Pedestrian and occupant safety analysis software that contributes to ensuring the safety of pedestrians and occupants.
In transportation devices represented by automobiles, the safety of pedestrians, passengers, and crew is the top priority. PAM-SAFE faithfully reproduces the behavior during accidents to ensure safety, aiding in the collision safety design of transportation devices and the development of occupant restraint devices. ■ A staple in occupant safety analysis with the world's No. 1 market share PAM-SAFE is a finite element method structural analysis program that uses dynamic explicit methods. It accurately analyzes occupant and pedestrian behavior with sufficiently validated dummy models, airbag models that faithfully reproduce deployment behavior, and seatbelt models that even replicate mechanisms. ● For more details, please contact us or download the catalog.
Inquire About This Product
basic information
【Features】 ■ A standard for occupant safety analysis with the world's No.1 market share ■ Advanced contact detection algorithms ■ A wide range of material models ■ A rich dummy library ■ High-precision airbags ■ Excellent user interface ■ For more details, please contact us.
Price information
-
Delivery Time
Applications/Examples of results
■□■Applicable Fields■□■ Automobiles, ships, aerospace, railways, sports equipment, biotechnology (biomechanics), machinery, nuclear power, consumer electronics, etc.
catalog(1)
Download All Catalogs
News about this product(1)
Company information
ESI Group is a leading company in "virtual prototyping," providing innovative solutions and services focused on "materials physics." We have developed unique solutions that enable the replacement of physical prototypes and experiments with virtual design, manufacturing, assembly, testing, and evaluation. Leveraging today's cutting-edge technology, ESI's virtual prototyping addresses performance evaluation throughout the product lifecycle, from the start of use to the end of life, proposing a broader concept: Product Performance Lifecycle (TM). This is achieved by creating a Hybrid Twin (TM) that utilizes simulation, physics, and data analysis, allowing for smarter product development, maintaining a connection with the actual product, and enabling performance predictions and maintenance timing throughout the product's usage period.
![[EOL Measures] Design and Development of Replacement for Embedded Systems <Case Study Collection Provided>](https://image.mono.ipros.com/public/product/image/56e/2001469992/IPROS15305002941345801078.PNG?w=280&h=280)
