A remote notification electronic rodent trapping system and method is provided having a plurality of rearming electronic rodent trapping devices configured to wirelessly communicate trap information to a base station that is in communication with a cloud server. When a trap is activated by a rodent trigger it changes from a set state to a kill alert state and initiates a killing cycle. The trap waits a first time period and then sends a notification signal to the base station of trap activation which the base station forwards to the cloud server. The cloud server waits a second predetermined time period before sending a pushed notification to a remote user of the trap's kill alert state. If the trap rearms prior to expiration of the second time period, it alerts the base station which notifies the cloud server. The cloud server updates trap status to the set state and does not send a notification to the user.

An electronic rodent trap and monitoring method is provided. Each trap has at least one entrance, and preferably two entrances in opposed relation hip to create a longitudinal tunnel, with a pair of lower plates extending longitudinally and oriented in spaced substantially parallel relationship, and a triggering element, such as a third plate, positioned above the lower plates, and preferably adjacent the ceiling of the trap on a center baffle that also shields a bait cup. The trap is activated when the rodent, with its left and right feet on the parallel lower plates, which are preferably raised above the floor, contacts the triggering element on the center baffle. The trap is preferably modular in design with an electronics module and a tunnel module removably secured within and protected by an outer housing. The trap also has improved features for more accurate remote monitoring of rodent dispatch and kill verification including long range monitoring capability.

An electronic rodent trap and monitoring method is provided. Each trap has at least one entrance, and preferably two entrances in opposed relation hip to create a longitudinal tunnel, with a pair of lower plates extending longitudinally and oriented in spaced substantially parallel relationship, and a triggering element, such as a third plate, positioned above the lower plates, and preferably adjacent the ceiling of the trap on a center baffle that also shields a bait cup. The trap is activated when the rodent, with its left and right feet on the parallel lower plates, which are preferably raised above the floor, contacts the triggering element on the center baffle. The trap is preferably modular in design with an electronics module and a tunnel module removably secured within and protected by an outer housing. The trap also has improved features for more accurate remote monitoring of rodent dispatch and kill verification including long range monitoring capability.

This disclosure describes devices, systems, and methods associated with pest (e.g., rodent) management. An example of monitoring device for a pest-management station includes a base station having a plurality of sensors configured to couple to a pest station and a secondary station removably coupled to the base station and having a camera configured to capture image data. The monitoring device further includes a transceiver configured to wirelessly transmit data, a memory, and a processor coupled to the memory, the processor configured to activate the camera based on sensor data from one or more sensors of the plurality of sensors. Bait stations, servers, and corresponding methods are also described.

An electronic rodent trap and monitoring method is provided. Each trap has at least one entrance, and preferably two entrances in opposed relationship to create a longitudinal tunnel, with a pair of lower plates extending longitudinally and oriented in spaced substantially parallel relationship, and a triggering element, such as a third plate, positioned above the lower plates, and preferably adjacent the ceiling of the trap on a center baffle that also shields a bait cup. The trap is activated when the rodent, with its left and right feet on the parallel lower plates, which are preferably raised above the floor, contacts the triggering element on the center baffle. The trap is preferably modular in design with an electronics module and a tunnel module removably secured within and protected by an outer housing. The trap also has improved features for more accurate remote monitoring of rodent dispatch and kill verification.

An electronic rodent trap and monitoring method is provided. Each trap has at least one entrance, and preferably two entrances in opposed relationship to create a longitudinal tunnel, with a pair of lower plates extending longitudinally and oriented in spaced substantially parallel relationship, and a triggering element, such as a third plate, positioned above the lower plates, and preferably adjacent the ceiling of the trap on a center baffle that also shields a bait cup. The trap is activated when the rodent, with its left and right feet on the parallel lower plates, which are preferably raised above the floor, contacts the triggering element on the center baffle. The trap is preferably modular in design with an electronics module and a tunnel module removably secured within and protected by an outer housing. The trap also has improved features for more accurate remote monitoring of rodent dispatch and kill verification.

The present invention includes an automated animal euthanization device for the destruction of an animal comprising: a housing having an housing opening to allow access to an interior cavity; a perch having a first perch end that extends into the interior cavity and a second perch end that extends through the housing opening and configured to accommodate the animal; a feed container position about the first perch end to provide food for the animal; an electrode set extending into the housing opening to contact the bird as it is positioned to eat the food; a camera position in the interior cavity to take a target image of the animal; a control unit connected to the camera to receive the target image and compare the target image to a set of reference images; a power supply connected to the control unit, the electrode set, and the camera to provide power for the operation thereof; and a container positioned below the perch to collect the animal falling from the perch.

The present invention includes an automated animal euthanization device for the destruction of an animal comprising: a housing having an housing opening to allow access to an interior cavity; a perch having a first perch end that extends into the interior cavity and a second perch end that extends through the housing opening and configured to accommodate the animal; a feed container position about the first perch end to provide food for the animal; an electrode set extending into the housing opening to contact the bird as it is positioned to eat the food; a camera position in the interior cavity to take a target image of the animal; a control unit connected to the camera to receive the target image and compare the target image to a set of reference images; a power supply connected to the control unit, the electrode set, and the camera to provide power for the operation thereof; and a container positioned below the perch to collect the animal falling from the perch.

A circuit and method for boosting the voltage input to the gate of a MOSFET switch used in an electronic rodent trap is provided. By boosting the voltage to the gate, the MOSFET can be fully turned on to activate an effective killing cycle in the electronic rodent trap even when the trap's battery voltage has dropped to a level that would otherwise be insufficient to fully activate the MOSFET.

A circuit and method for boosting the voltage input to the gate of a MOSFET switch used in an electronic rodent trap is provided. By boosting the voltage to the gate, the MOSFET can be fully turned on to activate an effective killing cycle in the electronic rodent trap even when the trap's battery voltage has dropped to a level that would otherwise be insufficient to fully activate the MOSFET.