A universal test port is connected to the different functional sub-systems of a spacecraft, allowing the sub-systems to be tested from a single location of an assembled spacecraft. The universal test port is mounted on an external surface of the spacecraft and configured to connect to the different functional sub-systems (such as power, propulsion, and command and data handling, for example) of the assembled spacecraft, allowing for the streamlining of testing operations by electrical ground system equipment during assembly, integration, and test (AIT) operations and reducing the risk of collateral damage to spacecraft hardware during testing in AIT.

Systems and methods are provided for calculating satellite access windows for a constellation of imaging satellites. In some implementations, systems and methods are provided for managing execution of native programs on high performance computing systems.

Provided are a method and apparatus for controlling remote sensing satellites for multiple terminals and a readable storage medium. The method includes: receiving a remote sensing satellite control request sent from a terminal device by a server; calculating, by the server, an orbit of target remote sensing satellite corresponding to each remote sensing satellite control request, and judging whether the orbit of the target remote sensing satellite covers the target location in the remote sensing satellite control request corresponding to the target remote sensing satellite; if yes, determining the remote sensing satellite control request as a valid remote sensing satellite control request and controlling the target remote sensing satellite corresponding to the remote sensing satellite control request to perform a photographing task by the server; and if no, determining the remote sensing satellite control request as an invalid remote sensing satellite control request by the server.

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.

Provided are a method and apparatus for controlling remote sensing satellites for multiple terminals and a readable storage medium. The method includes: receiving a remote sensing satellite control request sent from a terminal device by a server; calculating, by the server, an orbit of target remote sensing satellite corresponding to each remote sensing satellite control request, and judging whether the orbit of the target remote sensing satellite covers the target location in the remote sensing satellite control request corresponding to the target remote sensing satellite; if yes, determining the remote sensing satellite control request as a valid remote sensing satellite control request and controlling the target remote sensing satellite corresponding to the remote sensing satellite control request to perform a photographing task by the server; and if no, determining the remote sensing satellite control request as an invalid remote sensing satellite control request by the server.

One variation of a method includes accessing an image of a plant canopy in an environment inhabited by: a population of microbe sensors of a microbe type including a microbe promoter-reporter pair configured to generate microbe-reporter signals representing presence of a stressor in the environment; and a set of sensor plants of a sensor plant type including a plant promoter-reporter pair configured to signal presence of microbe-reporter signals at the set of sensor plants. The method further includes: accessing a reporter model linking features extracted from images of sensor plants of the sensor plant type to pressures of the set of stressors based on plant-reporter signals generated by the plant promoter-reporter pair and microbe types of microbe sensors inhabiting the environment; and interpreting a pressure of the stressor in the environment based on the reporter model, the microbe type, and features extracted from the image.

A method (110) for monitoring at least one aquaculture pond (112) is proposed. The method (110) comprises: a) monitoring at least one aerial parameter of use of the at least one aquaculture pond (112); b) determining a temporal development of the aerial parameter of use; and c) determining an intensity of use of the aquaculture pond (112) by using the temporal development of the aerial parameter of use.

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.

Systems and methods are provided for color-enhancing satellite data in a manner that is specific to the true color ocean signal, i.e., the light that is emanating from the ocean surface. These color enhanced images, in turn, can be used as a scientific research and monitoring tool for studying the coastal ocean.

A universal test port is connected to the different functional sub-systems of a spacecraft, allowing the sub-systems to be tested from a single location of an assembled spacecraft. The universal test port is mounted on an external surface of the spacecraft and configured to connect to the different functional sub-systems (such as power, propulsion, and command and data handling, for example) of the assembled spacecraft, allowing for the streamlining of testing operations by electrical ground system equipment during assembly, integration, and test (AIT) operations and reducing the risk of collateral damage to spacecraft hardware during testing in AIT.