An animal trap stabilizing system includes a body trap having a pair of jaws, a trigger engaging the jaws, and a torsion spring being attached to the jaws. The torsion spring is engaged with a plate. The plate has a top side, a bottom side, a first edge, a second edge, a third edge, and a fourth edge. The torsion spring includes a plurality of loops. The loops are attached to the plate such that arms of the torsion spring extend away from the fourth edge. The third edge is positioned on a ground surface such that an animal receiving orifice of the body trap is vertically orientated.

Methods are proposed to define UE behavior for performing synchronization signal block (SSB) based radio link monitoring (RLM) and channel state information reference signal (CSI-RS) based RLM. In a first novel aspect, if CSI-RS based RLM-RS is not QCLed to any CORESET, then UE determines that CSI-RS RLM configuration is error and does not perform RLM accordingly. In a second novel aspect, SSB for RLM and RLM CSI-RS resources are configured with different numerologies. UE perform SSB based RLM and CSI-RS based RLM based on whether the SSB and CSI-RS resources are TDMed configured by the network. In a third novel aspect, when multiple SMTC configurations are configured to UE, UE determines an SMTC period and whether SMTC and RLM-RS are overlapped for the purpose of RLM evaluation period determination.

The present disclosure relates to a system for managing and monitoring a sensor network that senses pest activity. A plurality of sensor stations may be controlled by the system, such sensor station configured for detecting the presence of pests at a baiting station, or for alerting users to the presence of a pest in a trap, as well as a related system of data collection and data management of pest activity data.

An animal monitoring station comprises a housing, a bait receptacle, a camera, a scale, and a grid. The housing comprises a chamber; and at least one port configured to allow an animal: free ingress to the chamber; and free egress to the chamber. The bait receptacle is disposed inside the chamber. The camera is disposed in the chamber. The scale is disposed in a field of view of the camera. A grid is disposed in the field of view.

This disclosure describes devices, systems, and methods associated with pest (e.g., rodent) management. An example of a pest-management apparatus includes a detector device having a housing, a magnetic switch coupled to the housing, and circuitry disposed within a cavity of the housing. The detector device is configured to be coupled to a trap having a base and a capture element pivotally coupled to the base such a portion of the capture element is biased toward a capture portion of the base. The circuitry is configured to detect operation of the trap based on a change in state of the magnetic switch responsive to a magnet coupled to the trap. In a particular implementation, the detector device is coupled to the trap via a platform. In another particular implementation, the detector device includes multiple magnetic switches and is configured to concurrently be coupled to multiple traps.

A rodent bait station has an electronic sensor module protected within a sealed receptacle beneath a tray bottom wall. A threshold is defined by walls on the upper side of the tray. A rodent must pass over the threshold to reading a feeding portion of the tray which supports rodent bait. The sensor module has a capacitance sensor urged against the bottom wall of the tray and which detects the passing of a rodent into the feeding area. The incidence of the rodent is logged and made available to a device exterior of the tray.

Methods of evaluating animal activity relating to wildlife areas are disclosed that include running a digital classification routine to recognize particular species in a series of images. From those images data records are developed having the ability to identify timing information, the species, the location, celestial characteristics and atmospheric characteristics. The data records are analyzed to establish correlations between various associated features and the presence of the particular species. Data associated with future celestial characteristics and atmospheric characteristics is obtained and estimated probabilities of future appearances of the particular species are calculated and provided.

An automated system for mitigating risk from a wind turbine includes a plurality of optical imaging sensors. A controller receives and analyzes images from the optical imaging sensors to automatically send a signal to curtail operation of the wind turbine to a predetermined risk mitigating level when the controller determines from images received from the optical imaging sensors that an airborne animal is at risk from the wind turbine.

A method, system and computer program product includes identifying a presence of a problem with one or more items in transport using cognitive analytics and information received from at least one sensing device. In response to the identifying, storing an identification of the presence of the problem in a block chain ledger by a secure and validated feed having an indexed encryption identifying the sensing device, and recommending a remediation action to fix the problem with the one or more items.

An animal trap includes an outer member, an inner member, a resilient member, a bottom portion, and a trigger. The outer member has a first lower end and a first upper end, and defines a first cavity. The inner member has a second lower end and a second upper end, and defines a second cavity. At least a portion of the inner member is positioned within the first cavity of the outer member. The inner member is slidably repositionable relative to the outer member between a cocked position and a deployed position. The resilient member is positioned to bias the inner member into the deployed position. The bottom portion is coupled to the first lower end of the outer member. At least one of the bottom portion and the first lower end of the outer member define a passage. The trigger assembly is positioned to selectively hold the inner member in the cocked position.