Abstract
Spatial and temporal variability characterization in Precision Agriculture (PA) practices is often accomplished by proximity data gathering devices, which acquire data from a wide variety of sensors installed within the vicinity of crops. Proximity data acquisition usually depends on a hardware solution to which some sensors can be coupled, managed by a software that may (or may not) store, process and send acquired data to a back-end using some communication protocol. The sheer number of both proprietary and open hardware solutions, together with the diversity and characteristics of available sensors, is enough to deem the task of designing a data acquisition device complex. Factoring in the harsh operational context, the multiple DIY solutions presented by an active online community, available in-field power approaches and the different communication protocols, each proximity monitoring solution can be regarded as singular. Data acquisition devices should be increasingly flexible, not only by supporting a large number of heterogeneous sensors, but also by being able to resort to different communication protocols, depending on both the operational and functional contexts in which they are deployed. Furthermore, these small and unattended devices need to be sufficiently robust and cost-effective to allow greater in-field measurement granularity 365 days/year. This paper presents a low-cost, flexible and robust data acquisition device that can be deployed in different operational contexts, as it also supports three different communication technologies: IEEE 802.15.4/ZigBee, LoRa/LoRaWAN and GRPS. Software and hardware features, suitable for using heat pulse methods to measure sap flow, leaf wetness sensors and others are embedded. Its power consumption is of only 83 μA during sleep mode and the cost of the basic unit was kept below the EUR 100 limit. In-field continuous evaluation over the past three years prove that the proposed solution—SPWAS’21—is not only reliable but also represents a robust and low-cost data acquisition device capable of gathering different parameters of interest in PA practices.
Highlights
Precision agriculture (PA) and smart farming (SF) are concepts that have been increasingly underlying the management of contemporary agricultural practices, essentially to make them more efficient
SPWAS’21 stands in as an Internet of Things (IoT) device that and with the same hardware can adapt the data acquisition process to a wide range of sensors used in various types of crops in an open field, at low cost, to promote a high granularity and better describe the spatial variability usually targeted by PA practices and with the possibility of using the most usual communication protocols
Since April, 2020, SPWAS’21 devices have reached a level of robustness that allows them to work continuously and with minimal maintenance, limited only to addressing situations derived from abnormal situations, such as damage caused by machinery during agricultural field work or replacement of components, such as batteries and sensor cables, when they reach their end-of-life
Summary
Precision agriculture (PA) and smart farming (SF) are concepts that have been increasingly underlying the management of contemporary agricultural practices, essentially to make them more efficient. SPWAS’21 device (Solar Powered Wireless Acquisition System, 21st edition) was developed and tested as a low-cost robust solution that aims to satisfy a wide range of requirements with regard to the most common sensors for use in PA. SPWAS’21 stands in as an IoT device that and with the same hardware can adapt the data acquisition process to a wide range of sensors used in various types of crops in an open field, at low cost, to promote a high granularity and better describe the spatial variability usually targeted by PA practices and with the possibility of using the most usual communication protocols.
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