AGRICULTURE OF
PRECISION
Implement agricultural GPS by farmers, in order to calculate the correct amount of inputs at the right time and exact place of the crops, since it allows to reduce the costs of inputs, improve the yields and the quality of the harvests.
GPS for precision, sustainable and profitable agriculture
Execution of complete mapping of the entire land with its attributes and characteristics of: soil types, access roads, water sources, electrical service, land limits and planting areas.
Digital preparation of maps with risk or vulnerability areas.
Reduction of expenses in seeds, fertilizers, pesticides and fuel in machinery, since the work of the teams will be more efficient avoiding the overlapping of plots or planting areas when routes are traced that will be supervised by the GPS.
Execution of activities in adverse atmospheric conditions, such as the appearance of dust, winds or very dense fog; It even facilitates the work of the machines at night with absolute precision.
TOTAL CONTROL
Descriptive statistics : present and characterize a set of data as alerts of variation in temperature monitoring.
Linear or multiple regression models: relate a variable to one or multiple variables such as the relationship between vehicle data and temperature values.
Analysis of variance: detect differences between data groups such as knowing if there are differences between vehicle brands, routes, drivers, products, etc.
Multivariate analysis: Simultaneously analyze multivariate data sets such as identifying behavior patterns with temperature values.
Operations research: use mathematical models in order to obtain the best optimal solution for a problem with limited resources such as optimizing routes, fleet size, etc.
Effective optimization of charging temperature monitoring.
Maximum production, quality and profitability
The most rational use of the varied agricultural potential of the fields, saving inputs and the profitable increase in yields, through the services, software, machines, monitors and equipment available
6%
reduces tractor overlaps up to 6%
16%
Reduces tractor gaps up to 16%
twenty%
Improves productivity and work efficiency of farms
30%
Save operating costs
Reduction of costs and the use of inputs
Higher yields with the same level of inputs
Higher quality crops
This type of application allows to reduce expenses in sectors where not so much fertilizer or sown seed is needed.
All this variable dosage, in addition to saving on inputs, allows the crop to express itself in a better way and achieve a higher yield.
With the use of satellite or drone images we can determine, during the fallow, which sector of the lot has the greatest amount of weeds. This makes it possible to avoid applying in areas where complications of this type are not found.
In horticultural crops, it may be due to pest control at opportune moments to prevent them from damaging the harvestable fruit. It also happens that the fruit is not damaged, but its size or color is reduced and this affects the quality and final price.
Some markets are more demanding than others in terms of the quality of the harvest. In field crops, more attention is paid to cracked, green or diseased grains. While, in horticultural, more attention is paid to size, color and flavor.
With precision agriculture, machinery is used that performs the task avoiding losses in the lot and with greater care to prevent damage.
All information is used to act at opportune moments and intervene in the batch before it is too late. An example can be the detection of photos of diseases or insects within the field by means of drones.
By seeing this focus in advance, you can proceed to control before the plague continues to expand and the damage is much greater.
Another aspect that helps timely control is the generation of alarms.
It manages to improve the efficiency of planting, fertilization and the application of phytosanitary products, through the guidance of tractors by GPS
Advanced electronics:
DGPS receivers: ±30 cm.
Dual frequency receivers with 12 channels and differential correction from satellite: ± 5 cm.
Dual frequency receivers with 12 channels and differential correction from base station (RTK) at no more than 3km: ± 2 cm.
Solid construction:
Internal battery: 170 mAh Li-Ion 3.7 V (0.63 Wh)
Bluetooth : 4.0 + LE
Easy installation:
Dry and wet calibration
Cable length: 7 meters