Georg Nestlinger scite author profile

Georg Nestlinger

5Publications

30Citation Statements Received

81Citation Statements Given

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Affiliations

Virtual Vehicle (Austria)

Publications

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Fast generic sensor models for testing highly automated vehicles in simulation

Stolz

Nestlinger

2018

Elektrotech. Inftech.

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Automated driving is one of the big trends in automotive industry nowadays. Over the past decade car manufacturers have increased step by step the number and features of their driving assistance systems. Besides technical aspects of realizing a highly automated vehicle, the validation and approval poses a big challenge to automotive industry. Reasons for this are grounded in the complexity of interaction with the environment, and the difficulties in proving that an automated vehicle shows at least the same performance as a human driver, with respect to safety. There is a common agreement within the community, that physical vehicle testing only, will practically not be feasible for validation. Simulation is seen as a key enabler for validation as well as for development of highly automated vehicles. Several commercial simulation tools are available to model and test the entire chain of "sens -plan -act". But still there is a lack of fast generic sensor models, for the use from development to vehicle in the loop tests. This article proposes a fast generic sensor model to be used in testing and validation of highly automated driving functions in simulation.

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Development and Verification of Infrastructure-Assisted Automated Driving Functions

et al. 2021

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Automated vehicles we have on public roads today are capable of up to SAE Level-3 conditional autonomy according to the SAE J3016 Standard taxonomy, where the driver is the main responsible for the driving safety. All the decision-making processes of the system depend on computations performed on the ego vehicle and utilizing only on-board sensor information, mimicking the perception of a human driver. It can be conjectured that for higher levels of autonomy, on-board sensor information will not be sufficient alone. Infrastructure assistance will, therefore, be necessary to ensure the partial or full responsibility of the driving safety. With higher penetration rates of automated vehicles however, new problems will arise. It is expected that automated driving and particularly automated vehicle platoons will lead to more road damage in the form of rutting. Inspired by this, the EU project ESRIUM investigates infrastructure assisted routing recommendations utilizing C-ITS communications. In this respect, specially designed ADAS functions are being developed with capabilities to adapt their behavior according to specific routing recommendations. Automated vehicles equipped with such ADAS functions will be able to reduce road damage. The current paper presents the specific use cases, as well as the developed C-ITS assisted ADAS functions together with their verification results utilizing a simulation framework.

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Compensation of Sensor and Actuator Imperfections for Lane-Keeping Control Using a Kalman Filter Predictor

Solmaz¹,

Nestlinger²,

Stettinger³

2021

SAE Intl. J CAV

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Leader-Based Trajectory Following in Unstructured Environments—From Concept to Real-World Implementation

2022

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In this paper, the problem of vehicle guidance by means of an external leader is described. The objective is to navigate a four-wheeled vehicle through unstructured environments, characterized by the lack of availability of typical guidance infrastructure like lane markings or HD maps. The trajectory-following approach is based on an estimate of the leader’s path. For that, position measurements are stored over time with respect to an inertial frame. A new strategy is proposed to rate the significance of position measurements and ensure that a certain threshold of stored samples is not exceeded. Having an estimate of the leader path is essential to prevent the cutting-corner phenomenon and for exact path following in general. A spline-approximation technique is applied to obtain a smooth reference path for the underlying lateral and longitudinal motion controllers. For longitudinal tracking, a constant time-headway policy was implemented, to follow the leader with a constant time gap along the estimated path. The algorithm was first developed and tested in a simulation framework and then deployed in a demonstrator vehicle for validation under real operating conditions. The presented experimental results were achieved using only on-board sensors of the demonstrator vehicle, while high-accuracy differential GPS-based position measurements serve as the ground truth data for visualization.

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Bumpless Transfer for Convenient Lateral Car Control Handover**This work was supported in part by COMET K2 - Competence Centres for Excellent Technologies Programme.

Nestlinger

Stolz

2016

IFAC-PapersOnLine

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