Sensitive data is processed faster and with an instant response.
It stores, analyzes, computes, and processes large amounts of data, handling database transactions, cloud computing, and big data processing.
Potential for system failures.
A vehicle equipped with advanced technology for enhanced safety, navigation, and connectivity.
They can handle data, consume minimum power, and use few resources.
The network of physical objects communicating over the Internet or other data networks.
Smart Thermostats, Smart speakers (Alexa/Siri/Google), Smart fridge, Smart washing machines.
Step count.
Sleep quality.
The data collected will be huge.
Devices with computing and communication capabilities that can constantly connect to networks.
Collection and use of personal data.
Making flowcharts, graphs, analysis of results, and improving devices.
By enabling smart devices to collect and share data, leading to better decision-making and automation.
RFID (Radio Frequency Identification).
By using sensors and cameras to detect obstacles and provide alerts to the driver.
Higher demand for increasingly powerful mobile, wearable, and connected devices.
They can track patients' health more effectively and monitor adherence to treatment plans.
Devices, Connectivity, Data, Analytics, and Action.
Semantic Oriented Vision.
Limited battery life.
It allows for real-time data exchange with other vehicles and infrastructure.
Cost Reduction.
Citizen engagement fosters community involvement and ensures that services meet the needs of residents.
By optimizing resource usage and reducing waste.
Wired and wireless sensors.
It senses and gathers information about the environment and transports it to the network layer.
Data collected from devices is analyzed to derive insights.
To drive operational efficiency and innovation through interconnected devices and real-time data analysis.
so.iot.sibm@gmail.com.
A smart city uses digital technology to enhance performance, well-being, and sustainability.
Key components include smart infrastructure, data analytics, and citizen engagement.
Notifications of who is trying to contact you.
A system that automatically reads utility meters.
Internet of Things.
It handles how the data is delivered to the customer, including making flowcharts, graphs, and analyzing results.
A network of interrelated devices that connect and exchange data with other IoT devices and the cloud.
Internet Oriented Vision.
They can be determined uniquely and their whereabouts can be regularly monitored.
High initial investment costs.
It measures energy consumption in near real time and allows for appliance control (on/off action).
Remote objects like servers, clouds, applications, services, and processes, or persons.
Improved Treatment.
A dynamic global network infrastructure with self-configuring capabilities based on standard and interoperable communication protocols.
To enhance efficiency and productivity in various sectors.
Home healthcare applications.
Light transactions.
It is sent to the cloud for historical analysis, big data analytics, and long-term storage.
It connects SMART things to network devices and servers, and transmits and processes sensor data over a network.
The interaction of various physical devices with each other.
Smartphones, home appliances, wearables, and industrial machines.
Job displacement.
Wheelchairs, defibrillators, nebulizers, oxygen pumps, and other monitoring equipment.
It helps in adopting better farming practices by understanding land conditions and climate instability.
It allows for Faster Disease Diagnosis.
Cost savings.
They facilitate the seamless integration of physical and virtual 'things' into the information network.
Potential for hacking or data breaches.
A world-wide network of interconnected objects uniquely addressable based on standard communication protocols.
Very close to the data source.
By sending, receiving, or communicating information using the Internet or other communication technologies.
They help develop deeper relationships by enhancing the customer experience.
Data is crucial for analyzing patterns, optimizing processes, and enhancing user experiences.
All processing is done before the data goes to the cloud.
By Electronic Product Code (EPC).
Connected devices in healthcare.
To collect data through sensors and sensor-based embedded systems.
RFID-based sensor networks and other sensor-based networks.
Workout patterns.
Wake you up at a specified time.
Temperature monitoring.
They gather data and transmit it to the middle layer (Fog nodes).
Increased complexity and maintenance requirements.
It refers to the decisions made based on data analytics.
They can reduce traffic congestion through better navigation and communication.
RFID, sensing, computing devices, and global connectivity.
Sensors collect data to monitor and manage city services like traffic, waste management, and energy use.
The ability of the network to automatically configure itself without manual intervention.
It delivers application-specific services to the user and defines applications in which IoT can be deployed.
To gather useful information using sensors and actuators.
Prof. Sonia D’Souza.
3G, 4G, WiFi, etc.
Storage, computation, processing, and action-taking capabilities.
Current weather conditions.
By providing real-time data and analytics.
Fire detection or leak detection.
Refrigerator network.
To make it consistent and least redundant for better representations and interpretation.
It is processed to make it consistent and least redundant.
GPS navigation, adaptive cruise control, and collision avoidance systems.
By automating processes and providing real-time data for better decision-making.
To get data from the perception layer and pass it to the middleware layer using networking technologies.
By enhancing efficiency and automation of tasks.
Increased convenience and accessibility of information.
Greater ability to gather and analyze data.
Calories burned today.
Heart rate.
Through smart lighting systems.
It manages all application processes based on information obtained from the middleware layer.
IoT = Devices + Connectivity + Data + Analytics + Action.
Things Oriented Vision.
Temperature, moisture content, intruder detection, sounds, etc.
Microcomputers with computing resources.
By providing better monitoring and control of devices and systems.
Smart wrapping of seeds and fertilizers to adapt to environmental conditions.
It enables automated processes and smart systems.
Sensors and actuators.
It enhances efficiency, improves decision-making, and enables automation in various sectors.
To create a connected world where devices communicate and collaborate to enhance efficiency and improve quality of life.
By managing energy consumption, providing interaction among appliances, spotting emergencies, and ensuring safety.
It enables devices to communicate and share data.
Physical parameters and other objects in the environment.
They sense, compute, and communicate through embedded devices.
By optimizing resource usage and reducing waste through smart monitoring and management systems.
How often do you exercise?
Sensors can identify different land requirements and facilitate actions based on those needs.
Proactive Treatment.
It helps in Drugs and Equipment Management.
They ensure that different devices and systems can communicate and work together effectively.
Mobile, tablets, IP-TV, video conferencing, video-on-demand, Wi-Fi, and internet.
Technology improves urban living by optimizing resources, enhancing public services, and reducing environmental impact.
Physical and virtual 'things' that have identities, physical attributes, and virtual personalities.
Play your favorite song.
Access control and security alerts.
It leads to improved decision-making.
It allows for personalized services and products.
Through solar panel monitoring and control.
Internet of Things.
Connecting devices and enabling them to communicate over the internet.
Smart homes, healthcare monitoring, and industrial automation.
To connect devices and enable them to communicate and exchange data over the internet.
To create a seamless integration of physical and digital worlds through interconnected devices.
Devices equipped with sensors and connectivity that can collect and exchange data.
It typically consists of devices, connectivity, data processing, and user interface.
The interconnection of everyday objects to the internet, allowing them to send and receive data.
