I'm looking for my dream teammate(s) to help me work on my Unity game. I still dont know where Im going with that project but I want to make a good final product that I would be able to sell or publish it for free on Steam. Here a video of the prototype (The only thing I dint made is the skybox) https://www.youtube.com/watch?v=y2Otmt9jRkc
My discord : Just4lol#46982
I want somone at least as competent as me :
- I want somone with at least one year of experience in Unity (already worked with scriptable object and know oop).
- Already worked with shaders or can do editors tools is a plus.
- Can do 3d models in Blender or can do 2d art for the ui or particles effects.
- Can make soundtracks or sound effects a bonus.
Im a french Canadian so mind my english I will do my best to edit any errors I see.
I am looking for talents to form a team of making a strategy base action game. Talents I am currently looking for are : -
(I) Unity programmer (mobile)
(II) Game designer
(III) 3d Artist
(IV) SFX Artist
The attachment is some game concept for the game. All the concept will be turn into 3d or card form. The game will be strategy game where the players can form their own team and control the units in the battle field real time to fight against each others. If you are interested to know more details please pm me or send an email to firstname.lastname@example.org
Leap Leap Leap! is a fast-paced, endless running game where you leap from rooftop to rooftop in a computer simulated world.
This is a free run game and get excited by this fabulous computer simulated world of skyscrapers and surreal colors in parallax effect. On your way, collect cubes and revival points as many as you can to make a long run.
Features of Leap Leap Leap:
-Option of two themes: Black or White. -Simple one touch gameplay. -Attractive art. -Effective use of parallax.
To Download the game:
Play Flick Football 3D @ https://gamejolt.com/games/flickfootball3d/326078
Check out our Facebook page @ https://www.facebook.com/FlickFootball3D/
Flick Football 3D is a turn based football game inspired by the table top classic 'Subbuteo'.
The game is currently in very early Alpha development. There is still a lot to be done before the first proper release but I have decided to release this playable version to get as much feedback as possible.
The only game mode currently available in this release is the 'Practice Mode' which gives you control of both teams. Either play against yourself to get used to how the game works or play against friends and family on the same computer!
Planned Future Features Include:
-Take control of your own custom team in the single player campaign.
-Play in online leagues and tournaments against other players in the multiplayer mode.
-Fully customisable stadiums to make you stand out from the rest of the players.
-Improve your players stats and skills by playing matches and setting up training sessions.
Flick Football 3D is available for Windows, Mac and Browser.
Thank you for viewing my game, all feedback is greatly appreciated. I can be contacted at; BillyGDev@outlook.com
'Flick Football 3D' is also the development name for the game and I haven't yet decided what the full release will be called, so if you have any ideas please drop me a message!
ok, so, we are having problems with our current mirror reflection implementation.
At the moment we are doing it very simple, so for the i-th frame, we calculate the reflection vectors given the viewPoint and some predefined points on the mirror surface (position and normal).
Then, using the least squared algorithm, we find the point that has the minimum distance from all these reflections vectors. This is going to be our virtual viewPoint (with the right orientation).
After that, we render offscreen to a texture by setting the OpenGL camera on the virtual viewPoint.
And finally we use the rendered texture on the mirror surface.
So far this has always been fine, but now we are having some more strong constraints on accuracy.
What are our best options given that:
- we have a dynamic scene, the mirror and parts of the scene can change continuously from frame to frame
- we have about 3k points (with normals) per mirror, calculated offline using some cad program (such as Catia)
- all the mirror are always perfectly spherical (with different radius vertically and horizontally) and they are always convex
- a scene can have up to 10 mirror
- it should be fast enough also for vr (Htc Vive) on fastest gpus (only desktops)
Looking around, some papers talk about calculating some caustic surface derivation offline, but I don't know if this suits my case
Also, another paper, used some acceleration structures to detect the intersection between the reflection vectors and the scene, and then adjust the corresponding texture coordinate. This looks the most accurate but also very heavy from a computational point of view.
Other than that, I couldn't find anything updated/exhaustive around, can you help me?
Thanks in advance