HSE: HIGHWAY SIGN ENGINEERING SOFTWARE
ENGINEERING SOLUTION FOR HIGHWAY SIGN STRUCTURES
INTEGRATED ANALYSIS, DESIGN AND EVALUATION SOFTWARE FOR HIGHWAY SIGN STRUCTURES.
The HIGHWAY STRUCTURAL ENGINEERING is an automated Highway Sign Structures generation and design program for latticed Highway Sign Structures models.
The HSE software is a high-end parametric technology for the generation and design of latticed Highway Sign Structures. It offers powerful and productive features for generating many types of latticed structural models and automated tools for determining wind and ice loads as well as any relevant design parameters such as slenderness ratios and force coefficients.
This engineering software solution is used worldwide by several notable international companies in production work for building innovative highway sign structures.
The HSE is a robust and reliable structural software based on more than 30 years of Research and Development. The program, designed with the latest technological innovations in its field, is equipped with a sophisticated and user friendly graphical interface.
The program can calculate the resistance and various design parameters of all elements of a Highway Sign Structures model according to the Canadian, American and European steel codes and to the Canadian aluminum codes.
The HIGHWAY STRUCTURAL ENGINEERING program supports ice loads, wind loads which can be defined according to various distribution methods ranging from uniform distribution and user defined distributions to sophisticated methods as the one proposed in the IEC-826 document. The ice loads and wind loads are automatically distributed to the latticed structure and to the sign panels.
INTUITIVE MODELING FEATURES
EASY AND PRODUCTIVE MODEL GENERATION
•Local coordinate systems
•Linear or circular lines of constructions for model creations
•Automated commands for model creation such as move, rotate, extrude, copy, attach, subdivide and others
•Models can be edited either graphically or by means of spreadsheets
•Element can be created in batch or one by one
•Elements of the models can be selected either graphically or according to a set of criterions
•Persistent groups of selected objects can be created and edited graphically or by means of spreadsheets
•Definition of physical members
•Selection and edition of physical members
•Definition of loading surfaces
•Multiple edition grids with user defined spacing, angles and labels
•Powerful edition and automatic generation tools
•Members can be subdivided in any number of equal segments or at specific positions
•Similar connected members can be merged together
•Elements of the structure can be renumbered according to several criterions
•Element attributes can be set graphically or by means of spreadsheets (sections, analysis parameters, rotation angles, etc.)
•Element attributes can be edited in batch or element by element
•Loads can be edited graphically or by means of spreadsheets
•Contour lines for finite element plates with customized bounds
•Wizard based geometry generation
•A large number of pre-defined frames
•Circular and parabolic arches
•Cylinders and cones composed of beams and/or plates
•Physical elements concept to group different elements
•Surfaces can be used for load transfer and self-weight calculation
•Surfaces can be used to simulate diaphragm effects
ADVANCED 3D STRUCTURAL ANALYSIS
The Highway sign structures Engineering software is a technology built on a powerful user-friendly interface offering comprehensive analysis options and intuitive modeling features.
The advanced structural analysis of the software allows the engineer to achieve specialized analyses crucial to any projects related to the infrastructure industry.
This wizard allows generating standard and nonstandard highway sign superstructures of type A1. The standard models are based on the typical plans of the Ministry of Transportation of Quebec. These standard structures are always assumed to be made of aluminum tubes.
The required steps for creating such structures are the following:
1 - Parameters
2 - Beam dimensions
3 - Column dimensions
4 - Beam panels
5 - Column panels
6 - Pedestals
7 - End
ALUMINUM STRUCTURES VERIFICATION
ALUMINUM STRUCTURES VERIFICATION
The program calculates the bending, compression, tension, shear and combined resistance of aluminum based on the results of a linear, P-Delta, non-linear, seismic, dynamic or moving load analysis. Singly symmetric, asymmetric and built-up section shapes are covered for all design codes.
•Aluminum design codes
• Member Attributes - Aluminum
• Bending Parameters
• Compression and Tension parameters
• Welds parameters
• Redesign selected members
• Design summary
•3D solid display of all section shapes
•Ultra-fast 3D visualization in wire frame or solid modes
•Customized display of all graphical objects
•Partial model visualization
•Results can be displayed on screen for the whole or a part of the structure
•Results can be displayed for each element separately by means of graphics and numerical results spreadsheets
•Results can be displayed for a set of elements by means of numerical results spreadsheets
•Graphical display of seismic and dynamic analysis results
•Model size limited only to the physical capacity of the computer
COMPREHENSIVE REPORTS PROVIDED
•Results can be visualized either graphically or numerically
•Input data and results may be printed for the whole structure or partial structures using a graphical selection or a range of elements
•Customized list of input data and results to be printed
•Reports are available in several formats including SAFI™ reports, Microsoft Excel worksheets, Microsoft Access databases and ASCII text files
•All graphics can be printed or copied to the clipboard for use in external programs
•AutoCAD interface to import and export models by way of a DXF file
•The SDNF (Steel Detailing Neutral File) interface exports beams, columns and braces to SDNF compatible detailing softwares
•The KISS (Keep It Simple Steel) interface exports beams, columns and braces to KISS compatible estimation softwares
•If required, members subdivision and account for physical elements will be carried out automatically
•The solid view of the structure may also be exported when exporting to AutoCAD
•IFC-Architecture interface for importing models from Revit or other IFC compliant programs.