The Internet of Things is useful in many sectors and also has benefits for our Environment. The process of recycling starts always when we put the waste in their correct recycling bin and ends in the treatment plants for glass, paper, textile… but in the middle there are many things that our cities, our Smart Cities can do. Here are some examples of companies working NOW in this area.
Enevo is one of the many companies around the world developing sensors to convert existing waste containers into IoT objects. The data tell us if the container is full or not and automatically generates trends which the system analyses to generate pickup routes to collect the waste. Here is a real example in the Municipality of Rotterdam (Netherlands) with Enevo´s Sensors:
Bigbelly is another player who has a Smart Waste and Recycling System. Instead of upgrading the existing containers, their concept is to replace them with their own bin with a compactor system that presses the garbage down and allows eight times more waste than a conventional container. You can see how it works here:
Technology is nice but recycling demands the citizens commitment in the process. That is why it is also interesting to take a look at project like the one in Alcalá de Xivert (Spain) where citizens receive benefits by recycling! Formato Verde is the company who runs it through special bins for waste in the area. Citizens are invited to participate and receive a RFID card who allows to open the bin and leave the waste in each container distinguishing between: paper, plastic or organics. In this way citizens win green points who reduce the garbage municipal tax…GREAT!
You can see a video here ( in spanish but you can see the idea works)
These are just a few example of companies developing IoT solutions for a better sustainable world.
You read can more information about this companies in their websites:
TST Sistemas, one of Carriot’s partners, is a company that develops wireless products and solutions for applications in the Internet of Things (IoT) environment. They recently developed a 4 week pilot of a rubbish bin filling sensor system in Santander. They integrated the data read by their sensors with the Carriots platform.
TST Sistemas installed wireless sensors in the plastic and paper recycling bins located near PCTCAN (the Scientific and Technology Park in Cantabria). These sensors retrieve the data of the level of fullness and send it the Carriots cloud where it is stored.
Thanks to the Carriots REST API, the gathered data can be easily displayed on a web page. From there, the user can evaluate the lever of the bins, the battery and GPRS coverage by pressing on the desired bin. The page isn’t limited to simply showing the current status, data can also be grouped in different ways to see graphs and data collection history. This information can be used to plan the best routes to collect the rubbish.
As you can see, there would be many advantages to knowing the exact state of the bin before taking action to empty it. It enables us to measure the quality of the company that picks up the rubbish and at the same time allows us to make the pick-up process more efficient and effective. It can increase or decrease the frequency of pick-up depending on the fullness data levels. Not only does this method save money, but it also saves carbon dioxide gas emissions.
This is just one more example of the possibilities that Carriots gives to companies. We make IoT projects a reality. Can we help you make yours a reality too?
MIMOS, the National Research and Development Centre in Malaysia, has created a smart parking prototype that shows the excellent capacity of Carriots to help in the development of easy and cost effective IoT projects. Just a couple weeks ago, they decided to take their project to the next level…that’s where Carriots came in.
Due to the cost of maintenance, wiring and convenience, MIMOS decided to introduce a “smart” system. It combines the same sensors as their original project with the added advantage of being controlled through a Wi-Fi connection. Each sensor connects and sends data over the Internet to Carriots. Carriots then stores the data and allows MIMOS to act on the data received. Using the Carriots REST API it’s easy to use the data stored and display it on a web page.
That’s exactly what MIMOS did. They used Ducksboard to process and display the availability of parking spots, the signal strength and the battery level of the sensors. Using Carriots it’s easy to get and display this important information on computers and smartphones. You can see their frontend sensor information here: https://public.ducksboard.com/PLAUECyDKENxA-irqN2d. You can also read a little more about the project in this article.