6533b838fe1ef96bd12a4f1c
RESEARCH PRODUCT
Long-range & Self-powered IoT Devices for Agriculture & Aquaponics Based on Multi-hop Topology
Linga Reddy CenkeramaddiSoumya JRolf Arne KjellbyBaltasar Beferull LozanoMeghana BhangeAnders Froytlogsubject
Sunlight021110 strategic defence & security studiesComputer sciencebusiness.industryReal-time computing0211 other engineering and technologies020206 networking & telecommunicationsCloud computing02 engineering and technologyNetwork topologylaw.inventionBluetoothlawAgriculture0202 electrical engineering electronic engineering information engineeringPrecision agriculturebusinessEnergy harvestingWireless sensor networkEfficient energy usedescription
This article presents the prototype design and testing of a long-range, self-powered IoT devices for use in precision agriculture and aquaponics. The devices are designed using the ultra-low power nRF52840 microcontroller with Bluetooth 5 support and ambient energy harvesting. A power of 942µW is harvested in an indoor environment. The devices are therefore suitable for both indoor and outdoor use, as natural sunlight will provide far more energy compared to artificial indoor lights. A line-of-sight range of up to 1.8km is achieved with the use of coded transmissions. However, the coverage area and range can be extended significantly by deploying the devices in multi-hop network topology. The custom multi-hop protocol provides energy efficient communication from any device in a wireless sensor network to a gateway while consuming an average of 267µW with a transmission interval of 5 minutes. The sensor data is transmitted to a gateway, which then forwards it to a local server or cloud service, where the data can be analyzed to optimize the production in agriculture and aquaponics.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-04-01 | 2019 IEEE 5th World Forum on Internet of Things (WF-IoT) |