Most prevalent POC’s in world of IoT 2023

There are countless use cases being tested via POC (Proof of Concept) in the world using IoT (Internet of Things) devices, as IoT has the potential to transform almost every industry and aspect of our daily lives. Some of the most common use cases being tested include:

• Smart cities: IoT devices can be used to manage traffic, monitor air quality, improve waste management, and enhance public safety. This can improve quality of life, reduce pollution, and increase sustainability.

• Agriculture: IoT devices can be used to monitor soil moisture, temperature, and nutrient levels, as well as track livestock and crop health. This can increase crop yields, reduce waste, and improve sustainability.

• Smart homes: IoT devices can be used to control and automate various functions of a home, such as lighting, temperature, security systems, and appliances. This can improve convenience, energy efficiency, and safety.

• Industrial automation: IoT devices can be used to monitor and control manufacturing processes, optimize supply chains, and reduce downtime. This can lead to cost savings, increased efficiency, and improved product quality.

• Healthcare: IoT devices can be used to monitor patients' health remotely, provide real-time alerts and notifications, and streamline healthcare delivery. This can improve patient outcomes, reduce costs, and enhance patient engagement.

Perceived benefits

The benefits that people are trying to derive from these POC's are numerous and include: Increased efficiency: IoT devices can automate routine tasks and provide real-time data and analytics, which can lead to increased productivity and reduced costs. Improved safety: IoT devices can monitor hazardous environments, provide alerts and notifications, and help prevent accidents and injuries. Enhanced sustainability: IoT devices can help reduce waste, optimize resource use, and promote environmentally-friendly practices. Better decision-making: IoT devices can provide real-time data and analytics, which can help businesses and individuals make better decisions and improve outcomes. Enhanced customer experience: IoT devices can improve convenience, personalization, and responsiveness, which can lead to increased customer satisfaction and loyalty. Created by johnkweber john@iotdc.co.za

 

IoT - for monitoring cold storage units

Benefits

Using IoT to monitor cold storage units can bring a lot of benefits, and here are some of them:

• Remote monitoring: With IoT, you can monitor cold storage units remotely, which means you can access the data from anywhere at any time. This can help you to quickly respond to any issues that arise, and you can also check the temperature and humidity levels of the storage units in real-time.

• Data analytics: With IoT, you can collect data on various parameters like temperature, humidity, and energy consumption. This data can be analyzed to identify patterns, trends, and anomalies. This can help you to optimize the performance of your cold storage units, reduce energy consumption, and minimize the risk of spoilage.

• Alerts and notifications: IoT can be used to set up alerts and notifications when the temperature or humidity levels go beyond the predefined thresholds. This can help you to take corrective action before any damage is done.

• Predictive maintenance: By analyzing the data collected by IoT sensors, you can identify when the cold storage units are likely to fail. This can help you to perform maintenance before a breakdown occurs, reducing the risk of spoilage and downtime.

Overall, using IoT to monitor cold storage units can bring many benefits and help to optimize the performance of your cold storage units while reducing the risk of spoilage and downtime.

Predictive maintenance

When it comes to predictive maintenance for cold storage units, there are several points that would be best to monitor to obtain the most reliable data. Here are some of the key points that should be monitored:

• Temperature: This is the most critical factor for any cold storage unit. Continuous monitoring of the temperature will help identify any changes or fluctuations that may cause damage to the stored goods. By tracking the temperature, it is possible to predict and prevent malfunctions, such as compressor failures or refrigerant leaks.

• Humidity: Maintaining proper humidity levels is also important in a cold storage unit, particularly when storing items like fruits, vegetables, and medicines. High humidity can cause mould growth, which can damage the goods. Meanwhile, low humidity can lead to dehydration, which can also damage the products. By monitoring humidity levels, it is possible to ensure that goods are stored in the best possible conditions.

• Compressor runtime: The compressor is a vital component of a cold storage unit. By monitoring how often the compressor runs, it is possible to detect changes in its performance. For example, if the compressor starts to run more frequently, it may indicate that it is struggling to maintain the desired temperature or is on the verge of a breakdown.

• Door open/closed events: Monitoring door open/closed events is crucial to prevent unnecessary energy loss, particularly in walk-in coolers and freezers. By tracking these events, it is possible to identify and address any issues, such as faulty door seals, that may lead to temperature fluctuations.

• Energy consumption: Monitoring energy consumption is important to ensure that the unit is running efficiently. By tracking energy consumption, it is possible to detect any unusual patterns or spikes that may indicate a malfunction or maintenance issue.

Implementation

To implement IoT for monitoring cold storage units, you would need the following:

• Sensors: You would need sensors to measure temperature, humidity, and other parameters. These sensors should be capable of communicating with IoT devices wirelessly.

• IoT devices: You would need IoT devices to collect data from the sensors and transmit it to the cloud. These devices should have a reliable and secure connection to the internet.

• Cloud platform: You would need a cloud platform to collect, store, and analyze the data collected by the IoT devices. This platform should have robust security features to protect the data.

• Analytics tools: You would need analytics tools to analyze the data collected by the sensors. These tools should be able to identify patterns, trends, and anomalies in the data.

• Alerting and notification systems: You would need a system to set up alerts and notifications when the temperature or humidity levels go beyond the predefined thresholds.

To obtain the best predictive maintenance data, it is important to use IoT sensors that can collect and transmit data in real-time. The sensors should be connected to a cloud-based platform that can store and analyze the data, as well as provide alerts and notifications in case of any issues. 

In conclusion

Finally, it is important to have a system in place to process the data and identify patterns or anomalies that may indicate a potential problem. This could involve using machine learning algorithms or other analytical tools to detect patterns that may not be immediately apparent to human operators.

It is crucial to have a team in place that can respond quickly to any alerts or issues that are identified, to prevent any damage to the stored goods or equipment.

NDS - NOA Data Service helps users that have no clue about IoT to bring projects like this to fruition within hours. NDS will collect all sensor data as well as allow the user to create dashboards for visualizing the data.

Created by johnkweber

john@iotdc.co.za