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Digital rights management

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Nokia 6810 with a DRM system refuses to attach a file to a message.

Digital rights management (DRM) is an umbrella term that refers to access control technologies used by publishers and other copyright holders to limit usage of digital media or devices. DRM can also refer to restrictions associated with specific instances of digital works or devices. To some extent, DRM overlaps with copy protection, but DRM is usually applied to creative media (music, films, etc.) whereas copy protection typically refers to software.

The use of digital rights management has been controversial. Advocates argue it is necessary for copyright holders to prevent unauthorized duplication of their work to ensure continued revenue streams.[1] Opponents, such as The Free Software Foundation, maintain that the use of the word "rights" is misleading and suggest that people instead use the term digital restrictions management.[2] Their position is essentially that copyright holders are attempting to restrict use of copyrighted material in ways not included in the statutory, common law, or Constitutional grant of exclusive commercial use to them. The Electronic Frontier Foundation, and other opponents, also consider DRM schemes to be anti-competitive practices.[3]

Introduction

Digital rights management technologies attempt to control use of digital media by preventing access, copying or conversion to other formats. Copyright holders, content producers, or other financially or artistically interested parties have historically objected to copying technologies, even before the advent of digital media. Examples include: player piano rolls early in the 20th century, audio tape recording, and video tape recording (e.g. the "Betamax case" in the U.S.).

Digital media has only increased these concerns. While analog media inevitably loses quality with each copy generation, and in some cases even during normal use, digital media files may be duplicated an unlimited number of times with no degradation in the quality of subsequent copies. The advent of personal computers and the ease of ripping media files from CDs or from radio broadcasts, combined with the internet and popular file sharing tools, has made unauthorized distribution of copies of copyrighted digital files (often referred to as digital piracy) much easier.

Although technical controls on the reproduction and use of software have been intermittently used since the 1970s, the term 'DRM' has come to primarily mean the use of these measures to control copyrightable (eg, artistic) content.[citation needed] Some observers claim that certain DRM technologies enable publishers to enforce access policies that not only prevent copyright violations, but also prevent legal fair use.

While DRM is most commonly used by the entertainment industry (e.g. film and recording), it has found use in other situations as well. Many online music stores, such as Apple's iTunes Store, as well as certain e-book publishers, have adopted various DRM strategies. In recent years, a number of television producers have begun demanding implementation of DRM measures to control access to the content of their shows in connection with the popularity of time-shifting digital video recorder systems such as TiVo.[4] DRM files purchased from iTunes have the extension .m4p.

Technologies

DRM and film

An early example of a DRM system was the Content Scrambling System (CSS) employed by the DVD Forum on film DVDs since circa 1996. CSS used a simple encryption algorithm, and required device manufacturers to sign license agreements that restricted the inclusion of features, such as digital outputs that could be used to extract high-quality digital copies of the film, in their players. Thus, the only consumer hardware capable of decoding DVD films was controlled, albeit indirectly, by the DVD Forum, restricting the use of DVD media on other systems until the release of DeCSS by Jon Lech Johansen in 1999, which allowed a CSS-encrypted DVD to play properly on a computer using Linux, for which the Alliance had not arranged a licensed version of the CSS playing software.

Microsoft's Windows Vista contains a DRM system called the Protected Media Path, which contains the Protected Video Path (PVP). PVP tries to stop DRM-restricted content from playing while unsigned software is running in order to prevent the unsigned software from accessing the content. Additionally, PVP can encrypt information during transmission to the monitor or the graphics card, which makes it more difficult to make unauthorized recordings.

Advanced Access Content System (AACS) is a DRM system for HD DVD and Blu-Ray Discs developed by the AACS Licensing Administrator, LLC (AACS LA), a consortium that includes Disney, Intel, Microsoft, Matsushita (Panasonic), Warner Brothers, IBM, Toshiba and Sony. In January 2007 the title key was published on the internet by crackers, enabling unrestricted access to AACS-protected HD DVD content [citation needed].

DRM and music

Audio CDs

In 2002, Bertelsmann (comprised of BMG, Arista and RCA) was the first corporation to use DRM on audio CDs. This was initially done on promotional CDs, but all CDs from these companies would eventually include at least some DRM.[citation needed]

However, these CDs could not be played on all CD players. Many consumers could also no longer play CDs they had purchased on their computers. PCs running Microsoft Windows would sometimes even crash when attempting to play the CDs.[citation needed]

In 2005, Sony BMG's DRM technology installed DRM software without notification or confirmation; among other things, the installed software included a rootkit. This created a severe security vulnerability others could exploit, and when the nature of the DRM involved was made public, Sony was forced to recall millions of CDs. Several class action lawsuits were filed, which were settled by agreements to provide affected consumers with a cash payout or album downloads free of DRM.[5]

Sony's DRM only had limited ability to prevent copying, as it affected only playback on Windows computers, not on other equipment. Even on the Windows platform the system was regularly compromised by crackers. While the Sony DRM technology created fundamental vulnerabilities in consumers' computers, parts of it could be trivially bypassed by holding down the "shift" key while inserting the CD, or by disabling the autorun feature. In addition, the audio could simply be played and re-recorded, thus completely bypassing all of the DRM (this is known as the analog hole). Sony's first two attempts at releasing a patch which would remove its DRM from computers failed.

January 2007, EMI stopped publishing audio CDs with DRM, stating that "the costs of DRM do not measure up to the results." EMI was the last publisher to do so; audio CDs containing DRM are no longer released by any major publishers.[6]

Internet music

Many online music stores employ DRM to restrict usage of music purchased and downloaded online. There are many options for consumers buying digital music over the internet, in terms of both stores and purchase options.

  • The iTunes Store, run by Apple Inc., allows users to purchase a track online for $.99 US. The tracks purchased use Apple's FairPlay DRM system. However, with the use of iTunes Plus, users can download DRM-free music for an extra 30 cents.[7]
File:MPEG-4 AAC.jpg
MPEG-4 AAC DRM encoding as used in the iTunes store
  • Napster music store, which offers a subscription-based approach to DRM alongside permanent purchases. Users of the subscription service can download and stream an unlimited amount of music encoded to Windows Media Audio (WMA) while subscribed to the service. But as soon as the user misses a payment, the service renders all of the downloaded music unusable. Napster also charges users who wish to use the music on their portable device an additional $5 per month. Furthermore, Napster requires users to pay an additional $0.99 per track to burn it to CD or listen to it after the subscription expires. Songs bought through Napster can be played on players carrying the Microsoft PlaysForSure logo (which, notably, do not include iPods or even Microsoft's own Zune).
  • Wal-Mart Music Downloads, another online music download store, also uses DRM. It charges $0.88 per track for all non-sale downloads. All Wal-Mart Music Downloads are able to be played on any Windows PlaysForSure marked product. The music does play on the SanDisk's Sansa mp3 player, for example, but must be copied to the player's internal memory. It can not be played through the player's Micro SD card slot, which is a problem that many users of the mp3 player experience.

The various services are currently not interoperable, though those that use the same DRM system (for instance the several Windows Media DRM format stores, including Napster) all provide songs that can be played side-by-side through the same player program. Almost all stores require client software of some sort to be downloaded, and some also need plug-ins. Several colleges and universities, such as Rensselaer Polytechnic Institute, have made arrangements with assorted Internet music suppliers to provide access (typically DRM-restricted) to music files for their students, to less than universal popularity, sometimes making payments from student activity fee funds.[8] One of the problems is that the music becomes unplayable after leaving school unless the student continues to pay individually. Another is that few of these vendors are compatible with the most common portable music player, the Apple iPod. The Gowers Review of Intellectual Property (to HMG in the UK; 141 pages, 40+ specific recommendations) has taken note of the incompatibilities, and suggests (Recommendations 8 -- 12) that there be explicit fair dealing exceptions to copyright allowing libraries to copy and format-shift between DRM schemes, and further allowing end users to do the same privately. If adopted, some of the acrimony may decrease.

Although DRM is prevalent for Internet music, some Online music stores such as eMusic, Audio Lunchbox and Anthology recordings do not use DRM. Major labels have begun releasing more online music without DRM. Eric Bangeman suggests in Ars Technica that this is because the record labels are "slowly beginning to realize that they can't have DRMed music and complete control over the online music market at the same time... One way to break the cycle is to sell music that is playable on any digital audio player. eMusic does exactly that, and their surprisingly extensive catalog of non-DRMed music has vaulted it into the number two online music store position behind the iTunes Store."[9] Apple's Steve Jobs has called on the music industry to eliminate DRM in an open letter titled Thoughts on Music[10]. Apple's iTunes store will start to sell DRM-free 256 kbit/s (up from 128 kbit/s) music from EMI for a premium price. In March of 2007, Musicload.de, one of Europe's largest online music retailers, announced their position strongly against DRM. In an open letter, Musicload stated that three out of every four calls to their customer support phone service are as a result of consumer frustration with DRM.[11]

DRM and documents

Enterprise digital rights management (E-DRM or ERM) is the application of DRM technology to the control of access to corporate documents such as Microsoft Word, PDF, and AutoCAD files, emails, and intranet web pages rather than to the control of consumer media [12]. E-DRM is generally intended to prevent the unauthorized use (such as industrial or corporate espionage or inadvertent release) of proprietary documents. E-DRM typically integrates with content management system software. An example of an E-DRM system is Microsoft's Rights Management Services. Additional E-DRM vendors include Adobe Systems and EMC Corporation.

DRM has been used by organizations such as the British Library in its secure electronic delivery service to permit worldwide access to substantial numbers of rare (and in many cases unique) documents which, for legal reasons, were previously only available to authorized individuals actually visiting the Library's document centre at Boston Spa in England.[citation needed]

Laws regarding DRM

Digital rights management systems have received some international legal backing by implementation of the 1996 WIPO Copyright Treaty (WCT). Article 11 of the Treaty requires nations party to the treaties to enact laws against DRM circumvention.

The WCT has been implemented in most member states of the World Intellectual Property Organization. The American implementation is the Digital Millennium Copyright Act (DMCA), while in Europe the treaty has been implemented by the 2001 European directive on copyright, which requires member states of the European Union to implement legal protections for technological prevention measures. In 2006, the lower house of the French parliament adopted such legislation as part of the controversial DADVSI law, but added that protected DRM techniques should be made interoperable, a move which caused widespread controversy in the United States.

Main article: Digital Millenium Copyright Act

The Digital Millennium Copyright Act (DMCA) is an extension to United States copyright law passed unanimously on May 14, 1998, which criminalizes the production and dissemination of technology that allows users to circumvent technical copy-restriction methods. Under the Act, circumvention of a technological measure that effectively controls access to a work is illegal if done with the primary intent of violating the rights of copyright holders. (For a more detailed analysis of the statute, see WIPO Copyright and Performances and Phonograms Treaties Implementation Act.)

Reverse engineering of existing systems is expressly permitted under the Act under specific conditions. Under the reverse engineering safe harbor, circumvention necessary to achieve interoperability with other software is specifically authorized. See 17 U.S.C. Sec. 1201(f). Open-source software to decrypt content scrambled with the Content Scrambling System and other encryption techniques presents an intractable problem with the application of the Act. Much depends on the intent of the actor. If the decryption is done for the purpose of achieving interoperability of open source operating systems with proprietary operating systems, the circumvention would be protected by Section 1201(f) the Act. Cf., Universal City Studios, Inc. v. Corley, 273 F.3d 429 (2d Cir. 2001) at notes 5 and 16. However, dissemination of such software for the purpose of violating or encouraging others to violate copyrights has been held illegal. See Universal City Studios, Inc. v. Reimerdes, 111 F. Supp. 2d 346 (S.D.N.Y. 2000).

On 22 May, 2001, the European Union passed the EU Copyright Directive, an implementation of the 1996 WIPO Copyright Treaty that addressed many of the same issues as the DMCA.

The DMCA has been largely ineffective in protecting DRM systems,[citation needed] as software allowing users to circumvent DRM remains widely available, as for instance over the Internet. However, those with an interest in preserving the DRM systems have attempted to use the Act to restrict the distribution and development of such software, as in the case of DeCSS.

Although the Act contains an exception for research, the exception is subject to vague qualifiers that do little to reassure the research community. Cf., 17 U.S.C. Sec. 1201(g). The DMCA has had an impact on the worldwide cryptography research community, because many fear that their cryptanalytic research violates, or might be construed to violate, the DMCA.[citation needed] The arrest of Russian programmer Dmitry Sklyarov in 2001, for alleged infringement of the DMCA, was a highly publicized example of the law's use to prevent or penalize development of anti-DRM measures. Sklyarov was arrested in the United States after a presentation at DEF CON, and subsequently spent several months in jail. The DMCA has also been cited as chilling to non-criminal inclined users, such as students of cryptanalysis (including, in a well-known instance, Professor Felten and students at Princeton[13]), and security consultants such as Niels Ferguson, who has declined to publish information about vulnerabilities he discovered in an Intel secure-computing scheme because of his concern about being arrested under the DMCA when he travels to the US.

On 25 April, 2007 the European Parliament supported the first directive of EU, which aims to harmonize criminal law in the member states. It adopted a first reading report on harmonizing the national measures for fighting copyright abuse. If the European Parliament and the Council approve the legislation, the submitted directive will oblige the member states to consider a crime a violation of international copyright committed with commercial purposes. The text suggests numerous measures: from fines to imprisonment, depending on the gravity of the offense.

The EP members supported the Commission motion, changing some of the texts. They excluded patent rights from the range of the directive and decided that the sanctions should apply only to offenses with commercial purposes. Copying for personal, non-commercial purposes was also excluded from the range of the directive.

International issues

In Europe, there are several dialog activities that are uncharacterized by its consensus-building intention:

  • Workshop on Digital Rights Management of the World Wide Web Consortium (W3C), January 2001. [1]
  • Participative preparation of the European Committee for Standardization/Information Society Standardisation System (CEN/ISSS) DRM Report, 2003 (finished). [2]
  • DRM Workshops of DG Information Society, European Commission (finished), and the work of the DRM working groups (finished), as well as the work of the High Level Group on DRM (ongoing). [3]
  • Consultation process of the European Commission, DG Internal Market, on the Communication COM(2004)261 by the European Commission on "Management of Copyright and Related Rights" (closed). [4]
  • The INDICARE project is an ongoing dialogue on consumer acceptability of DRM solutions in Europe. It is an open and neutral platform for exchange of facts and opinions, mainly based on articles by authors from science and practice.
  • The AXMEDIS project is a European Commission Integrated Project of the FP6. The main goal of AXMEDIS is atomating the content production, copy-prevention and distribution, reducing the related costs and supporting DRM at both B2B and B2C areas harmonising them.
  • The Gowers Review of Intellectual Property is the result of a commission by the British Government from Andrew Gowers, undertaken in December 2005 and published in 2006, with recommendations regarding copyright term, exceptions, orphaned works, and copyright enforcement.

The European Community was expected to produce a recommendation on DRM in 2006, phasing out the use of levies (compensation to rights holders charged on media sales for lost revenue due to unauthorized copying) given the advances in DRM/TPM technology. However, opposition from the member states, particularly France, have now made it unlikely that the recommendation will be adopted.[citation needed]

Controversy

The intent of DRM is to provide technical means to assure that the copyright holders (originally artists, but commonly assigned to publishers etc) can maintain control of their content by restricting use of digital copies. This becomes controversial because DRM imposed limitations on the use of legitimately acquired digital media do not necessarily match the fair use (fair dealing in some places) rights granted by law to owners of copies. This gives rise to concerns that DRM schemes enormously complicate, and may prevent, effective archive management and historical research as well. Others argue that DRM is ineffective at preventing illegal copies because no DRM technology is (or could possibly be) fool proof. Once one version is compromised (or simply copied from a medium not protected by DRM) it will become widely available, eg on the Internet or via large-scale commercial piracy. Thus all DRM to date is claimed to be fundamentally technically flawed as a method of protecting legal copyright control. If so, its effect is essentially to ensure vendor lock-in and. likely, anti-competitive practices afterward. DRM opponents usually base their opposition on one or more of these concerns.

DRM opponents

A parody on the Home Taping Is Killing Music logo.

Many organizations, prominent individuals, and computer scientists are opposed to DRM. Two notable DRM critics are John Walker, as expressed for instance, in his article The Digital Imprimatur: How big brother and big media can put the Internet genie back in the bottle[14], and Richard Stallman in his article The Right to Read[15] and in other public statements "DRM is an example of a malicious feature - a feature designed to hurt the user of the software, and therefore, it's something for which there can never be toleration".[16] Professor Ross Anderson of Cambridge University heads a British organization which opposes DRM and similar efforts in the UK and elsewhere. Cory Doctorow, a prominent writer and technology blogger, spoke on the Microsoft campus criticizing the technology, the morality, and the marketing of DRM.[17]

The Electronic Frontier Foundation and similar organizations such as FreeCulture.org also hold positions which are characterized as opposed to DRM.

The Foundation for a Free Information Infrastructure has criticized DRM's impact as a trade barrier from a free market perspective.

The final version of the GNU General Public License version 3, as released by the Free Software Foundation, prohibits using DRM to restrict free redistribution and modification of works covered by the license, and includes a clause stating that the license's provisions shall be interpreted as disfavoring use of DRM. Also, in May 2006, the FSF launched a "Defective by Design" campaign against DRM.

Creative Commons provides licensing options encouraging the expansion of and building upon creative work without the use of DRM.[18]

Bill Gates spoke about DRM at CES in 2006. According to him, DRM is not where it should be, and causes problems for legitimate consumers while trying to distinguish between legitimate and illegitimate users.[19]

According to Steve Jobs, Apple opposes DRM music after a public letter calling its music labels to stop requiring DRM on its iTunes store. To date, EMI has complied. Apple considers DRM on video content as a separate issue.

Defective By Design member protesting DRM on May 25, 2007.

As already noted, many DRM opponents consider "digital rights management" to be a misnomer. They argue that DRM manages rights (or access) the same way prison manages freedom and often refer to it as "digital restrictions management". Alternatively, ZDNet Executive Editor David Berlind suggests the term "Content Restriction, Annulment and Protection" or "CRAP" for short.[20]

The Norwegian Consumer rights organization "Forbrukerrådet" complained to Apple Inc. in 2007 about the company's use of DRM in, and in conjunction with, its iPod and iTunes products. Apple was accused of restricting users' access to their music and videos in an unlawful way, and to use EULAs conflicting with Norwegian consumer legislation. The complaint was supported by consumers' ombudsmen in Sweden and Denmark, and is currently being reviewed in the EU.

The use of DRM may also be a barrier to future historians, since technologies designed to permit data to be read only on particular machines, or with particular keys, or for certain periods, may well make future data recovery impossible — see Digital Revolution. This argument connects the issue of DRM with that of asset management and archive technology.[citation needed]

DRM opponents argue that the presence of DRM violates existing private property rights and restricts a range of heretofore normal and legal user activities. A DRM component would control a device a user owns (such as a Digital audio player) by restricting how it may act with regards to certain content, overriding some of the user's wishes (for example, preventing the user from burning a copyrighted song to CD as part of a compilation or a review). An example of this effect may be seen in Microsoft's Windows Vista operating system in which content is disabled or degraded depending on the DRM scheme's evaluation of whether the hardware and its use are 'secure'. All forms of DRM depend on the DRM enabled device (e.g., computer, DVD player, TV) imposing restrictions that (at least by intent) cannot be disabled or modified by the user.

Tools like FairUse4WM have been created to strip Windows Media of DRM restrictions.[21]

Asus will release a soundcard which features a function called Analog Loopback Transformation to bypass the digital restrictions of DRM. This feature allows the user to record DRM-restricted audio via the soundcard's built-in analog I/O connection.[22]

Problems with DRM

Methods to bypass DRM

There are many methods to bypass DRM control on audio and video content.

One simple method to bypass DRM on audio files is to burn the content to an audio CD and then rip it into DRM-free files. This is only possible when the software that plays these DRM-protected audio files allows CD-burning. This DRM-removal method is usually not lossless, however, since most users will choose to rip their content into smaller music files compressed using lossy algorithms, e.g. MP3 files rather than WAV files. Some software products simplify and automate this burn-rip process by allowing the user to burn music to a CD-RW disc or to a Virtual CD-R drive, then automatically ripping and encoding the music, and automatically repeating this process until all selected music has been converted, rather than forcing the user to do this one CD (72-80 minutes' worth of music) at a time. NoteBurner M4p converter is the typical example which uses this Virtual CD-RW drive method.

Many software programs have been developed that intercept the data stream as it is decrypted out of the DRM-protected file, and then use this data to construct a a DRM-free file. This DRM-free file can be a lossless copy of the original, or can be compressed further if the user does not mind the slight loss in quality that accompanies a smaller file size. These programs require a decryption key. Programs that do this for DVDs and HD-DVDs include universal decryption keys in the software itself. Programs that do this for TiVo ToGo recordings, iTunes audio, and PlaysForSure songs, however, rely on the user's own key - that is, they can only process content that the user has legally acquired under his or her own account. Examples of such software programs include QTFairUse and MyFairTunes for iTunes, RipIt4Me and DVD Fab Decrypter for DVDs, and FairUse4WM for PlaysForSure content.

Another method is to use software to record the signals being sent through the audio or video cards, or to plug analog recording devices into the analog outputs of the media player. These techniques utilize the so-called "analog hole" (see below).

Analog hole

All forms of DRM for audio and visual material are subject to the 'analog hole', namely that in order for a viewer to enjoy the material, the digital signal must be turned into an analog signal containing light and/or sound for the viewer, and so available to be copied as no DRM is capable of controlling content in this form.

All DRM to date, and probably all future ones can therefore be bypassed by recording this signal and digitally storing and distributing it in a non DRM limited form. However the conversion from digital to analogue and back is likely to force a loss of quality, particularly when using lossy digital formats.

DRM on general computing platforms

Many of the DRM systems in use are designed to work on general purpose computing hardware, such as desktop PCs apparently because this equipment is felt to be a major contributor to revenue loss from disallowed copying. Large commercial pirates avoid consumer equipment, so losses from such infringers will not be covered by such provisions.

Some [23] have suggested that any such scheme can never be secure since the software must include all the information, such as decryption keys, necessary to decrypt the content. It is suggested that one can always extract this information and decrypt and copy the content, bypassing the restrictions imposed by an DRM system.

DRM on distributed purpose built hardware

Many DRM schemes use encrypted media which requires purpose built hardware to hear or see the content. This appears to ensure that only licensed users (those with the hardware) can access the content. It additionally tries to protect a secret decryption key from the users of the system.

While this in principle can work, it is extremely difficult to build the hardware to protect the secret key against a sufficiently determined adversary. Many such systems have failed in the field, and in fact, it is thought that none have yet survived several years of deployment. Once the secret key is known, building a version of the hardware that performs no checks is often relatively straightforward.

In addition user verification provisions are frequently subject to attack.

Historical note

A very early — possibly the earliest — implementation of DRM was the Software Service System (SSS) devised by the Japanese engineer Ryoichi Mori in 1983 [24] and subsequently refined under the name superdistribution. The SSS was based on specialized hardware that controlled the decryption of protected material and also enabled payments to be sent to the owner of that material. The underlying principle of the SSS and subsequently of superdistribution was that the distribution of encrypted digital products should be completely unrestricted and that users of those products would not just be permitted to redistribute them but would actually be encouraged to do so.

See also

Lobbying organizations

References

Wikiquote has quotations related to Digital rights management.
  1. ^ Christopher Levy (February 3 2003). "Making Money with Streaming Media". streamingmedia.com. Retrieved 2006-08-28. {{cite web}}: Check date values in: |year= (help)
  2. ^ "Digital Restrictions Management and Treacherous Computing". Retrieved 2006-08-04.
  3. ^ "FairPlay: Another Anti-competitive Use of DRM". Retrieved 2006-08-01.
  4. ^ Bangeman, Eric (2006-10-28). "TiVo tightens the DRM vise". Retrieved 2006-08-11.
  5. ^ McMillan, Robert. "Settlement Ends Sony Rootkit Case." May 23, 2006. PC World. Accessed April 8, 2007. Article
  6. ^ Marechal, Sander, DRM on audio CDs abolished, January 9, 2007.
  7. ^ "Apple Launches iTunes Plus". Apple PR website. 2007-05-30. Retrieved 2007-05-30. {{cite web}}: Check date values in: |date= (help)
  8. ^ Nick Timeraos (July 6, 2006). "Free, Legal and Ignored". WSJ.com (Wall Street Journal). Retrieved 2006-11-27. {{cite web}}: Check date values in: |date= (help)
  9. ^ Testing DRM-free waters: EMI selling a few MP3s through Yahoo Music by Eric Bangeman, Ars Technica, December 6, 2006.
  10. ^ Steve Jobs, Thoughts on Music
  11. ^ Ken Fisher (March 18, 2007). "Musicload: 75% of customer service problems caused by DRM". Ars Technica. Retrieved 2007-03-20. {{cite news}}: Check date values in: |date= (help)
  12. ^ "DRM Watch". Retrieved 2007-04-07.
  13. ^ RIAA challenges SDMI attack 2002-01-07, Retrieved on 2007-02-26
  14. ^ Walker, John (September 13, 2003). "The Digital Imprimatur: How big brother and big media can put the Internet genie back in the bottle". {{cite web}}: Check date values in: |year= (help)
  15. ^ Richard Stallman, The Right to Read
  16. ^ O'Riordan, Ciaran (January 16, 2006). "Transcript of Opening session of first international GPLv3 conference". {{cite web}}: Check date values in: |year= (help)
  17. ^ Cory Doctorow, Microsoft Research DRM talk, June 17, 2004
  18. ^ "Frequently Asked Questions - CcWiki". 2006-11-09. Retrieved 2006-11-22.
  19. ^ "Bill Gates speaks against DRM".
  20. ^ "A lot of CRAP". Retrieved 2006-09-07.
  21. ^ "Engadget FairUse4WM strips Windows Media DRM!". Retrieved 2006-08-25.
  22. ^ "Asus Showcases New Generation Audio Card at Computex 2007". Retrieved 2007-06-26.
  23. ^ Cory Doctorow (June 17 2004). "Microsoft Research DRM Talk". craphound.com. Retrieved 2007-08-17. {{cite web}}: Check date values in: |year= (help)
  24. ^ Patent application 58-186100 (in Japanese), Software Management System, Japan Patent Office, October 5, 1983, Ryoichi Mori, applicant. (The usual English translation of the application lists Forest Akikazu as the applicant, but that is a mistranslation of Mori's name.)

Further reading

  • Lawrence Lessig's Free Culture, published by Basic Books in 2004, is available for free download in PDF format. The book is a legal and social history of copyright. Lessig is well known, in part, for arguing recent landmark cases on copyright law. A Professor of Law at Stanford University, Lessig writes for an educated lay audience, including for non-lawyers. He is, for the most part, an opponent of DRM technologies.
  • Consumer's Guide to DRM, published in 10 languages (Czech, German, Greek, English, Spanish, French, Hungarian, Italian, Polish, Swedish), produced by the INDICARE research and dialogue project
  • Eberhard Becker, Willms Buhse, Dirk Günnewig, Niels Rump: Digital Rights Management - Technological, Economic, Legal and Political Aspects. An 800 page compendium from 60 different authors on DRM.
  • Fetscherin, M., Implications of Digital Rights Management on the Demand for Digital Content, provides an excellent view on DRM from a consumers perspective. [5]
  • Bound by Law, by James Boyle et al, at Duke University Law School (http://www.law.duke.edu/cspd/comics/zoomcomic.html), a comic book treatment of the US Fair Use doctrine (with some relevance to other jurisdictions, for example in the Commonwealth usually called Fair Dealing), that is a license fee or permission free, under statute and common law precedent, use of copyrighted material.
  • DRM on Open Platforms - A paper by Hagai Bar-El and Yoav Weiss on ways to partially close open platforms to make them suitable for DRM implementations. It has been released under a Creative commons by NC-SA license.
  • The Pig and the Box, a book with colorful illustrations and having a coloring book version, by 'MCM'. It describes DRM in terms suited to kids, written in reaction to a Canadian entertainment industry copyright education initiative, aimed at children.
  • Present State and Emerging Scenarios of Digital Rights Management Systems - A paper by Marc Fetscherin which provides an overview of the various components of DRM, pro and cons and future outlook of how, where, when such systems might be used.
  • DRM is Like Paying for Ice - Richard Menta article on MP3 Newswire discusses how DRM is implemented in ways to control consumers, but is undermining perceived product value in the process.
  • Challenges in Designing Content Protection Solutions - A paper by Hagai Bar-El and Discretix that addresses technical dilemmas and difficulties met when designing DRM products.
  • A Semantic Web Approach to Digital Rights Management - PhD Thesis by Roberto García that tries to address DRM issues using Semantic Web technologies and methodologies.
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