Arduino-based henhouse breeding environment monitoring system and method

Abstract

The invention discloses an Arduino-based henhouse breeding environment monitoring system and monitoring method. The system comprises an Arduino UNO microcontroller, a temperature and humidity sensor, a harmful gas detection module and a remote monitoring system, the Arduino UNO microcontroller is connected with the temperature and humidity sensor and the harmful gas detection module and is used for collecting environmental parameters in a henhouse and transmitting the environmental parameters to the remote monitoring system in real time through a WiFi module, thereby realizing remote real-time monitoring. The system can add harmful gas detection on the basis of completing a traditional temperature measurement process, so that farmers and technical staff know the environment in the henhouse more accurately, thereby facilitating improvement of the dressing percentage (or the laying rate) of poultries through artificial regulation of the henhouse environment, and increasing breeding benefits.

Description

technical field [0001] The invention belongs to the technical field of agricultural engineering, and in particular relates to an Arduino-based chicken house breeding environment monitoring system and method. Background technique [0002] Chicken house farming occupies an important position in the poultry farming industry, and the environment in the shed directly affects the growth of poultry. For example, in the broiler chicken breeding process, the chicken house is close to a closed environmental system, and factors such as temperature, humidity, air flow, and harmful gas concentration in the environment play a vital role in the growth of broiler chickens. With the advancement of science and technology and the rapid development of large-scale aquaculture, relying on traditional techniques and artificially controlling the environmental index can no longer meet the requirements of modern production and life for the aquaculture industry. The transformation of the direction of...

AI Technical Summary

Problems solved by technology

With the advancement of science and technology and the rapid development of large-scale aquaculture, relying on traditional techniques and artificially controlling the environmental index can no longer meet the requirements of modern production and life for the aquaculture industry. The transformation of the direction of the information-based aquaculture industry,

[0003] In recent years, a large number of experts and scholars have conducted research on the chicken house breeding environment. Although these studies have made significant progress, they all focus on the monitoring and adjustment of the ambient temperature, and cannot systematically reflect the dynamic changes of various factors in the chicken house environment. The impact on poultry growth, the traditional chicken house temperature monitoring system has a single function, long temperature measurement cycle, requires a lot of manpower support, and once a failure occurs, the entire system needs to be repaired, which is inefficient and cannot meet the development requirements of modern productivity

Images