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Tecfrut Bioquímica S.L.

Tecfrut Bioquímica S.L. C/ Alcudia de Crespín, s/n 46611 Benimuslem España Telf. +34 96 244 20 83 tecfrut@tecfrutbioquimica.com www.tecfrutbioquimica.com. WIRELESS NETWORKS. Monitoring in crops.

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Tecfrut Bioquímica S.L.

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  1. TecfrutBioquímica S.L. C/ Alcudia de Crespín, s/n 46611 Benimuslem España Telf. +34 96 244 20 83 tecfrut@tecfrutbioquimica.com www.tecfrutbioquimica.com

  2. WIRELESS NETWORKS Monitoring in crops

  3. Precision agriculture aims to assist the good management of our fields, bearing in mind the differences in them Soils. Plants. Climatology. Field Orography. Etc..

  4. The same field may have different needs in different parts of it. • We must know these differences and and according to them sectorize field. • About these homogeneous sectors, extract information and based on it we must make our policy decisions.

  5. Good information will help us make better decisions and thereby: • Save in basic resources like water. • Save in crop protection by knowing the optimum time of application. • As a result of the above will have a better yield and minimize the impact on the environment.

  6. The experience is a very good counselor but if accompanied with technology. Experience + Technology = Success

  7. In the next slides we will see the available technical equipment we have for information on different variables of the crop, how to get it into our base data and software that acts as an intelligent integrator of all measurements and variables of interest which have been monitored, with capacity and performance management.

  8. Sensors Registration • Sensor measuring photosynthetic active radiation • Solar radiation sensor • Leaves moisture probe • Dendrometers • Humidity, conductivity and soil temperature probe

  9. Weather station with the following sensors: • Temperature (inside and outside) • Humidity (inside and outside) • temperaturethermalIntegralsforpest control • Wind (speed and direction) • Blasts in 10 minutes • Rainfall (0.2mm) • Pressure • Barometrictrends • Forecasts 24 hours view (text and icons) • Severalindicesderived as theevapotranspiration. • MoonPhase. • Etc...

  10. Pedí.s SOIL MOISTURE SENSOR Soil moisture sensor , capacitive (FDR) which allows an economical solution to monitor our soil, special design for easy installation in a wide variety are substrates providing a soil moisture measurements of high quality and precision. We can incorporate to this sensor an intelligent controller (right) that connects directly to our irrigation system or a solenoid, scheduling the soil moisture based on the type of crop will cancel irrigation if soil moisture is desired, stop the watering when it achieve this and restart when the sensor indicates it.

  11. Pedí.s Soil moisture multiple sensor These capacitance probes (FDR) are designed to measure the moisture content of soil at multiple depths (every 10 cm.) Deep-rooted plants, we have models to depths of 50 cm., 100 cm. and 150 cm. For shallow-rooted crops such as grass have a 30 cm probe with multiple sensors (each 5 cm.) Accurately measures the impact and progress of the wetting front through the explored profile between the roots , optimizing and improving irrigation performance, quality and appearance of lawn

  12. DENDROMETERS Sturdy and easy to use equipments, record continuous measurements of fruit growth and / or trunk and daily micro-fluctuations. Useful to know the water stress and optimize irrigation.

  13. Pedí.s Solar Radiation Sensor Solar radiation sensor based on silicon photocell which collects the most short-wave solar radiation useful to calculate the evolution perspiration.

  14. LEAF SENSOR of HUMIDITY Determines the presence and duration of condensed water on the leaf surface. It helps to control different pests, treatments, etc.

  15. All this information can be received: • With analog handheld reader to view the data on the spot. • By WSN (wireless sensor network) capable of delivering all information to a desired point in real time

  16. REDES WSN System designed to obtain, send and process data, consisting of individual sensor nodes with energy self-sufficiency, Each node takes measurements with a programmable interval, and sent over the network to reach a sink node. Depending on the resources available to the farm can be connected to the computer to collect data, send them to a server via Ethernet if you have internet access, or send via GPRS for which all you need is to have phone coverage mobile.

  17. goteo drip drip drip Irrigationpump

  18. ELEMENTS OF A WSN NETWORK • Sensors: They receive the desired environmental information (humidity, temperature, etc..), and convert it into electrical signal. • Sensor Node: Take the sensor data and send the information directly or relying on other receiver / transmitter nodes to the sink. • Gateway: Element interconnection between the sensor network (sink node) and the base station (micro controller with USB, Ethernet and GPRS). • Base Station: Collector ability to interpret data and act in real time.

  19. BASIC SENSOR NODE BASIC MODULE OF WIRELESS COMMUNICATION IN 868 MHz BASED IN A TEXAS INSTRUMENTS CC1110F32 PROCESSOR.

  20. MULTIPLE SENSOR NODE WIRELESS COMMUNICATIONS MODULE 868 MHz FOR UP TO THREE INDIVIDUAL SENSORS.

  21. NODE WITH TEMPERATURE SENSOR AND RELATIVE HUMIDITY Wireless communication module with temperature sensor in the 868 MHz frequency with configurable baud rate and range up to 290 meters.

  22. GATEWAY USB DRAIN CONNECTED TO PC via USB. PICK THE 868 MHz WIRELESS COMMUNICATIONS AND TRANSFER THEM to PC AND VICE VERSA.

  23. GATEWAY ETHERNET/GPRS DRAIN TO SEND DATA THROUGH GPRS OR ETHERNET.

  24. IRRIGATION CONTROL COMPUTER PROGRAM • Continuous measurements of volumetric moisture in the desired areas, presenting history on the screen. • Determine irrigation scheduling based on these measurements and according to the reference value • Indicates the application of irrigation. • Detects failures in the irrigation system and measurement • System variables stored in a database.

  25. Summary of action with soil moisture sensor Controlled Variable: Soil moisture in the root zone. Manipulated variable: Flow of water supplied (irrigation valve)

  26. Human-Computer Interface INDECA

  27. GENERAL MONITORING

  28. CONTROL SYSTEM

  29. IRRIGATION MANAGEMENT CONCEPTS

  30. IRRIGATION MANAGEMENT CONCEPTS • Separate graphics. • Infiltration and drainage rates • where root activity. • Water stress at each depth • Graph summations. • Daily consumption • Effectiveness of irrigation. • When water • The water • Establish upper and lower limits

  31. GRAPHICS WITH INTERPRETATION

  32. Graph summations

  33. GRAPHICS WITH INTERPRETATION

  34. Graphics in Nogales

  35. END OF PRESENTATION

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