Methods and apparatus for decision making of system of mobile robotic vehicles
First Claim
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1. A system for rendering decisions for mobile robotic vehicles, comprising:
- a plurality of mobile robotic vehicles (MRVs); and
a plurality of squads, each squad having a lead MRV and member MRVs;
wherein initial mission parameters are transmitted to the lead MRV and the member MRVs;
wherein sensor data from the member MRVs is transmitted to the lead MRV;
wherein the sensor data is weighted by the lead MRV and ranked by priority of importance;
wherein the sensor data is further interpreted by the lead MRV by comparing it with mission parameters;
wherein the lead MRV calculates a plurality of possible simulations to meet mission goals;
wherein the lead MRV uses a plurality of methods to test the plurality of possible simulations using the sensor data and the initial mission parameters to determine the best simulation to meet the mission goals; and
wherein the lead MRV generates instructions and transmits the instructions to the member MRVs to allow the member MRVs to form an optimal geometric configuration according to the best simulation.
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Abstract
In a swarm weapon system, decision-making processes are described for the organization of mobile robotic vehicles (MRVs). After MRV drone sensor data is provided to a lead MRV, an initial decision is made by the lead MRV as a result of the selection of a winning simulation that provides the best opportunity for success of a mission. Once this decision is made, actions are organized for the MRVs, which provide feedback for the continuation of the process until the mission is completed.
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Citations
5 Claims
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1. A system for rendering decisions for mobile robotic vehicles, comprising:
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a plurality of mobile robotic vehicles (MRVs); and
a plurality of squads, each squad having a lead MRV and member MRVs;
wherein initial mission parameters are transmitted to the lead MRV and the member MRVs;
wherein sensor data from the member MRVs is transmitted to the lead MRV;
wherein the sensor data is weighted by the lead MRV and ranked by priority of importance;
wherein the sensor data is further interpreted by the lead MRV by comparing it with mission parameters;
wherein the lead MRV calculates a plurality of possible simulations to meet mission goals;
wherein the lead MRV uses a plurality of methods to test the plurality of possible simulations using the sensor data and the initial mission parameters to determine the best simulation to meet the mission goals; and
wherein the lead MRV generates instructions and transmits the instructions to the member MRVs to allow the member MRVs to form an optimal geometric configuration according to the best simulation. - View Dependent Claims (2, 3, 4, 5)
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Specification