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Understanding IRENE

IRENE's view of Lacquer Disc Grooves web-new-alumdisc-headerIRENE's view of Wax Cylinder Grooves

Understanding the IRENE System

To help you understand how IRENE turns photographic images of an audio carrier's grooves into sound, we'll walk you through the process using a lacquer disc as an example.

[Click on any image below to enlarge.]

Getting Started

IRENE reformatting begins like any other reformatting project. When we receive your recordings, we’ll inventory them, and index them if necessary. If cleaning is part of the project, all of the recordings will be cleaned before any are transferred.

Imaging Your Media

 IRENE is equipped with a 3D camera (at left) for vertical-cut recordings, such as most cylinders, and a 2D camera (at right) for lateral-cut recordings such as discs.

 

 

The IRENE process begins with imaging. IRENE is equipped with two cameras – one three-dimensional camera for vertical-cut recordings (most cylinders), and one two-dimensional camera for lateral-cut recordings (most discs).

 

 

 

  Each exposure captures a single line of information.

 

 

Unlike traditional digital cameras, both of IRENE’s are line-scan cameras. This means that each exposure captures a single line of information. As the disc or cylinder rotates, it virtually ‘unravels’ the spiral shape, producing long straight lines.

 

 

 

 

 The laser reads the height information and feeds this information to the motor controller.The imaging process is fairly straightforward in principle, but the scale of the photography complicates the process. The high magnification of the cameras limits the depth of field to ½ of a millimeter for 3D, or 1/10th of a millimeter for 2D!

Even discs that aren’t visibly warped typically vary outside this range, so the camera moves up and down with the disc’s surface to stay in focus.

 

 The IRENE system is mounted on a vibration-damping pneumatic air table.

 

Similarly, at this scale, vibrations in the ground or air can interfere with the imaging. To prevent this, the entire assembly is mounted on top of a vibration-damping pneumatic air table.

 

 

 


Analysis

Once the imaging step is completed, we are left with a visual data set that can be analyzed in custom software to extract the sound. The IRENE analysis softwares – ‘RENE’ for 2D data, and ‘PRISM’ for 3D data – have different features, but work on the same principle: a digital audio waveform can be derived mathematically by analyzing the contour of the physical analog groove.

 

View of the analog groove

A digital audio waveform is a representation of sequential values of amplitude, or loudness. Each of these values is ‘sampled’ from the image just as an analog-digital converter samples voltages created by the movement of a stylus during a mechanical transfer.

 

 

Wave formBecause the analog grooves are represented in three dimensional objects, some signal processing, or analysis, must take place to ensure the best samples are chosen to create the most accurate representation of the sound.

 

This happens in two steps, 'tracking' and 'edge detection.'

 

 

IRENE's view of a disc, before analysis begins.

 

 

This is IRENE’s view of a disc, before analysis begins. The lines appear to curve because they’re condensed vertically 100:1.

 

 

 

 

 

 

 

The red and pink lines here follow the large-scale movement of the grooves across the image.

 

Analysis software ‘tracks’ the image by tracing the edges of the groove from bottom to top for each groove in the image. These large-scale ‘tracking’ lines become the ‘neutral’ position of the groove, setting the software up for the next step. (Click image to enlarge.)

     

 

 

 

 

 

During "edge detection,"  these lines (visualized here in blue and green) are mathematically transformed into the digital audio waveform.

 

Once tracking is complete, the software analyzes the small-scale movement of the groove over time, in a process called ‘edge detection’. These lines, visualized here in blue and green, are mathematically transformed into the digital audio waveform.

 

 

 

 

 


Analysis of Broken, Degraded, or Unusual Carriers

One of IRENE’s strengths is its ability to work with recordings that other systems can’t.

 

Broken Discs

IRENE can work with broken discs 

Some older discs, such as shellac 78rpm records and glass-based lacquer instantaneous discs can break into pieces. IRENE can frequently still accommodate these discs, but even careful alignment of the pieces is not enough for the software to automatically track. In these cases, the IRENE operator can digitally reassemble the pieces and manually track the movement of the grooves in software.

 

Lacquer instantaneous discs

Lacquer instantaneous discs are cut directly by a recording lathe.

 

 


 

 

 

 

 

Diagram of the differences in groove bottom types.Lacquer instantaneous discs are not pressed, like vinyl LPs or shellac 78s, but cut directly, from a machine called a recording lathe. This property sometimes complicates our job by producing images without a discernable groove bottom.

 

 

The thin white line in the middle of the thick black line is the bottom of the groove.

The thin white line in the middle of the thick black line is the bottom of the groove.

 

 

 

 

In some lacquer discs, the groove bottom is not visible to the camera.

 

In some lacquer discs, the groove bottom is not visible to the camera.

 

 

 

By changing the lighting to above and to the side, a consistent groove bottom can be detected.

In these cases, we change the lighting from directly above the disc to above and to the side, revealing a consistent groove-bottom from which audio can be derived.

 

 

 

If other methods are not successful, audio can still be derived from the tops of the groove walls.

If side-lighting the disc still doesn’t reveal a useful groove bottom, audio can be derived from the tops of the groove walls, where the audio signal is present, but is more likely to have been affected by surface wear, resulting in a noisier transfer.

 


Afterword:

A note on cleaning:

Dirt in the grooves of carriers can decrease the signal quality of the digitized audio, even with IRENE.  Because there is no contact with the media, IRENE does not cause wear on the grooves through abrasion by plowing through dirt as a stylus would.  But, although IRENE’s imaging approach causes no physical harm, it cannot see through excessive dirt. 

Therefore, in some instances, we may recommend cleaning your carriers prior to imaging to achieve a superior signal quality.  Due to the fragile nature of the media, however, cleaning is not without risk; it can cause irreversible damage and/or accelerate the degradation process of the media itself. 

Consequently, as an added precaution for particularly important or rare media, we can image the discs before and after the cleaning treatment, if desired. For more information, see Cleaning Lacquer Discs.

In some instances, we may recommend cleaning your carrier prior to imaging to achieve a superior signal quality. (View of a dirty disc.)           View of a clean disc.          

        IRENE's view of a dirty disc                                  IRENE's view of a clean disc

 


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