![]() What Is the Most Common Eagle Eye Color?Įagles are known for their sharp vision, which plays a crucial role in their hunting and survival. Discover how these raptors evolved such keen vision optimized for hunting, along with other interesting facts about the visual capabilities of different eagle species. In this comprehensive guide, we’ll explore what accounts for the variances in eagle eye color and examine how their specialized eyes work. Their eyes may range from light yellow or orange to a deeper copper brown color. However, eagle eye color can vary slightly between the dozens of recognized eagle species. ![]() In short, most eagle species have amber, yellow, or golden colored eyes. This problem deals with the process of decomposing a target area polygon into a set of images from space that cover the target in the smallest possible schedule duration (makespan).If you’ve ever seen an eagle soaring high above, you may have wondered-what color are their piercing eyes? With vision up to 4-8 times sharper than humans, eagle eyes are perfectly adapted to spot prey from incredible heights. Lower-level scheduling: area coverage planning Asymmetric slew costs mean that an exhaustive solution cannot discard 1/2 of the search space using a symmetry argument. Time varying slew costs mean that any approach that relies on a triangle rule to prune search space may be invalidated. The cost of a slew between two observations is asymmetric The cost of a slew between two observations is time varying The geometry of an observer flying by a target that is rotating was the observer flies by adds two challenging aspects to this scheduling problem: 2008), optimal EOS scheduling is expected to be Is a desired visit to a science target and timeīy analogy to the job flow problem of minimizing tardiness with sequence dependent setup costs (AllahverdiĮt al. Graph (revisits) and time interval restrictions (visibilities). Vertices with time varying edge costs, cycles within the We start with the larger planning problem, which we derive from the Earth Observational Scheduling problem (Globus et al. There is a second, lower-level planning problem that focuses on how to effectively tile out and schedule polygon area requests. The Eagle Eye project focuses on a larger scale planning/scheduling problem where the planner must choose which targets are visited in which sequence to maximize the satisfaction of the input science campaign deck. Polygon operations, computational optimizations and KML input/output are re-used from the CLASP swath module library. Spacecraft and celestial ephemeris-related computations are computed using the SPICE framework. This allows science teams to draw their campaigns in external tools like Google Earth.Įagle Eye draws from heritage software. The interface for science campaigns is with an extension of the Keyhole Markup Language (KML). Observations could be observed once, or repeatedly with revisits forming a temporal constraint network (TCN). Science campaigns can include individual points and polygons on an observed body, or a distant celestial objects. ![]() The Eagle Eye model was originally created for the proposed Eagle Eye ISS-mounted gimballed telescope, but can also be used to schedule observations for body-fixed instruments if the scheduler is allowed to steer the bus.Ī schedule consists of a set of observations that satisfy some science campaign. 2D framing instruments acquire a whole rectangle at the same time, like a digital camera. Pushbroom sensors generate an image by dragging a 1D line across the target, like a scanner. This is a relatively young research area because most of the older space-based imaging sensors are 1D pushbrooms. ![]() The Eagle Eye project is a specialized ASPEN model that focuses on planning and scheduling observational coverage for space-based, steerable 2D framing instruments.
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