Feedback control of occupant motion during a crash

Hesseling, RJ Rogier; Steinbuch, M Maarten; Veldpaus, FE Frans; Klisch, T

doi:10.1533/ijcr.2005.0387

Cited by 11 publications

(3 citation statements)

References 18 publications

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“…Because of tube functionality, technological process must assure the circular section form in every interior point of the tube. Any geometrical deviation from the circular shape can generate lost pressure so the pre-tensioning system will have not the same effect [4]. This is why a test method should be created to evaluate the variation of the pressure in the tube.…”

Section: Functionality Of the Tube In Pre-tensioningmentioning

confidence: 99%

Procedure and Equipment for Circularity Test of Inner Section of Bent Tubes

Pisarciuc

2013

AMM

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The article goal is to presents a test procedure and experimental equipment for testing inner section of bent tubes. In view of the fact that it is an important component, a test method should be created to see the variation of circularity, which could determines the pressure drop in the tube. This test procedure is necessary because the geometry of the tube is composite and material is not so thick so there are critical points along the tube. Because the geometry of the tube is not so easy to acquire, a way of testing it is to verify the pressure drop between the ball and the tube wall. The possible pressure lost is an indication of the form variation in normal section of the tube. In a first instance a simple solution is presented that could solve the testing problem with the advantage of being not priced. The second solution is an improved, automated one that implies some common electronically devices that can solve some of the drawbacks and the first.

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Section: Functionality Of the Tube In Pre-tensioningmentioning

confidence: 99%

Procedure and Equipment for Circularity Test of Inner Section of Bent Tubes

Pisarciuc

2013

AMM

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“…Bio-medically, adaptive seat belt shows an increasing level of occupant protection during different impact scenarios [9]. The applied force on the occupant's chest has to be limited (between 3-8 KN) in order to avoid the risk of irreversible thoracic injuries.…”

Section: Introductionmentioning

confidence: 99%

Vehicle Occupant’s Protection in Front- and Rear-end Collisions using Sliding Mode Control

Elsayed¹,

Habib²

2018

KEG

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“…As further developments, with the help of simulations, there are studies of advanced control schemes, such as control of seatbelt displacement at the retractor to achieve constant seat belt force (including belt retraction to build up belt force) [9] and feedback control of occupant motion [10]. It has been shown that these can provide improvements in occupant restraint.…”

Section: Introductionmentioning

confidence: 99%

Flatness-Based Control Design for an Adaptive Belt Load LimiterFlachheitsbasierte Regelung eines adaptiven Gurtkraftbegrenzers

Seichter¹,

Ho²,

Fox

2009

At - Automatisierungstechnik

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This paper presents the design of a flatness-based control principle for an adaptive load limiting restraint system developed by Continental. Differential flatness is a property found in certain nonlinear, time-invariant multivariable systems which allows effective model-based open loop control, as it facilitates the calculation of the inputs corresponding to a desired output trajectory. The paper focuses on modeling the system consisting of a drop tower test bench and the load limiter itself. After proving that the model is flat, the controller is designed. The comparison of simulation and experimental results shows the correctness of the model and a good performance of the controller. Thus the feasibilty of the flatness based control approach is shown for the application in this mechatronic passenger restraint system. Zusammenfassung Dieser Beitrag behandelt den Entwurf eines flachheitsbasierten Reglers für einen adaptiven Gurtkraftbegrenzer, der von Continental entwickelt wird. Differentielle Flachheit ist eine Eigenschaft bestimmter nichtlinearer, zeitinvarianter Mehrgrößensysteme, welche die einfache Implementierung einer modellbasierten Vorsteuerung erlaubt, da mit ihrer Hilfe die zu einer gegebenen Solltrajektorie zugehörigen Eingangsgrößen berechnet werden können. Im Beitrag wird ein Modell eines Fallprüfstands und des Gurtkraftbegrenzers vorgestellt. Die Eigenschaft der Flachheit wird für das betrachtete System nachgewiesen, und ein flachheitsbasierter Regler entwickelt. Der Vergleich zwischen Simulationsergebnissen und Experimenten am Prüfstand zeigt die Korrektheit des Modells und eine durchweg hohe Regelgüte. Der Ansatz eines flachheitsbasierten Reglers ist somit ein vielversprechendes Regelungskonzept für dieses mechatronische Rückhaltesystem.

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Feedback control of occupant motion during a crash

Cited by 11 publications

References 18 publications

Procedure and Equipment for Circularity Test of Inner Section of Bent Tubes

Procedure and Equipment for Circularity Test of Inner Section of Bent Tubes

Vehicle Occupant’s Protection in Front- and Rear-end Collisions using Sliding Mode Control

Flatness-Based Control Design for an Adaptive Belt Load LimiterFlachheitsbasierte Regelung eines adaptiven Gurtkraftbegrenzers

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