Gue Deco Planner Software

Gue Deco Planner Software Average ratng: 9,4/10 828 votes

So what is this software? For years we used to use Deco-Planner, a very functional program from GUE that works well. Then we came across V-Planner.

Online Web-based Dive Planning Can I run it NOW? You should find this hosted on: What is this tool? This is a tool meant for executing the Buhlmann-GF ( with Gradient Factors) and ZHL tissues (A, B and C) and the Variable Permeability Model B ( VPM-B) ( by Erik Baker) algorithms in your browser.

I have compared the numbers to GUE's Deco Planner and they are more or less identical (a couple of minutes difference here and there.) The A, B, and C tissues in Buhlmann are used for different scenarios, I think - I could be wrong. I believe you use A tissues for computing NDLs. You use B tissues for Open Circuit (OC), and C tissues for CCRs (Closed Circuit Rebreathers.) The VPM-B model is code picked up from Erik Baker's repository. I have not extensively tested it for comparison/accuracy. I will spend a lot of time with Deco Planner's VPM comparison as well as V Planner, to see how it compares/fares. The VPM implementation behind-the-scenes has support for just about every configuration imaginable.

This tool hides it for brevity and for the 'get it out to market' aspect. However, if you dig in, you can build complex and rich plans for CCRs with set-point ppO2s and different sizes for bubble nuclei, and just a whole host of things. This tool requires no installation, and if you cloned the repo and opened the HTML file, it would open fine. Or you can find it hosted. The real power of this tool is: • Share, edit and modify dive plans: because they are stored as programmatic statements. I can easily copy my program, and share it to my buddy, who can then edit or modify it, and send it back to me. This allows a collaborative back-and-forth dive plan to be generated.

• Rapidly generate hundreds of dive plans: with different profiles, or some small modification to study and compare. For instance you can quickly compare thousands of VPM vs Buhlmann dives by increasing bottom time by a minute at each step, and see when and HOW they begin to diverge.

• Interactively study tissue loading: You can add bottom time by one minute and then get tissue loads. Graph it, charge it, whatever. Hakuouki sweet school life eng sub indo. This allows you to understand how tissues load over time, and generate animations. • Figure out 'corrections': for exceeding planned time or depth.

I use this tool to generate my core plan, and then generate deco times for each 10 feet below planned depth, and each 5 minutes past planned time. It gives me a general 'sense' of what and how the game changes. It tells me what my bottom line is (no pun intended.) So if I knew adding five minutes is going to increase deco time exponentially, I know where to add my focus. • Recreational multi-level plans possible: At any point in the buhlmanPlann, you can call getCeiling() to get what your ascent ceiling is (how high you can go - optionally with a conservativism factor passed into it), or you can ask how long you can stay at a depth while maintaining a ceiling of zero feet (also called a No-Deco Limit, often abbreviated to NDL). Symbolmt font free There are some examples below that explain how to do that.

• Free and online: You don't pay money for using it, but moreover, you don't have to install something. You can use it RIGHT NOW in your browser.