epanet-js

Mission Geometry Orbit And Constellation Design | And Management Pdf

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The EPANET user's dilemma

  • Classic EPANET is powerful — but clunky and outdated. Workarounds become your workflow — slow and cumbersome.
  • Big-name platforms look polished, but they're overpriced and bloated with features you don't need to analyze your network quickly.
  • Modern browser-based tools exist — but they force your data into the cloud, raising privacy and compliance concerns. Plus, they offer little for those doing long-term planning and analysis.

You shouldn't have to choose between speed, security, and affordability just to understand your water networks.

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Mission Geometry Orbit And Constellation Design | And Management Pdf

The classic problem is : ensuring at least one satellite sees every point on Earth at all times. The elegant solution was provided by Walker and Mozhaev in their Delta pattern (or Walker Constellation). Defined by parameters ( T/P/F ) (Total satellites / Number of orbital planes / Relative phasing between planes), this design creates a rosette of orbits. The Iridium and Globalstar constellations use variants of this.

In the grand theater of space exploration, the difference between a triumphant success and a catastrophic failure often rests not on the sophistication of a satellite’s sensors, but on the elegance of its path through the cosmos. The search for a text on "mission geometry, orbit and constellation design and management" points to the foundational discipline of astrodynamics—the art and science of playing celestial chess. This field synthesizes pure mathematics with pragmatic engineering to answer a deceptively simple question: Where does a spacecraft need to be, and when? The answer dictates every subsequent phase of a mission, from launch window selection to end-of-life disposal. Part I: The Primacy of Mission Geometry At its core, mission geometry is the study of the spatial and angular relationships between a spacecraft, its target (Earth, another planet, a star), and the Sun. This geometry governs the laws of physics that an engineer cannot negotiate. The classic problem is : ensuring at least

Ultimately, this field is defined by constraint and compromise. Higher resolution demands lower altitude, which reduces coverage area. Continuous coverage demands more satellites, which increases cost and collision risk. A perfectly designed orbit that is impossible to manage is worse than a suboptimal orbit that is robust. The skilled astrodynamicist, therefore, does not merely calculate numbers; they choreograph a silent, high-velocity ballet where every satellite knows its place, its path, and its purpose—a testament to human ingenuity navigating the silent, unforgiving geometry of the void. The Iridium and Globalstar constellations use variants of

Consider a remote sensing satellite. Its utility is defined by its —the portion of Earth's surface it can see. This is not merely a function of altitude; it is a geometric puzzle involving the sensor’s cone angle, the Earth’s curvature, and the sun’s illumination angle. A satellite in a dawn-dusk Sun-synchronous orbit, for example, maintains a fixed geometry relative to the Sun, ensuring consistent lighting for imaging. Change that geometry by a few degrees, and shadows render images useless for change detection. the Earth’s curvature

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EPANET deserves better — and so do you.

EPANET was a gift to the industry — free, open-source water modeling for all. But commercial vendors built on it, locked away improvements, and left the community behind.

epanet-js is our answer: a faster, simpler, affordable water modeling tool that protects your privacy and sustains the open-source future of water modeling.

We're proud to be part of the next chapter — and we're just getting started.

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Source code of epanet-js on GitHub

When you support epanet-js, you support EPANET.

When you purchase more features in epanet-js, you're investing in the future of open-source EPANET development.

Our open-source model balances innovation and accessibility:

Anyone can build on our code. The two-year commercial-use delay gives us the incentive to keep pushing forward — and that fuels progress for everyone.

That means when you support us, you support more affordable hydraulic modeling software for the entire community.

Simple, transparent pricing for every kind of modeler.

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For solo modelers and small utilities.$950 /year

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For teams that build together.$2500 /year

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Frequently asked questions

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Why we built epanet-js

Luke Butler - Co-founder
Luke ButlerLinkedIn

Co-founder

Sam - Co-founder
Sam Payá LinkedIn

Co-founder

You may not know this, but for decades, the U.S. EPA has given the water industry an extraordinary gift: the free and open-source hydraulic modeling software EPANET. Odds are, if you've used any commercial hydraulic modeling software today, it was built on the EPANET engine.

The problem is, instead of giving back to their open-source roots like other industries do, big-name software vendors took EPANET's open code, built private tools on top of the engine, and then locked those improvements behind patents and proprietary licenses.

Some vendors even pressured the EPA to focus only on the engine — discouraging any effort to improve the interface or user experience for everyone else.

Those vendors now charge you exorbitant prices to use their software while EPANET lags behind — and utilities, engineers, and educators with smaller budgets suffer.

We think this is backwards — and we're on a mission to change it. We're focused on creating a better experience for the entire hydraulic modeling community.

That's why we built epanet-js under an FSL license — because we want to give you an affordable, easy-to-use water modeling option that creates a sustainable future for open-source EPANET development.

Support EPANET by using software that supports it back.

A better future for water modeling.

Simple, quick, and useful right out of the gate — designed to open-and-go.

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