Recommended for addressing brightness unevenness in home appliances! It helps reduce design time.
Recommended for first-time lighting and optical analysis! This is a simulation software that is purely domestically produced and offered at a reasonable price. It features a Japanese interface, making it easy to use even for developers in non-optical fields. Leveraging the strengths of in-house development, it achieves low pricing while maintaining high computational accuracy and reliability based on optical theory, making it a cost-effective simulation software. 【Benefits of Implementation】 - Reduction in prototype costs - Validation of experimental results - Shortening of design time - Formation of analytical methods - Acquisition of design knowledge 【User Experience (Strengths)】 - The user interface is good, allowing for quick learning after implementation - Can operate and analyze immediately without special knowledge - After importing 3D CAD data, analysis models can be easily constructed - Ease of use and quick results enable early reflection in design - Short analysis time is convenient for considering multiple cases - Results are relatively consistent with experimental outcomes, facilitating smoother development - Predictions from results have reduced the number of sample productions - By handling light sources other than visible light, the analysis results are beneficial for design.
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basic information
- Screen designs and various documents are prepared in Japanese. - The settings menu items are visually displayed with easy-to-understand icons, allowing for intuitive operation and analysis. - Model data can be imported in IGES, STEP, and STL file formats. - The light source supports reading near-field output (ray data) and allows measured distribution data to be specified for the light source. - A library of representative glass material data from major glass manufacturers is provided by default, and private glass materials can also be registered. - Geometric optical ray tracing is faithfully reproduced, including multiple reflections and transmissions. - It covers a wide range of wavelengths, not only in the visible spectrum but also from ultraviolet to infrared. - By using optional modules, various operations and analyses can be performed through external command instructions, including automation via macro functions, post-processing, and optimization support tools.
Price information
High cost-performance perpetual license - Starting at 498,000 yen (excluding tax) - Includes one year of support - Modules available as options API module ... For those programming in C# Rhinoceros plugin module ... For Rhinoceros (3D CAD) users
Price range
P4
Delivery Time
P3
Applications/Examples of results
〇Electricity ■Light guide plate of the power indicator lamp ■Brightness unevenness of the display panel 〇Automobile ■Light guide plate of the shift lever section ■Brightness unevenness of the accessory display section 〇Construction ■Brightness unevenness of the lighting switch section
Detailed information
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We will evaluate the brightness unevenness of the WiFi router's display section during the design step. By importing 3D CAD model data and conducting brightness analysis on a PC, we can improve development efficiency and significantly reduce design time.
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We will examine the brightness unevenness of the display. By analyzing it on a PC and narrowing down the possibilities, we aim to reduce prototype development time and costs.
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We will perform brightness analysis on three different shape models created with 3D CAD and compare the results. Using model 001 as a reference, we will conduct brightness calculations with a model that has a portion of the upper back cut and a model with a deeper inner curve, while keeping the positions of the LED light source and screen fixed. When comparing the result distributions, although there are variations, model 001 on the far left appears to be the brightest. From the number of light rays passing through the brightness measurement aperture, it was also determined that it has the highest efficiency quantitatively.
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Company information
"Contributing to Society through Light Simulation" Our representative director, Ritsuo Suzuki, has been developing evaluation software for imaging optical systems such as eyeglass real image simulators and digital cameras, as well as image processing software for interferometers, based on ray tracing technology since the early 2000s when he joined our parent company, Best Media Inc. He has supported various companies through these developments. Building on the technology cultivated there, we developed and marketed "Lighting Simulator CAD" and have provided various optical services. In October 2021, to enhance branding in the optical industry and attract specialized talent, we split from Best Media Inc. and established Camerium Inc. "Camerium" is a coined term derived from "Microscopium" and "Telescopium," symbolizing our aspiration to shine in the optical industry, akin to the "Camera" constellation.