Markus Lienkamp scite author profile

Object detection in camera images, using deep learning has been proven successfully in recent years. Rising detection rates and computationally efficient network structures are pushing this technique towards application in production vehicles. Nevertheless, the sensor quality of the camera is limited in severe weather conditions and through increased sensor noise in sparsely lit areas and at night. Our approach enhances current 2D object detection networks by fusing camera data and projected sparse radar data in the network layers. The proposed CameraRadarFu-sionNet (CRF-Net) automatically learns at which level the fusion of the sensor data is most beneficial for the detection result. Additionally, we introduce BlackIn, a training strategy inspired by Dropout, which focuses the learning on a specific sensor type. We show that the fusion network is able to outperform a stateof-the-art image-only network for two different datasets. The code for this research will be made available to the public at: https://github.com/TUMFTM/CameraRadarFusionNet

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Minimum curvature trajectory planning and control for an autonomous race car

Heilmeier

Wischnewski

Hermansdorfer

et al. 2019

Vehicle System Dynamics

124

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Parameter variations within Li-Ion battery packs – Theoretical investigations and experimental quantification

Baumann

Wildfeuer

Rohr

et al. 2018

Journal of Energy Storage

128

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An Overview of Parameter and Cost for Battery Electric Vehicles

König

Nicoletti

Schröder

et al. 2021

WEVJ

192

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The launch of both battery electric vehicles (BEVs) and autonomous vehicles (AVs) on the global market has triggered ongoing radical changes in the automotive sector. On the one hand, the new characteristics of the BEV powertrain compared to the combustion type have resulted in new central parameters, such as vehicle range, which then become an important selling point. On the other hand, electric components are as yet not optimized and the sensors needed for autonomous driving are still expensive, which introduces changes to the vehicle cost structure. This transformation is not limited to the vehicle itself but also extends to its mobility and the necessary infrastructure. The former is shaped by new user behaviors and scenarios. The latter is impacted by the BEV powertrain, which requires a charging and energy supply infrastructure. To enable manufacturers and researchers to develop and optimize BEVs and AVs, it is necessary to first identify the relevant parameters and costs. To this end, we have conducted an extensive literature review. The result is a complete overview of the relevant parameters and costs, divided into the categories of vehicle, infrastructure, mobility, and energy.

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Improving the Overall Efficiency of Automotive Inverters Using a Multilevel Converter Composed of Low Voltage Si mosfets

Chang

Ilina

Lienkamp

et al. 2019

IEEE Trans. Power Electron.

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Markus Lienkamp

A Deep Learning-based Radar and Camera Sensor Fusion Architecture for Object Detection

Minimum curvature trajectory planning and control for an autonomous race car

Parameter variations within Li-Ion battery packs – Theoretical investigations and experimental quantification

An Overview of Parameter and Cost for Battery Electric Vehicles

Improving the Overall Efficiency of Automotive Inverters Using a Multilevel Converter Composed of Low Voltage Si mosfets

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