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Smart Viticulture Project in Spain Uses Sensor Devices to HarvestHealthier, More Abundant Grapes for Coveted Albariño WinesFebruary 20, 2014

By: Javier Martinez, Libelium

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By Javier Martinez, Chief Sales & Business Development Officer at Libelium

Smart applications are becoming more prevalent in big cities and urban environments and in the countryside as well. Smart agriculture brings

state-of-the-art technology to an industry where the plow and sickle have ruled for thousands of years.

In northwest Spain, wine growers of the Rias Baixas region are bucking traditional practices thanks to a government investment in Smart

Viticulture that allowed multinational consultancy Idom to bring Libelium's Waspmote wireless sensor devices into the vineyards to address

environmental conditions and improve environment-related management. The results are emblematic of how wireless sensor networks can

improve many aspects of our lives via technological data acquisition that leads to informed decision making.

Fig. 1: Albariño is a variety of white wine grape grown in Galicia, in northwest Spain

IntroductionIntroduction

Most wine connoisseurs have heard of Galicia's Rias Baixas region in northwestern Spain. It's where the white Albariño grape grows prominently,

and it's helped make Rias Baixas an important Denomination of Origin recognized by wine lovers everywhere. To support the growing popularity

of the grape and the Rias Baixas region's wineries (Martín Códax, Condes de Albarei, and Paco & Lola), the Pontevedra provincial council enlisted

Spanish-based multinational consulting group Idom to spearhead a "Smart Viticulture" project using the latest technological advancements to

monitor temperature, humidity, soil moisture and leaf wetness to improve environmental management of the vineyards.

The project was designed to benefit growers by enhancing grape quality and production. Partnering with Libelium on the Smart Viticulture

project in Rias Baixas enabled Idom to focus on its strengths in managing the project while relying on Libelium's sensor technology to meet the

regional grower's needs.

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Fig. 2: Map of the wine-producing region of Rias Baixas in Galicia

The ProjectThe Project

Agriculture and viticulture in the region has kept to its traditions and implementing twenty-first century technology into growing practices is a

novel concept. While largely unfamiliar with the many powerful applications of smart technology, the wineries were eager to be involved in a

project where they would have ongoing access to environmental data, and therefore be able to make more informed decisions. In particular, they

wanted to examine phytosanitary conditions to streamline and reduce chemical treatment practices.

The international engineering company Idom was chartered with managing the entire project operation, from the big picture to the nuts and

bolts. This included making decisions on all subcontractors and resources used for the project. Having worked with Libelium previously on a

Smart City project in the nearby port city of Santander, Idom was confident in Libelium's ability to deliver what the project needed from a

technical standpoint. Libelium was selected to provide the wireless sensor network that would gather data from the vineyard and make it

accessible to the growers.

According to Idom's Eduardo Diaz, the project manager, flexibility was important. "In terms of data acquisition, Libelium's broad product portfolio

and the possibility of ad-hoc hardware configuration were optimal in meeting the specific needs of the project."

Other reasons why Idom tapped Libelium included cost factors; Libelium's products would not only provide an effective solution, but an

affordable one. What's more, the Waspmote wireless sensor network platform was robust enough to withstand variations in outdoor conditions

and changes in climate while maintaining energy efficiency. Also important was the fact that the hardware system was relatively easy to install

and could be used and managed without difficulty by the various field operators or technicians at the wineries.

Deployment SequenceDeployment Sequence

The equipment for the Rias Baixas project included three Meshlium wireless gateways, and a dozen Waspmote nodes equipped with sensors to

measure temperature, ambient humidity, soil moisture and leaf wetness, in real time. Meshlium's job is to gather all the data from the sensor

nodes and send it to the Cloud through a 3G or Ethernet connection; Waspmote integrates GPS to deliver accurate position and time

information.

First, the Meshlium gateways were installed, defining sensor zones within the vineyard. This was followed by the deployment and calibration of

the Waspmote sensor nodes, starting with the mote located closest to a Meshlium and finishing on the point farthest away.

Fig. 3: Schematic of the Smart Viticulture solution

Fig. 4: The Agriculture Sensor Board for Waspmote integrates

the sensors that measure a variety of environmental factors.

Fig. 5: Waspmote Sensor Platform

Fig. 6: Waspmote and Meshlium in the vineyard

Once the base system was deployed, an end-user application was developed to allow control of the system from anywhere connected to the

Internet and a statistical prediction model was created to correlate weather conditions with the onset of disease in the vineyard.

Fig. 7: The smartphone end-user application allows control anywhere.

Positive ResultsPositive Results

In the end, growers of the Rias Baixas region were able to deploy and use a Smart Agriculture production system that generates key

environmental data for vineyards and wineries and allows them to make informed decisions. The whole system includes these components:

Environmental data-capturing network to measure leaf precipitation, atmospheric humidity, and soil temperature and moisture.

Ad-hoc statistical model able to transform data information and account for pathogen evolution and infection risk to Albariño vines.

Data center where data could be aggregated and processed into a reviewable online platform that displayed key information concerning

viticulture production of interest to both wine growers and wineries.

A unique communications channel where the various users—wine growers and viticulture technicians, and others in the field—became

valuable information sources, and made the system "smarter" with more frequent use.

The project launched in 2012 and has quickly proved a success. From a pool of approximately 1,000 wine growers, about 400 became habitual

users during its first year. Idom's Eduardo Diaz says that the region's wine growers were able to reduce phytosanitary treatments such as

fertilizers and fungicides by more than 20 percent, and improve growing productivity by 15 percent, a welcome outcome on both counts. It has

made the wineries more profitable, but also more eco-friendly. "That's important for health reasons, of course, and it also helps the image of Rias

Baixas growers and the region's Albariño wines. It's a good form of promotion."

Fig. 8: Old vines and new technology existing side by side.

Eduardo Diaz believes that the data acquisition platform created using Libelium's Waspmote proved a sound investment in Rias Baixas and is

something other wine growing regions should investigate, even without subsidies. Smart Agriculture is a great use of wireless sensor networks,

and demonstrates how to apply technology to a resource-intensive problem.

The Smart Viticulture project's benefits in terms of better productivity, costs reduction, and improved management are catching the attention of

wineries and agricultural co-ops. Idom is already in discussion with private organizations in the industry interested in taking advantage of such a

platform themselves.

Fig. 9: Rias Baixas Vineyard

The Future of Smart ApplicationsThe Future of Smart Applications

Sensor technology can play a key role in many types of projects, from mobility to energy efficiency to environmental sustainability. The

Waspmote sensor devices used in the Rias Baixas Smart Viticulture project were praised for their installation ability and the ease at which they

could be configured. In traditional forms of industry, like agriculture, where technology can often be a foreign concept, the simplicity to effectively

deploy such devices is greatly appreciated.

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Fig. 10: Waspmote Plug and Sense! Smart Agriculture node resides in a

waterproof IP65 enclosure with external sockets to attach sensor probes.

For Smart Agriculture, Waspmote Plug & Sense! sensor nodes can detect, monitor, and inform on a wide number of agricultural issues, such as

soil moisture and temperature; leaf wetness; atmospheric pressure; solar radiation; wind speed; ambient temperature; humidity; rainfall; and

many other relevant purposes. Libelium has developed Plug & Sense pre-configured sensor devices for a variety of industries and applications,

including Smart Cities, Smart Parking, Smart Environment, Smart Metering, and Smart Security.

Beyond the vineyards, Smart Agriculture has a host of applications—from regulated irrigation on golf courses to monitoring and controlling

climate conditions and mitigating greenhouse gases. Libelium is addressing every possibility.

Related Links:Related Links:

1. Albariño2. Rias Baixas3. IDOM4. Waspmote5. Meshlium6. Smart Agriculture Board7. Waspmote Plug and Sense! Smart Agriculture8. Rias Baixas winegrowers discuss their experience

About the AuthorAbout the Author

Javier Martinez is the Chief Sales and Business Development Officer at Libelium. His specialty is in the implementation of hardware and

technology for wireless sensor networks as well as standard platforms for the Internet of Things, Smart Cities, and M2M solutions.

About the Author: Javier Martinez

About Javier MartinezAbout Javier Martinez

Articles by Javier MartinezArticles by Javier Martinez