Difference between revisions of "Test Tasks"

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=====Comments=====
 
=====Comments=====
 
* The Camera-IMU system can be considered at rest within some time range from the image registration event - SRC-record in the log file. This range is also to be determined/estimated.
 
* The Camera-IMU system can be considered at rest within some time range from the image registration event - SRC-record in the log file. This range is also to be determined/estimated.
* The first SRC-record is found in [http://community.elphel.com/files/imu/00:0E:64:08:1B:89/ test.log-00002]
+
* The first SRC-record is found in [http://community.elphel.com/files/imu/00:0E:64:08:1B:89/ test.log-00002].
 
=====Output=====
 
=====Output=====
Estimated zero drifts stored in a public variable and in an XML file
+
Estimated zero drifts stored in a public variable and in an XML file.
 
<br/><br/><br/>
 
<br/><br/><br/>
 
====<font color='blue'>Task 3.</font> Calculating the IMU parameters more precisely====
 
====<font color='blue'>Task 3.</font> Calculating the IMU parameters more precisely====
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* Calculate the relative IMU rotation matrices for each state at which the pictures were acquired considering the calibration machine angles to be precise enough.
 
* Calculate the relative IMU rotation matrices for each state at which the pictures were acquired considering the calibration machine angles to be precise enough.
 
* Knowledge of the precise initial IMU orientation is not needed - can be defined arbitrarily.
 
* Knowledge of the precise initial IMU orientation is not needed - can be defined arbitrarily.
* The first SRC-record is found in [http://community.elphel.com/files/imu/00:0E:64:08:1B:89/ test.log-00002]
+
* The first SRC-record is found in [http://community.elphel.com/files/imu/00:0E:64:08:1B:89/ test.log-00002].
 
=====Output=====
 
=====Output=====
 
Calculated with a better precision IMU parameters in a public variable and in an XML file.
 
Calculated with a better precision IMU parameters in a public variable and in an XML file.

Revision as of 17:12, 14 September 2012

Area: IMU Data Processing

About

"An Inertial Measurement Unit (IMU) is an electronic device that measures and reports on a craft's velocity, orientation, and gravitational forces, using a combination of accelerometers and gyroscopes, sometimes also magnetometers..." © Wikipedia

We use ADIS16375 (fully compatible with ADIS16488) with a tri-axis gyroscope and a tri-axis accelerometer.

IMU, ADIS16375 in NC353L-369 camera
IMU in Eyesis4π
Fig.3 Positive rotation angles in the calibration machine



Our projects


1. Images Relative Orientation

The goal is to find how the camera rotated/moved (Rotation Matrix) between the shots. Knowing the images' relative orientation allows to use this information for further 3D reconstruction.

2. ERS Correction

Our sensor is Aptina's MT9P006 - CMOS, 5MP, 1/2.5". It has an ERS (Electronic Rolling Shutter) - the image scan time is about 1/15 s (~66 ms) while IMU samples data at 2.460 kHz (T = 0.406 ms) which makes it possible to reconstruct how the camera moved during the image acquisition and correct the ERS effect by placing each pixel according to the sensor orientation at each moment of time. This only corrects the movement/rotation of the camera but not the ERS effect from the fast moving objects.



Test Tasks


Input Data

timestamp - timestamp of an image set taken at certain camera orientation during the calibration process. Seconds since January 1, 1970, the Time Zone is GMT
axial - angle in degrees about Z-axis (Fig.3)
tilt - angle in degrees about Y-axis (Fig.3)
Motor2 - motor 2 state in its steps
Motor3 - motor 3 state in its steps
NumPoints - applies to images only
RMS - applies to images only
A log file contains 3 types of records (events):
  a. (2.460kHz) IMU data
      - [localTimeStamp,GMT]: IMU:[gyroX][gyroY][gyroZ][angleX][angleY][angleZ][accelX][accelY][accelZ][veloX][veloY][veloZ][temperature]
      where original parameters are angular velocities and accelerations - delta angles and delta velocities represent an integration of original parameters.
  b. (5Hz) GPS data
      - [localTimeStamp,GMT]: GPS: $GPRMC,231112.2,A,4043.36963,N,11155.90616,W,000.00,089.0,250811,013.2,E
  c. (rare) Image-acquired event registered at local clock. 
      - [localTimeStamp,GMT]: SRC: [masterTimeStamp,GMT][localTimeStamp,GMT],
      knowing the master's timestamp is important for matching the events with the taken images - each image has a master timestamp in its EXIF header. 
      The local timestamp is just the time at which an event was registered.



Requirements

  • Programming language - Java



Task 1. Parse the IMU Data

Description
  • The IMU model is ADIS16375.
  • Learn how the log data parser works from the reference Java program.
  • Modify or write your own parser and plot the IMU data in a spreadsheet as Value(Time) or Sum(Time) (for delta angles) for a given log file.
Comments

-

Output

A spreadsheet with plotted data.


Task 2. Estimating biases (zero drifts) of the IMU Data

Description
  • Determine the time intervals of when the camera is at rest.
  • Estimate the average biases (zero drifts) of ADIS16375 IMU output data when at rest. The formulas can be retrieved from the reference program.
Comments
  • The Camera-IMU system can be considered at rest within some time range from the image registration event - SRC-record in the log file. This range is also to be determined/estimated.
  • The first SRC-record is found in test.log-00002.
Output

Estimated zero drifts stored in a public variable and in an XML file.


Task 3. Calculating the IMU parameters more precisely

Description
Comments
  • Calculate the relative IMU rotation matrices for each state at which the pictures were acquired considering the calibration machine angles to be precise enough.
  • Knowledge of the precise initial IMU orientation is not needed - can be defined arbitrarily.
  • The first SRC-record is found in test.log-00002.
Output

Calculated with a better precision IMU parameters in a public variable and in an XML file.

Links