The present invention relates to an intelligent rodent management system which provide efficient, reliable, and effective system which traps the rodents or animals and manages disposal process from a remote location. The intelligent rodent management system is water resistant, which can effectively catch water borne rodents as well. The bait is placed on top part of the main body and the bait station is closed with a bait cap, the smell of the bait lures the animals from the entrance of the main body. The animals enter through the main body of the device wherein the door is operated through spring loaded mechanism. The intelligent rodent management system of present invention provides a collecting, communicating and analyzing system for received information about entry of animals and the data is stored on a cloud server through electronics hardware which consist of a modem and a processor.

A rodent trap having a remote arming capability and a method of deploying a rodent trap in an unarmed state and then arming the trap after a wait period without the user having to again physically access the trap. The trap, preferably embodied as an electronic rodent trap, may be configured with wireless remote arming capability, timed arming functionality, activity based arming and the like. When in the unarmed state, the trap operates in a monitoring mode in which the trap can monitor and evaluate activity and/or interactions with the trap and can send and receive wireless communication signals.

A rodent trap having a remote arming capability and a method of deploying a rodent trap in an unarmed state and then arming the trap after a wait period without the user having to again physically access the trap. The trap, preferably embodied as an electronic rodent trap, may be configured with wireless remote arming capability, timed arming functionality, activity based arming and the like. When in the unarmed state, the trap operates in a monitoring mode in which the trap can monitor and evaluate activity and/or interactions with the trap and can send and receive wireless communication signals.

The present disclosure relates to devices for controlling pests, and, more specifically, to devices for monitoring and communicating the presence of pests, and eliminating pests. The pest control system comprises a frame configured to be removably positioned in a pest control station, a panel pivotally coupled to the frame, and pest control device positioned in the frame.

An electronic rodent trap is provided that includes a microprocessor and a resistive sensor coupled to a high voltage killing circuit and to a wash down sensor. Upon detecting a resistance, the resistive sensor sends a detection signal to the microprocessor. The microprocessor activates the wash down sensor to determine whether the resistance is above a threshold value and/or shows variation characteristics consistent with the presence of a rodent and thus warranting activation of the killing circuit. Resistance that is below the threshold indicates the presence of water such that the killing circuit is not activated and false triggering of the electronic rodent trap is prevented. Animal traps and monitoring stations incorporating a wash down sensor for pest detection but without killing mechanisms are also provided.

An electronic rodent trap is provided that includes a microprocessor and a resistive sensor coupled to a high voltage killing circuit and to a wash down sensor. Upon detecting a resistance, the resistive sensor sends a detection signal to the microprocessor. The microprocessor activates the wash down sensor to determine whether the resistance is above a threshold value and/or shows variation characteristics consistent with the presence of a rodent and thus warranting activation of the killing circuit. Resistance that is below the threshold indicates the presence of water such that the killing circuit is not activated and false triggering of the electronic rodent trap is prevented. Animal traps and monitoring stations incorporating a wash down sensor for pest detection but without killing mechanisms are also provided.

In some examples, a trap to electrocute a pest may include a logic board. The logic board may create an open circuit using two electrical contacts in touch with two conductive plates in a container located in the trap. A pest entering the container may touch the two conductive plates, causing the circuit to close. Based on determining that the circuit was closed, the logic board may determine that a pest entered the trap. The logic board may cause a shutter inside the trap to move from an approximately horizontal position to an approximately vertical position, thereby causing a portion of a door of the container to close by causing two latch strikes of the door to engage with the two jaws of the container. The circuit may send a wireless notification message, indicating that the pest was captured in the container, over a wireless network to a computing device.

In some examples, a trap to electrocute a pest may include a logic board. The logic board may create an open circuit using two electrical contacts in touch with two conductive plates in a container located in the trap. A pest entering the container may touch the two conductive plates, causing the circuit to close. Based on determining that the circuit was closed, the logic board may determine that a pest entered the trap. The logic board may cause a shutter inside the trap to move from an approximately horizontal position to an approximately vertical position, thereby causing a portion of a door of the container to close by causing two latch strikes of the door to engage with the two jaws of the container. The circuit may send a wireless notification message, indicating that the pest was captured in the container, over a wireless network to a computing device.

The disclosure relates to an apparatus and a system for testing the cognitive ability of a rodent, comprising a testing chamber, a retarding zone connected to the entrance chamber and including at least one obstacle configured to slow down the rodent's movement to the entrance chamber, and an optional transfer chamber connected to the entrance chamber via the retarding zone for transfer of the rodent to and from an area external to the apparatus. The testing chamber comprises an entrance chamber, a plurality of corridors each connected to the entrance chamber via a corridor's first end portion, and at least one odor diffuser for diffusing odors in the plurality of corridors.

The disclosure relates to an apparatus and a system for testing the cognitive ability of a rodent, comprising a testing chamber, a retarding zone connected to the entrance chamber and including at least one obstacle configured to slow down the rodent's movement to the entrance chamber, and an optional transfer chamber connected to the entrance chamber via the retarding zone for transfer of the rodent to and from an area external to the apparatus. The testing chamber comprises an entrance chamber, a plurality of corridors each connected to the entrance chamber via a corridor's first end portion, and at least one odor diffuser for diffusing odors in the plurality of corridors.