A system measures tracking ability of a service animal using a location sensor to generate location data and a measurement unit measuring auxiliary data related to movement of the animal while tracking a known path. A computer calculates a rank metric representing a measure of similarity between animal location data from the location sensor and stored target data defining the known path. The computer also calculates an animal signature representative of a relationship between the auxiliary data and the rank metric for different instantaneous values of the rank metric. When tracking an unknown path, a confidence metric is calculated based on the animal signature and the auxiliary data collected while tracking such that the confidence metric represents a quantitative measure of the ability of the service animal to track the unknown path.

A work tool identification system for identifying the work tool attachment attached to a machine from among a plurality of interchangeable work tool attachments utilizes a data transmission device located on the work tool attachment and an electronic machine controller that may be located on the machine. The data transmission device may store work tool identification data and may measure an interval count indicative of the lapsed time since the work tool attachment was initially moved by a machine. The electronic machine controller generates and sorts a work tool identification list of the plurality of work tool attachments based on the interval count with the lowest interval count appearing before any higher interval counts that is indicative of a recently coupled work tool.

Described herein are systems and methods for monitoring an animal comprising: an electronic device configured to be implanted within an animal, the electronic device comprising: one or more sensors comprising at least one of an accelerometer, a gyroscope, or a magnetometer, the one or more sensors configured to determine location or movement information relating to the animal; a memory device configured to store the location or movement information relating to the animal; a communication interface configured to wirelessly communicate the location or movement information to an external device; and a battery device for providing power to at least one of the one or more sensors or the communication interface.

An electronic animal collar assembly for tracking, confining, and training an animal includes a collar, which is securable around a neck of an animal, such as a canine. An electronics module comprising a transceiver, a stimulator, and a receiver is engaged to the collar. The transceiver is Global Positioning System enabled. Programming code is selectively positionable on an electronic device, such as a cellphone of a user, enabling communication with and control of the electronics module to selectively track the animal, using the transceiver, and to selectively confine and correct the animal using the stimulator and one or both of the transceiver and the receiver.

A system for training a domesticated animal includes a platform having a detector for generating a signal corresponding to performance of a predetermined behavior by the animal, wherein the signal is transmitted to a controller. Upon the animal performing the predetermined behavior for a predetermined period of time, the controller generates a feedback indicator to the animal and a caretaker message to a caretaker.

A label is described for attachment to an animal. The label includes a transmitting and receiving device having an electric oscillator circuit that, upon closure of the oscillator circuit, generates a periodic electric oscillator signal with an oscillation period for transmitting an electromagnetic beacon signal with the transmitting and receiving device. The label is configured for closing the electric oscillator circuit during a predetermined transmission duration, and is further configured for opening the electric oscillator circuit upon elapse of the predetermined transmission duration, wherein the predetermined transmission duration corresponds to at least one and at least a whole number of oscillation periods of the electric oscillator signal.

The present invention discloses a livestock tracing system and method. The system includes: a feeding module, an adopting and purchasing module, a weighing module, a server, a first commutation module and a second communication module; the feeding module is configured to provide food intake information of livestock and transmit the food intake information to the server via the first communication module; the weighing module is configured to provide weight information of the livestock and transmit the weight information to the server via the second communication module; the adopting and purchasing module is configured to provide vaccine information of the livestock and transmit the vaccine information to the server; and the server is configured to store the food intake information, the weight information and the vaccine information, and obtain corresponding tracing information according to a tracing look-up instruction.

A wireless terminal includes a pressure sensor, a wireless circuit, and a case accommodating the pressure sensor and the wireless circuit in a waterproof manner, and is left inside a stomach of a livestock animal to measure pressure inside the stomach and wirelessly transmit acquired pressure data. The case includes a cylindrical case body and a lid member closing an opening of the case body. The lid member has a measurement hole extending between inside and outside of the lid member and a protection wall part located outside of the case body. The measurement hole has a pressure-receiving pressure measurement part inside for measurement of the pressure and is closed. The measurement hole includes a first linear part and a second linear part intersecting in T shape with the first linear part, and has distal ends open to an outer face of the protection wall part.

A wireless terminal includes a pressure sensor, a wireless circuit, and a case accommodating the pressure sensor and the wireless circuit in a waterproof manner, and is left inside a stomach of a livestock animal to measure pressure inside the stomach and wirelessly transmit acquired pressure data. The case includes a cylindrical case body and a lid member closing an opening of the case body. The lid member has a measurement hole extending between inside and outside of the lid member and a protection wall part located outside of the case body. The measurement hole has a pressure-receiving pressure measurement part inside for measurement of the pressure and is closed. The measurement hole includes a first linear part and a second linear part intersecting in T shape with the first linear part, and has distal ends open to an outer face of the protection wall part.

A pet management system and associated methods are configured for assisting an at least one user in caring for and training an at least one actual pet. In at least one embodiment, a central computing system is configured for receiving and processing data related to the at least one user and associated at least one actual pet. An at least one user device is under the control of the at least one user and in selective communication with the computing system. The system is configured for first teaching the at least one user how to care for and train an at least one virtual pet, configured for simulating the qualities and behaviors of the associated at least one actual pet, so as to better ensure that the user is sufficiently prepared for and capable of subsequently caring for and training the corresponding at least one actual pet, for which the system also assists in an ongoing manner.