A legally compliant volume is automatically generated for スポーツベット 2ch site shape, and an error judgment is performed to see if スポーツベット 2ch planned building is within スポーツベット 2ch height limit. You can also use this tool to search for スポーツベット 2ch legal maximum volume.

Developed in cooperation with: Algorithm Design Lab, Seikatsu Sangyo Laboratory

スポーツベット 2ch sky factor is automatically calculated for スポーツベット 2ch site and building shape, and スポーツベット 2ch sky map and calculation results are displayed on スポーツベット 2ch Rhinoceros screen. Results are updated in real time as スポーツベット 2ch building shape changes.

Developed in cooperation with: Algorithm Design Lab, Seikatsu Sangyo Laboratory

Create a time-of-day shade map and an isochronous shade map for スポーツベット 2ch planned building. It is also equipped with a check function that colors スポーツベット 2ch building parts that are out of regulation. It enables quick volume studies with simple operation and visualization of regulations.

Developed in cooperation with: Algorithm Design Lab, Seikatsu Sangyo Laboratory

スポーツベット 2ch area is calculated for each room use from スポーツベット 2ch created building model and displayed as a graph on スポーツベット 2ch screen. This area information graph is updated in real time as スポーツベット 2ch building shape changes. By exporting スポーツベット 2ch information as an area table, it can be used for business feasibility evaluation, etc.

This tool creates 3D models of rebars, steel frames, etc., and displays errors for any interfering parts. It becomes possible to verify スポーツベット 2ch detailing of complex joints in 3D.

Evaluate スポーツベット 2ch line of sight from スポーツベット 2ch assumed viewpoint to スポーツベット 2ch target in スポーツベット 2ch planned building shape. This verification enables a variety of studies, such as reviewing スポーツベット 2ch terraced floors of stadiums, theaters, and halls, and examining スポーツベット 2ch designs of louvers that block スポーツベット 2ch line of sight.

Annual outdoor temperatures such as AMeDAS weather data is visualized on a chart. By coloring スポーツベット 2ch outside temperature range of 18-26 °C, it is possible to analyze スポーツベット 2ch seasons and time periods suitable for natural ventilation.

Tools used: ClimateStudio

Calculate スポーツベット 2ch sunlight hours while considering スポーツベット 2ch shadows cast by sunshade devices and obstacles. It is possible to consider outdoor stadium lawns and tree growth in landscapes.

Tools used: ClimateStudio

Calculate スポーツベット 2ch amount of solar radiation that hits スポーツベット 2ch exterior walls and roofs, allowing for studies of window layouts and sunshade planning that considers solar radiation.

Tools used: ClimateStudio

Analyze スポーツベット 2ch wind flow around a building, allowing for building placement with consideration for wind passage, and window layouts for natural ventilation.

Tools used: STREAM

Analyze スポーツベット 2ch ventilation volume, room temperature, and indoor air velocity when natural ventilation is implemented. It is possible to study natural ventilation that is closer to スポーツベット 2ch actual situation, reflecting スポーツベット 2ch effects of outdoor airflow.

Tools used: Archsim, STREAM

Simulate スポーツベット 2ch flow of rainwater that falls on スポーツベット 2ch ground. By visualizing スポーツベット 2ch rainwater trajectory due to スポーツベット 2ch ground surface slope, it is possible to plan assuming for places where rainwater tends to collect and for hazardous areas that flow into スポーツベット 2ch planned site.

Developed in cooperation with: Algorithm Design Lab

スポーツベット 2ch thermal load of スポーツベット 2ch perimeter is calculated while considering heat insulation and solar shielding effect. Thermal weak points are visualized by coloring スポーツベット 2ch building surface, making it possible to consider energy-saving buildings with low thermal loads.

スポーツベット 2ch thermal comfort PMV is calculated by analyzing スポーツベット 2ch radiant environment considering スポーツベット 2ch heat insulation and スポーツベット 2ch solar shielding effect. It can also be used for airflow windows and push-pull windows, allowing for façade studies to realize a comfortable indoor environment.

Tools used: ClimateStudio

スポーツベット 2ch annual illuminance distribution, brightness distribution, and energy-saving effect of natural lighting and electric lighting are calculated. It is possible to study window layouts and sunshade plans to realize an energy-saving and bright indoor environment.

Tools used: ClimateStudio

Calculate スポーツベット 2ch annual discomfort glare rate at multiple points in スポーツベット 2ch room. It is possible to verify スポーツベット 2ch glare when natural lighting is used, and to consider window layouts and sunshade plans to realize a comfortable light environment. (DGP is used for スポーツベット 2ch glare index.)

Tools used: ClimateStudio

Analyze スポーツベット 2ch distribution of indoor temperature and indoor air velocity in large spaces such as arenas and gymnasiums. By devising an air flow model, analysis time can be reduced, and multiple proposals can be analyzed in a short time, allowing for studies of optimal placement of supply and return registers.

Tools used: STREAM

スポーツベット 2ch optimal solution can be derived quantitatively using different approaches: (1) brute force method - narrow down スポーツベット 2ch solution from a vast number of parametrically generated proposals by setting multiple target values or (2) multi-purpose optimization using a genetic algorithm.

Tools used: (1) Shimz Explorer (Developed in cooperation with: Thornton Tomasetti / CORE Studio, Algorithm Design Lab); (2) Octopus, modeFRONTIER

Once you set スポーツベット 2ch start and finish points, スポーツベット 2ch shortest path of circulation is calculated. By overlapping スポーツベット 2ch paths from each room to スポーツベット 2ch frequently used rooms, it is possible to visualize daily flow and locations of high interactivity in スポーツベット 2ch building.

Visualize スポーツベット 2ch relationship between spaces with different uses, such as department offices and specific function rooms. スポーツベット 2ch size of スポーツベット 2ch space is exhibited by スポーツベット 2ch size of スポーツベット 2ch circle, and スポーツベット 2ch depth of スポーツベット 2ch relationship, such as スポーツベット 2ch frequency of meetings, is displayed by スポーツベット 2ch thickness and color of スポーツベット 2ch line. By switching スポーツベット 2ch display, it is possible to perform スポーツベット 2ch 2D zoning by freely moving スポーツベット 2ch circles while studying スポーツベット 2ch space in スポーツベット 2ch 3D model at スポーツベット 2ch same time.

A tool that supports スポーツベット 2ch "ground plane" and "average ground" calculations, based on which スポーツベット 2ch setback restrictions and shadow restrictions are determined for スポーツベット 2ch volume studies at スポーツベット 2ch initial stage of design. A ground plane development map and a ground plane calculation table are automatically generated from スポーツベット 2ch three-dimensional model reflecting スポーツベット 2ch site gradient and スポーツベット 2ch building perimeter shape. Information is updated in real time when スポーツベット 2ch shape is changed, enabling quick examination.

Calculate スポーツベット 2ch consumption of electricity, gas, water supply, etc. of スポーツベット 2ch HVAC system that uses スポーツベット 2ch most energy in スポーツベット 2ch building, allowing for studies of HVAC configurations that are energy-saving and have low running costs.

スポーツベット 2ch "sense of brightness" felt by スポーツベット 2ch human eye is evaluated using スポーツベット 2ch brightness scale value (NB value). Unlike conventional evaluations based on illuminance, this allows for planning of daylighting and electric lighting based on スポーツベット 2ch brightness perceived by humans.

Tools used: REALAPS, ClimateStudio

A tool to generate terrain mesh in Rhinoceros from survey maps. Based on スポーツベット 2ch generated terrain, it becomes possible to analyze and visualize スポーツベット 2ch 3D terrain by various methods such as soil volume, contour line display, and gradient determination.

スポーツベット 2ch visibility of スポーツベット 2ch ball at any position in スポーツベット 2ch indoor stadium is evaluated based on スポーツベット 2ch contrast with スポーツベット 2ch background brightness. Natural lighting and electric lighting plans can be created while considering スポーツベット 2ch visibility of high side lights.

Tools used: REALAPS

スポーツベット 2ch reflected light from スポーツベット 2ch building’s exterior wall surface is estimated using スポーツベット 2ch direction of solar radiation utilized in environmental simulations. スポーツベット 2ch geometry and rays of reflected light from solar radiation can be projected to スポーツベット 2ch surroundings.

Tools used: Ladybug、Wombat、Sasquatch、TT Toolbox (Colibri)

This tool generates a ground structure (a structure in which all nearby nodes are connected by members) and derives スポーツベット 2ch most efficient shape (topology-optimized form) to スポーツベット 2ch given external forces and support conditions.

Tools used: Karamba 3D

A model with loads, boundary conditions, and other factors, is created to conduct structural analysis. Structural safety is verified by checking deformation, member stresses, etc.

Tools used:Karamba 3D, EEL

This system generates a structural framework based on スポーツベット 2ch building volume and allocates member sections using AI. This makes it possible to streamline structural review in スポーツベット 2ch early stages of design.

Tools used：SYMPREST

Development collaboration：Headwaters Co., Ltd. and Headwaters Consulting Co., Ltd.

スポーツベット 2ch target space is modeled as a network by setting entrances, exits, and branch points as nodes and using スポーツベット 2ch connecting routes and corridors as links. Parameters such as スポーツベット 2ch movement purpose, movement route, walking speed, スポーツベット 2ch positions, number, and sizes of doors, and スポーツベット 2ch width and length of corridors are set. These are used to calculate entry and exit times, crowd size, and other information.

Development collaboration：Vector Research Institute,Inc/Algorithm Design Lab/ Institute of Technology

This system is based on a 3D model of スポーツベット 2ch finished surfaces of スポーツベット 2ch target space, such as スポーツベット 2ch walls, floor and ceiling. It predicts スポーツベット 2ch propagation of sound within スポーツベット 2ch space by tracking スポーツベット 2ch path of スポーツベット 2ch sound emitted from スポーツベット 2ch source on スポーツベット 2ch stage as it is transmitted and repeatedly reflected. スポーツベット 2ch materials and structure of each finished surface can be selected within スポーツベット 2ch tool. This allows Acoustic performance elements to be set, such as how much sound is absorbed when sound bounces off each surface.

Development collaboration： Institute of Technology

Time history response analysis can be performed by linking with スポーツベット 2ch batch processing function of SNAP (a structural analysis software for arbitrary shapes, Kozo System Inc.). スポーツベット 2ch obtained analysis results can also be processed and evaluated in Rhino.

Tools used: SNAP (Batch processing function)