A system and method applicable for determining the positions of radio tags based on triangulation and respective radio tag signals transmitted from each radio tag, where each of a set of base stations is configured to transmit a radio base signal including an identifier that uniquely identifies the base station, and other base stations of the set of base stations receive the radio base signal and forward received base station messages to a central control unit which determines a position for any added base station using triangulation and known positions for base stations already included in the system, in order to facilitate expanding the number of base stations in the system.

Injectable biophotonic sensors, systems relating to biophotonic sensors, and methods of using the injectable biophotonic sensors and systems are described. Methods and devices for delivering injectable biophotonic sensors to a subject are described. In an embodiment, an injectable biophotonic sensor comprises a printed circuit board (PCB); a light source; a first sensing element; a second sensing element; a receiver device or a induction coil; and an outer casing, wherein the first sensing element, the second sensing element, and the receiver device or the receiver induction coil are coupled to the PCB.

A smart collar to be worn by an animal includes an imaging device configured to capture a plurality of images, and a microprocessor in communication with the imaging device to receive the plurality of captured images in real-time. The microprocessor is configured to perform at least one action selected from the group consisting of: analyze the plurality of captured images, compare the plurality of captured images with stored images, recognize at least one of a person, an animal, and an object depicted in at least one of the plurality of images, identify a behavior of the animal, issue a corrective action, issue an approving action, and issue an alert to a user.

Disclosed is a method for realizing batch-based traceability for pork based on a QR code. Based on the QR code, user information is added to a web address carried by the QR code to realize the traceability for the pork. The method includes: 1) registering basic information of pigs in breeding and brokering processes; 2) printing an initial traceability QR code of a carcass in a slaughtering process; 3) adding user information to the initial traceability QR code in a selling process, and updating the user information to the traceability system; and 4) scanning the traceability QR code to recall data of the traceability system in a catering process to achieve transparent information. The pork and pork products are traced from production process to the selling process.

A system and method for automatically matching a sensor device attached to an animal with an ID tag attached to the animal, wherein a handheld reader device triggers transmission of sensor device information from the sensor device and triggers transmission of ID information from the ID tag, and a monitoring device, in communication with the handheld reader device, is configured to determine and record that the ID tag and the sensor device are attached to a same animal based on time information associated with both the ID information transmitted from the ID tag and the sensor device information transmitted from the sensor device.

A detector for detecting a signal from one or more feeders. A processor is in communication with the can be configured with an artificial intelligence module and a library of pre-recorded action events and for comparing the signal with the library of pre-recorded action events and determining a likely action event. A warning device can be in communication with the processor for providing an output in response to the likely action event. At least one false positive sensor in communication with either the processor or the warning device or both of the processor and the warning device can be used for stopping the output from the warning device upon a predetermined condition.

A pet door is described herein comprising a motor for locking and unlocking a pet flap of a pet door, wherein the pet flap is rotatably attached to an upper portion of the pet door. The pet door includes a first motion detector for monitoring movement in a first detection region and a second motion detector for monitoring movement in a second detection region, wherein the pet flap of the pet door occupies a plane separating the first detection region from the second detection region when the pet flap is in a locked position. One or more applications running on at least one processor of the pet door are configured to receive a first motion signal from the first motion detector indicating movement of a pet in the first detection region, the receiving the first motion signal including activating an access sequence controlling ingress or egress of a pet.

Methods and apparatus for milking a milk-producing animal, in particular a cow, that set a target milk quantity which is lower than a possible expected milk quantity, carry out the milking process, determine the milked quantity and compares the milked quantity with the target milk quantity, and terminate milking when the milked quantity corresponds substantially to the target milk quantity.

Techniques for monitoring the individual feed and water intake and pharmaceutical use and unmetabolized residual alerting in the livestock industry. Livestock have sensors installed on or in their bodies to detect consumption of feed and water for each animal in an environment where multiple animals are present. Sensors communicate data regarding the duration and timing of individual animals feeding habits. Health and efficiency status data is recorded per animal and analyzed to determine whether to issue an alert indicating problems with individual animals. The system tracks the health and efficiency data for each animal, pen or farm and generates statistical information regarding the sensor data. The system communicates with user interface to display notifications and statistical data. In addition, the pharmaceutical monitoring system alerts when any unmetabolized residual pharmaceuticals are still in the animals when the animal is being readied for shipping to a packing plant.

Optical remote sensing systems for quantifying aerial or aquatic fauna with respect to number of living organisms, such as animals, such as insects, birds, bats or aquatic organisms, and to biological specificity.