The Importance of Non-Photorealism in Different Walks of 3D

The Importance of Non-Photorealism in Different Walks of 3D

Non-photorealistic rendering (NPR) is not new, it has been in practice since the 1990s. A number of famous Hollywood films have seen the application of this new method. Such films are Tarzan (1999), A Scanner Darkly (2006), etc.

The animation of A Scanner Darkly (2006) was so close to reality that critics and audiences alike were taken aback; they attributed the stunning quality of the animation to 3D NPR. However, the technology used in the film was simpler than that; it was called Rotoscoping. The whole film was first shot by a digital camera and then transformed into an animated form.

Rotoscoping is different from 3D. A major point of difference between the two is 3D is not stuck in the digital art industry, it has plenty other areas of application. Another important difference is while techniques such as rotoscoping consider reality as the standard, 3D NPR does exactly the opposite; it brings close technology and art and produces a non-realistic rendering through their nexus.

GSW Animation is a 3D rendering and animation company that provides high quality 3D rendering in San Francisco, California.

What is the future of 3D NPR?

3D NPR seems to have a bright future. It might appear contra-intuitive because photorealism is what the industry strives for, and non-photorealism is 180° opposite to that. However, once the benefits of 3D NPR are conceived of, it becomes easy to understand why it is a prodigious child.

Smooth illustration of 3D objects

The biggest benefit of 3D NPR is smooth illustration. The illustrator doesn’t have to pay minute attention to each and every aspect of the illustration such as precision, allegiance and perfection. In other words, the illustrations are not supposed to have a strict coherence with the reality.

This particular aspect of NPR could benefit a number of industries such as architecture, real estate, architecture and automobile; the illustration will not mimic every bit and end of the reality, but only convey the idea of an actual object. A realtor might want to see a simplistic representation of a building site. 3D NPR could come in real handy in rendering such a representation.

Similarly, an automobile company might want to introduce a new auto model and ask for a schematic representation. The representation could be as simple as a prototype. Since companies know final drafts are rendered after a series of prototypes, they invest less in the rendition of prototypes.

Just like the real estate industry, 3D NPR could aid the automobile industry as well by providing cost effective and simplistic representations.

The style quotient

The recent trends in the tech industry indicate style is becoming an essential part of it alongside usability. Users these days are not content by simply being able to lay their hands on something useful, they also want it to carry some stylistic appeals.

3D conceptual design is not an exception to this rule. When not used for serious purposes, it could be a style statements. It could be digital art or online comics for kids, a remarkable style statement could be added to it with the help of 3D NPR.

3D NPR could help a new generation of painters to emerge, who would identify their flaws, overcome them and produce remarkable paintings. They’d also think outside the box and work freely without any kind of technical restriction.

3D Virtual environments

3D NPR could help meet some challenges of virtual environments. For example, it can render simple geometric objects in a scene real-time. Such objects could be as simple as a wardrobe or a chair. The same could be done by the photorealism too, but the sense of immersion many not be as enhanced as in non-photorealism.

There are psychological factors that play a key role when a 3D virtual environment is observed. One such factor is view-dependent rendering. Certain lighting and geometric effects depend upon the viewer; photorealism has failed to mask them whereas non-photorealism succeeded in doing that.

Mobile GIS

Mobile GIS developers are interested lately in working on 3D maps. 3D maps are more user-friendly than non-3D maps, they are interactive and allow users to harness the benefits of non-photorealistic imagery.

Mobile GIS developers have a predilection for non-photorealism because NPR makes silhouette drawing and feature-edge drawing super easy – the two techniques are essential in preserving the important details of a particular environment.

There are other advantages of non-photorealism for mobile GIS, one of which is the rendition of a complex 3D GIS model. Rendering such models through photorealistic techniques is difficult.

The discussion above forces us to acknowledge the significance of 3D non-photorealism. It also explains why NPR shouldn’t be restricted only to digital art and applied to other niche-specific domains such as interior decoration and Smartphone GIS development.

Source: business2community.com

 

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Fusion of Technology Lies in 3D Rendering and 3D Modeling

Gone are those days when we used to hold the pencil in our hands and spend hours in sketching up the model structure of our designs related to anything architectural. Now, we are a generation where we can see the fusion of technology which helps in 3D Rendering and 3D Modeling of various designs and making them visualize in a more creative way.

These 3D models or architectural rendering are used extensively by the construction and fashion world to make people see their creativity with a realistic approach like lighting’s, textures, supplementary effects and colors to your landscape or buildings. Let us know what these two different terms like to tell us about their individual identity.

In the golden age, we used to have sculptors who used to build various sculptures. They also would wish to have a tool which could make their work easy and hands to rest. Well, the past has gone and the present techniques used in 3D Modeling are just amazing.

3d rendering

Today, software like Maya, Soft-image, 3DS Max and other software in the computer makes your work of modeling a structure easy and with proper textures and effects too. They provide you with a set of tools that help you design the model according to your imaginations but in a computer representative form.

It also has various forms like Primitive, Surface, NURBS, Sub-division and Polygonal Modeling which help in designing a model on the basis of the scenarios. Later on these models are created more beautifully by the designer with the required touch ups in a stage called 3D Rendering.

3d rendering

3D Rendering is the most sought technique used by the Engineering field in today’s era because of the esthetic and practical options and effects it gives your models in a 3 dimensional form. It has created a revolution with the different angles it provides to the image along with set-ups, product modeling, animation effects and many more things.

It can be seen in various forms like interior and exterior rendering, photo-realistic rendering, material rendering or textured rendering. Each one of them has their own characteristics and they surely give you an excellent visual appeal. Interior & Exterior rendering give a day and night effect in your villa styled model along with floor plans and even water bodies. Photo-realistic rendering is the one we look forward for as it gives our villa, bungalow or company the desired look with lighting, texture and color combinations.

So, we can conclude that pragmatic strength of a human and his thoughts lay in the origin. Similarly, 3D Rendering and 3D Modeling are the roots which are responsible for the success of both, the company and the designer. It is artistic way through which he conveys the company’s thoughts to lure the minds of people waiting to see something of their taste. It is kind of a communication method that leads you to win the hearts of people by adding an extra piece of vision into their imaginations.

Lastly, these are the best methods as they show the quality and professionalism of the graphics you use to give your company a chance to be noticed amongst that big crowd of people.

Article Source: http://EzineArticles.com/8049446

 

10 REASONS TO USE VRAY FOR ARCHITECTURAL RENDERING

Vray Rendering

This article is originally published at Realspace3d.com.

 Why is Vray so popular among 3D artists and why is it  Vray and Architectural Rendering work so well together? The rendering powerhouse is used to create 3D models, special effects, and graphic design. V-Ray has been the most sought-after program on the market. Although the software doesn’t retail for cheap, it has remained a popular choice for designers since its launch in 2007. This begs the question: what makes it so good?  

THE ROLE OF RENDERING MACHINES

Before we get into the skinny of the V-Ray software and its advantages, let’s go through the role of rendering machines. V-Ray rendering generates the image from a 3D model, most commonly 3ds Max.

To illustrate, imagine creating a clay sculpture. This clay sculpture acts as your 3D model. Now that you have your 3D model, you may want to share it with your coworkers right now. As you can’t bring your clay sculpture around, you take a picture with your camera. The picture of your clay sculpture is what you send to your boss or friends. The camera acts as your rendering machine.

Rendering machines and software essentially translate your model into a flat image. The latter can be printed and/or shared online—allowing you to get your ideas across. For industries that rely heavily on the software, it’s important they provide an accurate translation of their models. This is emphasized in architecture applications and design, where everything is up to scale.

V-RAY HISTORY

3D rendering software, like V-Ray, were already used in the late 90s and the early 2000s. Their applications are still the same for today: graphic design, architectural modeling, and special effects. Chaos Group, the company behind V-Ray, was a small 3D design and animation studio headquartered in Bulgaria.

In 1997, the group had to render atmospheric effects. Unsatisfied with the render plug-ins at the time, the group decided to create their own. Atmos Blender, the company’s in-house rendering engine, was created. Little did they know that would be the backbone for V-Ray, which was released to the public five years later.

Artist support was satisfactory in V-Ray’s early years for architectural rendering. However, it wasn’t until 2008 that V-Ray gained attention in artist communities. It became a software to look out for. Without missing a beat, Chaos Group released an interactive version, V-Ray RT, and the much-anticipated V-Ray Maya. The rest, as they say, is history.

V-Ray continues to be a preferred choice within professional artist circles. It has been used to create special effects in films, simulate living conditions for architectural settings, and produce hyper-realistic images.

Top 10 reasons we prefer using V-Ray for Rendering

1.) CONSISTENT PERFORMANCE

2.)   THE OPTIONS AREN’T LIMITED TO LIGHT AND MATERIALS

3.) SEAMLESS EXECUTION

4.) SYNCS ON MULTIPLE 3D MODELING PLATFORMS

5.) PERFECT FOR ANIMATING

6.) REALISTIC OUTPUTS

7.) VAST MATERIAL AND LIGHTING OPTIONS TO CHOOSE FROM—AMONGST OTHERS

8.) AN INVESTMENT TO LAST

9.) FASTER THAN THE REST

10.) THE COMMUNITY