Sentences with phrase «weather simulation system»

That, along with a vastly enriched climate and weather simulation system on all 60 - plus tracks, and new simulated surfaces — dirt, ice, snow, and mud — makes Project CARS 2 by far the most authentic and immersive racing sim we've ever created,» said Stephen Viljoen, Game Director — Project Cars 2

Using a global network of observations as input and our physical understanding of the atmosphere, weather simulations do a good job at estimating how fast these systems will travel and how they interact.

High - End Next - Gen Visuals — The over-the-top hyper real imagery of the ARK its creatures is brought to expressive life using a highly - customized Unreal Engine 4, with fully dynamic lighting & global illumination, weather systems (rain, fog, snow, etc) & true - to - life volumetric cloud simulation, and the latest in advanced DirectX11 and DirectX12 rendering techniques.

As the least established IP, Project CARS 2 was the ambitious underdog with huge potential, promising to be most authentic racing simulation ever made with a diverse variety of racing disciplines, an innovative dynamic weather system, and an unrivalled track selection.

Underpinning the whole game is an extremely strong and multifaceted suite of linked systems, including weather, stealth, cooking, and a fantastically fun and convincing physics simulation.

It's not just the observational systems, but also the fact that we often can identicfy in weather forecasts (model simulations) conditions that are favourale for such storms, so that we know in advance when too keep a watchful eye.

The apparent difference between them earlier on is simply due to the chaotic nature of the system (i.e. the different «weather» in each simulation).

Using a global network of observations as input and our physical understanding of the atmosphere, weather simulations do a good job at estimating how fast these systems will travel and how they interact.

Based on the understanding of both the physical processes that control key climate feedbacks (see Section 8.6.3), and also the origin of inter-model differences in the simulation of feedbacks (see Section 8.6.2), the following climate characteristics appear to be particularly important: (i) for the water vapour and lapse rate feedbacks, the response of upper - tropospheric RH and lapse rate to interannual or decadal changes in climate; (ii) for cloud feedbacks, the response of boundary - layer clouds and anvil clouds to a change in surface or atmospheric conditions and the change in cloud radiative properties associated with a change in extratropical synoptic weather systems; (iii) for snow albedo feedbacks, the relationship between surface air temperature and snow melt over northern land areas during spring and (iv) for sea ice feedbacks, the simulation of sea ice thickness.