifying Healthcare
The significant benefits of IoT in medical
Autonomous Vehicles- Intelligent Transport System
The Technology behind the Value
Roadside sensors for smart cities
Advantages to urban cities
How do independent vehicles function?
How Intelligent Transportation System Works?
1. ITS consolidating technologies
2. ITS Enabling Technologies
Information Acquisition
Information Processing
Information Communications
Information Distribution
Data Utilization
What are the difficulties with self- sufficient vehicles?
Lidar and Radar Climate Conditions
Traffic Conditions and Laws
State versus Central Government Regulation
Accident Liability
Artificial versus emotional Intelligence
The Autonomous Vehicle Infrastructure
A Challenging Project
Path Marking
Side of the road Sensors
Smart Signage
Changing the Way Cities Look
No More Parking Facilities
Network Is Key
The Impact of 5G
Why Intelligent Transportation System required?
What are the advantages of self- governing vehicles?
What solutions we have for automotive vehicles?
Utilizations of the intelligent transport system (ITS)
Examples of the intelligent transportation systems (ITS)
A New Life for Cities
Smart Sensor and Industrial IoT- a Driver for Industry Growth
What Does The IoT Expect Of Its Sensors?
The Manufacturers' Response: Smart Sensor Solutions
What's in a Smart Sensor and what is it capable of?
IoT sensors are vital for the new industrial age?
Smart Sensors in the Process Industries Sensors in the Discrete Manufacturing Processes
Smart Sensors and IT/OT Convergence Manufacturing
Different Advantages of Smart Sensor Intelligence
Smart Sensors with Self-Diagnostics and Repair Capabilities
A viable model: a practical example
Genuine Examples
1. ABB: Smart mechanical technology
2. Airbus: Factory of the Future
3. Amazon: Reinventing warehousing
4. Boeing: Using IoT to drive fabricating proficiency
5. Bosch: Track and follow pioneer
6. Caterpillar: An IoT pioneer
7. Fanuc: Helping to limit vacation in industrial facilities
8. Gehring: A pioneer in connected manufacturing
9. Hitachi: An incorporated IIoT approach
10. John Deere: Self-driving farm vehicles and that's just the beginning
11. Kaeser Kompressoren: Air service
12. .Komatsu: Innovation in mining and substantial hardware
13. KUKA: Connected mechanical technology
14. Maersk: Intelligent coordinations
15. Magna Steyr: Smart auto assembling
16. North Star BlueScope Steel: Keeping laborers safe
17. Continuous Innovations: Microgrid advancement
18. Rio Tinto: Mine of the Future
19. Shell: Smart oil field trailblazer
20. Stanley Black and Decker: Connected innovation for development and past Trust is Critical