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.

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.

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.

An insect trap having a base portion, which has a lighting element and a housing portion, and a trap portion. The trap portion has a frame and a membrane, which has an adhesive surface, is at least partially contained within the frame, and is configured to adhere to an insect. The housing portion is configured to receive and retain the trap portion when engaged therewith.

An insect trap having a base portion, which has a lighting element and a housing portion, and a trap portion. The trap portion has a frame and a membrane, which has an adhesive surface, is at least partially contained within the frame, and is configured to adhere to an insect. The housing portion is configured to receive and retain the trap portion when engaged therewith.

The present invention relates to a trap (10) for bed bugs (2) comprising an inner element (20) having an outer surface (24) delimited by a first base (22) and a first top (26), and an outer element (80) being hollow and having a second base (86) and a second top (88) delimiting an inner surface (84). The outer element is positioned around the inner element with the second top adjacent the first top and the second base adjacent the first base, whereby a tapering space (12), tapering towards the first top, is defined between the outer surface of the inner element and the inner surface of the outer element. The tapering space is accessible to bed bugs crawling on the outer surface of the inner element through a base opening defined between the outer surface of the inner element and the second base. An adhesive (6) is provided on at least part of the inner surface of the outer element for adhering to the dorsal side (4) of a bed bug crawling on the outer surface of the inner element. The invention further relates to a method of detecting and/or trapping bed bugs.

A method for detecting an arthropod, the method being performed using an apparatus including a detection surface, an electrode grid including electrodes arranged relative to the detection surface, and an electronic processing device, wherein the method includes, in the electronic processing device: measuring changes in electrical properties of the electrode grid in response to at least one of movement and positioning of one or more body parts of an arthropod in proximity to the detection surface; and, determining whether the arthropod is of a particular arthropod type by analysing the changes to determine whether the changes are indicative of a characteristic behaviour of the particular arthropod type.

A method for detecting an arthropod, the method being performed using an apparatus including a detection surface, an electrode grid including electrodes arranged relative to the detection surface, and an electronic processing device, wherein the method includes, in the electronic processing device: measuring changes in electrical properties of the electrode grid in response to at least one of movement and positioning of one or more body parts of an arthropod in proximity to the detection surface; and, determining whether the arthropod is of a particular arthropod type by analysing the changes to determine whether the changes are indicative of a characteristic behaviour of the particular arthropod type.