IoT devices can be used for medical data collection, monitoring and analysis. Sometimes referred to as smart healthcare, the internet of medical
things aims to create a digitized healthcare system that connects medical resources and healthcare services.
Some examples IoT applications in this field include:
• Heart rate monitors and pacemakers that monitor a patient’s vital functions and can send alerts through an emergency notification system.
• Advanced hearing aids that adjust their level of sensitivity to suit the user.
• Fitbits or smartwatches that measure biometrics.
• Smart beds that sense when a patient is moving to alert a healthcare professional or automatically adjust settings to improve comfort.
• End-to-end health monitoring applications that help patients — with chronic illnesses, in particular — monitor their vitals and medication
The military uses smart technology and IoT to prepare for warfare and to conduct surveillance and reconnaissance. Examples include smart
drones and the DARPA (Defense Advanced Research Projects Agency) Ocean of Things project, which aims to establish a network of passive sensors at sea to record the presence and activity of military and commercial vessels.
Retailers and distributors use smart packaging with a QR code or NFC tag that contains a unique identifier with digital information about
products to enable digital interactions. Similar technology has been used during the COVID-19 pandemic to enable contactless interaction with
publicly used objects, such as Touchless Hand Sanitizer Machines restaurant menus or smart water fountains.
Infrastructure. IoT devices can be used to improve public infrastructure. Some examples include:
• Transportation. Smart traffic control systems, smart parking systems, electronic toll collection systems and vehicle road assistance help make
transportation more efficient.
• Home and building automation. Smart energy management systems monitor and control various infrastructural components.
• Infrastructure monitoring. IoT devices can monitor infrastructure like bridges or railway tracks to detect significant structural changes to improve
emergency management and incident response processes.
• Urban development. Smart cities outfitted with IoT sensors provide citizens with services like environmental monitoring data and parking
applications for their smartphones by way of smart meters.
• Agriculture. IoT is used in farming to monitor and collect agricultural data such as rainfall level, temperature, wind speed, pest infestation and soil
content. Farmers can use the insights from IoT devices in their fields to improve the quality of their product and minimize waste
It is important to control the traffic in cities otherwise there are huge traffic jams in popular places and totally empty streets otherwise. This also depends on the design and layout of the roads but it can be managed by having smart traffic lights. For example, the traffic lights should automatically adjust according to the volume of the traffic so that green lights should have a longer duration where there more traffic and shorter duration when the streets are empty. Sensors can also be embedded in roads and bridges to monitor their conditions so that they can be repaired when there is much wear and tear. After all, roads with potholes are also a major cause of traffic jams
Air pollution is a major problem in many metropolitan cities where the particulate matter in the air is so high it is damaging to the lungs in the long run. But IoT along with machine learning can be used to reduce air pollution. This is possible by collecting data related to city pollution like emissions from vehicles, pollen levels, airflow direction, weather, traffic levels, etc. , using IoT from various sources and then calculating pollution forecasts to see the trends in pollution so they can be controlled.
Healthcare is an extremely important aspect of life, especially in current times when non-communicable diseases like heart problems and cancer are increasing in big cities while there are still a lot of deaths from infectious diseases in poorer places. In such a situation, IoT technology can surely help in enhancing the healthcare system so that the best healthcare is received by everybody. One example of this is microbots that can directly enter the bloodstream and reach any place inside the body to deliver medicines. Another application of IoT and sensors in healthcare is remote patient monitoring wherein patients can be monitored 24/7 and emergency responders called if there are any problems.
Public transport, whether it be buses or trains, are at the heart of any city. This is especially true in big cities where there are big traffic jams and the metro train can be a lifesaver! However, smart public transport can streamline traffic and also make commuters’ life much easier. It is very convenient when the trains and buses are connected with a single app and you know exactly when the next service will arrive and how long you need to wait. In addition to that, predictive analytics can be used to optimize the routes of public transport which provide maximum benefit and minimum
There is no life without water! But water is also a finite resource which is
reducing at an alarming rate. Therefore, using smart water management
techniques in cities so that water can be conserved for future generations is a good idea. Sensors can be used to monitor water levels, pipe conditions, tank pressures, etc. in municipal water pipelines and tanks to optimize water management. These will ensure that water is not wasted and that problems like leaky pipes or high pressure in tanks can be handled without any loss of water. Sensors can also be used to monitor the groundwater levels so that they can be replenished if there is a groundwater shortage
Waste management systems in a city can be optimized so that there is efficient waste collection and disposal which helps in keeping the city clean and hygienic. After all, mismanagement of waste can lead to contamination of the soil, air, and water as well as provide a breeding ground for a host of bacteria (not to mention the horrible smell!) But IoT technology with sensors in the waste bins can be used to find when the bins are full and dispose of them accordingly. This is better than just disposing the waste on particular days only when the bind might not be full sometimes or overflowing with the danger of contamination on other days.
It doesn’t sound like parking is a problem but it is actually a big headache, especially in large cities. Less available space means that drivers have to waste their time finding parking spaces and increase road traffic in this process ( while also becoming more and more irritated!) This issue can be solved by using IoT connected sensors around the city that point out the empty parking spaces around wherever your destination is. This data will also allow city officials to see where there is congestion due to less parking space and where there is lots of empty space available. This can then be used to optimize parking and prevent traffic jams as well as driver irritation!
It is not possible to prevent natural disasters like hurricanes, earthquakes, tsunamis, etc. but it is entirely possible to anticipate these disasters before they occur and then manage them effectively. For example, sensors in combination with IoT can be used to anticipate when earthquakes are going to occur by analyzing the makeup of the ground, seismic plate interaction, energy propagation in the ground, etc. Similarly, sensors can be used to obtain flood detection data like river level readings, rainfall records, terrain and elevation of an area, etc. to predict when and where a flood might occur and the severity of the flood as well.
The infrastructure of a city i.e. its roads, buildings, etc are essentially what form the city. And smart infrastructure is a very important part of creating a smart city. This includes using IoT along with sensors to use technology intelligently which can save energy and cost for a city. An example of this is using smart streetlights along the roads that only turn on when they detect motion and stay off the rest of the time. This will definitely save energy and reduce the cost to the city
These are only some of the applications of IoT in creating smart cities. There are many more options that can be explored to make cities a better option for more than 70% of the world’s population in the future. Many of these applications are already used in the big metropolitan cities around the world, however, there are many barriers to creating truly smart cities. Some of these may be bureaucracy or the fact that it takes time to integrate the existing systems with new technology. Whatever the reason, there is no doubt that the future is smart!