Feeder monitor and feeder monitoring network
First Claim
1. An animal monitoring system comprising:
- a plurality of cage controllers, each cage controller having a respective processor and a storage device coupled to the processor, each cage controller receiving and storing sensor data from a sensor that collects sensor data from a respective animal specimen, each cage controller calculating statistics from the sensor data; and
a local host computer to which each of the plurality of cage controllers is coupled, the local host computer being capable of issuing commands to each of the cage controllers to control collection of the sensor data.
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Accused Products
Abstract
An animal feeder has a hopper for storing pieces of food. The bottom of the hopper has an opening accessible by an animal. The opening is smaller than a piece of food, but large enough for the animal to gnaw the food through the opening. The hopper has a surface adjacent the opening, to receive fallen gnawed food and hold the fallen gnawed food in a position accessible by the animal for eating. The hopper engages a mounting bracket. The bracket is directly attachable to the animal'"'"'s cage. The bracket has a lip which partially covers the receiving surface of the hopper to physically limit the animal from leaning on the hopper and to prevent the hopper from tipping back so far that it falls off the conical mount. A conical bottom surface is attached to the hopper. The conical bottom surface seats on a conical mount. The conical mount transmits a downward force from the conical bottom surface to a sensor, but does not transmit an upward force or moment to the sensor. The average weight of the hopper and the variance or standard deviation of the sensor output signal are calculated by an embedded processor, based on the output of the sensor. The beginning and end of a feeding are determined based on the standard deviation. The amount of the food consumed by the animal during the feeding is calculated. Each feeder has a respective gate. The animal can access food when the gate is open, but not when the gate is closed. A plurality of actuators automatically open and close each gate in response to control signals. A plurality of animals, each in an individual cage with a separate hopper, are simultaneously monitored and data are periodically accessed by a host computer.
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Citations
12 Claims
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1. An animal monitoring system comprising:
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a plurality of cage controllers, each cage controller having a respective processor and a storage device coupled to the processor, each cage controller receiving and storing sensor data from a sensor that collects sensor data from a respective animal specimen, each cage controller calculating statistics from the sensor data; and
a local host computer to which each of the plurality of cage controllers is coupled, the local host computer being capable of issuing commands to each of the cage controllers to control collection of the sensor data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
a program memory for storing programs;
a main memory for storing data being used by the processor; and
a non-volatile memory for storing sensor data and calculated data.
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6. The animal monitoring system of claim 5, wherein:
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the processor is a microcontroller;
the program memory is an electrically erasable programmable read only memory; and
the at least one cage controller further comprises;
an analog-to-digital converter for converting a raw sensor signal to digital sensor data that are processed by the microcontroller, and an RS-485 interface that allows the microcontroller to communicate with the local host computer.
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7. The animal monitoring system of claim 1, wherein the processors generate and transmit control signals to respective actuators.
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8. The animal monitoring system of claim 1, further comprising a plurality of actuators, the actuators receiving control signals from the respective processor, the actuators capable of automatically opening and closing a gate in response to the control signals.
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9. The animal monitoring system of claim 8, wherein the processor generates and transmits control signals to a first one of the actuators to provide a first animal access to food, either:
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(a) until a length of time passes, which is equal to a duration of a feeding by a specific second animal;
or(b) until the first animal removes as much food from a feeder as is removed by the second animal;
or(c) until the earlier of (a) or (b) occurs.
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10. The animal monitoring system of claim 8, wherein the processor generates and transmits the control signals to control food access based on any of the group consisting of:
- time of day, meal length, meal size, cumulative food intake from a previous point in time, light, animal activity, noise, temperature, consumption parameters, or other user defined variables.
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11. An animal monitoring system comprising:
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a plurality of cage controllers, each cage controller having a respective processor and a storage device coupled to the processor, each cage controller receiving and storing sensor data from a sensor that collects sensor data from a respective animal specimen, each cage controller calculating statistics from the sensor data; and
a local host computer to which each of the plurality of cage controllers is coupled, the local host computer being capable of issuing commands to each of the cage controllers to control collection of the sensor data, wherein each cage controller stores in the respective storage device thereof computer program code that causes the processor thereof to calculate statistics that include a variance or standard deviation or a first or second derivative from the sensor data, and causes the processor to identify animal activity based on the calculated statistics. - View Dependent Claims (12)
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Specification