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    Lightbulb TUTORIAL - Box Modeling and Precision Texturing

    This tutorial is going to illustrate how to create and texture a cartoon-like airplane similar to the one that Hiroshi Yoshii posted in this thread. For the record, I don't know what technique Hiroshi himself used to model the airplane. It might be the same as mine, or he might have done something different. Also, he did not texture his airplane like we will. Instead, he snapshot it to the canvas in the final position for his picture and then painted the color in 2.5D with the Single Layer brush. So we're not going to create an exact replica of it; just something similar. Along the way, we'll cover some little-known topics such as box modeling with ZBrush 2's Edge Loops feature and how to get really clean lines in your textures.

    "Box Modeling" is a term that comes from points-modeling programs. The premise is that you start with a simple cube and through a series of extrusions create a cage mesh. Although this low poly cage looks really chunky, placing it inside of a hyperNURBS will smooth it out to create a nice, organic shape. What a lot of people don't realize is that ZBrush 2 is capable of doing exactly the same thing! What's more, under the right circumstances this technique is faster and easier than using ZSpheres or another modeling technique. This was one such case (for me, anyway).

    First, box modeling requires that you start with a cube. Also, the Edge Loop command is only available for polymesh objects. So you can't just take a Cube3D parametric object and go to town. It's not a polymesh, and its polygon structure is unsuitable for box modeling (the poles would create problems). To create the cube that you will actually model with, follow these steps:

    • EDIT: In ZBrush 3 this is step no longer needed. You'll find the PolyCube3D in the ZTools folder. Go to level 1 and delete the higher levels.



    1) Select the Cube3D

    2) Set Tool>Unified Skin>Resolution to 8 (the lowest value).

    3) Set Smt to 0 (to activate cubical skinning).

    4) Press the Make Unified Skin button. This creates a new model in the Tool palette called Skin_Cube3DCopy1.

    5) Draw the new cube on the canvas and activate the Polyframe view. As you can see, it is now a polymesh object and the poles are gone. The only catch is that it has too many polygons.

    6) Press Tool>Geometry>Reconstruct Subdiv. This will add a new subdivision level to the cube below the current level. Press the Lower Res button to go to that level. The cube now has half the number of polygons, and the Reconstruct Subdiv button is once again available.

    7) Repeat step 6 a few more times until you're left with a cube made up of one polygon on each side.

    8) We no longer need the higher subdivision levels, so delete them by pressing Del Higher.

    We're now ready for box modeling! Before proceeding, though, take a moment to save your cube. That way, you'll have a pre-made starting point for your own box modeling projects.

    Now that we have our starting cube, let's take a quick look at the Edge Loop command. Under normal circumstances, this command creates a loop of polygons around the perimeter of the visible mesh. This is known in most other software as an Inner Extrusion and is shown below in figure 1.



    What a lot of people don't realize is that the same command can add polygons to your mesh another way, as well. How this works is that if you move any points on a partially hidden mesh before pressing the Edge Loop button, ZBrush will create new polygons to fill the gap between the original position and the new one!

    Moving just one point will create triangles. As you can see in figure 2, By moving one corner of the polygon, ZBrush has filled in the space between that point's original position and the new one.

    Moving two adjacent points will create a quad and triangles, both (figure 3).

    Moving an entire face will result in all quads (figure 4).

    As the rest of this tutorial will show, this technique is a very powerful way to quickly build geometry. Let's put it to work.



    We'll begin by creating the back half of the airplane. To do this, select one of the cube's polygons, which will also hide the rest of the cube (1).

    Be sure that you're in Edit>Move mode, and set your Draw Size to 1. This allows you to move individual points.

    Here, I have X and Z symmetry active so that I can move all four points together (2).

    Click and drag far to the right, moving the polygon away from its starting position as part of the cube. At the same time, it's size is reduced (3).

    Now, pressing the Edge Loop command results in four new quads being added to the mesh. These fill the space between the polygon's original position and its new position (4).

    Here's the cube with visibility restored (5). If, when you restore visibility you find that the points aren't right where you want them (which will often be the case), just move them now with the mesh fully visible. You can move points at any time, even if you later find that you need to make changes. The Edge Loop command only adds geometry if points have been moved on a partially visible mesh

    Repeat the process with the same polygon, to add the tail section (6).

    And once more to give the tail a softer end.

    Now let's simulate placing the model in a HyperNURBS object. We do this simply by pressing the Divide button a few times (7).

    In this case, I feel that the body is a little too small in relation to the tail. Press undo a few time to delete the higher subdivision levels. Then move the body points to make that part of the plane larger (8).



    Next up is the cockpit. Begin by selecting just the polygon that forms the top of our original cube (1).

    We want the cockpit to be set in a bit from the sides of the plane, so doing an inner extrusion by pressing the Edge Loop button (2).

    Hide the outer ring by Ctrl+Shift+Clicking on one of the outermost corners. Since all of the polygons of the outer ring belong to the same group, they will disappear and leave you with only the inner polygon (3).

    You may notice at this point that you can only get a single axis of symmetry to work (you'll certainly see it in later steps). Anything else leaves points "flying in the wind," so to speak. You have two choices at this point. You can simply work with pairs of polygons across the X axis, or you can press the S.Pivot button on the right shelf. This button resets the model's pivot point to be the center of the visible mesh. With only one polygon visible, that means that the pivot point will be the center of that poly. Since symmetry is based off the pivot point, you can now use two axes of symmetry to move all four points together. This can be a very handy trick at times! To restore the mesh's original pivot point, just press the C.Pivot button when you're done.

    Now move the entire polygon up a bit and then press the Edge Loop button again (4).

    Once again, hide the group of new polygons by Ctrl=Shift+Clicking on one of the lower corners (5).

    Add another Edge Loop to the one remaining polygon (6).

    Hide the outer ring (7).

    Move this polygon down and then add another Edge Loop (8).

    Restore full visibility by Ctrl+Shift+Clicking on the canvas. You should now have a structure that looks like the illustration (9).

    When the mesh is divided, this gives us a nicely-smoothed cockpit area (10).



    Delete the higher levels again and select the polygons making up the sides of the body. Without moving them, add an Edge Loop. Since the polygons are non-contiguous (they don't connect to each other), each will receive its own ring of new polygons (1).

    Restore visibility, and then move the points for the inner polygon to become the base of the wings (2).

    Repeat the process for the sides of the tail (3).

    And again for the top of the tail (4).

    While we're at it, go ahead and add an edge loop to the front as well, for what will become the nose (5).

    As you can see when the model is smoothed (6), these new edge loops also have the effect of adding definition to the model's shape.

    Select just the wing polygons.

    For these polygons, we'll use a deformation to move them. Take note of the axis of symmetry that you use to affect both sides of the plane. In my case, it's X. Open the Tool>Deformation menu. Next to the Size slider, the XYZ switches are all on. Turn off the ones that don't match your axis of symmetry by clicking on them (7). Now move the slider all the way to the right a couple of times. This has the effect of moving the polygons away from the center of the model. Since only the axis of symmetry was selected, they won't be enlarged at all.

    Do another Edge Loop. You'll now have wings (8).

    Hide the new polygons, leaving only the ends of the wings, then add a regular Edge Loop (9).

    Hide the outer ring, then do another Size deformation with a value of about 5. Do not perform an Edge Loop again, but instead just restore the visibility. Your wings will now rounded ends (10).

    Repeat the process for the sides of the tail (11), but don't move the polygons out as far as you did for the wings. Since the tail is narrower than the body, you'll probably have to do four size deformations for the first time rather than two.

    For the top of the tail, select the center polygon of that edge loop. Change the switch in the Size slider to move the polygon vertically and perform the deformation a few times. Do the Edge Loop command, then add a cap to the tail like you did with the wings (12).

    Stylize the shape of the wings and tail a bit by moving points around while the mesh is fully visible. For example, I made the top of the tail longer and swept the wings back a little.

    Here's the progress so far, with the mesh smoothed (13). Next up, we'll work on the nose.



    Enlarge the center polygon and move it forward a little (1).

    Hide all except that polygon, then move it farther forward. Do an Edge Loop (2).

    Hide the new polygons, then repeat the process while also making the polygon center a little smaller (3).

    Add a regular edge loop to the front polygon.

    Hide the outer ring, then move the central polygon back into the body of the plane and do another Edge Loop.

    You'll have something like the illustration (4). What we want, though, is a flanged nose. Fortunately, you can also add polygons to the middle of a structure.

    Select just the main body of the nose (5).

    Add an Edge Loop to that (6).

    Hide the outer rings.

    Scale the remaining part larger, then add another Edge Loop (7).

    We now have a flange, but it's not long enough (8). It's possible to painstakingly move all of the points, but that would be a waste of time when other options are available.

    Select just the points that need to be moved forward (in illustration 8, it's everything forward of -- but not including -- the large blue polygons). Using the Offset deformation, you can move the points as a group.

    When visibility is restored, you should have something like this (9).

    Now all that's left is to smooth the front of the nose a bit (10).

    You're now done with the box modeling. If you'd like to download my version to check yours against, click the thumbnail at the bottom of this post. You could actually place it within a HyperNURBS object in your favorite animation package to get results that are very close to the divided ZBrush mesh.

    It's still missing the nose cone for the propeller. Projection Master will come in handy for that.



    Divide the model a few more times. I pushed mine up to subdivision level 7, which is a little over 500,000 polygons. To speed up feedback with the interface (and keep parts of the mesh that you want left alone from being affected), hide all but the nose (1).

    Rotate to the front view (hold Shift to snap it in place), and then Alt+Click on the canvas to enlarge and center it. Activate Projection Master. Turn off Colors and Fade, turn on Deformation, and turn off Normalized (2). It's important to have Normalized off because we only want the deformations to come toward the canvas, rather than inward from the sides of the nose cone area. When ready, drop the mesh.

    Select the Cone3D tool. The problem is that it has too sharp of a point, so we'll take a moment to change it for our needs. Open the Tool>Initialize menu then set HDivide and VDivide to 8. At the top of the Tool palette, press Make PolyMesh3D.

    Select the polymesh tool that it will create and draw that on the canvas. Rotate it to the side, then move the tip point down to make it more blunt (4).

    Divide the cone a few times to smooth it out (5).

    Now all you need to do is position it where you want it (6).

    When you pick the model up again using Projection Master, the cone will be incorporated into the mesh.



    Here's the finished airplane, ready for texturing. As you can see, box modeling is very effective for certain projects, and ZBrush 2 makes it really easy work in this way.

    Time now to move on to texturing the model. The purpose of this part of the tutorial is to demonstrate several tips and techniques for creating textures with really crisp, clean details.

    The first thing to keep in mind when you want really fine or crisp detail is texture size. What it boils down to is that the more pixels per polygon, the more room you have for detail. So for the sharpest edges at the greatest magnification, use the largest texture size (4096x4096). The farther your object will be from the camera, the less detail will generally be required, and the smaller your textures can be. Don't waste RAM where it's not needed.




    (1) To begin with, I've started with a texture of 4096x4096 and my base color of orange. For the record, the UV mapping that I've used is GUVTiles, which gives the least possible distortion of any mapping method and only takes a click of the mouse to apply.

    There are several ways to get really smooth lines when texturing. For the cockpit, I elected to use the simplest method of all -- the geometry of the mesh. By turning off the texture (Select Texture>None) and activating the polyframe view, we can see the mesh geometry. Using the partial mesh visibility controls, it only took a few clicks to hide everything that's not part of the cockpit (2).

    The model was rotated to the top view, and Projection Master was activated. For sharp lines no matter where on the model your paint might land, it's important to turn the Fade option off (3). (This option is meant for use when you want various drop and pickup routines to smoothly blend together, so it doesn't apply here.)

    I then painted the visible mesh black and used Projection Master to pick the model back up again (4). The edge of the black flows with the geometry perfectly.

    The nose used the same approach. I hid everything except for the nose area (5).

    I then painted the visible area black. For the cone itself, I used a Circle3D to apply the paint. By using Rgb in the Draw palette with Zadd turned off, I was able to draw a perfect circle and position it precisely (6). It works great every time you want a perfect geometric shape with crisp edges.

    On to the sides of the plane. The Double Sided option was activated since both sides of the plane needed to be the same (7).

    To paint the belly of the plane, I've shown the stroke settings that were used with the Simple Brush (8). The selected Alpha gives a very crisp edge to what it paints. Mouse Averaging is especially important for something like this, since it creates the smoothest brush strokes.



    After the belly was painted, another Circle3D was used. The gyro came in handy to stretch the circle out, then rotate and move it into position (9). I placed a marker so that ZBrush would remember that position later. I then pressed the Snapshot button to record a copy of it.

    The circles was again moved and rotated, and another marker was placed (10).

    Switching to white, I clicked the second marker to redraw the circle. Using the Edit>Scale, I resized it a little bit so that enough yellow showed (11).

    The same was done with the second marker (12).

    Finally, the Simple Brush was used again to paint the remaining white (13). The model was then picked up.

    After rotating the model to the top view, I alt+clicked on the canvas to center it. The Circle3D was again drawn, stretched and positioned. A marker was placed, the Snapshot button pressed, and I then used the Transform>Info to note how far off center the circle was positioned. It was then very easy to calculate a new value and type it into the slider to position the circle identically on the other side of the plane. Switching to Rotate, I added 90 to the value shown there so that the rotation would also match (14). Another marker was placed.

    Now it was just a simple matter of activating the markers and resizing the circles for each additional color(15 &16).



    Here, the Basic Material has been applied (17). As you can see from the full-sized view, the edges of the texturing are very smooth. But, like with the edges of the model itself, the fact that pixols are square causes some jagged edges.

    This is eliminated completely by pressing the AA Half button. This activates ZBrush's antialiased display mode, which cleans the edges up perfectly (18).

    Now all that was left was to add a little bit of noise and color bump to the material, adjust the lighting some, and do a Best render (19)!

    This exercise has shown several ways to get really sharp edges in your texturing. Here's a recap:

    Use the right texture size for the amount of detail that you wish to paint.
    The model's geometry can in many cases be used for the easiest and best results.
    ZBrush's many 3D primitives can also be used to paint perfect geometric shapes. (Note: be sure to turn Quick 3D Edit off when drawing them unless you want a polygonal look.) Transform>Info can be used with the gyro to place these items with precision.
    When you need to paint by hand, use the right alpha for the job, and also turn on Mouse Averaging.
    AAHalf mode cleans up any edge jaggies.
    Don't forget that you can also use Stencils and Transparent textures in your detailing. See this tutorial.

    One other note: When using Projection Master, always scale the model so that the area that you will be painting takes up as much of the screen as possible. This also contributes to the best possible edges when the texture is picked up again.

    Have fun! And please feel free to post your own experiments in this thread.
    Attached Files Attached Files

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    Thank you aurick very much, these kind of tutorials I need most well explained, so thanks.

    Jimking

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    good!!!!! Crest!!!!

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    Very nice Explanations Aurick.
    Thx

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    Am following every step now! THANKS AURICK
    I downloaded this topic so I could have it right next to little Z
    NICE!
    Ä***931;***9579;€©—***350;***948;***8356;***9563;***507;
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    good tut... I can't say I like zbrush's current method of using hide to do things, but hopefully I'll get used to it one of these days and do more modeling directly in it

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    Hi Matt,

    Graceful and elegant demo of the box modeling power of ZBrush. It's an interesting approach.

    Thanks for the beautiful presentation.

    Sven

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    Matthew, beautiful job of explaining Zbrush's box-modeling and subdivision abilities! Thank you!

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    Excellent! 50.

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    This just keeps getting cooler and cooler. I love a company that can anticipate.
    Jason Belec
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    Jason can be reached at Cowboy Feng's Spacebar and Grill. If you know where it is, you are indeed privileged. It's your round.

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    Excellent tut Aurick. Thanks


    JIM

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    I have a question, not regarding the tutorial which is great but the way ZB handle creation of new polygons.

    Is t intended for the next version to add a standard extrude and bevel function instead of this awful edgeloop one. It's works but it's a pain to use

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    Lovely presentation and thorough, could not wish for more. Good work Aurick, thanks
    Mark

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    thanks Aurick it's very clear tut . i make some thing like that in wings just when i saw your very good tut

    thanks

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    Thanks to aurick,

    What a great helpful tut !!!! Thank you very much.

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