Journal of Mechatronics and Automation

A vast majority of the Indian population depend on agriculture as their primary occupation. Producing
the maximum amount of crops is an important thing in our country. In order to get plant growth, it is
highly crucial to exactly check the nutrient level in the soil mix. The given system of IoT-enabled soil
checking measures and observes the different soil factors. This system lessens the chances of soil
degradation and helps to maintain crop’s health. We have made use of multiple sensors like pH, soil
moisture to monitor temperature, humidity, soil moisture, and soil pH and some color sensors for
nutrients of the soil. The information is checked by the sensors, stored in the cloud and analyzed to
suggest the growth of the suitable plant. A full-fledged digital environment is made, giving data about
the pesticide(s) needed for the plants. The purpose of this project is to make a steadfast system through
creating an aquaponics system using the concept of Internet of Things. By creating an automated
aquaponic system with the use of interface sensors with the Arduino, we can monitor the fish feed
intervals, supply of water to plants at periodic intervals.

Mahkeswaran R, Ng AK. Smart and sustainable home aquaponics system with feature-rich Internet

of Things mobile application. 2020 6th International Conference on Control, Automation and

Robotics (ICCAR), 2020, pp. 607–611, doi: 10.1109/ICCAR49639.2020.9108041.

Wei Y, Li W, An D, Li D, Jiao Y, Wei Q. Equipment and intelligent control system in aquaponics:

a review. IEEE Access, vol. 7, pp. 169306–169326, 2019, doi: 10.1109/ACCESS.2019.2953491.

Sansri S, Hwang W-Y, Srikhumpa T. Design and implementation of smart small aquaponics

system. 2019 Twelfth International Conference on Ubi-Media Computing (Ubi-Media), 2019, pp.

–327, doi: 10.1109/Ubi-Media.2019.00071.

Aishwarya KS, Harish M, Prathibhashree S, Panimozhi K. Survey on IoT based automated

aquaponics gardening approaches. 2018 Second International Conference on Inventive

Communication and Computational Technologies (ICICCT), 2018, pp. 1495–1500, doi:

1109/ICICCT.2018.8473012.

Kumar NH, Baskaran S, Hariraj S, Krishnan V. An autonomous aquaponics system using

LoWPAN based WSN. 2016 IEEE 4th International Conference on Future Internet of Things and

Cloud Workshops (FiCloudW), 2016, pp. 125–132, doi: 10.1109/W-FiCloud.2016.37.

Manju M, Karthik V, Hariharan S, Sreekar B. Real time monitoring of the environmental

parameters of an aquaponic system based on Internet of Things. 2017 Third International

Conference on Science Technology Engineering & Management (ICONSTEM), 2017, pp. 943–

, doi: 10.1109/ICONSTEM.2017.8261342.

Riansyah A, Mardiati R, Effendi MR, Ismail N. Fish Feeding automation and aquaponics

monitoring system base on IoT. 2020 6th International Conference on Wireless and Telematics

(ICWT), 2020, pp. 1–4, doi: 10.1109/ICWT50448.2020.9243620.

Pasha AK, Mulyana E, Hidayat C, Ramdhani MA, Kurahman OT, Adhipradana M. System design

of controlling and monitoring on aquaponic based on Internet of Things. 2018 4th International

Conference on Wireless and Telematics (ICWT), 2018, pp. 1–5, doi:

1109/ICWT.2018.8527802.

Romli MA, Daud S, Kan PLE, Ahmad ZA, Mahmud S. Aquaponic growbed siphon water flow

status acquisition and control using fog server. 2017 IEEE 13th Malaysia International Conference

on Communications (MICC), 2017, pp. 224–228, doi: 10.1109/MICC.2017.8311763.

Rozie F, Syarif I, Al Rasyid MUH. Design and implementation of intelligent aquaponics monitoring

system based on IoT. 2020 International Electronics Symposium (IES), 2020, pp. 534–540, doi:

1109/IES50839.2020.9231928.