A system for detecting the presence of pests, the system comprising: at least one remote camera system, each of the at least one remote camera system comprising an image capture device coupled to a processor and a wireless transmitter, each of the at least one remote camera system having a pest detection surface and being configured to: capture one or more image of the pest detection surface; process the captured one or more image to recognise the potential presence of a target pest on the pest detection surface; and transmit data from the captured one or more image in response to recognising the potential presence of one or more target pests; and a server configured to: receive the transmitted data; process the transmitted data to verify the potential presence of the target pest on the pest detection surface; and provide an output indicating the verification.

A system/method for producing a substance attractive to one or more species of insect characterised by: housing a population of live insects; providing any combination of nutrients, food or water to the live insects; removing organic matter from the population; and sterilizing the removed organic matter.

A pest detection system comprising at least one of a temperature component, an odor component, or a respiration imitation component. The temperature component can be configured to radiate heat such that a select temperature is reached. The odor component can be configured to emit a select odor. The respiration imitation component can be configured to imitate a portion of a human breathing pattern. The pest detection system further comprises housing that retains a portion of the at least one of the temperature component, the odor component, or the respiration imitation component. The pest detection system additionally comprises a control system for controlling the at least one of the temperature component, the odor component, or the respiration imitation component. The pest detection system yet further comprises a trapping component. The trapping component can be configured to capture a pest.

Methods and systems for estimating a distance to an object are described. In an example, a device can receive a reflected signal of a modulated signal being used in a wireless transmission of data. The reflected signal can be a reflection of the modulated signal from at least one object. The device can estimate a distance to the at least one object based on the modulated signal and the reflected signal. Further, the device can use the estimated distance to image a scenery including the at least one object.

A delivery device and system to supplement CO.sub.2 in an underwater environment without the need for electricity or the use of compressed CO.sub.2. The device consists of a container containing a biological organism such as mycelium and including an exit portal for CO.sub.2 to enter the underwater environment. The device may also incorporate a separation device to delay and control the flow of CO.sub.2. The system requires the device to be held in place through a securing point in the underwater environment. The minimum requirements for the device are described, but in certain instances it will be preferably used with a double-bag or an outer shell housing to protect or aesthetically conceal the placement underwater. The use of this device and system to supplement carbon dioxide in water will span many industries and applications. It will assist with mosquito trapping. It will also supplement CO.sub.2 in underwater growing environments.

A device for controlling at least one insect bait station, in particular for insects harmful to humans, animals and plants, in which the bait station is provided with: at least one container provided with an insect entrance opening, the container containing bait and being at least partially transparent or translucent, a lighting device lighting the inside of the container but located outside same, a telecommunication module and a printed circuit comprising, inter alia, a memory and a processor connected to said telecommunication means. The device comprises an optical sensor essentially opposite the lighting device, and connected to the printed circuit, which measures the general opacity caused by the insect(s) in the container, the corresponding value being transmitted for processing and analysis of the status of the bait station.

The invention relates to methods of trapping a pest, said method comprising providing ferromagnetic particles for ingestion by the pest, and trapping the pest using one or more magnets, wherein a trapped pest has ingested and internally accumulated an amount of the ferromagnetic particles sufficient to permit immobilization of the pest using said one or more magnets. Devices for use with the methods of the instant invention are also disclosed.

A device for trapping damaging flying insects, including a device for diffusing an attractive gaseous cocktail, of which the composition is suitable for attracting insects, a suctioning device having an orifice for suctioning an air flow containing the insects attracted by the attractive cocktail diffused, a trap arranged with the suctioning device, and a chassis containing a gas source, which gas is a component of the attractive gaseous cocktail, where the optical insect counter includes a series of parallel deflectors installed through the suctioning orifice, a luminous barrier composed of a light transmitter and a light receiver being installed in each interval between said deflectors.

A universal insect trap having multiple points of entry is described being capable of capturing various types and sizes of insects. The universal insect trap may be used to capture and preserve target species such that genomes can be analyzed for specimens, which is beneficial in determining infection rates, strains of a vector or a pathogen, identifying associated microorganisms, determining or monitoring natural enemies, etc. The universal insect trap can include a base having a cone-shaped body, where the base includes a sloped surface. Further, the universal insect trap can include a dome portion and a trap portion. The trap portion can include an annular ring, a mounting portion, a vial, and an aggregation pheromone positioned in the trap portion, where the aggregation pheromone is one that emits a predetermined amount of pheromones over time to attract at least one predetermined type of insect.

The invention relates to an insect trapping device (100) comprising: a housing (110) having an opening (120) through which insects (I) can enter the housing; trapping means (130) for trapping insects within the housing; an attractant source (170) and regulating means for regulating a flow of an attractant (160) into the housing; propelling means (150) for evacuating at least a portion of the attractant from within the housing through the opening; control means communicatively coupled with the regulating means and propelling means; wherein the control means is configured to activate the propelling means once a threshold volume of attractant has accumulated within housing. Also disclosed is a method for of trapping insects. Advantageously, the present invention can effectively, consistently and quietly control the release of the attractant, where the attractant remains in the housing until the propelling means sends it through the opening, allowing the attractant to accumulate to a specified level in the housing and to be dispersed efficiently creating an effective lure for insects to follow into the traps.