Business Process

Industries That Can Benefit from Cloud-Based Environmental Monitoring

Cloud-based environmental monitoring benefits a variety of industries and helps them run more efficiently, more profitably, and ultimately more safely for the consumer. It provides faster, more precise, and more available information on environmental conditions in structures. Environmental monitoring is simply a process that uses data loggers to precisely monitor environmental conditions in a given space. These devices measure temperature, humidity, pressure, and other environmental conditions and, importantly, are part of the Internet of Things (IoT)—they are connected to the internet and transmit their data to the cloud without requiring a person on-site to record data or to read them.

Cloud-based means that the data is transmitted via the internet and stored virtually in the cloud rather than on a physical server. This data is easily accessible from any place you’re connected to the internet through a computer, tablet, or smartphone. Cloud-based environmental monitoring enables businesses to accurately monitor the environmental conditions of a space from a central location, an valuable innovation that can benefit multiple industries. Here are four  industries that have benefited from this technology.


A continuous monitoring system provided by a company such as Dickson is particularly valuable for pharmaceutical companies. In fact, the pharmaceutical industry is arguably the one industry that most benefits from cloud-based environmental monitoring. Every step along the way in the pharma industry, from developing drugs in a laboratory to the manufacturing of the drugs to transporting, handling, and storing of pharmaceuticals benefits from precise environmental monitoring and control, ensuring that companies stay in compliance with strict regulations. 

Cloud-based monitoring systems allow for repeatable conditions in the drug development process, enabling scientists to be more effective in the development of medicines and vaccines crucial to patients’ health. Having data available through the cloud means that variances in conditions can be instantly noted and acted upon before inventory is lost or processes disrupted or before safety can be compromised. Cloud-based environmental monitoring allows for immediate responsiveness, helping pharmaceutical companies decrease costs, increase revenue, and maintain compliance with regulatory authorities.


The healthcare industry obviously benefits from cloud-based environmental monitoring in many of the same ways as the pharma industry as they also are highly regulated and tasked with storing and handling pharmaceuticals. The benefits for this industry go well beyond that though. In an industry that relies so heavily on data to provide the best care possible for patients, cloud-based environmental monitoring produces a trove of data that the industry can use to help provide the best patient outcomes possible.

In addition to pharmaceuticals, healthcare facilities are also home to blood banks, operating rooms, and laboratories that all need to be held at precise temperatures to be safe and compliant. Cloud-based environmental monitoring not only monitors these areas for environmental conditions but produces alerts when conditions don’t meet proper specifications. This allows healthcare managers to diagnose and fix problems before they have an impact on  people’s health and safety. This is one of the biggest reasons the healthcare industry has been among the earliest adopters of this type of technology.


The food and beverage industry is another industry that has long used temperature-controlled environments. Well before the pharma or aerospace industries even existed, people have been monitoring the temperatures of places where food is produced, transported, and stored, to ensure the food product is safe and being maintained at peak freshness and taste as long as possible.

Cloud-based environmental monitoring has been a huge advantage for this industry. It allows much more careful and precise monitoring of conditions with much less manpower than ever before. It also allows food to be produced, moved through the entire supply chain, sent to retail or commercial kitchens, and eventually put on a plate in the best, safest, and most thoughtful way possible based on the ideal conditions for that foodstuff. It reduces waste and saves everyone money from the biggest food producers to the families that eat the food. It is a true win-win innovation for this industry.


The world of aerospace manufacturing, transportation, storage, and maintenance is one of huge projects involving complex and sensitive machines and technology. When you are tasked with creating a machine that is going to have to transport people safely 30,000 feet or more in the air, the right environmental conditions that won’t degrade any part of the machine are crucial. This is why government regulations on the environmental conditions of the industry are so tight and the safety measures are so important.

The real-world ramifications for not using cloud-based environmental monitoring in the aerospace industry are staggering. The projects that the aerospace industry undertakes cost millions if not billions of dollars, and failing to appropriately monitor the environmental conditions during manufacturing or maintenance can cause huge losses. A project falling out of compliance and failing an audit because appropriate conditions are not met can result in astonishing fines and even more cost in manufacturing delays. If a project has to be completely scrapped because the conditions are not right, losses can be astronomical. That’s why cloud-based environmental monitoring is so important.


These are just a few of the main industries on which cloud-based environmental monitoring has had a huge impact. Many additional manufacturing, production, and logistics-based industries use this technology in important ways. Any industry that deals in raw materials or products that are affected by environmental conditions can benefit from cloud-based environmental monitoring and as this type of monitoring continues to develop, you will see it in more and more places in the coming years.