The invention discloses a fruit fly trap comprising a flowerpot, a cover plate and flypaper, wherein the cover plate is provided with a plurality of inlets for allowing the fruit fly to enter the interior of the flowerpot, each inlet respectively extends towards a bottom direction of the flowerpot to form a lengthened inlet pipe, and the flypaper is mounted on the cover plate by a bracket. According to the invention, the fruit fly can be attracted into the interior of the flowerpot, the lengthened inlet pipe makes the fruit fly difficult to escape until death, the flypaper can stick the flying fruit fly, and the fruit fly can be effectively attracted and killed.

A Delivery System Embedded Trap Device for Attracting Female and Male Fruit Flies is disclosed in the present invention which can attract both female and male of fruit flies for an extended period of 180 days irrespective of the season thereby effectively controlling the major pest in agriculture.

Provided herein are compositions, systems, and methods for suppressing a population of insects such as flies. Some embodiments relate to compositions comprising a fermented biomass, a dye and a particulate matter. Some embodiments relate to systems and methods for use of the compositions described herein. The compositions are biodegradable, non-toxic, and environmentally friendly.

Embodiments of the present invention provides a systems and methods for pest control. The system detects one or more pests based on receiving sensor data from one or more sensors associated with a predefined location. The system analyzes the sensor data with cognitive machine learning based on the detected pests. The system generates a treatment recommendation report based on the analysis and outputs the treatment recommendation report.

A light source device for trapping indoor adult Phycitinae, which is an adult moth belonging to subfamily Phycitinae, is configured to: emit an attracting light at a predetermined photon flux density; and form a guide path by the attracting light to guide the adult Phycitinae to a vicinity of an emission end of the attracting light in a region having a photon flux density lower than the predetermined photon flux density on a side lower than a height of the emission end of the attracting light

A mosquito surveillance device includes one or more mosquito traps having a camera capable of taking images of mosquitos and transmitting the images electronically to a receiver. Suitable traps include an ovitrap, for example. Images may be transmitted from inside or outside the trap to a receiver using low bandwidth cellular phone networks. The images are processed and displayed using software forming mosquito data. The images may be analyzed and the number of live mosquitos identified, the number of dead mosquitos identified, the species of mosquitos identified, or mapped vector densities in real time identified preferably at high resolution.

An intelligent Forcipomyia taiwana monitoring and management system comprises: a catching mechanism grabbing a to-be-identified target; a database storing a datum comprising pictures of a flying insect category; a model training module using the pictures to establish a training model; an image capture module shooting an image including the target; an identifying module selecting a first segmented region including the target by using YOLO detection framework technology, extracting a first identification feature from the target, and inputting the feature into the training model for deep learning to identify a flying insect category to which the target belongs and produce an identification result; a counting module recording a number of the target into the database; and a predictive tracking module obtaining a marked object based on the result marked with the target identified in the image, and using a Monte-Carlo category algorithm to track and predict the object.

Disclosed are real-time insect surveillance sensor devices and methods that use a colorimetric readout for detecting insect disease vectors (such as mosquitoes which can transmit pathogens such as DENV, CHIKV, and ZIKV). The method involves an attractive or feeding solution combined with detector conjugates. The conjugate can specifically detect proteins present in insect saliva and/or proteins specific to mosquito-borne pathogens.

The invention refers to a Carousel-Type Insect Trap, in order to control or monitor insects through different types of bait mounted on a carousel, thus facilitating the handling of baits used in traps for the monitoring of insects, which is of great economic importance, with uniformity and consistency, thus establishing a world-wide monitoring system for plague control, which will allow us to compare capture results with no variables in the handling and placement of baits and retention substrates inside the traps.

A lid that loosely connects to the rim of a bucket and converts the bucket into an effective insect trap. To allow the lid to move atop the bucket but remain attached thereto without creating an airtight seal, insets and tabs are provided along the outer and inner sidewalls of the groove in the rim and respectively engage the bucket rim. In operation, ventilation is provided between the rim of the bucket and groove of the lid which draws insects trapped therein towards the rim of the bucket and away from funnels in the top of the lid through which they insects may enter the container. However, the groove is sized such that the space between the sidewalls and land of the groove and the rim of the bucket is too small for an insect to escape.