An Examination of Pre-crash Braking Influence on Occupant Crash Response using an Active Human Body Model
Paper i proceeding, 2016
Real‐world occupant protection includes the influence of active safety technologies, such as autobrake
systems. This study uses an active human body model (called SAFER A‐HBM) with the capability to
simulate emergency braking events prior to a crash event. It is based on a mid‐sized male THUMS human body
model, with added active muscles to control spine and extremities for braking.
The objective of this study is to evaluate the feasibility of the A‐HBM for industrial applications in the
development of occupant protection technologies. Specifically, the influence on occupant responses in frontal
impacts with a preceding braking event is simulated, including variation in brake‐pulse duration and activation
of an electrical reversible seatbelt retractor.
All the simulations followed through to the most important part of the crash phase, enabling a comparison
of the occupant responses for the different simulation set‐ups. By adapting its characteristics depending on the
sequence of the event, the A‐HBM is shown to be a feasible tool providing input to help guide the auto‐brake
performance design. Using it to replicate human performance during the whole sequence of pre‐crash to crash
event enables a real‐world, realistic comparison that provides unique possibilities to evaluate active and passive
safety technologies together and their interaction.
Active Human Body Model
occupant protection
auto‐brake
FE‐model
LS‐Dyna.