Applications of IoT


The number of IoT consumers are increasing by the day and there is always some company launching a new IoT enabled product. Based on predictions, this trend will only increase in the future.

IoT is already allowing us to share and use valuable information in our daily life and some popular applications of IoT are farming, agriculture, greenhouse, industrial automation, smart buildings and supply chain management.

The way farmers work is being revolutionized by remote farming operations and remote monitoring of livestock enabled by the internet of things (IoT). An application of IoT that should not be underestimated, smart farming is expected to play a crucial role in the economy of predominantly agricultural-product exporting countries going forward.

An example of this IoT application is smart irrigation systems sensing the soil moisture and taking weather into account to ensure that they only water crops when needed, thus reducing the amount of water usage. This is an example of outdoor agriculture application of IoT. An example of IoT application in indoor agriculture would be IoT enabling monitoring and management of micro-climate conditions such as temperature, humidity and light to maximize production.

A farming facility, connected greenhouse incorporates the internet of things microcontrollers, sensors and applications. The technology helps to automate and improve the management of greenhouse. Moreover, sensors can detect radiation, pathogens, and air quality to identify dangerous concentrations early and allow people to evacuate.

Industrial Automation
Perhaps, the most talked about application of IoT today is industrial automation. Industrial automation is empowering industries with sensors, software and big data analytics to create efficient processes and products. Industrial automation is revolutionizing industries by increasing manufacturing efficiency.
Sensors embedded in manufacturing equipment and placed throughout a factory can help identify bottlenecks in the manufacturing process. By addressing bottlenecks, manufacturing time and waste is reduced. Industrial automation enables ‘predictive maintenance’, which is using advanced sensing and analytics to predict exactly when machines will need maintenance. This ensures that machines are serviced only when they need it, which cuts total costs and the time machines spend idle.

Smart Buildings
From enhancing security to reducing energy and maintenance costs, a range of IoT solutions are available to control and monitor connected buildings. IoT enables automated processes that allow you to control the operations of a building from a remote destination. With IoT, you can control a building’s heating, air conditioning, security, lighting, ventilation and other systems.

Supply Chain Management
With IoT, you can track goods and exchange information with suppliers in real time. Offering a range of solutions, IoT is helping optimize packaging, inventory management, quality control, logistics and overall management of the supply chain. For example, by placing RFID or NFC tags on individual products, the exact location of single items in a large warehouse can be shared, thus saving search time and lowering labor costs.
Additionally, by allowing you to know exactly what’s in-stock and what isn’t, IoT ensures that you order new products only when needed. This reduces the cost of keeping extra inventory. Also, smart inventory management eliminates the need to manually check what’s on the shelves, reducing labor costs.

What is the Future of IoT?


The focus of the IoT remains on improving our lives, providing us convenience and leaving us free only to perform the most engaging activities. Here, we first look at the current IoT applications and then briefly discuss a few future situations where IoT can certainly make our lives easier.

Current IoT Applications

When we look at the current IoT applications, we find that the future of IoT is certainly bright and secure. Currently, companies are experimenting with smart homes, where all appliances are controlled by IoT enabled solutions. This ensures that your desired temperature is maintained in your home before you arrive. You also save energy because the temperature regulation may only happen just before you are home.

Similarly, we are already enjoying a few smart grids with the ability to diversify electrical energy according to the needs of the consumers. Another IoT application is the availability of smart machines in the industry. These machines can manage their own maintenance and servicing needs, while also giving regular updates to the owner, over the internet. With smart data processing, modern factory owners can improve processes and optimize the efficiency of men and machines.

The healthcare industry is another one, which is taking the advantage of the available IoT applications. A smart solution in this regard is great for ensuring that medical records can be automatically maintained and the doctors can use them for improved diagnosis and monitoring of patients.

Future IoT Applications

. One growing technology is the wearable gadget for smart functionality. Glasses, watches and armbands can all be further empowered with the use of IoT application, allowing them to create useful data for use. We are also moving towards smart cars that can stay connected to each other, using IoT software and share traffic information for allowing the ideal route management.

The transportation benefits can then be combined with other city utilities to finally create a large scale IoT solution. The future of IoT is to have smart cities where all devices interact with each other, use edge computing, cloud storage and the capability to create herd intelligence that can make improved decisions. This will create a unique proposition where we will improve as a race and enjoy the benefits of the networks that are all around us.

The retail industry will certainly change as well with future IoT applications. With the possibility of using shops that use smart sensors, the IoT solutions will improve the shopping experience and offer customized solutions for all visitors. There are certainly a few limitations that are not allowing IoT applications to quickly expand to all industries.

IoT Enabled Greenhouse – A Reality


The Internet of Things (IoT) describes the implementation of artificial intelligence and smart technology, in common household and industrial applications. This results in creating an innovative environment capable of making the right decisions. Here we focus our attention on IoT enabled greenhouse which has the capacity to revolutionize farming and improve the efficiency of this industry.

Working of a Greenhouse

A greenhouse is a controlled environment that allows plants to receive specific climatic conditions that they need for stimulated growth. It is created using glass and recently transparent plastic to cover the plants for the external conditions and diseases to create conditions that produce optimal growth. The modern greenhouse is a complete agriculture system, with the ability to carry out minor adjustments required for pushing the boundaries of biological efficiency in any geographic location.

Commercial greenhouses usually keep a constant high temperature and the required level of humidity. The control is provided by using screens, temperature maintenance and may be a computer that controls the overall functions of the environment. An IoT enabled greenhouse can certainly provide the best performance, since it may employ decentralized data processing to make important decisions in a smart manner, without human intervention.

Advantages of IoT

The IoT application in greenhouses brings in numerous benefits. Here are some top advantages of using an IoT enabled greenhouse for agricultural needs:

Minimizing Waster Use

A key problem in agriculture is to gauge the exact amount of required water. Minimizing the use of water is possible by installing smart sensors that are controlled by IoT application. This allows for setting up water policies where the water tap can be automatically controlled by using the readings of carefully placed proximity sensors.

Plant Conditioning

Another advantage available in an IoT enabled greenhouse is the ideal conditioning of the plants. This is possible with the use of cameras and other sensors that can regularly monitor the state of the plants and even automatically issue an alert, if a problem is recognizable. With the use of an ideal cloud-based IoT solution, it is possible to store this data and view it periodically to ensure that all plants receive ideal attention in the greenhouse.

Ideal Atmosphere

There are various parameters that combine to create the ideal atmosphere for a specific plant. Temperature, ventilation, oxygen and the carbon dioxide levels must be maintained within strict limits. This is possible in an IoT enabled greenhouse where smart devices can share their information with each other, allowing for improved decision-making.

The atmospheric conditions can be set up in an IoT cloud-based software as a set of rules. This can then be integrated with the installed IoT enabled sensors in the greenhouse. The system can use the available readings to make the choices for operating screens, using fans and other devices for maintaining the control.

One of the best ways to create an IoT enabled greenhouse is to install modern, smart sensors that can be managed and controlled through an IoT application like IoTSense. It allows you to look at the available data analytics and set up policies for automatic actions to ensure the best agricultural conditions.

IoT – Making a Mark in Renewable Energy


IoT (Internet of Things) is an umbrella term for technologies that may use available network technologies to allow smart behavior and task automation. Out of the many IoT applications currently available, one of the important ones is in the field of renewable energy. Here are some amazing benefits of IoT that you can enjoy by implementing these solutions in renewable energy services:

1.      Smart Grid

It is difficult to create smart grids without implementing innovative concepts. The use of a single protocol is essential to ensure that renewable energy can be easily implemented within a conventional network. A smart solution is required because the available energy from solar, wind and hydro resources can be variable according to the specific environmental conditions.

An IoT solution can be implemented by treating each source as an internet protocol (IP) connection and allow it to interact with the grid using a single communication resource. This will allow the consumer to learn about the available resource and use the energy network accordingly. IoT solutions only require low power network connections and can easily provide the advantage of scalability with the energy source and used appliances of a consumer.

2.      Automation

Renewable energy is hard to harness with efficiency. This is especially true with solar and wind energy, which is often governed by variable resources. However, with the use of a smart IoT solution, it is possible to implement automated controls that allow your setup to harness the optimum energy from renewable sources. This may require altering the direction of the wind turbine or moving solar panels to ensure maximum efficiency and perpendicular surface to the energy source.

3.      Innovation

IoT is an excellent way to improve the use of renewable energy. Since it offers innovation, you can learn about the specific usage patterns with IoT based sensors allowing you to maximize the benefits of renewable energy and limiting the reliance on traditional energy sources like fossil fuels. The innovation is possible in a number of processes and methods.

Companies can grab big data with an IoT solution and then process the numbers to find useful trends. This will help in creating energy use policies that release the current reliance on traditional energy resources and allow renewable energy to work to its full potential.

4.      Decentralization

With the increasing demands for renewable energy, centralized data processing is simply not enough to offer the best support. IoT solutions that employ edge computing allow the advantage of decentralization where most data is processed close to the sensors, ensuring that the central energy control must only deal with brief and comprehensive information.

The control over the data transferred over the networks is important since it allows the use of a lower bandwidth to remain connected to other devices. With edge computing, the need for data storage is reduced, and more control is possible with finer analytics. Decentralization works well with devices and sensors that are placed far apart as required in most renewable energy grid solutions.