Introduction
3
I. Photographing a printed book
7
I. Getting the image files ready for post-processing
11
III. Transformation of source images into .tiffs
13
IV. Optical character recognition
16
V. Creating a finalized e-book file
16
VI. Cataloging and sharing the e-book
16
Quick workflow reference for scanning and post-processing
18
References
22
INTRODUCTION:
BOOK SCANNING - FROM PAPER BOOK TO E-BOOK
Initial considerations when deciding on a scanning setup
Book scanning tends to be a fragile and demanding process. Many factors can go wrong or produce
results of varying quality from book to book or page to page, requiring experience or technical skill
to resolve issues that occur. Cameras can fail to trigger, components to communicate, files can get
corrupted in the transfer, storage card doesn't get purged, focus fails to lock, lighting conditions
change. There are trade-offs between the automation that is prone to instability and the robustness
that is prone to become time consuming.
Your initial choice of book scanning setup will have to take these trade-offs into consideration. If
your scanning community is confined to your hacklab, you won't be risking much if technological
sophistication and integration fails to function smoothly. But if you're aiming at a broad community
of users, with varying levels of technological skill and patience, you want to create as much timesaving automation as possible on the condition of keeping maximum stability. Furthermore, if the
time of individual members of your scanning community can contribute is limited, you might also
want to divide some of the tasks between users and their different skill levels.
This manual breaks down the process of digitization into a general description of steps in the
workflow leading from the printed book to a digital e-book, each of which can be in a concrete
situation addressed in various manners depending on the scanning equipment, software, hacking
skills and user skill level that are available to your book scanning project. Several of those steps can
be handled by a single piece of equipment or software, or you might need to use a number of them your mileage will vary. Therefore, the manual will try to indicate the design choices you have in the
process of planning your workflow and should help you make decisions on what design is best for
you situation.
Introducing book scanner designs
The book scanning starts with the capturing of digital image files on the scanning equipment. There
are three principle types of book scanner designs:
flatbed scanner
single camera overhead scanner
dual camera overhead scanner
Conventional flatbed scanners are widely available. However, given that they require the book to be
spread wide open and pressed down with the platen in order to break the resistance of the book
binding and expose sufficiently the inner margin of the text, it is the most destructive approach for
the book, imprecise and slow.
Therefore, book scanning projects across the globe have taken to custom designing improvised
setups or scanner rigs that are less destructive and better suited for fast turning and capturing of
pages. Designs abound. Most include:
•
•
•
one or two digital photo cameras of lesser or higher quality to capture the pages,
transparent V-shaped glass or Plexiglas platen to press the open book against a V-shape
cradle, and
a light source.
The go-to web resource to help you make an informed decision is the DIY book scanning
community at http://diybookscanner.org. A good place to start is their intro
(http://wiki.diybookscanner.org/ ) and scanner build list (http://wiki.diybookscanner.org/scannerbuild-list ).
The book scanners with a single camera are substantially cheaper, but come with an added difficulty
of de-warping the distorted page images due to the angle that pages are photographed at, which can
sometimes be difficult to correct in the post-processing. Hence, in this introductory chapter we'll
focus on two camera designs where the camera lens stands relatively parallel to the page. However,
with a bit of adaptation these instructions can be used to work with any other setup.
The Public Library scanner
In the focus of this manual is the scanner built for the Public Library project, designed by Voja
Antonić (see Illustration 1). The Public Library scanner was built with the immediate use by a wide
community of users in mind. Hence, the principle consideration in designing the Public Library
scanner was less sophistication and more robustness, facility of use and distributed process of
editing.
The board designs can be found here: http://www.memoryoftheworld.org/blog/2012/10/28/ourbeloved-bookscanner. The current iterations are using two Canon 1100 D cameras with the kit lens
Canon EF-S 18-55mm 1:3.5-5.6 IS. Cameras are auto-charging.
Illustration 1: Public Library Scanner
The scanner operates by automatically lowering the Plexiglas platen, illuminating the page and then
triggering camera shutters. The turning of pages and the adjustments of the V-shaped cradle holding
the book are manual.
The scanner is operated by a two-button controller (see Illustration 2). The upper, smaller button
breaks the capture process in two steps: the first click lowers the platen, increases the light level and
allows you to adjust the book or the cradle, the second click triggers the cameras and lifts the platen.
The lower button has
two modes. A quick
click will execute the
whole capture process in
one go. But if you hold
it pressed longer, it will
lower the platen,
allowing you to adjust
the book and the cradle,
and lift it without
triggering cameras when
you press again.
Illustration 2: A two-button controller
More on this manual: steps in the book scanning process
The book scanning process in general can be broken down in six steps, each of which will be dealt
in a separate chapter in this manual:
I. Photographing a printed book
I. Getting the image files ready for post-processing
III. Transformation of source images into .tiffs
IV. Optical character recognition
V. Creating a finalized e-book file
VI. Cataloging and sharing the e-book
A step by step manual for Public Library scanner
This manual is primarily meant to provide a detailed description and step-by-step instructions for an
actual book scanning setup -- based on the Voja Antonić's scanner design described above. This is a
two-camera overhead scanner, currently equipped with two Canon 1100 D cameras with EF-S 1855mm 1:3.5-5.6 IS kit lens. It can scan books of up to A4 page size.
The post-processing in this setup is based on a semi-automated transfer of files to a GNU/Linux
personal computer and on the use of free software for image editing, optical character recognition
and finalization of an e-book file. It was initially developed for the HAIP festival in Ljubljana in
2011 and perfected later at MaMa in Zagreb and Leuphana University in Lüneburg.
Public Library scanner is characterized by a somewhat less automated yet distributed scanning
process than highly automated and sophisticated scanner hacks developed at various hacklabs. A
brief overview of one such scanner, developed at the Hacker Space Bruxelles, is also included in
this manual.
The Public Library scanning process proceeds thus in following discrete steps:
1. creating digital images of pages of a book,
2. manual transfer of image files to the computer for post-processing,
3. automated renaming of files, ordering of even and odd pages, rotation of images and upload to a
cloud storage,
4. manual transformation of source images into .tiff files in ScanTailor
5. manual optical character recognition and creation of PDF files in gscan2pdf
The detailed description of the Public Library scanning process follows below.
The Bruxelles hacklab scanning process
For purposes of comparison, here we'll briefly reference the scanner built by the Bruxelles hacklab
(http://hackerspace.be/ScanBot). It is a dual camera design too. With some differences in hardware functionality
(Bruxelles scanner has automatic turning of pages, whereas Public Library scanner has manual turning of pages), the
fundamental difference between the two is in the post-processing - the level of automation in the transfer of images
from the cameras and their transformation into PDF or DjVu e-book format.
The Bruxelles scanning process is different in so far as the cameras are operated by a computer and the images are
automatically transferred, ordered and made ready for further post-processing. The scanner is home-brew, but the
process is for advanced DIY'ers. If you want to know more on the design of the scanner, contact Michael Korntheuer at
contact@hackerspace.be.
The scanning and post-processing is automated by a single Python script that does all the work
http://git.constantvzw.org/?
p=algolit.git;a=tree;f=scanbot_brussel;h=81facf5cb106a8e4c2a76c048694a3043b158d62;hb=HEAD
The scanner uses two Canon point and shoot cameras. Both cameras are connected to the PC with USB. They both run
PTP/CHDK (Canon Hack Development Kit). The scanning sequence is the following:
1. Script sends CHDK command line instructions to the cameras
2. Script sorts out the incoming files. This part is tricky. There is no reliable way to make a distinction between the left
and right camera, only between which camera was recognized by USB first. So the protocol is to always power up the
left camera first. See the instructions with the source code.
3. Collect images in a PDF file
4. Run script to OCR a .PDF file to plain .TXT file: http://git.constantvzw.org/?
p=algolit.git;a=blob;f=scanbot_brussel/ocr_pdf.sh;h=2c1f24f9afcce03520304215951c65f58c0b880c;hb=HEAD
I. PHOTOGRAPHING A PRINTED BOOK
Technologically the most demanding part of the scanning process is creating digital images of the
pages of a printed book. It's a process that is very different form scanner design to scanner design,
from camera to camera. Therefore, here we will focus strictly on the process with the Public Library
scanner.
Operating the Public Library scanner
0. Before you start:
Better and more consistent photographs lead to a more optimized and faster post-processing and a
higher quality of the resulting digital e-book. In order to guarantee the quality of images, before you
start it is necessary to set up the cameras properly and prepare the printed book for scanning.
a) Loosening the book
Depending on the type and quality of binding, some books tend to be too resistant to opening fully
to reveal the inner margin under the pressure of the scanner platen. It is thus necessary to “break in”
the book before starting in order to loosen the binding. The best way is to open it as wide as
possible in multiple places in the book. This can be done against the table edge if the book is more
rigid than usual. (Warning – “breaking in” might create irreversible creasing of the spine or lead to
some pages breaking loose.)
b) Switch on the scanner
You start the scanner by pressing the main switch or plugging the power cable into the the scanner.
This will also turn on the overhead LED lights.
c) Setting up the cameras
Place the cameras onto tripods. You need to move the lever on the tripod's head to allow the tripod
plate screwed to the bottom of the camera to slide into its place. Secure the lock by turning the lever
all the way back.
If the automatic chargers for the camera are provided, open the battery lid on the bottom of the
camera and plug the automatic charger. Close the lid.
Switch on the cameras using the lever on the top right side of the camera's body and place it into the
aperture priority (Av) mode on the mode dial above the lever (see Illustration 3). Use the main dial
just above the shutter button on the front side of the camera to set the aperture value to F8.0.
Illustration 3: Mode and main dial, focus mode switch, zoom
and focus ring
On the lens, turn the focus mode switch to manual (MF), turn the large zoom ring to set the value
exactly midway between 24 and 35 mm (see Illustration 3). Try to set both cameras the same.
To focus each camera, open a book on the cradle, lower the platen by holding the big button on the
controller, and turn on the live view on camera LCD by pressing the live view switch (see
Illustration 4). Now press the magnification button twice and use the focus ring on the front of the
lens to get a clear image view.
Illustration 4: Live view switch and magnification button
d) Connecting the cameras
Now connect the cameras to the remote shutter trigger cables that can be found lying on each side
of the scanner. They need to be plugged into a small round port hidden behind a protective rubber
cover on the left side of the cameras.
e) Placing the book into the cradle and double-checking the cameras
Open the book in the middle and place it on the cradle. Hold pressed the large button on the
controller to lower the Plexiglas platen without triggering the cameras. Move the cradle so that the
the platen fits into with the middle of the book.
Turn on the live view on the cameras' LED to see if the the pages fit into the image and if the
cameras are positioned parallel to the page.
f) Double-check storage cards and batteries
It is important that both storage cards on cameras are empty before starting the scanning in order
not to mess up the page sequence when merging photos from the left and the right camera in the
post-processing. To double-check, press play button on cameras and erase if there are some photos
left from the previous scan -- this you do by pressing the menu button, selecting the fifth menu from
the left and then select 'Erase Images' -> 'All images on card' -> 'OK'.
If no automatic chargers are provided, double-check on the information screen that batteries are
charged. They should be fully charged before starting with the scanning of a new book.
g) Turn off the light in the room
Lighting conditions during scanning should be as constant as possible, to reduce glare and achieve
maximum quality remove any source of light that might reflect off the Plexiglas platen. Preferably
turn off the light in the room or isolate the scanner with the black cloth provided.
1. Photographing a book
Now you are ready to start scanning. Place the book closed in the cradle and lower the platen by
holding the large button on the controller pressed (see Illustration 2). Adjust the position of the
cradle and lift the platen by pressing the large button again.
To scan you can now either use the small button on the controller to lower the platen, adjust and
then press it again to trigger the cameras and lift the platen. Or, you can just make a short press on
the large button to do it in one go.
ATTENTION: When the cameras are triggered, the shutter sound has to be heard coming
from both cameras. If one camera is not working, it's best to reconnect both cameras (see
Section 0), make sure the batteries are charged or adapters are connected, erase all images
and restart.
A mistake made in the photographing requires a lot of work in the post-processing, so it's
much quicker to repeat the photographing process.
If you make a mistake while flipping pages, or any other mistake, go back and scan from the page
you missed or incorrectly scanned. Note down the page where the error occurred and in the postprocessing the redundant images will be removed.
ADVICE: The scanner has a digital counter. By turning the dial forward and backward, you
can set it to tell you what page you should be scanning next. This should help you avoid
missing a page due to a distraction.
While scanning, move the cradle a bit to the left from time to time, making sure that the tip of Vshaped platen is aligned with the center of the book and the inner margin is exposed enough.
II. GETTING THE IMAGE FILES READY FOR POST-PROCESSING
Once the book pages have been photographed, they have to be transfered to the computer and
prepared for post-processing. With two-camera scanners, the capturing process will result in two
separate sets of images -- odd and even pages -- coming from the left and right cameras respectively
-- and you will need to rename and reorder them accordingly, rotate them into a vertical position
and collate them into a single sequence of files.
a) Transferring image files
For the transfer of files your principle process design choices are either to copy the files by
removing the memory cards from the cameras and copying them to the computer via a card reader
or to transfer them via a USB cable. The latter process can be automated by remote operating your
cameras from a computer, however this can be done only with a certain number of Canon cameras
(http://bit.ly/16xhJ6b) that can be hacked to run the open Canon Hack Development Kit firmware
(http://chdk.wikia.com).
After transferring the files, you want to erase all the image files on the camera memory card, so that
they would not end up messing up the scan of the next book.
b) Renaming image files
As the left and right camera are typically operated in sync, the photographing process results in two
separate sets of images, with even and odd pages respectively, that have completely different file
names and potentially same time stamps. So before you collate the page images in the order how
they appear in the book, you want to rename the files so that the first image comes from the right
camera, the second from the left camera, the third comes again from the right camera and so on.
You probably want to do a batch renaming, where your right camera files start with n and are offset
by an increment of 2 (e.g. page_0000.jpg, page_0002.jpg,...) and your left camera files start with
n+1 and are also offset by an increment of 2 (e.g. page_0001.jpg, page_0003.jpg,...).
Batch renaming can be completed either from your file manager, in command line or with a number
of GUI applications (e.g. GPrename, rename, cuteRenamer on GNU/Linux).
c) Rotating image files
Before you collate the renamed files, you might want to rotate them. This is a step that can be done
also later in the post-processing (see below), but if you are automating or scripting your steps this is
a practical place to do it. The images leaving your cameras will be positioned horizontally. In order
to position them vertically, the images from the camera on the right will have to be rotated by 90
degrees counter-clockwise, the images from the camera on the left will have to be rotated by 90
degrees clockwise.
Batch rotating can be completed in a number of photo-processing tools, in command line or
dedicated applications (e.g. Fstop, ImageMagick, Nautilust Image Converter on GNU/Linux).
d) Collating images into a single batch
Once you're done with the renaming and rotating of the files, you want to collate them into the same
folder for easier manipulation later.
Getting the image files ready for post-processing on the Public Library scanner
In the case of Public Library scanner, a custom C++ script was written by Mislav Stublić to
facilitate the transfer, renaming, rotating and collating of the images from the two cameras.
The script prompts the user to place into the card reader the memory card from the right camera
first, gives a preview of the first and last four images and provides an entry field to create a subfolder in a local cloud storage folder (path: /home/user/Copy).
It transfers, renames, rotates the files, deletes them from the card and prompts the user to replace the
card with the one from the left camera in order to the transfer the files from there and place them in
the same folder. The script was created for GNU/Linux system and it can be downloaded, together
with its source code, from: https://copy.com/nLSzflBnjoEB
If you have other cameras than Canon, you can edit the line 387 of the source file to change to the
naming convention of your cameras, and recompile by running the following command in your
terminal: "gcc scanflow.c -o scanflow -ludev `pkg-config --cflags --libs gtk+-2.0`"
In the case of Hacker Space Bruxelles scanner, this is handled by the same script that operates the cameras that can be
downloaded from: http://git.constantvzw.org/?
p=algolit.git;a=tree;f=scanbot_brussel;h=81facf5cb106a8e4c2a76c048694a3043b158d62;hb=HEAD
III. TRANSFORMATION OF SOURCE IMAGES INTO .TIFFS
Images transferred from the cameras are high definition full color images. You want your cameras
to shoot at the largest possible .jpg resolution in order for resulting files to have at least 300 dpi (A4
at 300 dpi requires a 9.5 megapixel image). In the post-processing the size of the image files needs
to be reduced down radically, so that several hundred images can be merged into an e-book file of a
tolerable size.
Hence, the first step in the post-processing is to crop the images from cameras only to the content of
the pages. The surroundings around the book that were captured in the photograph and the white
margins of the page will be cropped away, while the printed text will be transformed into black
letters on white background. The illustrations, however, will need to be preserved in their color or
grayscale form, and mixed with the black and white text. What were initially large .jpg files will
now become relatively small .tiff files that are ready for optical character recognition process
(OCR).
These tasks can be completed by a number of software applications. Our manual will focus on one
that can be used across all major operating systems -- ScanTailor. ScanTailor can be downloaded
from: http://scantailor.sourceforge.net/. A more detailed video tutorial of ScanTailor can be found
here: http://vimeo.com/12524529.
ScanTailor: from a photograph of a page to a graphic file ready for OCR
Once you have transferred all the photos from cameras to the computer, renamed and rotated them,
they are ready to be processed in the ScanTailor.
1) Importing photographs to ScanTailor
- start ScanTailor and open ‘new project’
- for ‘input directory’ chose the folder where you stored the transferred and renamed photo images
- you can leave ‘output directory’ as it is, it will place your resulting .tiffs in an 'out' folder inside
the folder where your .jpg images are
- select all files (if you followed the naming convention above, they will be named
‘page_xxxx.jpg’) in the folder where you stored the transferred photo images, and click 'OK'
- in the dialog box ‘Fix DPI’ click on All Pages, and for DPI choose preferably '600x600', click
'Apply', and then 'OK'
2) Editing pages
2.1 Rotating photos/pages
If you've rotated the photo images in the previous step using the scanflow script, skip this step.
- Rotate the first photo counter-clockwise, click Apply and for scope select ‘Every other page’
followed by 'OK'
- Rotate the following photo clockwise, applying the same procedure like in the previous step
2.2 Deleting redundant photographs/pages
- Remove redundant pages (photographs of the empty cradle at the beginning and the end of the
book scanning sequence; book cover pages if you don’t want them in the final scan; duplicate pages
etc.) by right-clicking on a thumbnail of that page in the preview column on the right side, selecting
‘Remove from project’ and confirming by clicking on ‘Remove’.
# If you by accident remove a wrong page, you can re-insert it by right-clicking on a page
before/after the missing page in the sequence, selecting 'insert after/before' (depending on which
page you selected) and choosing the file from the list. Before you finish adding, it is necessary to
again go through the procedure of fixing DPI and Rotating.
2.3 Adding missing pages
- If you notice that some pages are missing, you can recapture them with the camera and insert them
manually at this point using the procedure described above under 2.2.
3) Split pages and deskew
Steps ‘Split pages’ and ‘Deskew’ should work automatically. Run them by clicking the ‘Play’ button
under the 'Select content' function. This will do the three steps automatically: splitting of pages,
deskewing and selection of content. After this you can manually re-adjust splitting of pages and deskewing.
4) Selecting content
Step ‘Select content’ works automatically as well, but it is important to revise the resulting selection
manually page by page to make sure the entire content is selected on each page (including the
header and page number). Where necessary, use your pointer device to adjust the content selection.
If the inner margin is cut, go back to 'Split pages' view and manually adjust the selected split area. If
the page is skewed, go back to 'Deskew' and adjust the skew of the page. After this go back to
'Select content' and readjust the selection if necessary.
This is the step where you do visual control of each page. Make sure all pages are there and
selections are as equal in size as possible.
At the bottom of thumbnail column there is a sort option that can automatically arrange pages by
the height and width of the selected content, making the process of manual selection easier. The
extreme differences in height should be avoided, try to make selected areas as much as possible
equal, particularly in height, across all pages. The exception should be cover and back pages where
we advise to select the full page.
5) Adjusting margins
For best results select in the previous step content of the full cover and back page. Now go to the
'Margins' step and set under Margins section both Top, Bottom, Left and Right to 0.0 and do 'Apply
to...' → 'All pages'.
In Alignment section leave 'Match size with other pages' ticked, choose the central positioning of
the page and do 'Apply to...' → 'All pages'.
6) Outputting the .tiffs
Now go to the 'Output' step. Ignore the 'Output Resolution' section.
Next review two consecutive pages from the middle of the book to see if the scanned text is too
faint or too dark. If the text seems too faint or too dark, use slider Thinner – Thicker to adjust. Do
'Apply to' → 'All pages'.
Next go to the cover page and select under Mode 'Color / Grayscale' and tick on 'White Margins'.
Do the same for the back page.
If there are any pages with illustrations, you can choose the 'Mixed' mode for those pages and then
under the thumb 'Picture Zones' adjust the zones of the illustrations.
Now you are ready to output the files. Just press 'Play' button under 'Output'. Once the computer is
finished processing the images, just do 'File' → 'Save as' and save the project.
IV. OPTICAL CHARACTER RECOGNITION
Before the edited-down graphic files are finalized as an e-book, we want to transform the image of
the text into an actual text that can be searched, highlighted, copied and transformed. That
functionality is provided by Optical Character Recognition. This a technically difficult task dependent on language, script, typeface and quality of print - and there aren't that many OCR tools
that are good at it. There is, however, a relatively good free software solution - Tesseract
(http://code.google.com/p/tesseract-ocr/) - that has solid performance, good language data and can
be trained for an even better performance, although it has its problems. Proprietary solutions (e.g.
Abby FineReader) sometimes provide superior results.
Tesseract supports as input format primarily .tiff files. It produces a plain text file that can be, with
the help of other tools, embedded as a separate layer under the original graphic image of the text in
a PDF file.
With the help of other tools, OCR can be performed also against other input files, such as graphiconly PDF files. This produces inferior results, depending again on the quality of graphic files and
the reproduction of text in them. One such tool is a bashscript to OCR a ODF file that can be found
here: https://github.com/andrecastro0o/ocr/blob/master/ocr.sh
As mentioned in the 'before scanning' section, the quality of the original book will influence the
quality of the scan and thus the quality of the OCR. For a comparison, have a look here:
http://www.paramoulipist.be/?p=1303
Once you have your .txt file, there is still some work to be done. Because OCR has difficulties to
interpret particular elements in the lay-out and fonts, the TXT file comes with a lot of errors.
Recurrent problems are:
- combinations of specific letters in some fonts (it can mistake 'm' for 'n' or 'I' for 'i' etc.);
- headers become part of body text;
- footnotes are placed inside the body text;
- page numbers are not recognized as such.
V. CREATING A FINALIZED E-BOOK FILE
After the optical character recognition has been completed, the resulting text can be merged with
the images of pages and output into an e-book format. While increasingly the proper e-book file
formats such as ePub have been gaining ground, PDFs still remain popular because many people
tend to read on their computers, and they retain the original layout of the book on paper including
the absolute pagination needed for referencing in citations. DjVu is also an option, as an alternative
to PDF, used because of its purported superiority, but it is far less popular.
The export to PDF can be done again with a number of tools. In our case we'll complete the optical
character recognition and PDF export in gscan2pdf. Again, the proprietary Abbyy FineReader will
produce a bit smaller PDFs.
If you prefer to use an e-book format that works better with e-book readers, obviously you will have
to remove some of the elements that appear in the book - headers, footers, footnotes and pagination.
This can be done earlier in the process of cropping down the original .jpg image files (see under III)
or later by transforming the PDF files. This can be done in Calibre (http://calibre-ebook.com) by
converting the PDF into an ePub, where it can be further tweaked to better accommodate or remove
the headers, footers, footnotes and pagination.
Optical character recognition and PDF export in Public Library workflow
Optical character recognition with the Tesseract engine can be performed on GNU/Linux by a
number of command line and GUI tools. Much of those tools exist also for other operating systems.
For the users of the Public Library workflow, we recommend using gscan2pdf application both for
the optical character recognition and the PDF or DjVu export.
To do so, start gscan2pdf and open your .tiff files. To OCR them, go to 'Tools' and select 'OCR'. In
the dialog box select the Tesseract engine and your language. 'Start OCR'. Once the OCR is
finished, export the graphic files and the OCR text to PDF by selecting 'Save as'.
However, given that sometimes the proprietary solutions produce better results, these tasks can also
be done, for instance, on the Abbyy FineReader running on a Windows operating system running
inside the Virtual Box. The prerequisites are that you have both Windows and Abbyy FineReader
you can install in the Virtual Box. If using Virtual Box, once you've got both installed, you need to
designate a shared folder in your Virtual Box and place the .tiff files there. You can now open them
from the Abbyy FineReader running in the Virtual Box, OCR them and export them into a PDF.
To use Abbyy FineReader transfer the output files in your 'out' out folder to the shared folder of the
VirtualBox. Then start the VirtualBox, start Windows image and in Windows start Abbyy
FineReader. Open the files and let the Abbyy FineReader read the files. Once it's done, output the
result into PDF.
VI. CATALOGING AND SHARING THE E-BOOK
Your road from a book on paper to an e-book is complete. If you want to maintain your library you
can use Calibre, a free software tool for e-book library management. You can add the metadata to
your book using the existing catalogues or you can enter metadata manually.
Now you may want to distribute your book. If the work you've digitized is in the public domain
(https://en.wikipedia.org/wiki/Public_domain), you might consider contributing it to the Gutenberg
project
(http://www.gutenberg.org/wiki/Gutenberg:Volunteers'_FAQ#V.1._How_do_I_get_started_as_a_Pr
oject_Gutenberg_volunteer.3F ), Wikibooks (https://en.wikibooks.org/wiki/Help:Contributing ) or
Arhive.org.
If the work is still under copyright, you might explore a number of different options for sharing.
QUICK WORKFLOW REFERENCE FOR SCANNING AND
POST-PROCESSING ON PUBLIC LIBRARY SCANNER
I. PHOTOGRAPHING A PRINTED BOOK
0. Before you start:
- loosen the book binding by opening it wide on several places
- switch on the scanner
- set up the cameras:
- place cameras on tripods and fit them tigthly
- plug in the automatic chargers into the battery slot and close the battery lid
- switch on the cameras
- switch the lens to Manual Focus mode
- switch the cameras to Av mode and set the aperture to 8.0
- turn the zoom ring to set the focal length exactly midway between 24mm and 35mm
- focus by turning on the live view, pressing magnification button twice and adjusting the
focus to get a clear view of the text
- connect the cameras to the scanner by plugging the remote trigger cable to a port behind a
protective rubber cover on the left side of the cameras
- place the book into the crade
- double-check storage cards and batteries
- press the play button on the back of the camera to double-check if there are images on the
camera - if there are, delete all the images from the camera menu
- if using batteries, double-check that batteries are fully charged
- switch off the light in the room that could reflect off the platen and cover the scanner with the
black cloth
1. Photographing
- now you can start scanning either by pressing the smaller button on the controller once to
lower the platen and adjust the book, and then press again to increase the light intensity, trigger the
cameras and lift the platen; or by pressing the large button completing the entire sequence in one
go;
- ATTENTION: Shutter sound should be coming from both cameras - if one camera is not
working, it's best to reconnect both cameras, make sure the batteries are charged or adapters
are connected, erase all images and restart.
- ADVICE: The scanner has a digital counter. By turning the dial forward and backward,
you can set it to tell you what page you should be scanning next. This should help you to
avoid missing a page due to a distraction.
II. Getting the image files ready for post-processing
- after finishing with scanning a book, transfer the files to the post-processing computer
and purge the memory cards
- if transferring the files manually:
- create two separate folders,
- transfer the files from the folders with image files on cards, using a batch
renaming software rename the files from the right camera following the convention
page_0001.jpg, page_0003.jpg, page_0005.jpg... -- and the files from the left camera
following the convention page_0002.jpg, page_0004.jpg, page_0006.jpg...
- collate image files into a single folder
- before ejecting each card, delete all the photo files on the card
- if using the scanflow script:
- start the script on the computer
- place the card from the right camera into the card reader
- enter the name of the destination folder following the convention
"Name_Surname_Title_of_the_Book" and transfer the files
- repeat with the other card
- script will automatically transfer the files, rename, rotate, collate them in proper
order and delete them from the card
III. Transformation of source images into .tiffs
ScanTailor: from a photograph of page to a graphic file ready for OCR
1) Importing photographs to ScanTailor
- start ScanTailor and open ‘new project’
- for ‘input directory’ chose the folder where you stored the transferred photo images
- you can leave ‘output directory’ as it is, it will place your resulting .tiffs in an 'out' folder
inside the folder where your .jpg images are
- select all files (if you followed the naming convention above, they will be named
‘page_xxxx.jpg’) in the folder where you stored the transferred photo images, and click
'OK'
- in the dialog box ‘Fix DPI’ click on All Pages, and for DPI choose preferably '600x600',
click 'Apply', and then 'OK'
2) Editing pages
2.1 Rotating photos/pages
If you've rotated the photo images in the previous step using the scanflow script, skip this step.
- rotate the first photo counter-clockwise, click Apply and for scope select ‘Every other
page’ followed by 'OK'
- rotate the following photo clockwise, applying the same procedure like in the previous
step
2.2 Deleting redundant photographs/pages
- remove redundant pages (photographs of the empty cradle at the beginning and the end;
book cover pages if you don’t want them in the final scan; duplicate pages etc.) by rightclicking on a thumbnail of that page in the preview column on the right, selecting ‘Remove
from project’ and confirming by clicking on ‘Remove’.
# If you by accident remove a wrong page, you can re-insert it by right-clicking on a page
before/after the missing page in the sequence, selecting 'insert after/before' and choosing the file
from the list. Before you finish adding, it is necessary to again go the procedure of fixing DPI and
rotating.
2.3 Adding missing pages
- If you notice that some pages are missing, you can recapture them with the camera and
insert them manually at this point using the procedure described above under 2.2.
3)
Split pages and deskew
- Functions ‘Split Pages’ and ‘Deskew’ should work automatically. Run them by
clicking the ‘Play’ button under the 'Select content' step. This will do the three steps
automatically: splitting of pages, deskewing and selection of content. After this you can
manually re-adjust splitting of pages and de-skewing.
4)
Selecting content and adjusting margins
- Step ‘Select content’ works automatically as well, but it is important to revise the
resulting selection manually page by page to make sure the entire content is selected on
each page (including the header and page number). Where necessary use your pointer device
to adjust the content selection.
- If the inner margin is cut, go back to 'Split pages' view and manually adjust the selected
split area. If the page is skewed, go back to 'Deskew' and adjust the skew of the page. After
this go back to 'Select content' and readjust the selection if necessary.
- This is the step where you do visual control of each page. Make sure all pages are there
and selections are as equal in size as possible.
- At the bottom of thumbnail column there is a sort option that can automatically arrange
pages by the height and width of the selected content, making the process of manual
selection easier. The extreme differences in height should be avoided, try to make
selected areas as much as possible equal, particularly in height, across all pages. The
exception should be cover and back pages where we advise to select the full page.
5) Adjusting margins
- Now go to the 'Margins' step and set under Margins section both Top, Bottom, Left and
Right to 0.0 and do 'Apply to...' → 'All pages'.
- In Alignment section leave 'Match size with other pages' ticked, choose the central
positioning of the page and do 'Apply to...' → 'All pages'.
6) Outputting the .tiffs
- Now go to the 'Output' step.
- Review two consecutive pages from the middle of the book to see if the scanned text is
too faint or too dark. If the text seems too faint or too dark, use slider Thinner – Thicker to
adjust. Do 'Apply to' → 'All pages'.
- Next go to the cover page and select under Mode 'Color / Grayscale' and tick on 'White
Margins'. Do the same for the back page.
- If there are any pages with illustrations, you can choose the 'Mixed' mode for those
pages and then under the thumb 'Picture Zones' adjust the zones of the illustrations.
- To output the files press 'Play' button under 'Output'. Save the project.
IV. Optical character recognition & V. Creating a finalized e-book file
If using all free software:
1) open gscan2pdf (if not already installed on your machine, install gscan2pdf from the
repositories, Tesseract and data for your language from https://code.google.com/p/tesseract-ocr/)
- point gscan2pdf to open your .tiff files
- for Optical Character Recognition, select 'OCR' under the drop down menu 'Tools',
select the Tesseract engine and your language, start the process
- once OCR is finished and to output to a PDF, go under 'File' and select 'Save', edit the
metadata and select the format, save
If using non-free software:
2) open Abbyy FineReader in VirtualBox (note: only Abby FineReader 10 installs and works with some limitations - under GNU/Linux)
- transfer files in the 'out' folder to the folder shared with the VirtualBox
- point it to the readied .tiff files and it will complete the OCR
- save the file
REFERENCES
For more information on the book scanning process in general and making your own book scanner
please visit:
DIY Book Scanner: http://diybookscannnner.org
Hacker Space Bruxelles scanner: http://hackerspace.be/ScanBot
Public Library scanner: http://www.memoryoftheworld.org/blog/2012/10/28/our-belovedbookscanner/
Other scanner builds: http://wiki.diybookscanner.org/scanner-build-list
For more information on automation:
Konrad Voeckel's post-processing script (From Scan to PDF/A):
http://blog.konradvoelkel.de/2013/03/scan-to-pdfa/
Johannes Baiter's automation of scanning to PDF process: http://spreads.readthedocs.org
For more information on applications and tools:
Calibre e-book library management application: http://calibre-ebook.com/
ScanTailor: http://scantailor.sourceforge.net/
gscan2pdf: http://sourceforge.net/projects/gscan2pdf/
Canon Hack Development Kit firmware: http://chdk.wikia.com
Tesseract: http://code.google.com/p/tesseract-ocr/
Python script of Hacker Space Bruxelles scanner: http://git.constantvzw.org/?
p=algolit.git;a=tree;f=scanbot_brussel;h=81facf5cb106a8e4c2a76c048694a3043b158d62;hb=HEA
D
Mars & Medak
Against Innovation
2019
Against Innovation: Compromised institutional agency and acts of custodianship
Marcell Mars and Tomislav Medak
abstract
In this essay we reflect on the historic crisis of the university and the public library as two
modern institutions tasked with providing universal access to knowledge and education.
This crisis, precipitated by pushes to marketization, technological innovation and
financialization in universities and libraries, has prompted the emergence of shadow
libraries as collective disobedient practices of maintenance and custodianship. In their
illegal acts of reversing property into commons, commodification into care, we detect a
radical gesture comparable to that of the historical avant-garde. To better understand how
the university and the public library ended up in this crisis, we re-trace their development
starting with the capitalist modernization around the turn of the 20th century, a period of
accelerated technological innovation that also birthed historical avant-garde. Drawing on
Perry Anderson’s ‘Modernity and Revolution’, we interpret that uniquely creative period
as a period of ambivalence toward an ‘unpredictable political future’ that was open to
diverging routes of social development. We situate the later re-emergence of avant-garde
practices in the 1960s as an attempt to subvert the separations that a mature capitalism
imposes on social reality. In the present, we claim, the radicality equivalent to the avantgarde is to divest from the disruptive dynamic of innovation and focus on the repair,
maintenance and care of the broken social world left in techno-capitalism’s wake.
Comparably, the university and the public library should be able to claim the radical
those gesture of slowdown and custodianship too, against the imperative of innovation
imposed on them by policymakers and managers.
Custodians.online, the first letter
On 30 November, 2015 a number of us shadow librarians who advocate, build
and maintain ‘shadow libraries’, i.e. online infrastructures allowing users to
digitise, share and debate digital texts and collections, published a letter
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ephemera: theory & politics in organization
(Custodians.online, 2015) in support of two of the largest user-created
repositories of pirated textbooks and articles on the Internet – Library Genesis
and Science Hub. Library Genesis and Science Hub’s web domain names were
taken down after a New York court issued an injunction following a copyright
infringement suit filed by the largest commercial academic publisher in the
world – Reed Elsevier. It is a familiar trajectory that a shared digital resource,
once it grows in relevance and size, gets taken down after a court decision.
Shadow libraries are no exception.
The world of higher education and science is structured by uneven development.
The world’s top-ranked universities are concentrated in a dozen rich countries
(Times Higher Education, 2017), commanding most of the global investment
into higher education and research. The oligopoly of commercial academic
publishers is headquartered in no more than half of those. The excessive rise of
subscription fees has made it prohibitively expensive even for the richest
university libraries of the Global North to provide access to all the journals they
would need to (Sample, 2012), drawing protest from academics all over the world
against the outrageously high price tag that Reed Elsevier puts on their work
(‘The Cost of Knowledge’, 2012). Against this concentration of economic might
and exclusivity to access, stands the fact that the rest of the world has little access
to the top-ranked research universities (Baty, 2017; Henning, 2017) and that the
poor universities are left with no option but to tacitly encourage their students to
use shadow libraries (Liang, 2012). The editorial director of global rankings at the
Times Higher Education Phil Baty minces no words when he bluntly states ‘that
money talks in global higher education seems … to be self-evident’ (Baty, 2017).
Uneven economic development reinforces global uneven development in higher
education and science – and vice versa. It is in the face of this combined
economic and educational unevenness, that Library Genesis and Science Hub,
two repositories for a decommodified access to otherwise paywalled resources,
attain a particular import for students, academics and researchers worldwide.
And it is in the face of combined economic and educational unevenness, that
Library Genesis and Science Hub continue to brave the court decisions,
continuously changing their domain names, securing ways of access beyond the
World Wide Web and ensuring robust redundancy of the materials in their
repositories.
The Custodians.online letter highlights two circumstances in this antagonism
that cut to the core of the contradictions of reproduction within academia in the
present. The first is the contrast between the extraction of extreme profits from
academia through inflated subscription prices and the increasingly precarious
conditions of studying, teaching and researching:
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Against innovation
Consider Elsevier, the largest scholarly publisher, whose 37% profit margin stands
in sharp contrast to the rising fees, expanding student loan debt and poverty-level
wages for adjunct faculty. Elsevier owns some of the largest databases of academic
material, which are licensed at prices so scandalously high that even Harvard, the
richest university of the global north, has complained that it cannot afford them
any longer. (Custodians.online, 2015: n.p.)
The enormous profits accruing to an oligopoly of academic publishers are a
result of a business model premised on harvesting and enclosing the scholarly
writing, peer reviewing and editing is done mostly for free by academics who are
often-times struggling to make their ends meet in the higher education
environment (Larivière et al., 2015).
The second circumstance is that shadow libraries invert the property relation of
copyright that allows publishers to exclude all those students, teachers and
researchers who don’t have institutional access to scholarly writing and yet need
that access for their education and research, their work and their livelihood in
conditions of heightened precarity:
This is the other side of 37% profit margins: our knowledge commons grows in
the fault lines of a broken system. We are all custodians of knowledge, custodians
of the same infrastructures that we depend on for producing knowledge,
custodians of our fertile but fragile commons. To be a custodian is, de facto, to
download, to share, to read, to write, to review, to edit, to digitize, to archive, to
maintain libraries, to make them accessible. It is to be of use to, not to make
property of, our knowledge commons.) (Custodians.online, 2015)
Shadow libraries thus perform an inversion that replaces the ability of ownership
to exclude, with the practice of custodianship (notion implying both the labor of
preservation of cultural artifacts and the most menial and invisible labor of daily
maintenance and cleaning of physical structures) that makes one useful to a
resource held in common and the infrastructures that sustain it.
These two circumstances – antagonism between value extraction and precarity
and antagonism between exclusive property and collective custodianship – signal
a deeper-running crisis of two institutions of higher education and research that
are caught in a joint predicament: the university and the library. This crisis is a
reflection of the impossible challenges placed on them by the capitalist
development, with its global division of labor and its looming threat of massive
technological unemployment, and the response of national policymakers to those
challenges: Are they able to create a labor force that will be able to position itself
in the global labor market with ever fewer jobs to go around? Can they do it with
less money? Can they shift the cost, risk and responsibility for social challenges
to individual students and patrons, who are now facing the prospect of their
investment in education never working out? Under these circumstances, the
article | 347
imperative is that these institutions have to re-invent themselves, that they have
to innovate in order to keep up with the disruptive course and accelerated the
pace of change.
Custodianship and repair
In what follows we will argue against submitting to this imperative of innovation.
Starting from the conditions from which shadow libraries emerge, as laid out in
the first Custodians.online letter, we claim that the historical trajectory of the
university and the library demands that they now embrace a position of
disobedience. They need to go back to their universalizing mission of providing
access to knowledge and education unconditionally to all members of society.
That universalism is a powerful political gesture. An infinite demand (Critchley,
2007) whereby they seek to abolish exclusions and affirm the legacy of the radical
equality they have built as part of the history of emancipatory struggles and
advances since the revolutions of 1789 and 1848. At the core of this legacy is a
promise that the capacity of members of society to collectively contest and claim
rights so as to become free, equal and solidaric is underwritten by a capacity to
have informed opinion, attain knowledge and produce a pedagogy of their own.
The library and the university stand in a historical trajectory of revolutions, a
series of historical discontinuities. The French Revolution seized the holdings of
the aristocracy and the Church, and brought a deluge of books to the Blibliotèque
Nationale and the municipal libraries across France (Harris, 1999). The Chartism
might have failed in its political campaign in 1848, but was successful in setting
up the reading rooms and emancipating the working class education from moral
inculcation imposed on them by the ruling classes (Johnson, 2014). The tension
between continuity and discontinuity that comes with disruptive changes was
written into their history long before the present imperative of innovation. And
yet, if these institutions are social infrastructures that have ever since sustained
the production of knowledge and pedagogy by re-producing the organizational
and material conditions of their production, they warn us against taking that
imperative of innovation at face value.
The entrepreneurial language of innovation is the vernacular of global technocapitalism in the present. Radical disruption is celebrated for its ability to depose
old monopolies and birth new ones, to create new markets and its first movers to
replace old ones (Bower and Christensen, 1996). It is a formalization reducing
the complexity of the world to the capital’s dynamic of creative destruction
(Schumpeter, 2013), a variant of an old and still hegemonic productivism that
understands social development as primarily a function of radical advances in
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Against innovation
technological productivity (Mumford, 1967). According to this view, what counts
is that spurts of technological innovation are driven by cycles of financial capital
facing slumping profits in production (Perez, 2011).
However, once the effect of gains from new technologies starts to slump, once
the technologist’s dream of improving the world hits the hard place of venture
capital monetization and capitalist competition, once the fog of hyped-up
technological boom clears, that which is supposedly left behind comes the fore.
There’s then the sunken fixed capital that is no longer productive enough.
There’s then technical infrastructures and social institutions that were there
before the innovation and still remain there once its effect tapers off, removed
from view in the productivist mindset, and yet invisibly sustaining that activity of
innovation and any other activity in the social world we inhabit (Hughes, 1993).
What remains then is the maintenance of stagnant infrastructures, the work of
repair to broken structures and of care for resources that we collectively depend
on.
As a number of scholars who have turned their attention to the matters of repair,
maintenance and care suggest, it is the sedimented material infrastructures of
the everyday and their breakdown that in fact condition and drive much of the
innovation process (Graham and Thrift, 2007; Jackson, 2014). As the renowned
historian of technology Thomas Hughes suggested (Hughes, 1993),
technological changes largely address the critical problems of existing
technologies. Earlier still, in the 1980s, David Noble convincingly argued that the
development of forces of production is a function of the class conflict (Noble,
2011). This turns the temporal logic of innovation on its head. Not the creative
destruction of a techno-optimist kind, but the malfunctioning of technological
infrastructures and the antagonisms of social structures are the elementary
pattern of learning and change in our increasingly technological world. As
Stephen Graham and Nigel Thrift argued (2007), once the smooth running
production, consumption and communication patterns in the contemporary
capitalist technosphere start to collapse, the collective coping strategies have to
rise to the challenge. Industrial disasters, breakdowns of infrastructures and
natural catastrophes have taught us that much.
In an age where a global division of labor is producing a growing precarity for
ever larger segments of the world’s working population and the planetary
systems are about to tip into non-linear changes, a truly radical gesture is that
which takes as its focus the repair of the effects of productivism. Approaching the
library and the university through the optic of social infrastructure allows us to
glimpse a radicality that their supposed inertia, complexity and stability make
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possible. This slowdown enables the processes of learning and the construction
of collective responses to the double crisis of growth and the environment.
In a social world in which precarity is differently experienced between different
groups, these institutions can accommodate that heterogeneity and diminish
their insecurities, helping the society effectively support structural change. They
are a commons in the non-substantive sense that Lauren Berlant (2016)
proposes, a ‘transitional form’ that doesn’t elide social antagonisms and that lets
different social positions loosely converge, in order to become ‘a powerful vehicle
for troubling troubled times’ (Berlant, 2016: 394-395).
The trajectory of radical gestures, discontinuities by re-invention, and creative
destruction of the old have been historically a hallmark of the avant-gardes. In
what follows, we will revisit the history of the avant-gardes, claiming that,
throughout their periodic iterations, the avant-gardes returned and mutated
always in response to the dominant processes and crises of the capitalist
development of their time. While primarily an artistic and intellectual
phenomenon, the avant-gardes emerged from both an adversarial and a coconstitutive relation to the institutions of higher education and knowledge
production. By revisiting three epochal moments along the trajectory of the
avant-gardes – 1917, 1967 and 2017 – we now wish to establish how the
structural context for radical disruption and radical transformation were
historically changing, bringing us to the present conjuncture where the library
and the university can reclaim the legacy of the avant-gardes by seemingly doing
its exact opposite: refusing innovation.
In his text on ‘Modernity and Revolution’ Perry Anderson (1984) provides an
unexpected, yet the cogent explanation of the immense explosion of artistic
creativity in the short span of time between the late nineteenth and early
twentieth century that is commonly periodized as modernism (or avant-garde,
which he uses sparsely yet interchangeably). Rather than collapsing these wildly
diverging movements and geographic variations of artistic practices into a
monolithic formation, he defines modernism as a broad field of singular
responses resulting from the larger socio-political conjuncture of industrial
modernity. The very different and sometimes antithetical currents of symbolism,
constructivism, futurism, expressionism or suprematism that emerge in
modernism’s fold were defined by three coordinates: 1) an opposition to the
academicism in the art of the ancien régime, which modernist art tendencies both
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draw from and position themselves against, 2) a transformative use of
technologies and means of communication that were still in their promising
infancy and not fully integrated into the exigencies of capitalist accumulation and
3) a fundamental ambivalence vis-à-vis the future social formation – capitalism or
socialism, state or soviet – that the process of modernization would eventually
lead to. As Anderson summarizes:
European modernism in the first years of this century thus flowered in the space
between a still usable classical past, a still indeterminate technical present, and a
still unpredictable political future. Or, put another way, it arose at the intersection
between a semi-aristocratic ruling order, a semi-industrialized capitalist economy,
and a semi-emergent, or -insurgent, labour movement. (Anderson, 1984: 150)
Thus these different modernisms emerged operating within the coordinates of
their historical present, – committed to a substantive subversion of tradition or to
an acceleration of social development. In his influential theory of the avant-garde,
Peter Bürger (1984) roots its development in the critique of autonomy the art
seemingly achieved with the rise of capitalist modernity between the eighteenth
and late nineteenth century. The emergence of bourgeois society allowed artists
to attain autonomy in a triple sense: art was no longer bounded to the
representational hierarchies of the feudal system; it was now produced
individually and by individual fiat of the artist; and it was produced for individual
appreciation, universally, by all members of society. Starting from the ideal of
aesthetic autonomy enshrined in the works of Kant and Schiller, art eventually
severed its links from the boundedness of social reality and made this freedom
into its subject matter. As the markets for literary and fine artworks were
emerging, artists were gaining material independence from feudal patronage, the
institutions of bourgeois art were being established, and ‘[a]estheticism had made
the distance from the praxis of life the content of works’ (Bürger, 1984: 49)
While capitalism was becoming the dominant reality, the freedom of art was
working to suppress the incursion of that reality in art. It was that distance,
between art and life, that historical avant-gardes would undertake to eliminate
when they took aim at bourgeois art. With the ‘pathos of historical
progressiveness on their side’ (Bürger, 1984: 50), the early avant-gardes were
thus out to relate and transform art and life in one go.
Early industrial capitalism unleashed an enormous social transformation
through the formalization and rationalization of processes, the coordination and
homogenization of everyday life, and the introduction of permanent innovation.
Thus emerged modern bureaucracy, mass society and technological revolutions.
Progress became the telos of social development. Productive forces and global
expansion of capitalist relations made the humanity and the world into a new
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horizon of both charitable and profitable endeavors, emancipatory and imperial.
The world became a project (Krajewski, 2014).
The avant-gardes around the turn of the 20th century integrated and critically
inflected these transformations. In the spirit of the October Revolution, its
revolutionary subjectivity approached social reality as eminently transformable.
And yet, a recurrent concern of artists was with the practical challenges and
innovations of accelerated modernization: how to control, coordinate and socially
integrate the immense expansionary forces of early industrialization. This was an
invitation to insert one’s own radical visions into life and create new forms of
standardization and rationality that would bring society out of its pre-industrial
backwardness. Central to the avant-garde was abolishing the old and creating the
new, while overcoming the separation of art and social practice. Unleashing
imaginary and constructive forces in a reality that has become rational, collective
and universal: that was its utopian promise; that was its radical innovation. Yet,
paradoxically, it is only once there is the new that the previously existing social
world can be formalized and totalized as the old and the traditional. As Boris
Groys (2014) insisted, the new can be only established once it stands in a relation
to the archive and the museum. This tendency was probably nowhere more in
evidence than, as Sven Spieker documents in his book ‘The big archive – Art
from bureaucracy’ (2008), in the obsession of Soviet constructivists and
suprematists with the archival ordering of the flood of information that the
emergent bureaucratic administration and industrial management were creating
on an unprecedented scale.
The libraries and the universities followed a similar path. As the world became a
project, the aggregation and organization of all knowledge about the world
became a new frontier. The pioneers of library science, Paul Otlet and Melvil
Dewey, consummating the work of centuries of librarianship, assembled index
card catalogs of everything and devised classificatory systems that were powerful
formalizations of the increasingly complex world. These index card catalogs were
a ‘precursor of computing: universal paper machine’, (Krajewski, 2011), predating the ‘universal Turing machine’ and its hardware implementations by
Konrad Zuse and John von Neumann by almost half a century. Knowledge thus
became universal and universalizable: while libraries were transforming into
universal information infrastructures, they were also transforming into places of
popular reading culture and popular pedagogy. Libraries thus were gaining
centrality in the dissemination of knowledge and culture, as the reading culture
was becoming a massive and general phenomenon. Moreover, during the second
part of the nineteenth and the first part of the twentieth century, the working
class would struggle to transform not only libraries, but also universities, into
public institutions providing free access to culture and really useful knowledge
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necessary for the self-development and self-organization of the masses (Johnson,
2014).
While universities across the modernizing Europe, US and USSR would see their
opening to the masses only in the coming decades later, they shyly started to
welcome the working class and women. And yet, universities and schools were
intense places of experimentation and advancement. The Moscow design school
VKhUTEMAS, for instance, carried over the constructivists concerns into the
practicalities of the everyday, constructing socialist objects for a new collective
life, novyi byt, in the spirit of ‘Imagine no possessions’ (2005), as Christina Kiaer
has punned in the title of her book. But more importantly, the activities of
universities were driven by the promise that there are no limits to scientific
discovery and that a Leibnitzian dream of universal formalization of language
can be achieved through advances in mathematics and logic.
1967 – Mature capitalism, spectacle, resistant subjectivity
In this periodization, the central contention is that the radical gesture of
destruction of the old and creation of the new that was characteristic of the avantgarde has mutated as the historic coordinates of its emergence have mutated too.
Over the last century the avant-garde has divested from the radical gestures and
has assumed a relation to the transformation of social reality that is much more
complicated than its erstwhile cohort in disruptive change – technological
innovation – continues to offer. If technological modernization and the avantgarde were traveling companions at the turn of the twentieth century, after the
WWII they gradually parted their ways. While the avant-garde rather critically
inflects what capitalist modernity is doing at a particular moment of its
development, technological innovation remained in the same productivist pattern
of disruption and expansion. That technological innovation would remain
beholden to the cyclical nature of capitalist accumulation is, however, no mere
ideological blind-spot. Machinery and technology, as Karl Marx insists in The
Grundrisse, is after all ‘the most adequate form of capital’ (1857) and thus vital to
its dynamic. Hence it comes as no surprise that the trajectory of the avant-garde
is not only a continued substantive subversion of the ever new separations that
capitalist system produces in the social reality, but also a growing critical distance
to technology’s operation within its development.
Thus we skip forward half a century. The year is 1967. Industrial development is
at its apex. The despotism of mass production and its attendant consumerist
culture rules over the social landscape. After the WWII, the working class has
achieved great advances in welfare. The ‘control crisis’ (Beniger, 1989), resulting
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from an enormous expansion of production, distribution and communication in
the 19th century, and necessitating the emergence of the capacity for
coordination of complex processes in the form of modern bureaucracy and
information technology, persists. As the post-WWII golden period of gains in
productivity, prosperity and growth draws to a close, automation and
computerization start to make their way from the war room to the shop floor.
Growing labor power at home and decolonization abroad make the leading
capitalist economies increasingly struggle to keep profits rates at levels of the
previous two decades. Socialist economies struggle to overcome the initial
disadvantages of belated modernization and instill the discipline over labor in
order to compete in the dual world-system. It is still a couple of years before the
first oil crisis will break out and the neo-liberal retrenchment begin.
The revolutionary subjectivity of 1917 is now replaced by resistant militancy.
Facing the monotony of continuous-flow production and the prospect of bullshit
jobs in service industries that start to expand through the surplus of labor time
created by technological advances (Graeber, 2013), the workers perfect the
ingenuity in shirking the intensity and dullness of work. The consumerist culture
instills boredom (Vaneigem, 2012), the social division of labor produces
gendered exploitation at home (James, 2012), the paternalistic welfare provision
results in loss of autonomy (Oliver, 1990).
Sensibility is shaped by mass media whose form and content are structured by
the necessity of creating aggregate demand for the ever greater mass of
commodities and thus the commodity spectacle comes to mediate social
relations. In 1967 Guy Debord’s ‘The society of the spectacle’ is published. The
book analyses the totalizing capture of Western capitalist society by commodity
fetishism, which appears as objectively given. Commodities and their mediatized
simulacra become the unifying medium of social integration that obscures
separations within the society. So, as the crisis of 1970s approaches, the avantgarde makes its return. It operates now within the coordinates of the mature
capitalist conjuncture. Thus re-semantization, détournement and manipulation
become the representational equivalent of simulating busyness at work, playing
the game of hide-and-seek with the capitalist spectacle and turning the spectacle
onto itself. While the capitalist development avails itself of media and computers
to transform the reality into the simulated and the virtual, the avant-garde’s
subversive twist becomes to take the simulated and the virtual as reality and reappropriate them for playful transformations. Critical distance is no longer
possible under the centripetal impact of images (Foster, 1996), there’s no
revolutionary outside from which to assail the system, just one to escape from.
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Thus, the exodus and autonomy from the dominant trajectory of social
development rather than the revolutionary transformation of the social totality
become the prevailing mode of emancipatory agency. Autonomy through forms
of communitarian experimentation attempts to overcome the separation of life
and work, home and workplace, reproduction and production and their
concealment in the spectacle by means of micro-political experiments.
The university – in the meanwhile transformed into an institution of mass
education, accessible to all social strata – suddenly catapults itself center-stage,
placing the entire post-WWII political edifice with its authoritarian, repressive
and neo-imperial structure into question, as students make radical demands of
solidarity and liberation. The waves of radical political movements in which
students play a central role spread across the world: the US, Czechoslovakia,
France, Western Germany, Yugoslavia, Pakistan, and so on. The institution
becomes a site from which and against which mass civil rights, anti-imperial,
anti-nuclear, environmental, feminist and various other new left movements
emerge.
It is in the context of exodus and autonomy that new formalizations and
paradigms of organizing knowledge emerge. Distributed, yet connected. Built
from bottom up, yet powerful enough to map, reduce and abstract all prior
formalizations. Take, for instance, Ted Nelson’s Project Xanadu that introduced
to the world the notion of hypertext and hyperlinking. Pre-dating the World Wide
Web by a good 25 years, Xanadu implemented the idea that a body of written
texts can be understood as a network of two-way references. With the advent of
computer networks, whose early adopters were academic communities, that
formalization materialized in real infrastructure, paving the way for a new
instantiation of the idea that the entire world of knowledge can be aggregated,
linked and made accessible to the entire world. As Fred Turner documents in
‘From counterculture to cyberculture’ (2010), the links between autonomyseeking dropouts and early cyberculture in the US were intimate.
Countercultural ideals of personal liberation at a distance from the society
converged with the developments of personal computers and computer networks
to pave the way for early Internet communities and Silicon Valley
entrepreneurialism.
No less characteristic of the period were new formalizations and paradigms of
technologically-mediated subjectivity. The tension between the virtual and the
real, autonomy and simulation of autonomy, was not only present in the avantgarde’s playful takes on mass media. By the end of the 1950s, the development of
computer hardware reached a stage where it was running fast enough to cheat
human perception in the same way moving images on film and television did. In
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the computer world, that illusion was time-sharing. Before the illusion could
work, the concept of an individual computer user had to be introduced (Hu,
2015). The mainframe computer systems such as IBM 360/370 were fast enough
to run a software-simulated (‘virtual’) clone of the system for every user (Pugh et
al., 1991). This allowed users to access the mainframe not sequentially one after
the other, but at the same time – sharing the process-cycles among themselves.
Every user was made to feel as if they were running their own separate (‘real’)
computer. The computer experience thus became personal and subjectivities
individuated. This interplay of simulation and reality became common in the late
1960s. Fifty years later this interplay would become essential for the massive
deployment of cloud computing, where all computer users leave traces of their
activity in the cloud, but only few can tell what is virtual (i.e. simulated) and what
is real (i.e. ‘bare machine’).
The libraries followed the same double trajectory of universities. In the 1960s,
the library field started to call into question the merit of objectivity and neutrality
that librarianship embraced in the 1920s with its induction into the status of
science. In the context of social upheavals of the 1960s and 1970s, librarians
started to question ‘The Myth of Library Neutrality’ (Branum, 2008). With the
transition to a knowledge economy and transformation of the information into a
commodity, librarians could no longer ignore that the neutrality had the effect of
perpetuating the implicit structural exclusions of class, gender and race and that
they were the gatekeepers of epistemic and material privilege (Jansen, 1989;
Iverson 1999). The egalitarian politics written into the de-commodification and
enabling the social mission of public libraries started to trump neutrality. Thus
libraries came to acknowledge their commitment to the marginalized, their
pedagogies and their struggles.
At the same time, library science expanded and became enmeshed with
information science. The capacity to aggregate, organize and classify huge bodies
of information, to view it as an interlinked network of references indexed in a
card catalog, sat well with the developments in the computer world. In return, the
expansion of access to knowledge that the new computer networks promised fell
in line with the promise of public libraries.
2017 – Crisis in the present, financialization, compromised subjectivity
We arrive in the present. The effects of neo-liberal restructuring, the global
division of labor and supply-chain economy are petering out. Global capitalism
struggles to maintain growth, while at the same time failing to slow down
accelerating consumption of energy and matter. It thus arrives at a double crisis
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– a crisis of growth and a crisis of planetary boundaries. Against the profit
squeeze of 1970s, fixes were applied in the form of the relocation of production,
the breaking-up of organized labor and the integration of free markets across the
world. Yet those fixes have not stopped the long downturn of the capitalist system
that pinnacled in the crisis of 2008 (Brenner, 2006). Currently capital prefers to
sit on US$ 13.4 trillion of negative yielding bonds rather than risk investing into
production (Wigglesworth and Platt, 2016). Financialization is driving the efforts
to quickly boost and capture value where long-term investment makes little
sense. The finance capital privileges the short-term value maximization through
economic rents over long-term investment into growth. Its logic dominates all
aspects of the economy and the everyday (Brown, 2015). When it is betting on
long-term changes in production, capital is rather picky and chooses to bet on
technologies that are the harbingers of future automation. Those technologies
might be the death knell of the social expectation of full employment, creating a
reserve army of labor that will be pushed to various forms of casualized work,
work on demand and workfare. The brave new world of the gig-economy awaits.
The accelerated transformation of the labor market has made adaptation through
education and re-skilling difficult. Stable employment is mostly available in
sectors where highly specialized technological skills are required. Yet those
sectors need far less workers than the mass-manufacture required. Re-skilling is
only made more difficult by the fact that austerity policies are reducing the
universal provision of social support needed to allow workers to adapt to these
changes: workfare, the housing crisis, cuts in education and arts have converged
to make it so. The growing precarity of employment is doing away with the
separation between working time and free time. The temporal decomposition is
accompanied by the decomposition of workplace and living space. Fewer and
fewer jobs have a defined time and place in which they are performed (Huws,
2016) and while these processes are general, the conditions of precarity diverge
greatly from profession to profession, from individual to individual.
At the same time, we are living through record global warming, the seventh great
extinction and the destabilization of Earth’s biophysical systems. Globally, we’re
overshooting Earth’s regenerative capacities by a factor of 1.6 (Latouche, 2009),
some countries such as the US and the Gulf by a factor of 5 (Global Footprint
Network, 2013). And the environmental inequalities within countries are greater
than those between the countries (Piketty and Chancel, 2015). Unless by some
wonder almost non-existent negative emissions technologies do materialize
(Anderson and Peters, 2016), we are on a path of global destabilization of socioenvironmental metabolisms that no rate of technological change can realistically
mitigate (Loftus et al., 2015). Betting on settling on Mars is equally plausible.
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So, if the avant-garde has at the beginning of the 20th century responded to the
mutations of early modernization, in the 1960s to the integrated spectacle of the
mature capitalism, where is the avant-garde in the present?
Before we try to address the question, we need to return to our two public
institutions of mass education and research – the university and the library.
Where is their equalizing capacity in a historical conjuncture marked by the
rising levels of inequality? In the accelerating ‘race against the machine’
(Brynjolfsson and McAfee, 2012), with the advances in big data, AI and
robotization threatening to obliterate almost half of the jobs in advanced
economies (Frey and Osborne, 2013; McKinsey Global Institute, 2018), the
university is no longer able to fulfill the promise that it can provide both the
breadth and the specialization that are required to stave off the effect of a
runaway technological unemployment. It is no surprise that it can’t, because this
is ultimately a political question of changing the present direction of
technological and social development, and not a question of institutional
adaptation.
Yet while the university’s performance becomes increasingly scrutinized on the
basis of what its work is contributing to the stalling economy and challenges of
the labor market, on the inside it continues to be entrenched in defending
hierarchies. The uncertainty created by assessment-tied funding puts academics
on the defensive and wary of experimentation and resistance. Imperatives of
obsessive administrative reporting, performance metrics and short-term
competition for grant-based funding have, in Stefan Collini’s words, led to a ‘a
cumulative reduction in the autonomy, status and influence of academics’, where
‘[s]ystemic underfunding plus competition and punitive performancemanagement is seen as lean efficiency and proper accountability’ (Collini, 2017:
ch.2). Assessment-tied activities produce a false semblance of academic progress
by creating impact indicators that are frequently incidental to the research, while
at the same time demanding enormous amount of wasted effort that goes into
unsuccessful application proposals (Collini, 2017). Rankings based on
comparative performance metrics then allow university managers in the
monetized higher education systems such as UK to pitch to prospective students
how best to invest the debt they will incur in the future, in order to pay for the
growing tuition fees and cost of study, making the prospect of higher education
altogether less plausible for the majority in the long run (Bailey and Freedman,
2011).
Given that universities are not able to easily provide evidence that they are
contributing to the stalling economy, they are asked by the funders to innovate
instead. To paraphrase Marx, ‘innovate innovate that is their Moses and the
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prophets’. Innovation, a popular catch-all word with the government and
institutional administrators, gleaned from the entrepreneurial language of
techno-capitalism, to denote interventions, measures and adaptations in the
functioning of all kind of processes that promise to bring disruptive, almost
punitive radical changes to the failures to respond to the disruptive challenges
unleashed by that very same techno-capitalism.
For instance, higher education policy makers such as former UK universities
minister David Willets, advocate that the universities themselves should use their
competitive advantage, embrace the entrepreneurial opportunity in the global
academic marketplace and transform themselves into startups. Universities have
to become the ‘equivalent of higher education Google or Amazon’ (Gill, 2015). As
Gary Hall reports in his ‘Uberfication of the university’ (2016), a survey UK vicechancellors has detected a number of areas where universities under their
command should become more disruptively innovative:
Among them are “uses of student data analytics for personalized services” (the
number one innovation priority for 90 percent of vice-chancellors); “uses of
technology to transform learning experiences” (massive open online courses
[MOOCs]; mobile virtual learning environments [VLEs]; “anytime-anywhere
learning” (leading to the demise of lectures and timetables); and “student-driven
flexible study modes” (“multiple entry points” into programs, bringing about an
end to the traditional academic year). (Hall, 2016: n.p.)
Universities in the UK are thus pushed to constantly create trendy programs,
‘publish or perish’, perform and assess, hire and fire, find new sources of
funders, find students, find interest of parents, vie for public attention, produce
evidence of immediate impact. All we can expect from such attempts to
transform universities into Googles and Amazons, is that we will end up with an
oligopoly of a few prestige brands franchised all around the world – if the
strategy proves ‘successful’, or – if not – just with a world in which universities
go on faking disruptive innovations while waiting for some miracle to happen
and redeem them in the eyes of neoliberal policy makers.
These are all short-term strategies modeled on the quick extraction of value that
Wendy Brown calls the ‘financialization of everything’ (Brown, 2015: 70).
However, the best in the game of such quick rent-seeking are, as always, those
universities that carry the most prestige, have the most assets and need to be
least afraid for their future, whereas the rest are simply struggling in the prospect
of reduced funding.
Those universities in ‘peripheral’ countries, which rarely show up anywhere near
the top of the global rankings, are in a particularly disadvantaged situation. As
Danijela Dolenec has calculated:
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[T]he whole region [of Western Balkans] invests approximately EUR 495 million in
research and development per year, which is equivalent of one (second-largest) US
university. Current levels of investment cannot have a meaningful impact on the
current model of economic development ... (Dolenec, 2016: 34)
So, these universities don’t have much capacity to capture value in the global
marketplace. In fact, their work in educating masses matters less to their
economies, as these economies are largely based on selling cheap low-skilled
labor. So, their public funders leave them in their underfunded torpor to
improvise their way through education and research processes. It is these
institutions that depend the most on the Library Genesis and Science Hubs of
this world. If we look at the download data of Library Genesis, as has Balasz Bodó
(2015), we can discern a clear pattern that the users in the rich economies use
these shadow libraries to find publications that are not available in the digital
form or are pay-walled, while the users in the developing economies use them to
find publications they don’t have access to in print to start with.
As for libraries, in the shift to the digital they were denied the right to provide
access that has now radically expanded (Sullivan, 2012), so they are losing their
central position in the dissemination and access to knowledge. The decades of
retrenchment in social security, unemployment support, social housing, arts and
education have made libraries, with their resources open to broad communities,
into a stand-in for failing welfare institutions (Mattern, 2014). But with the onset
of 2008 crisis, libraries have been subjected to brutal cuts, affecting their ability
to stay open, service their communities and in particular the marginalized
groups and children (Kean, 2017). Just as universities, libraries have thus seen
their capacity to address structural exclusions of marginalized groups and
provide support to those affected by precarity compromised.
Libraries thus find themselves struggling to provide legitimation for the support
they receive. So they re-invent and re-brand themselves as ‘third places’ of
socialization for the elderly and the youth (Engel-Johnson, 2017), spaces where
the unemployed can find assistance with their job applications and the socially
marginalized a public location with no economic pressures. All these functions,
however, are not something that public libraries didn’t do before, along with
what was their primary function – providing universal access to all written
knowledge, in which they are however nowadays – in the digital economy –
severely limited.
All that innovation that universities and libraries are undertaking seems to be
little innovation at all. It is rather a game of hide and seek, behind which these
institutions are struggling to maintain their substantive mission and operation.
So, what are we to make of this position of compromised institutional agency? In
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a situation where progressive social agency no longer seems to be within the
remit of these institutions? The fact is that with the growing crisis of precarity
and social reproduction, where fewer and fewer have time from casualized work
to study, convenience to do so at home and financial prospects to incur a debt by
enrolling in a university, these institutions should, could and sometimes do
provide sustaining social arrangements and resources – not only to academics,
students and patrons, but also to a general public – that can reduce economic
imperatives and diminish insecurities. While doing this they also create
institutional preconditions that, unlike business-cycle driven institutions, can
support the structural repair that the present double crisis demands.
If the historical avant-garde was birthing of the new, nowadays repeating its
radicalism would seem to imply cutting through the fog of innovation. Its
radicalism would be to inhabit the non-new. The non-new that persists and in the
background sustains the broken social and technological world that the technocapitalist innovation wants to disrupt and transcend. Bullshit jobs and simulating
busyness at work are correlative of the fact that free time and the abundance of
social wealth created by growing productivity have paradoxically resulted in
underemployment and inequality. We’re at a juncture: accelerated crisis of
capitalism, accelerated climate change, accelerated erosion of political systems
are trajectories that leave little space for repair. The full surrender of
technological development into the hands of the market forces leaves even less.
The avant-garde radicalism nowadays is standing with the social institutions that
permit, speaking with Lauren Berlant, the ‘loose convergence’ of social
heterogeneity needed to construct ‘transitional form[s]’ (2016: 394). Unlike the
solutionism of techno-communities (Morozov, 2013) that tend to reduce
uncertainty of situations and conflict of values, social institutions permit
negotiating conflict and complexity in the situations of crisis that Gary Ravetz
calls postnormal – situations ‘where facts are uncertain, values in dispute, stakes
high and decisions urgent’ (Ravetz, 2003: 75). On that view, libraries and
universities as social infrastructures, provide a chance for retardation and
slowdown, and a capacity for collective disobedience. Against the radicalizing
exclusions of property and labor market, they can lower insecurities and
disobediently demand universal access to knowledge and education, a mass
intellectuality and autonomous critical pedagogy that increasingly seems a thing
of the past. Against the imposition to translate quality into metrics and capture
short-term values through assessment, they can resist the game of simulation.
While the playful simulation of reality was a thing in 1967, in 2017 it is no
longer. Libraries and universities can stop faking ‘innovativity’, ‘efficiency’ and
‘utility’.
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Custodians.online, the second letter
On 30 November, 2016 a second missive was published by Custodians.online
(2016). On the twentieth anniversary of UbuWeb, ‘the single-most important
archive of avant-garde and outsider art’ on the Internet, the drafters of the letter
followed up on their initial call to acts of care for the infrastructure of our shared
knowledge commons that the first letter ended with. The second letter was a gift
card to Ubu, announcing that it had received two mirrors, i.e. exact copies of the
Ubu website accessible from servers in two different locations – one in Iceland,
supported by a cultural activist community, and another one in Switzerland,
supported by a major art school – whose maintenance should ensure that Ubu
remains accessible even if its primary server is taken down.
McKenzie Wark in their text on UbuWeb poignantly observes that shadow
libraries are:
tactics for intervening in three kinds of practices, those of the art-world, of
publishing and of scholarship. They respond to the current institutional, technical
and political-economic constraints of all three. As it says in the Communist
Manifesto, the forces for social change are those that ask the property question.
While détournement was a sufficient answer to that question in the era of the
culture industries, they try to formulate, in their modest way, a suitable tactic for
answering the property question in the era of the vulture industries. (Wark, 2015:
116)
As we claimed, the avant-garde radicalism can be recuperated for the present
through the gestures of disobedience, deceleration and demands for
inclusiveness. Ubu already hints toward such recuperation on three coordinates:
1) practiced opposition to the regime of intellectual property, 2) transformative
use of old technologies, and 3) a promise of universal access to knowledge and
education, helping to foster mass intellectuality and critical pedagogy.
The first Custodians.online letter was drafted to voice the need for a collective
disobedience. Standing up openly in public for the illegal acts of piracy, which
are, however, made legitimate by the fact that students, academics and
researchers across the world massively contribute and resort to pirate repositories
of scholarly texts, holds the potential to overturn the noxious pattern of court
cases that have consistently lead to such resources being shut down.
However, the acts of disobedience need not be made explicit in the language of
radicalism. For a public institution, disobedience can also be doing what should
not be done: long-term commitment to maintenance – for instance, of a mirror –
while dealing institutionally with all the conflicts and challenges that doing this
publicly entails.
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The second Custodians.online letter was drafted to suggest that opportunity:
In a world of money-crazed start-ups and surveillance capitalism, copyright
madness and abuse, Ubu represents an island of culture. It shows what a single
person, with dedication and focus, can achieve. There are lessons to be drawn
from this:
1) Keep it simple and avoid constant technology updates. Ubu is plain
HTML, written in a text-editor.
2) Even a website should function offline. One should be able to take the
hard disk and run. Avoid the cloud – computers of people you don’t
know and who don’t care about you.
3) Don’t ask for permission. You would have to wait forever, turning
yourself into an accountant and a lawyer.
4) Don’t promise anything. Do it the way you like it.
5) You don’t need search engines. Rely on word-of-mouth and direct
linking to slowly build your public. You don’t need complicated
protocols, digital currencies or other proxies. You need people who
care.
6) Everything is temporary, even after 20 years. Servers crash, disks die,
life changes and shit happens. Care and redundancy is the only path to
longevity. Care and redundancy is the reason why we decided to run
mirrors. We care and we want this resource to exist… should shit
happen, this multiplicity of locations and institutions might come in
handy. We will see. Find your Ubu. It’s time to mirror each other in
solidarity. (Custodians.online, 2016)
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the authors
Marcell Mars is a research associate at the Centre for Postdigital Cultures at Coventry
University (UK). Mars is one of the founders of Multimedia Institute/MAMA in Zagreb.
His research ‘Ruling Class Studies’, started at the Jan van Eyck Academy (2011),
examines state-of-the-art digital innovation, adaptation, and intelligence created by
corporations such as Google, Amazon, Facebook, and eBay. He is a doctoral student at
Digital Cultures Research Lab at Leuphana University, writing a thesis on ‘Foreshadowed
Libraries’. Together with Tomislav Medak he founded Memory of the World/Public
Library, for which he develops and maintains software infrastructure.
Email: ki.be@rkom.uni.st
Tomislav Medak is a doctoral student at the Centre for Postdigital Cultures at Coventry
University. Medak is a member of the theory and publishing team of the Multimedia
Institute/MAMA in Zagreb, as well as an amateur librarian for the Memory of the
World/Public Library project. His research focuses on technologies, capitalist
development, and postcapitalist transition, particularly on economies of intellectual
property and unevenness of technoscience. He authored two short volumes: ‘The Hard
Matter of Abstraction—A Guidebook to Domination by Abstraction’ and ‘Shit Tech for A
Shitty World’. Together with Marcell Mars he co-edited ‘Public Library’ and ‘Guerrilla
Open Access’.
Email: tom@mi2.hr