Automobile Performance Testing System Equipped with High-speed Cameras from Mikrotron

By Tiera Oliver

Associate Editor

Embedded Computing Design

January 28, 2020

News

Automobile Performance Testing System Equipped with High-speed Cameras from Mikrotron

AICON WheelWatch measures wheel movements at speeds up to 155 MPH.

By incorporating high-speed EoSens GE GigE Vision cameras from Mikrotron into its WheelWatch optical measurement system, AICON 3D System GmbH has set a new standard for non-contact monitoring of wheel motion in vehicle dynamics testing. 

With a maximum speed of almost 500 frames per second, Mikrotron EoSens GE cameras feature a 1.3 megapixel CMOS sensor that captures resolution of 1280 x 1024 pixels with 90 dB dynamic range. As a result, the WheelWatch system is able to capture sharp, high-contrast images for critical analysis, even at driving speeds of up to 155 mph, including the accurate measurement of wheel parameters such as track, camber inclination, spring travel, clearance and steering angle.

The WheelWatch is used at the prototype stage in automobile development. Before a car gets anywhere close to serial production, prototypes have already covered millions of miles during testing. As part of this process, careful testing examines exactly how wheels behave in the event of extreme maneuvers. How do they handle bumps and wet roads? Do they remain stable during evasive maneuvers or when traveling at high speed? Do the wheel wells still provide enough room even when tackling sharp bends? These are the types of dynamic parameters that the WheelWatch captures for analysis.

A BMW test vehicle equipped with the WheelWatch

 

During testing, Mikrotron EoSens GE cameras are exposed to forces like sudden accelerations, sharp steering maneuvers, and abrupt braking that would damage a standard camera. Equally challenging, the camera is expected to function during lengthy driving tests lasting several hours. Mikrotron EoSens cameras, featuring a fanless, shock- and vibration-proof design within a robust metal housing, proved up to the task, achieving long-term stability over hundreds of tests.

Simple Installation

System set-up requires one Mikrotron EoSens GE camera be attached per wheel to enable it to fully capture the wheel and mudguard. Specially coded measurement targets are placed on the mudguard to identify the vehicle coordinate system. An adapter is also mounted on the wheel, featuring a unique pattern of dots.

The WheelWatch allows vehicle dynamics testing without mechanical connection between a sensor and the wheel 

 

Once installed, the Mikrotron EoSens GE camera acquires images of the wheel while simultaneously aligning itself with the surrounding mudguard, so it does not have to be kept stable. Vibrations and bumps do not have any effect on the data measured. The system recalculates its position continuously to achieve the measuring data, thereby achieving maximum positional accuracy of approx. ± 0.1 mm and angular accuracy of approx. ± 0.015°. Consequently, driving characteristics of the vehicle are not influenced by the measurement equipment, nor is steering motion restricted in any way.

The Mikrotron EoSens GE triggering function allows multiple cameras to be fully synchronized for simultaneous monitoring of several wheels or axles. Special optical targets applied to the prototype's fender define the vehicle coordinate system, while a lightweight carbon fiber wheel adapter is fixed to the wheel. The driver manually triggers the beginning and end of a measurement session. No other interaction with WheelWatch is required.

Up to four cameras can be synchronized with each other, as well as with other measuring sensors. For example, movements in the engine block can also be detected using additional cameras. Getting into tight spots within the engine block is made possible by the Mikrotron camera housing measuring only 63 x 63 x 47 mm.

For the measurement of wheel movements, one camera for each wheel is mounted so that the wheel and part of the surrounding fender is visible 

Evaluating Images in the Camera

WheelWatch measurement images are assessed in the Mikrotron camera sensor using an FPGA image analysis processor before they are sent to a laptop inside the car via a GigE interface. Wheel target positions and target trajectories are available shortly after the image acquisition. In addition, WheelWatch computes all six degrees of freedom of the wheel in the vehicle coordinate system.

Robert Godding, Managing Director of AICON 3D Systems GmbH, considers the integrated FPGA technology to be a key camera performance feature: "Being able to use the built-in FPGA for our own image processing purposes was one of the reasons we opted for a Mikrotron camera."

Software calibrates cameras and axles, determines reference points, calculates axle and wheel parameters and transfers data 
 

The WheelWatch system can be deployed both on a test station as well as during drives on a test track. However, it is also ideal for other movement analyses such as:

  • Door slam testing
  • Examining the opening and closing behavior of doors, covers, windows
  • Vibration analysis of components
  • Robot rail measurement
  • Machine control
  • Error analysis in the production line (e.g. welding processes)
  • Component behavior in wind tunnels or climatic chambers
  • Collision analyses
  • Material testing, structural analysis
  • 6D positioning and alignment of individual points and rigid bodies.

For more information, visit www.mikrotron.de/en. In United States, call 1 858-774-1176.

Tiera Oliver, Associate Editor for Embedded Computing Design, is responsible for web content edits, product news, and constructing stories. She also assists with newsletter updates as well as contributing and editing content for ECD podcasts and the ECD YouTube channel. Before working at ECD, Tiera graduated from Northern Arizona University where she received her B.S. in journalism and political science and worked as a news reporter for the university’s student led newspaper, The Lumberjack.

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