Patents by Inventor Edgars Rozentals
Edgars Rozentals has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 11572197Abstract: Stations for a drone are described as well as a monitoring system that is configured to monitor a property using one or more drones. The drone is launched from a docking station and configured to navigate the property to perform operations to monitor the property. The docking station is located at an area of the property. The docking station includes a landing surface that is parallel to a particular area of the property that supports the docking station. A positioning surface of the docking station slopes toward the landing surface. The positioning surface, including its slope, is configured to receive the drone and guide the drone toward the landing surface.Type: GrantFiled: March 16, 2020Date of Patent: February 7, 2023Assignee: Alarm.com IncorporatedInventors: Ilja Nevdahs, Agris Kipurs, Olegs Cevacins, Davids Ezers, Edgars Rozentals
-
Publication number: 20220189597Abstract: A personalized dynamic dietary supplement protocol can include: analyzing health information of a subject by processing user information through a nutritional model; identifying a health condition (improvement or homeostasis) based on the nutritional condition of the subject; generating a dietary supplement protocol for the subject; determining a dosing regimen; and providing dosage formulations to the subject in data form or as physical formulations for administration of the dosage formulations to the subject in accordance with the dosing regimen to perform the dietary supplement protocol. The dosage formulations each include a temporally-personalized dosage that is formulated with a combination of the plurality of dietary supplements to provide the subject with a personalized dietary supplement regimen that dynamically personalizes delivery of each dietary supplement in each temporally-personalized dosage in accordance with the dietary supplement protocol.Type: ApplicationFiled: December 10, 2020Publication date: June 16, 2022Inventors: Edgars Rozentals, Alehandro Georgs Blumentals, Konstantin Othmer
-
Publication number: 20220185646Abstract: A dispenser can include: an optional water source inlet; a plurality of supplement cartridges including a supplement composition; at least one dispenser fluidly coupled with the optional water source inlet and plurality of supplement cartridges; a formulation mechanism operably coupled with the optional water source inlet and supplement cartridges, wherein the formulation mechanism is configured for regulating fluid flow from the optional water source inlet and the supplement cartridges to the dispenser; an input device configured to receive input from a user; and a dispenser controller. The dispenser controller can be configured to: receive identification information from a user via the input device; obtain a supplement dosage formulation for the user based on a personalized supplement protocol; and control dispensing of water and supplement composition(s) to provide the supplement dosage formulation to the user.Type: ApplicationFiled: December 10, 2020Publication date: June 16, 2022Inventors: Edgars Rozentals, Alehandro Georgs Blumentals, Konstantin Othmer
-
Publication number: 20190122568Abstract: A method for an autonomous vehicle to follow a target may include obtaining a three dimensional virtual cable for an autonomous vehicle and obtaining a position and a velocity of a target. Additionally, the method may include obtaining a position of an autonomous vehicle and determining a calculated position of the autonomous vehicle based on the position and velocity of the target and based on the three dimensional virtual cable. The method may also include determining a velocity vector magnitude for the autonomous vehicle based on the calculated position, the position of the autonomous vehicle, and the three dimensional virtual cable. The method may further include determining a velocity vector for the autonomous vehicle based on the velocity vector magnitude and a line gravity vector. The method may also include adjusting a velocity and a direction of the autonomous vehicle based on the velocity vector.Type: ApplicationFiled: October 11, 2018Publication date: April 25, 2019Applicant: AIRDOG, INC.Inventors: Ilja Nevdahs, Agris Kipurs, Edgars Rozentals
-
Publication number: 20180088580Abstract: A method for an autonomous vehicle to follow a target is provided. The method may include obtaining a position and a velocity of a target and obtaining a position of an autonomous vehicle. The method may also include obtaining a path that encloses the position of the target and determining a path rate for the autonomous vehicle to move along the path based on the velocity of the target. The method may also include determining a path position along the path based on the position of the autonomous vehicle and determining a change in the position of the autonomous vehicle based on the path position, the path rate, and the velocity of the target. The method may also include adjusting a velocity and a direction of the autonomous vehicle to achieve the change in the position of the autonomous vehicle.Type: ApplicationFiled: September 19, 2017Publication date: March 29, 2018Inventors: Ilja Nevdahs, Janis Spogis, Nils Trapans, Edgars Rozentals, Agris Kipurs
-
Publication number: 20170322556Abstract: A method for an autonomous vehicle to follow a target is provided. The method may include obtaining a position and a velocity of a target and obtaining a position of an autonomous vehicle. The method may also include obtaining a path that encloses the position of the target and determining a path rate for the autonomous vehicle to move along the path based on the velocity of the target. The method may also include determining a path position along the path based on the position of the autonomous vehicle and determining a change in the position of the autonomous vehicle based on the path position, the path rate, and the velocity of the target. The method may also include adjusting a velocity and a direction of the autonomous vehicle to achieve the change in the position of the autonomous vehicle.Type: ApplicationFiled: August 28, 2015Publication date: November 9, 2017Inventors: Ilja Nevdahs, Janis Spogis, Nils Trapans, Edgars Rozentals, Agris Kipurs
-
Patent number: 9798324Abstract: A method for an autonomous vehicle to follow a target is provided. The method may include obtaining a position and a velocity of a target and obtaining a position of an autonomous vehicle. The method may also include obtaining a path that encloses the position of the target and determining a path rate for the autonomous vehicle to move along the path based on the velocity of the target. The method may also include determining a path position along the path based on the position of the autonomous vehicle and determining a change in the position of the autonomous vehicle based on the path position, the path rate, and the velocity of the target. The method may also include adjusting a velocity and a direction of the autonomous vehicle to achieve the change in the position of the autonomous vehicle.Type: GrantFiled: August 28, 2015Date of Patent: October 24, 2017Assignee: HELICO AEROSPACE INDUSTRIES SIAInventors: Ilja Nevdahs, Janis Spogis, Nils Trapans, Edgars Rozentals, Agris Kipurs
-
Patent number: 9690294Abstract: A method for an autonomous vehicle to follow a target is provided. The method may include obtaining a position and a velocity of a target and obtaining a position of an autonomous vehicle. The method may also include obtaining a path that encloses the position of the target and determining a path rate for the autonomous vehicle to move along the path based on the velocity of the target. The method may also include determining a path position along the path based on the position of the autonomous vehicle and determining a change in the position of the autonomous vehicle based on the path position, the path rate, and the velocity of the target. The method may also include adjusting a velocity and a direction of the autonomous vehicle to achieve the change in the position of the autonomous vehicle.Type: GrantFiled: August 28, 2015Date of Patent: June 27, 2017Assignee: HELICO AEROSPACE INDUSTRIES SIAInventors: Ilja Nevdahs, Janis Spogis, Nils Trapans, Edgars Rozentals, Agris Kipurs
-
Publication number: 20160018822Abstract: A method for an autonomous vehicle to follow a target is provided. The method may include obtaining a position and a velocity of a target and obtaining a position of an autonomous vehicle. The method may also include obtaining a path that encloses the position of the target and determining a path rate for the autonomous vehicle to move along the path based on the velocity of the target. The method may also include determining a path position along the path based on the position of the autonomous vehicle and determining a change in the position of the autonomous vehicle based on the path position, the path rate, and the velocity of the target. The method may also include adjusting a velocity and a direction of the autonomous vehicle to achieve the change in the position of the autonomous vehicle.Type: ApplicationFiled: August 28, 2015Publication date: January 21, 2016Inventors: Ilja Nevdahs, Janis Spogis, Nils Trapans, Edgars Rozentals, Agris Kipurs