公开(公告)号：US20240109674A1

公开(公告)日：2024-04-04

申请号：US18276043

申请日：2022-02-16

Applicant: Mitsubishi Electric Corporation

Inventor： Hisayuki MUKAE

IPC: B64G1/10 ,  F41H11/02

CPC classification number: B64G1/1028 ,  B64G1/1007 ,  B64G1/1085 ,  F41H11/02

Abstract: In a flying object coping system (1000), a surveillance ground center (311) transmits, to a communication ground center (321), an ID, time information, and position information of a surveillance satellite (100) which will transmit flying object information, an ID, time information, and position information of a surveillance satellite (100) which will receive the flying object information, and position information of a coping system (330). The communication ground center (321) is equipped with a communication route search device (470), which searches for a communication route for satellite information. The communication ground center (321) transmits directive commands to the communication satellite group of the communication system (320) based on a search result from the communication route search device (470).

公开(公告)号：US11840498B2

公开(公告)日：2023-12-12

申请号：US16953450

申请日：2020-11-20

Applicant: Skeyeon, Inc.

Inventor： Ronald E. Reedy ,  Thomas E. Schwartzentruber

IPC: C07C259/06 ,  H04B7/185 ,  G01S19/39 ,  B64G1/42 ,  B64G1/10 ,  H04B7/195 ,  B64G1/44 ,  A61P35/00 ,  G01S13/90 ,  B64G1/66

CPC classification number: C07C259/06 ,  A61P35/00 ,  B64G1/1021 ,  B64G1/425 ,  B64G1/443 ,  G01S19/39 ,  H04B7/18513 ,  H04B7/195 ,  B64G1/1028 ,  B64G1/1035 ,  B64G1/66 ,  G01S13/90

Abstract: A satellite system operates at altitudes between 180 km and 350 km relying on vehicles including an engine to counteract atmospheric drag to maintain near-constant orbit dynamics. The system operates at altitudes that are substantially lower than traditional satellites, reducing size, weight and cost of the vehicles and their constituent subsystems such as optical imagers, radars, and radio links. The system can include a large number of lower cost, mass, and altitude vehicles, enabling revisit times substantially shorter than previous satellite systems. The vehicles spend their orbit at low altitude, high atmospheric density conditions that have heretofore been virtually impossible to consider for stable orbits. Short revisit times at low altitudes enable near-real time imaging at high resolution and low cost. At such altitudes, the system has no impact on space junk issues of traditional LEO orbits, and is self-cleaning in that space junk or disabled craft will de-orbit.

公开(公告)号：US11808705B2

公开(公告)日：2023-11-07

申请号：US16721830

申请日：2019-12-19

Applicant: InnerPlant, Inc.

Inventor： Shely Aronov ,  Roderick Kumimoto ,  Nicholas Koshnick ,  Ari Kornfeld

IPC: G01N21/64 ,  A01G25/16 ,  A01G7/00 ,  G06T7/00 ,  G06V10/22 ,  B64G1/10 ,  B64D47/08

CPC classification number: G01N21/6486 ,  A01G7/00 ,  A01G25/16 ,  G01N21/6456 ,  G06T7/0012 ,  G06V10/225 ,  B64D47/08 ,  B64G1/1021 ,  B64G1/1028

Abstract: One variation of a method for identifying stressors in crops based on fluorescence of sensor plants includes: accessing a set of spectral images of a sensor plant sown in a crop, the sensor plant of a sensor plant type including a set of promoters and a set of reporters configured to signal a set of stressors present at the sensor plant, the set of promoters and set of reporters forming a set of promoter-reporter pairs; accessing a reporter model linking characteristics extracted from the set of spectral images of the sensor plant to the set of stressors based on signals generated by the set of promoter-reporter pairs in the sensor plant type; and identifying a first stressor, in the set of stressors, present at the sensor plant based on the reporter model and characteristics extracted from the set of spectral images.