JPWO2021016148A5

JPWO2021016148A5 -

Info

Publication number: JPWO2021016148A5
Application number: JP2022502866A
Authority: JP
Publication date: 2023-07-31
Anticipated expiration: 2040-07-20

Claims

an electronically transmissible source of animal data, the source of animal data comprising at least one sensor, wherein the animal data is collected from at least one target individual;
An unmanned aerial vehicle that receives the animal data from the source of animal data as a first set of received animal data, the unmanned aerial vehicle receiving one or more signals from the source of animal data to generate one or an unmanned aerial vehicle having a transceiver operable to send a plurality of control signals to the source of animal data;
a computing device operable to receive at least a portion of the received first set of animal data ;
a home station;
The home station or computing device executes a control application configured to present a first list and a second list of target individuals, the first list being one or more user-monitored selectable to select an individual, from the second list the user can select at least one sensor associated with the selected target individual, the controlling application further comprising: An unmanned aerial vehicle-based data collection and distribution system characterized by allowing a user to identify which selected sensor or sensors to operate.

3. The system of claim 1, wherein the unmanned aerial vehicle analyzes the animal data prior to transmission to the computing device, intermediate server, or third party.

3. The system of claim 1, wherein the unmanned aerial vehicle adds metadata to the animal data prior to transmission to the home station, intermediate server, or third party.

4. The system of claim 3, wherein the metadata comprises characteristics of the animal data, sources of the animal data, or sensor data.

One or more attributes can be added to the metadata (1) about the individual from whom the animal data originated, (2) about the sensor, or (3) after the animal data is collected. , or animal data associated with said animal data.

if the unmanned aerial vehicle cannot communicate with the at least one sensor, the following parameters: time, location of at least one sensor, location of one or more individuals, and location of one or more unmanned aerial vehicles. 2. The system of claim 1, wherein the unmanned aerial vehicle is programmed to automatically reconnect with the at least one sensor after a change in one or more parameters of.

2. The method of claim 1, wherein one or more communications between at least one of said sensors and said home station are transferred within a network from a transmission system of a non-manned aerial vehicle to one or more unmanned aerial vehicles, or vice versa. System as described.

A network comprising said home station, at least one sensor, and one or more unmanned aerial vehicles provides the ability to monitor one or more characteristics relating to at least one said sensor, sensor signals, and/or collected animal data. Item 1. The system according to item 1.

one or more of the following characteristics: unmanned aerial vehicle location, unmanned aerial vehicle payload, unmanned aerial vehicle bandwidth, individual location, sensor location, battery life, signal strength, environmental conditions, and signal quality 2. The system of claim 1, wherein the home station is programmed to automatically select one or more unmanned aerial vehicles to connect with the at least one sensor based on.

The home station or UAV (1) detects and monitors signal quality and/or signal strength across one or more data communication points between the at least one sensor and one or more unmanned aerial vehicles; and (2) 3. The system of claim 1, wherein one or more commands are provided to the sensor to pair with a secondary transmission source that is another unmanned aerial vehicle or non-unmanned aerial vehicle transmission system.

One or more unmanned aerial vehicles function within a single network, within multiple networks, or independently of each other, one or more home stations communicate with one or more unmanned aerial vehicles, and two or more unmanned aerial vehicles communicate with each other. The system of claim 1, wherein:

3. The system of claim 1, wherein one or more unmanned aerial vehicles are attached to other devices.

2. The system of claim 1, wherein said unmanned aerial vehicle is said home station or an intermediate server.

One or more unmanned aerial vehicles have at least one attached, mounted, or embedded sensor that captures one or more data points, the unmanned aerial vehicle: (1) transmitting animal data to a home station; and/or relay to a third party, or intermediate server; or (2) use at least a portion of the captured animal data to convert the captured sensor animal data into insights or metrics. system.

3. The system of claim 1, wherein the unmanned aerial vehicle is capable of communicating with the at least one sensor from one or more individuals using one or more wireless communication protocols.

the home station monitors one or more unmanned aerial vehicles and/or at least one of the sensors to (1) alert the home station, an intermediate server, or a third party of the following events; and/or 2. An event occurs that prompts the home station to take at least one corrective action to deliver the expected output to the home station, intermediate server, or third party. system.

A network comprising the home station, at least one sensor, and one or more unmanned aerial vehicles provides the ability to obscure data transmitted to or from the sensors, home stations, or unmanned aerial vehicles. , the system of claim 1.

2. The system of claim 1, wherein said animal data is human data.

The unmanned aerial vehicle and/or the home station are operable to assign one or more classifications to the animal data, the one or more classifications being a metric classification, an insight classification, a data property, a data immediacy classification, or a data 2. The system of claim 1, comprising contextual taxonomy.

At least one sensor is attached to, in contact with, or electrically connected to the subject's body, eye, or skeletal system, implanted in the individual, or brought into at least one target individual. , to a fiber, fabric, fabric, material, instrument, object, or device that is ingested by at least one target individual or in contact with at least one target individual directly or through one or more intermediates; 3. The system of claim 1, which is partly integrated, attached, or embedded.

The at least one sensor detects physiological data, biometric data, chemical data, biomechanical data, location data, environmental data, genetic data, genomic data, or other biological data from one or more target individuals. 21. The system of claim 20, wherein the system is a biosensor that collects targeted data.

the at least one sensor is configured to detect facial recognition data, eye tracking, bio-signals, bio-electrical signals, blood flow, blood analysis, blood pressure, body fluids, pulse, oxygen, core body temperature, skin temperature, perspiration level, location data, location coordinates; Voice data, biomechanical exercise, blood sugar level, water level, lactate level, sodium level, potassium level, heart rate, genetic information, genomic data, skeletal data, muscle activity, respiratory rate, position or acceleration in various directions, ambient temperature and at least one of, humidity, atmospheric pressure, altitude, or a combination thereof.

The computing device executes a control application that executes one or more commands on the unmanned aerial vehicle, and (1) outputs at least a portion of the collected animal data in real time or near real time to the control application, intermediate (2) selecting one or more data streams to send back to the controlling application, intermediate server, or third party system; (3) if the data is (4) converting animal data collected on said unmanned aerial vehicle from at least one sensor into machine-computed assets, one or more machine-computed assets; (5) aggregating one or more data streams from the at least one sensor to the unmanned aerial vehicle and transmitting to the controlling application, intermediate server, or third party system; (6) changing or adjusting one or more settings in at least one of said sensors; (7) performing an action on at least one of said sensors to 2. The command initiates at least one or a combination of: (8) changing or adjusting the position of the unmanned aerial vehicle; and (9) storing sensor data. The system described in .

2. The system of claim 1, wherein said unmanned aerial vehicle includes a data acquisition unit in communication with said at least one sensor.

The data acquisition unit includes a transceiver module that communicates with sensors over a two-way communication link in which a user activates and sets one or more parameters for at least one of the sensors. 25. The system of claim 24, wherein the system is capable of receiving one or more data from at least one said sensor.

26. The system of claim 25, wherein said transmitter module is operable to communicate with said home station, third parties and/or intermediate servers.

25. The system of claim 24, wherein said data acquisition unit comprises a microprocessor operable to perform one or more data processing steps.

28. The system of claim 27, wherein said data acquisition unit includes a memory module and an input/output module in electronic communication with said microprocessor.

one or more processing steps normalizing, timestamping, aggregating, storing, manipulating, enhancing, organizing, analyzing, anonymizing the animal data; 28. The system of claim 27, selected from the group comprising: , summarizing, synthesizing, bookkeeping, synchronizing, and distributing.

25. The system of claim 24, wherein said data acquisition unit includes a communication module.

The unmanned aerial vehicle is attached, mounted, or embedded with sensors utilizing facial recognition software to capture emotions from one or more targets, and the unmanned aerial vehicle uses the collected sensor data to: 3. The system of claim 1, wherein facial recognition data is correlated with collected animal data to determine an individual's stress level at any given time.

2. The system of claim 1, wherein the at least one sensor provides heart rate variability.

3. The system of claim 1, wherein the controlling application runs on the computing device, and the computing device communicates with third parties and/or intermediate servers in real time or near real time during a sporting event or activity. .

the unmanned aerial vehicle detects a health or medical condition based on the collected animal data and an alert is issued, or at least a portion of the collected animal data is transmitted from the unmanned aerial vehicle to one or more home stations, intermediate servers; , or a third party.

2. The system of claim 1, wherein the unmanned aerial vehicle is a remotely controlled or autonomous onboard computer piloted aircraft without a human on board.

3. The system of claim 1, wherein one or more unmanned aerial vehicles adjust their position or transceiver placement based on the position of at least one sensor or one or more individuals.

3. The system of claim 1, wherein one or more unmanned aerial vehicles communicate with one or more third parties, intermediate servers, home stations, or each other.

2. The system of claim 1, wherein one or more unmanned aerial vehicles perform one or more coordinated actions on at least a portion of the same data set based on one or more commands sent by the home station. .