20 Best Internet of Things Examples to Consider in 2025

The Internet of Things, or IoT, is an advanced technology behind various smart devices around us, like fitness tracking wearables or self-driving cars. It brings physical devices alive, allowing these devices to connect and communicate data through wireless or wired connectivity. This capability makes IoT widely applied across industries, like manufacturing, agriculture, and healthcare. Are you curious about common Internet of Things examples? If yes, keep reading and find the 20 best IoT examples in five applications. 

Smart Homes and Consumer IoT

IoT has wide applications in smart homes and for consumers. It automates daily tasks, like controlling temperature, lighting, garage, and appliances remotely. Further, it helps homeowners check their property’s security, control energy usage, and improve convenience. To better understand the core applications of IoT in this segment, let’s dive into its five common examples:000

1. Smart Thermostats

Smart thermostats analyze your behavior patterns and weather conditions to automatically adjust the temperature. Further, they integrate geofencing capabilities to identify whether or not you stay at home, then proactively modify temperature settings to comfort or energy-saving modes. This helps maximize comfort while minimizing energy waste. 

These devices also generate detailed reports about energy consumption, enabling homeowners to control their in-house temperature via smartphone apps. This functionality allows for remote monitoring and troubleshooting. 

Nest Learning Thermostat – one of the best Internet of Things examples in smart homes

Google’s Nest Learning Thermostat (4th Gen) can work in harmony with most residential HVAC systems. It has sleek hardware, featured twist-and-push controls, and built-in AI that covers most of the setup. Further, it incorporates powerful capabilities like:

• Smart Schedule learns your favorite temp settings and the time to turn this temp level on, recommending small tweaks to help you save energy via the Google Home app.

• Natural Heating & Cooling learns outside temperature and then automatically adjusts in-house temp levels based on that data. This helps you save roughly 12% on heating bills and 15% on cooling bills. 

• Nest Temperature Sensor (2nd Gen) helps manage hot and cold spots. 

• System Health Monitor tracks your heating and cooling system’s performance, identifies issues early, and sends immediate alerts through the Google Home app. 

• Smart Ventilation detects whether air quality is good and the temperature is mild, then automatically brings fresh air inside.

Other popular smart thermostats: Ecobee Smart Thermostat Premium, Amazon Smart Thermostat, Sensi Touch 2 Smart Thermostat, Honeywell Home T9 Smart Thermostat

2. Smart Lighting Systems

Smart lighting systems integrate features to schedule lighting times and adjust ambiance for different activities (like lively gatherings or relaxing evenings). Besides, you can monitor colors, brightness levels, and on/off status of lights through your smartphone app. 

These lighting systems also connect smoothly with other smart home devices like home automation systems or voice assistants. Accordingly, you can use voice commands to monitor lighting, automatically activate lighting based on motions, and synchronize lighting with entertainment systems (like music).

Philips Hue

This smart lighting system includes smart LED bulbs, light accessories, and smart accessories (like motion sensors or smart plugs) for your in-house decor and events. Hue lights use Zigbee, Matter, and Bluetooth to communicate with each other and popular voice assistants (like Amazon Alexa or Apple HomeKit). 

You can control your lights wirelessly through smartphone apps, voice commands, and smart switches. Further, you can leverage the Hue Bridge hub to create automation to trigger lights based on motion, time, and other events. Especially, through the sync box and different Hue apps, you may synchronize all Philips Hue lights with videos, games, and music.

Other popular smart lights: Wiz Smart Lights, Govee LED Smart Light Bulbs, Wyze Bulb Color, Nanoleaf Matter Essentials

3. Smart Security Systems

Another popular Internet of Things example is smart security systems. Smart devices like video doorbells or motion-triggered cameras use sensors to surveil a person’s activities around your property, record suspicious events, and send instant alerts to your smartphone. They also enable remote access to control your property from anywhere. 

SimpliSafe

The SimpliSafe Home Security System covers a wide range of smart hardware components and software solutions to protect your property 24/7 from burglary, floods, fires, etc. They include:

• Base Station: This central hub receives signals from cameras or sensors and sounds the siren if these signals indicate danger. It even sends signals to SimpliSafe’s security team to alert the police if there’s any emergency. If the Base Station is unplugged or runs out of energy, its backup battery still can keep it working for up to 24 hours. This ensures you’re always protected.

• Bell Box: This device sounds a loud external siren to alert your neighbors when it detects someone trying to intrude into your property.

• Sensors: It includes a diverse range of sensors like Motion Sensor (detecting intruders with high precision), Entry Sensor (alerting whether doors and windows are opened), and Hazard Sensor (detecting danger like fire).

• Cameras: Its indoor and outdoor cameras use advanced technologies like the built-in spotlight to spot suspects even in the dark while protecting your privacy with mechanical shutters.

• Video Doorbell Pro: It uses two-way audio, wide-angle HDR videos, and sensors to capture everything happening in front of your door.

• Complete Controls: You can protect SimpliSafe’s security system through the Keypad, key fob, and app.

Other popular smart security systems: Ring Alarms, Abode Smart Security Kit, Arlo Home Security System, Vivint® Smart Home Security & Alarm Systems

4. Smart Speakers and Displays

Smart speakers are voice command devices that integrate virtual assistants to interact with users and other devices. Beyond audio playback, several smart speakers can do other actions on your behalf, like monitoring home automation systems, making phone calls, or setting alarms and timers. If a speaker has a touchscreen, it’s often called a smart display. It allows you to do hands-free activities like watching movies, searching for recipes, or adding things to your to-do and grocery list.

Amazon Echo Dot (5th)

Amazon Echo Dot (5th) has a sleek design and integrates Alexa to deliver everything you need through voice commands. Particularly, it plays any of your favorite audio sources like music, audiobooks, or podcasts. Also, you can ask Echo Dot to talk about the weather, update news, add eggs to a grocery list, set a timer, and even tell a joke. 

The smart speaker also keeps your home comfortable by controlling compatible smart home devices (like light bulbs or thermostats) with your voice. Its built-in temperature and motion sensors enable you to trigger routines. For example, it automatically turns off lights when you walk out of a room or turn on air conditioning if the temperature inside your room is too high. 

Other smart speakers: Apple HomePod mini, Sonos Era 300, Bose Portable Smart Speaker, Google Nest Audio

5. Smart Appliances

Not only utility and security systems, but our household appliances are also becoming increasingly more intelligent. Smart appliances, like refrigerators, ovens, or dishwashers, integrate automation features and remote control through smartphone apps to streamline your household chores, track energy usage, and save time. 

For instance, smart ovens connect with your phone app through Wi-Fi connectivity and use voice assistants (e.g., Amazon Alexa) to control their functions (e.g., timers or preheating). With the app, you can track the cooking progress remotely and receive alerts when something happens (for example, a meal is done). Some smart ovens can scan barcodes on food packages, integrate preset recipes, and come with temperature probes to automate cooking. 

Samsung Family Hub Refrigerators

Family Hub™ is a Samsung product line of touch-screen fridges that integrates many intelligent capabilities as follows:

• Food: Samsung Family Hub™ comes with AI Vision Inside™ to automatically discover what’s inside. Further, it allows you to search for recipes and videos, plan meals based on what food you have, and send cooking instructions to your Samsung smart ovens.

• Family: This Samsung product line enables you to share digital photos and videos with other family members. Besides, it automates temperature control, calendar syncing, and more. 

• Entertainment: Samsung Family Hub™ can integrate applications like Spotify to stream music or podcasts. It also comes with Smart View, a powerful feature displaying your Galaxy smartphone’s screen by tapping your device on the side of the fridge. 

• Smart Home Management: The product line is compatible with different smart home devices like Ring (to see who’s at your door), Arlo (to control security systems), Nest (to adjust your home’s temperature), etc. 

Other smart appliances: Dreo Portable Smart Air Conditioner AC516S, Tovala smart ovens, GE Profile™ ENERGY STAR smart dishwashers

FURTHER READING:

1. IoT in Healthcare: Enhancing Operational Efficiency in Hospitals​

2. 10 Benefits of IoT in Healthcare in 2025

3. What is IoT Cloud Computing? A Comprehensive Guide

Industrial IoT (IIoT)

In recent years, IoT technologies have been increasingly applied in industrial settings to improve manufacturing processes, control product quality, and ensure workforce safety. One research study predicted that industrial IoT continues to dominate the Internet of Things market, with $275.7 billion in 2025. This is an inevitable result of more and more manufacturers demanding automation to reduce labor costs and boost productivity. Accordingly, we’ll see some common Internet of Things examples in this field as follows:

6. Predictive Maintenance in Manufacturing

Previously, manufacturers met difficulties when depending on traditional practices to maintain their factory equipment. These practices, specifically scheduled inspections, not only failed to stop machinery from breaking down but also increased downtime. 

But with IIoT solutions, equipment maintenance has become more effective. Predictive maintenance uses machinery-embedded sensors to constantly measure vital changes in temperature, pressure, and more. The data is then delivered to IoT platforms for analysis to spot anomalies and signs of possible failures. 

Senseye Predictive Maintenance

Siemens Senseye Predictive Maintenance helps manufacturers across industries like Merger Celgar or BlueScope minimize downtime and optimize resources. Particularly, the platform effectively integrates large amounts of data from diverse sources for processing and analytics. It then tracks and reports the performance of different machine types. This allows the maintenance team to automatically diagnose and monitor machine health, predicting breakdown immediately.

Other IoT solutions for predictive maintenance: PTC ThingWorx, SAP Predictive Asset Insights, AWS IoT, GE Predix

7. Smart Agriculture

The Internet of Things is changing the way we do farming. Using a wide network of drones, sensors, and connected farming equipment, IoT solutions gather real-time data on crop health, soil conditions, weather patterns, and machinery performance. This data allows IoT solutions to automate precise irrigation, fertilization, and pest control. This helps optimize resource usage and reduce negative impacts on the environment. 

IoT hardware devices and software also support livestock management. With smart collars or GPS trackers, for example, Internet of Things technology can tell you more about livestock’s health and location. This helps you predict the likelihood of illness, control the quality of livestock products (like eggs or milk), and reduce livestock losses. 

CropX

This agronomy system uses hardware and software capabilities to manage all your fields and crops in a unified place. It can connect with various IoT devices, farm machines, and sensors, typically CropX Vertex 4 (soil sensor), CropX Rivo 1 (rain gauge), and CropX Strato (weather station), to collect real-time farm and environmental data. This data is deeply analyzed using AI to help you with the following farming tasks:

• Monitoring the health of fields and crops;
• Planning irrigation to optimize water use and control plant stress;
• Determining the actual evapotranspiration (ETa) of crops;
• Optimizing spraying based on weather conditions, times of day, crop types, and more;
• Tracking crop nutrition;
• Supporting effluent irrigation.

Other IoT solutions for smart agriculture: Davis Instruments, Hello Tractor, Semtech, KaaIoT, TEKTELIC

8. Supply Chain Management

According to one research, the value of IoT in supply chain management will reach $57.6 billion in 2032. IoT devices like RFID tags or GPS trackers help you constantly monitor the inventory levels, locations, and status of goods throughout the supply chain based on the data they collect. This helps minimize stockouts and improve warehouse operations. Plus, IoT solutions allow you to manage assets like containers and vehicles effectively to avoid losses and increase their operational efficiency. 

IoT is also applied in temperature-based supply chains, also known as “cold chains.” Sensors, accordingly, track essential metrics (e.g., temperature, vibration, and humidity) during delivery and storage to maintain the quality of perishable products. 

Beyond

Beyond specializes in managing cold chains, especially in the healthcare industry. Partnering with IoT manufacturers like Telit Cinterion, Beyond provides both hardware devices and a cloud platform to completely preserve vaccines and medicine at the right temperature. 

• Hardware: Beyond’s IC3 devices monitor temperature remotely. Their dual-SIM design allows them to connect with various cellular networks globally. So, if one network fails, the devices can automatically switch to the other to ensure constant data transmission. These devices can operate various sensors simultaneously to track metrics (e.g., ambiance temperature or door positions) and locations of your refrigerators. 

• ColdCloud: This web-based platform collects and analyzes data from IC3 devices through local cellular networks. It then notifies the right people if anything wrong happens, for example, the temperature goes beyond the predefined range.

Other IoT solutions for supply chain management: Fujitsu GlobeRanger, KORE, Etheclo, C3.ai, Telit Cinterion

9. Workplace Safety

Ensuring a safe environment for workers is a must in industrial settings. By tracking crucial factors (e.g., air quality or temperature) in factories, construction sites, or mines, IoT sensors can identify danger promptly and send real-time warning alerts. They also monitor equipment performance continuously to spot temperature fluctuations, abnormal vibrations, or any anomalies that may lead to failures and hazardous incidents like explosions. 

Further, various manufacturers equip their workers with IoT-based PPE (Personal Protective Equipment). Such PPE uses IoT sensors and location-tracking techs to determine whether workers are in dangerous situations (like falls or sudden movements). Additionally, smart wearables can measure vital signs (e.g., body temperature or heart rate) to discover health issues early, alert supervisors, and deter overexertion. 

Visionify

Visionify integrates AI-powered applications with your existing security cameras to surveil your workforce’s activities and ensure their safety within your facility. Its suite of software solutions includes:

• Automated Hazard Warning: Detects dangerous situations like smoke & fire, spills & leakage, electrical hazards, and or blocked exits. 

• Worker Health & Safety: Alerts EHS teams about compliance failures, such as missing PPE, wrongly positioned helmets, or missing parapets. 

• Area Controls: Monitors people flows and zone-specific safety compliance in working settings. Also, ensure worker safety in high-risk zones (e.g., mines) and areas with high machinery or vehicle traffic by controlling time spent in these areas, enforcing the use of designated safe zones, and alerting for violations.

• Productivity Suite: Manages worker presence at stations in real-time, visualizes employee activity with People Heatmap, and measures task durations with Cycle Time.

• Vehicle Controls: Uses heat maps and camera feeds to instantly analyze vehicle pathways and operational zones. This helps identify whether there’s any potential collision between vehicles and people, as well as actively flag vehicles entering dangerous areas. 

Other IoT solutions for workplace safety: PSA, Hitachi Solutions, Benchmark Gensuite, ThingsBoard

10. Robotics and Automation

In industrial settings, Internet of Things technologies are widely integrated with robots to automate production and enhance safety while ensuring high productivity and product quality. This combination introduced a new concept: the Internet of Robotic Things. 

Accordingly, IoT-based robots can communicate data with other devices and a central server to coordinate actions, or proactively handle data and make instant decisions themselves. By collecting and combining data from different sensors, these robots can better understand the context and determine the best response. With this capability, they have high applications in industrial settings, like inspecting warehouses, locating products, or handling materials.  

These robots also support equipment monitoring by listening to and visualizing undetectable problems like air leakage. This keeps factory operators and workers away from hazards. 

Symbotic

Symbotic’s AI-powered robots automate warehouse operations and distribution networks. These robots are equipped with computer vision and connect with the proprietary AI-powered vision platform to depalletize, classify, and distribute cases at industry-leading speed. Through analytics from the platform, they’ll continue moving acceptable products into the buffering structure, while rejecting damaged goods and reporting to suppliers. 

Routed by robust storage algorithms, SymBot™ autonomous robots can find the most optimal routes to pick up and deliver products in warehouses. Further, Symbotic also uses vision-enabled robots to intelligently palletize cases for the highest stability and density. 

Other IoT solutions for robotics and automation: FANUC, Yaskawa, Vecna Robotics, Boston Dynamics

Smart Cities and Infrastructure

Today, various places like New York City, Singapore, and Copenhagen are using advanced technologies like IoT and AI/ML to improve the overall quality of life, infrastructure efficiency, and public safety. Below are several common Internet of Things examples in this segment:

11. Smart Traffic Management

Many cities worldwide have developed smart systems that use sensors embedded in cameras, traffic lights, and roadways to collect real-time data on traffic conditions (e.g., vehicle speed or density). This data helps manage traffic flow in real-time by, for example, altering the signal timing or automatically detecting road incidents. For this reason, road authorities can optimize travel time, reduce congestion, and ensure road safety. Using smart traffic management systems can even limit air pollution incurred by too many vehicles during specific times. 

ATSAC (Los Angeles)

The Advanced Transportation System and Coordination System (ATSAC) is a comprehensive IoT solution Los Angeles has implemented to enhance traffic flows and reduce congestion. The system includes over 26K vehicle detectors and over 590 CCTV cameras to automatically monitor real-time traffic, adjust signal timing based on traffic conditions, and support public transportation. 

Other IoT examples for smart traffic management: Intelligent Transport Systems (Singapore), Real Time Optimiser (London), Kwinana Northbound Smart Freeway (Perth)

12. Smart Parking Systems

Various places have deployed smart parking systems that use embedded sensors to discover available parking spaces in real-time and notify drivers through digital displays or mobile apps. This reduces search times and accordingly traffic congestion. 

SFpark (San Francisco)

San Francisco is one of the US-based pioneers in small parking systems. Its SFpark project is deployed in thirteen city-controlled parking garages, one city-owned parking lot, and 25% of the city’s on-street parking spaces. 

The system uses sensors embedded in the asphalt to manage parking usage. It also leverages smart meters to change parking rates based on location, time of day, and day of the week. The prices and parking lot availability can be checked through mobile apps or sfmta.com.

Other IoT solutions for smart parking: Mobypark, PeaParking, Arlington County’s Performance Parking Pilot Project, New York City’s PARK Smart

13. Environmental Monitoring

Many cities around the world like New York City, Barcelona, and London have built environmental monitoring systems to address pollution problems, optimize energy consumption in buildings, and manage waste effectively. In particular, these systems use different sensors like environmental, vision-based, acoustic, or motion to measure pollutants (e.g., nitrogen dioxide, pH, or sound levels), count bikes, and calculate fill levels in bins. This data is sent to a central server for analytics and visualization, contributing to effective urban planning policies and decisions.

Breathe London

Credit: Jo Mieszkowski

In early 2020, the Environmental Research Group at Imperial College London worked with different partners to build the Breathe London network. Accordingly, the system uses compact Breathe London Nodes located with London Air reference monitors to measure pollutants (e.g., PM₂.₅ or NO₂). 

The data is then analyzed and updated to different places for public access like Breathe London or London Air websites. If the data signals London’s high air pollution, the Mayor of London uses the Mayor’s Air Quality Alert System to send warning alerts to social media channels, tube stations, roadside signs, and bus stops. 

Other IoT solutions for environmental monitoring: London Air Quality Network, Bogotá Air Quality Monitoring Network (RMCAB), Wyndham City’s smart garbage and recycling bins, Smart City Barcelona, NYC IoT Strategy

14. Public Safety

Various cities around the have adopted IoT technologies for public safety. One typical Internet of Things example is the use of camera surveillance. CCTV cameras recognize potential threats or the identity of suspects and send data back to the police force for crime analysis and predictive policing. Other cities like San Diego or Copenhagen install smart streetlights to adjust brightness levels in real-time and ensure traffic safety. 

Moreover, places like Dubai or New York City integrate IoT sensors into their systems to detect real-time gunfire incidents, fires, and other emergencies. These sensors will send data to corresponding governmental agencies for instant responses or trigger automated alerts. 

Singapore’s PolCams

In 2012, the Singapore Police Force (SPF) started installing a wide network of CCTV cameras called PolCams across the island to ensure public safety. These cameras can indicate the exact location, capture the actions of suspects, and send data back to investigation officers. With this capability, they’ve helped investigation officers solve over 5,000 criminal cases, from house break-ins and motor vehicle theft to people fighting.

Other IoT solutions for public safety: Copenhagen’s smart lighting solutions, London’s Ring of Steel, NYPD’s ShotSpotter Gunshot detection system

Healthcare and Medical IoT (IoMT)

IoT technologies connect medical devices with software applications through sensors to optimize hospital management, enhance patient outcomes, and allow for personalized care. Here are some commonly seen examples of the Internet of Things in the healthcare industry:

15. Wearable Fitness Trackers

Wearable fitness trackers, like fitness bands or smartwatches, use embedded sensors to measure different health metrics (e.g., heart rate, sleep patterns, or activity levels). The data can be displayed directly on a wearable device’s touch screen or transmitted to your smartphone apps through Bluetooth. This helps you track your workout routines and personal goals to build healthy habits. Further, the data can be shared with doctors or integrated into healthcare apps to allow for more proactive and informed care.

Garmin Venu® 3

Venu 3 is Garmin’s versatile wearable fitness tracker. It tracks vital metrics like sleep patterns, pulse ox blood oxygen, or energy levels. The wearable device even connects to the ECG app to control your heartbeats and detect abnormal patterns through sensors. 

Based on the data collected, the wearable device can derive detailed insights into your current health conditions and provide personalized coaching plans to improve your sleep and energy. It also has more than 30 built-in sports apps and animated workouts, like pool swimming, walking, and even activities for wheelchair users. One striking feature of Venu 3 is that it’ll send an alert with your live location if it senses that something wrong happened to you. 

Other wearable fitness trackers: Google Pixel Watch 3, Amazfit Active 2, Oura Ring 4, Apple Watch Series 9

16. Remote Patient Monitoring

Apart from wearable fitness trackers, healthcare facilities leverage specialized sensors to record important health metrics from patients who stay remotely. The data is delivered instantly to healthcare providers for health tracking, early detection of complications, and immediate intervention. With these devices, like smart patches or continuous monitors, healthcare professionals can control chronic conditions like heart stroke, diabetes, or respiratory diseases. 

Dexcom’s Continuous Glucose Monitors (CGMs)

Dexcom offers different smart glucose biosensors, typically Dexcom G7 and Stelo, to track a patient’s glucose levels 24/7 in real-time and see which factors (like food or exercise) affect your glucose and overall health. The data is then sent to your smartphone applications to offer in-depth insights and allow you to build healthier habits.

Other IoT solutions for remote patient monitoring: TempTraq’s temperature monitoring sensor, IoTPlus Wireless Patch, Abbott’s FreeStyle Libre system, AliveCor’s ECG devices

17. Hospital Management and Efficiency

Healthcare providers are leveraging RFID tags, sensors, and IoT platforms to facilitate various hospital workflows. One visible application is tracking the location, availability, and status of medical equipment (e.g., beds or infusion pumps) and medications. This prevents the lack of equipment, especially in emergencies, and avoids medicine stockouts. 

Further, healthcare facilities use IoT systems to track patient movement. This ensures they’re not in restricted zones, reduces wait times, or helps medical staff find in-patients easily when needed. The systems also help control suitable temperature and humidity levels in important areas like operating rooms. This maintains environmental conditions within optimal ranges and avoids pollution. 

CenTrak’s Real-Time Location Systems (RTLS)

CenTrak offers a variety of smart devices and software platforms to help healthcare providers manage their facilities more effectively. Their offerings focus on the following distinct aspects of hospital management:

• Asset: IoT Asset Tracking Tags connect with CenTrak Asset^TM software and other healthcare systems (e.g., EHR) to locate equipment quickly, manage equipment usage, and simplify the medical staff’s requests for on-demand equipment. 

• Workflow: IoT-based Patient and Staff Badges send data to the RTLS workflow software and nurse call systems to increase the interactions between nurses and patients. These products help increase clinical processes, improve care time, and reduce patient wait times. 

• Infection Control: Hand Hygiene Compliance sensors integrated into dispensers or hand washing stations interact with a nearby smart wearable (e.g., a staff badge and patient tag). They then identify whether the wearer has used these hand hygiene devices in compliance with the hospital’s regulations.  

• Safety: Locating sensors like patient RTLS wearables helps protect wandering patients, elderly patients, and infants by identifying their real-time location and alerting medical staff when anything wrong happens. Further, staff badges secure medical staff from any violent incidents in high-risk areas.

• Environment: IoT sensors measure environmental metrics (e.g., temperature or differential air pressure) to ensure proper conditions in clinical labs, vaccine storage, blood banks, etc.

Other IoT solutions for hospital management: Securitas Healthcare’s AeroScout RTLS, Trackerwave, Hypros

18. Elderly Care and Assisted Living

Healthcare providers have increasingly invested in protecting elderly health. Besides wearable fitness trackers and CGMs to track activity levels and control chronic conditions, these providers have also deployed IoT-based systems to detect falls and other emergencies. These systems will automate alerts to caregivers and healthcare professionals. Moreover, smart pill dispensers are used to remind the elderly of medicine intakes and notify caregivers of missed or late doses. 

UnaliWear Kanega Watch

This is one of the best medical alert devices in today’s market. It can learn each wearer’s natural movements over time and integrate the RealFall™ feature to detect real falls and automatically alert medical staff. Also, it tells senior people about the time, date, and when to take medicine. Even when the elderly need immediate, the Kanega Watch helps them connect with medical service staff through voice commands. 

Other IoT solutions for elderly care and assistance: Alexa Emergency Assist, LifeFone At-Home Cellular, TruView™

Automotive and Transportation IoT

IoT has profoundly transformed the way we move people and goods, from self-driving cars that enhance driving experience to fleet management that optimizes logistics. Let’s take a look:

19. Self-Driving Cars

Self-driving cars are autonomous cars that are responsible for all driving activities without human intervention. They use IoT sensors (e.g., cameras or radar) and AI technologies to perceive surroundings, map roads for navigation, determine which factors may affect the route (e.g., road obstacles or weather patterns), and more. Self-driving cars can even communicate with other vehicles and road-based systems to receive information about traffic, etc. With these capabilities, self-driving cars not only ensure safety but also help you choose the best route to avoid congestion.

Waymo

Google Waymo uses sensors (i.e., LiDAR, cameras, and radar) and software to perform all driving activities. These sensors, coupled with artificial intelligence, create a 3D picture of Waymo cars’ surroundings to calculate the size and distance of everything around, from pedestrians and other vehicles to traffic signs. Further, they can measure an object’s direction and speed, even in tough conditions like snow. All this data allows Google Waymo to create a safe route and respond immediately to evolving traffic environments. 

Other self-driving cars: Tesla Model Y, General Motors’s Cruise, Volkswagen SEDRIC, Audi RS Q8

20. Fleet Management

Many companies, from logistics and transportation to ride-sharing services, integrate IoT solutions to manage their fleets effectively in real-time. These solutions can track the real-time location of vehicles and identify which factors affect vehicle performance to optimize routing, monitor engine health, and make effective use of fuel. Besides, telematics systems track driver behavior (like harsh braking, speeding, or excessive idling) to ensure safety.

FedEx SenseAware

The FedEx SenseAware platform tracks the real-time location, condition, and status of shipments. This not only enables proactive responses to any problem but also keeps customers precisely updated about their packages. This platform also tracks environmental factors like temperature, shock levels, or light exposure to keep sensitive packages always delivered with optimal conditions.

Other IoT solutions for fleet management: UPS, Schneider Electric

Conclusion

This article has given you a detailed overview of 20 outstanding Internet of Things examples across five industries. Wanna improve your workflows with IoT solutions? Designveloper is here to help. 

With over a decade of working in IoT-based app development, Designveloper has successfully delivered more than 100 projects in different industries like healthcare or manufacturing. Our custom services help you address existing challenges with Real-Time Data Analytics and Visualization. Further, our tailored solutions meet industry standards (e.g., GDPR or HIPAA) and secure your sensitive data with the security best measures. Our team also ensures smooth integration with your existing infrastructure without the need to change your current workflows.

If you want to discuss your idea further, don’t hesitate to contact us now!