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VOB

VOB (Video Object) is a file format primarily used in media to encapsulate , audio, , menus, and navigation contents on optical discs. Based on the MPEG-2 program stream standard, VOB imposes additional limitations and specifications to ensure compatibility with DVD playback systems, including constraints on stream types and packet structures. It typically employs for video compression and supports audio formats such as AC-3 or DTS, while excluding others like to maintain DVD . VOB files are organized within the VIDEO_TS directory on a DVD, where multiple .vob files store segmented content—such as video title sets (VTS) and the video manager (VMG)—alongside IFO files for indexing and navigation. This structure enables seamless playback of feature-length films and interactive elements, with each VOB file limited to 1 GB to facilitate authoring and disc burning. Developed as part of the specification in the late 1990s by the —an international of electronics and media companies—VOB became the for commercial video distribution on DVDs until the rise of streaming and Blu-ray formats. Despite its obsolescence in modern media, VOB remains relevant for archiving legacy content and is playable via software like or hardware DVD drives.

History and Development

Origins in DVD-Video Standard

The VOB (Video Object) format originated in the mid-1990s as a core component of the standard, developed by the —a group of major electronics manufacturers including , , , and others formed in late 1995 to unify competing proposals. This introduced VOB as the primary for discs, enabling the storage of multiplexed , audio, subtitles, menus, and navigation data in a single stream to support high-quality playback on . The format was designed to leverage the increased storage capacity of DVDs—up to 4.7 for single-layer discs—allowing for feature-length films with enhanced resolution and interactive features that were impractical on prior media. VOB's development addressed the limitations of predecessor formats like (which used compression for lower-quality video limited to about 74 minutes per disc) and (an analog format with superior audio but cumbersome size and lack of ). By integrating digital compression and , VOB facilitated seamless interactive playback, including chapter selection, multi-angle views, and parental controls, marking a significant advancement in consumer video technology. This positioned as the new standard for entertainment, rapidly replacing analog and earlier digital attempts in the marketplace. Key milestones in VOB's introduction aligned with the broader DVD rollout: the specification version 1.0, incorporating VOB, was announced in 1995 and finalized by the consortium in September 1996. The first commercial DVD players, capable of reading VOB-based discs, appeared in in November 1996 with Toshiba's SD-3000 model, followed by U.S. launches in 1997. The name "VOB" derives from "Video Object," reflecting its structure as discrete units of video content within the disc's logical organization. Technically, VOB adheres strictly to the MPEG-2 Program Stream defined in ISO/IEC 13818-1, first published in 1994 but adapted and constrained for compatibility in the 1996 specification to ensure interoperability across devices. This foundation allowed VOB to support video encoding alongside formats like AC-3 or audio, providing a robust framework for synchronized multimedia delivery without the need for separate files.

Standardization and Evolution

The VOB (Video Object) format was formally adopted within the standard, incorporating the ECMA-167 volume and file structure along with for compatibility on optical media, as specified in the DVD Read-Only Disk Technical Report published in 1998. This integration ensured for DVD playback across computer and systems, with the UDF Bridge format combining elements of both standards to support the of VOB files on discs. The evolution of VOB occurred primarily through the DVD Forum's (formerly the DVD Consortium, renamed in April 1997) development of the specification, culminating in version 1.0 finalized in September 1996, which introduced support for advanced features such as multi-angle video streams and seamless playback within VOB containers to enable dynamic scene selection without interruptions. These capabilities were defined to handle up to nine camera angles per segment, with seamless branching allowing fluid transitions between paths, enhancing interactive content delivery on DVD media. Subsequent minor refinements by the in the late focused on refining these features for broader device compatibility, but the core VOB structure based on the MPEG program stream remained unchanged. No major revisions to the VOB core format have occurred since 2000, reflecting its stability as a legacy component of , though it saw limited integration considerations in precursor standards for high-definition optical media like early proposals that aimed to maintain with DVD file elements. Regional variations in VOB implementations account for broadcast standards, with regions using a 29.97 frames per second rate and PAL regions employing 25 frames per second, ensuring proper video timing and display across global markets. The last significant update to VOB-related specifications arrived in through the DVD+RW Alliance's introduction of the DVD+VR format, which extended compatibility features to allow editable recording modes while aligning with existing VOB playback structures on standard DVD players.

Technical Specifications

File Format Structure

VOB files function as segmented containers for content, employing the .vob extension and adhering to a maximum size of 1 GB (1,073,741,824 bytes) per file to align with DVD sector boundaries of 2048 bytes each, ensuring efficient disc addressing and compatibility. This segmentation prevents any single file from exceeding 524,288 sectors, facilitating seamless playback across multiple files without interruption. At their core, VOB files conform to the Program Stream (MPEG-PS) format specified in ISO/IEC 13818-1, where data is organized into fixed-size packs of 2048 bytes, each comprising a pack header followed by one or more packets. These packets multiplex video, audio, and private streams, with DVD-specific navigation packs (NV_PCK) inserted approximately every 0.4 to 1.0 seconds to deliver essential timing synchronization, presentation control information () for chapter points and menu overlays, and data search information (DSI) for track navigation. The NV_PCK structure includes a system header, packet, and DSI packet, enabling precise control over playback progression within video object units (VOBUs), each typically spanning about 0.5 seconds and starting with an NV_PCK. Within a video title set (VTS), VOB files are sequentially numbered as VTS_XX_1.VOB through VTS_XX_9.VOB, where XX denotes the titleset identifier (01 to 99), limiting each titleset to nine files to manage content volumes beyond 1 while maintaining structural integrity. A full supports up to 99 titlesets, with overall capacities of 4.7 Gbytes for single-layer (DVD-5) and 8.5 Gbytes for dual-layer (DVD-9) configurations, as defined in the physical disk specifications. details, such as cell and program chain mappings, are complemented by associated IFO files for comprehensive titleset management.

Data Streams and Encoding

VOB files multiplex multiple elementary streams into a single MPEG Program Stream container, primarily consisting of video, audio, and subpicture streams to support playback. The video stream is encoded using Part 2 (ISO/IEC 13818-2) at Main Profile at Main Level (MP@ML), with optional support for video in simpler applications, ensuring compatibility with standard DVD players. Audio streams adhere to formats such as AC-3 (), MPEG-1 Audio Layer II, linear PCM, or DTS, while subtitles are rendered as bitmap-based subpictures in private stream 1 (stream IDs 0x20 to 0x3F). The video stream employs a (GOP) structure typical of , comprising intra-coded I-frames, predicted P-frames, and bidirectionally predicted B-frames to achieve efficient compression through temporal redundancy. GOPs are limited to a maximum of 18 frames for (525/60 systems) or 15 frames for PAL/ (625/50 systems) to facilitate seamless editing and trick-play modes. Video encoding supports resolutions such as 720×480 for (or 720×576 for PAL), with common variants like 704×480 or half-D1 at 352×480, and aspect ratios of 4:3 for standard television or 16:9 for displays. The maximum video bitrate is 9.8 Mbit/s, constrained within an overall multiplex bitrate of up to 10.08 Mbit/s to account for packet overhead. Audio streams provide up to 8 simultaneous tracks per title, enabling multilingual support or alternative mixes. AC-3 encoding allows bitrates from 192 kbit/s for stereo to 448 kbit/s for 5.1-channel , balancing quality and storage efficiency. Layer II supports stereo at up to 384 kbit/s, PCM offers uncompressed audio at 48 kHz or 96 kHz sampling with 16-, 20-, or 24-bit depth (up to 1536 kbit/s total but limited per track), and DTS permits higher bitrates like 768–1536 kbit/s for enhanced fidelity. Subpicture streams, used for and menu overlays, support up to 32 tracks and consist of run-length encoded images with a 4-color palette for efficient storage. These are timed to align with video , typically occupying minimal bandwidth within the private stream. The total bitrate of a VOB multiplex is calculated as the sum of the video bitrate, audio bitrates across active tracks, subpicture data, and system overhead (approximately 1 Mbit/s for and padding), not exceeding the 10.08 Mbit/s limit to ensure decoding.

File Organization and Limitations

VOB files are organized within Video Title Sets (VTS) on a disc, where each VTS groups related video, audio, and content into a logical unit. The Video Manager (VMG) handles overall disc navigation and contains separate VOB files (VIDEO_TS.VOB), while each VTS includes its own VOB (e.g., VTS_01_0.VOB) distinct from VOBs (e.g., VTS_01_1.VOB to VTS_01_9.VOB), allowing menus to control access to specific titles without interleaving with main content. This separation ensures that menu interactions remain independent of playback sequences. For multi-angle content or alternate storylines, seamless branching is achieved by linking cells across VOBs in different Program Chain (PGC) structures, enabling smooth transitions between angles or versions without visible jumps. These VOBs integrate streams for video and audio multiplexing within the VTS framework. A key limitation of VOB organization arises from the 1 maximum file size per VOB, imposed to maintain with file systems and constraints, resulting in a maximum of 9 title VOBs per VTS (plus one VOB) to fit within capacity limits. This caps a single-layer DVD-5 (4.7 ) at approximately 5 VOBs and a dual-layer DVD-9 (8.5 ) at up to 9, though actual usage depends on content bitrate. Early DVD implementations often lacked full (VBR) support in authoring tools, relying instead on constant bitrate (CBR) to simplify playback, which could lead to inefficient encoding for complex scenes. Disc authoring is further restricted to a maximum of 99 chapters (or programs) per PGC, limiting granular navigation in long titles. The total video content on a single-layer DVD is limited to about at maximum bitrate settings (9.8 Mbit/s video within 10.08 Mbit/s multiplex, plus audio and ), due to the 4.7 capacity after accounting for overhead. Error correction in VOB data relies on Reed-Solomon product codes, which detect and repair up to 8 byte errors per row and 16 per column in the encoded sectors, enhancing reliability against scratches or manufacturing defects. These constraints originate from the DVD-ROM specifications outlined by the in 1996, which built on earlier CD-ROM standards like to define and sector limits for optical media.

Companion Components

Navigation Files (IFO and BUP)

The IFO (Information File) is a binary-format file that provides essential navigation and control data for discs, accompanying the VOB files to enable structured playback of menus, titles, chapters, and multi-angle content. It stores Program Chain (PGC) information, which defines sequences of s—discrete units of video, audio, and subpicture data—allowing players to navigate through the content hierarchically. Key elements include timestamps for precise timing and synchronization, as well as cell addresses that link to specific sectors in the associated VOB files. The internal structure of an IFO file is organized into distinct domains for comprehensive control. The Video Manager Information (VMGI) domain, found in the primary VIDEO_TS.IFO file, handles disc-wide navigation, including pointers to the First Play PGC, menu PGCs, and title sets. In contrast, the Video Title Set Information (VTSI) domain appears in each title set's IFO file (e.g., VTS_01_0.IFO), managing title-specific details such as Part of Title (PTT) search pointers for chapters, PGCs for angle selection (supporting up to 9 angles), and time map information for seamless transitions. Each IFO supports up to 999 PGCs per title set, facilitating complex interactivity like branching menus and user-selectable paths. Complementing the IFO is the BUP (Backup File), an identical duplicate of its corresponding IFO, designed for to protect against during disc manufacturing or reading errors. For instance, VIDEO_TS.BUP mirrors VIDEO_TS.IFO, and VTS_XX_0.BUP duplicates VTS_XX_0.IFO, ensuring that DVD players can fall back to the backup if the primary file is unreadable. This duplication mechanism enhances reliability without altering the core navigation logic stored in the PGC structures.

Directory Structure in DVD Media

The directory structure of DVD-Video media adheres to the file system (ECMA-119), combined with a UDF bridge format for enhanced compatibility, and optionally employs Joliet extensions to support longer filenames (up to 64 characters) and , promoting cross-platform readability across operating systems and DVD players. This layout ensures that all video-related files are organized in a predictable manner at the disc root, with logical sectors of 2048 bytes and files allocated contiguously where possible. At the root level, the structure defines two mandatory directories: VIDEO_TS, which houses all video content including VOB files, and AUDIO_TS, reserved for audio-only content but often left empty or populated with dummy files in standard discs to maintain format compliance. The VIDEO_TS directory contains no further subdirectories for individual Video Title Sets (VTS); instead, all associated files are placed directly within it, following an convention (e.g., eight characters for the base name, three for the extension). Key files in VIDEO_TS include the mandatory VIDEO_TS.IFO and its backup VIDEO_TS.BUP, which provide overall navigation , as well as VTS_01_0.IFO and VTS_01_0.BUP for the primary title set's structure. VOB files are organized such that VTS_01_0.VOB typically holds menu content, while VTS_01_1.VOB and subsequent numbered files (up to VTS_01_9.VOB) store the main title video objects, split across multiple files with each limited to under 1 GB as specified in the standard. Additional VTS files follow a similar numbering scheme for multi-title DVDs, such as VTS_02_1.VOB for a second title set. The overall design was formalized in the 1997 DVD Specifications (Part 3: Video Specification) by the to guarantee seamless playback across hardware and software environments.

Copy Protection Mechanisms

Content Scramble System (CSS)

The is a and encryption mechanism designed to prevent unauthorized copying of commercial content by scrambling the video and audio streams embedded within VOB files. Developed by Matsushita Electric Industrial Co., Ltd. (now ) and Corporation in 1996 as part of the DVD specification, CSS employs a 40-bit to encrypt the data, ensuring that only licensed DVD players can descramble and play the protected titles. CSS also supports region coding by varying keys per region, preventing playback outside designated areas. At its core, CSS relies on a multi-tiered hierarchy to secure : each DVD disc contains a unique disc key, encrypted multiple times using approximately 400 distinct keys assigned to manufacturers and stored in the disc's lead-in area; these keys enable an authenticated between the DVD and player software or to retrieve the disc key, which in turn decrypts one or more title keys associated with individual video s or sets on the disc. This process authenticates the player as compliant before allowing decryption of the scrambled VOB , with title keys specifically applied to the MPEG to prevent direct bit-for-bit copying. The keys are exchanged securely during playback initialization to maintain protection without exposing them openly. CSS was first implemented on commercial discs released in in November 1996 and in the United States in March 1997, becoming the standard for nearly all prerecorded DVDs thereafter. However, its relatively weak 40-bit key length proved vulnerable, leading to its circumvention in October 1999 by the program, reverse-engineered by Norwegian programmer at age 15 to enable playback on systems. This breakthrough sparked significant legal actions, including the high-profile prosecution of Johansen in —where he was initially convicted in but ultimately acquitted on in 2003 for lacking evidence of illegal use—and the U.S. case of Universal City Studios, Inc. v. Reimerdes (2001), which affirmed the program's illegality under the for distributing decryption tools. Although CSS effectively controlled DVD piracy in its early years, its became evident by the mid-2000s as higher-capacity formats like Blu-ray Disc adopted the more robust (AACS) starting in 2006, rendering CSS inadequate for HD content. Despite this, CSS persists in legacy DVD media, with over 80,000 protected titles still requiring decryption for playback on modern devices, many of which include backward-compatible CSS support.

Implementation and Encryption Details

The (CSS) applies to the video and audio packets within VOB files by scrambling the data at the sector level on the DVD . Each 2048-byte sector containing VOB data has its first 128 bytes (the pack header) unencrypted, while the remaining 1920 data bytes (bytes 128 through 2047) are encrypted. The uses a keystream generated from a sector-specific initial state derived by XORing the 5-byte (unique to each or VOB set) with bytes 80 through 84 from the unencrypted pack header. This initial state seeds two linear feedback shift registers (LFSRs)—a 17-bit and a 25-bit LFSR—that produce a pseudorandom keystream, which is then XORed byte-by-byte with the data bytes to produce the . The itself is stored encrypted on the and is decrypted using the 5-byte , which in turn is decrypted via the player's 5-byte player key during an initial challenge-response authentication between the DVD drive and the host player to verify legitimacy. This process ensures that only authorized players can access the keys needed to unscramble the VOB sectors. The keystream generation involves running the LFSRs in a specific manner to produce each k_i for the XOR operation c_i = p_i \oplus k_i, where the LFSR outputs are combined and processed iteratively across the 1920 encrypted bytes. CSS keys, including , , and title keys, are all 40-bit (5-byte) values, deliberately chosen for modest balanced against decoding speed in 1990s . Circumvention of CSS in VOB files has been enabled through software libraries and tools that reverse-engineer the and descrambling process. The library, developed by the project and first released in version 0.0.1 on June 18, 2001, implements CSS decryption in software, allowing transparent access to encrypted DVD sectors without authentication by emulating the and applying the descrambling to extract unencrypted VOB . Tools such as , a application released around 2000, facilitate entire DVD structures to hard disk, bypassing CSS during the process to produce unencrypted VOB files suitable for further processing or archiving. In the United States, the , enacted in 1998, prohibits the circumvention of technological protection measures like CSS and deems the distribution or trafficking of bypass tools—such as —a violation under 17 U.S.C. § 1201, leading to legal actions against developers and distributors since its passage. This legal framework has not prevented widespread adoption of such tools for personal use in many jurisdictions, though it restricts commercial dissemination.

Playback and Compatibility

Software Playback Methods

Software playback of VOB files, which are MPEG-2 program stream containers typically from DVDs, relies on media players and libraries capable of demuxing and decoding their video, audio, and subtitle streams. Prominent open-source tools include , developed by the VideoLAN project and first released in , which supports direct VOB playback through its integrated MPEG-2 decoder and handles DVD decryption via the libdvdcss library. Media Player Classic Home Cinema (MPC-HC), a lightweight Windows player, also enables VOB playback by leveraging built-in support for common video formats like . For command-line processing, FFmpeg provides robust demuxing capabilities for VOB files, treating them as MPEG Stream variants to individual streams without re-encoding. Direct playback methods utilize these tools' native MPEG-2 decoders to render VOB content seamlessly on personal computers, often requiring no additional codecs on modern systems. For enhanced compatibility with other software or devices, users can rip VOB files to MPG format using , an open-source transcoder that processes VOB inputs from DVD structures while preserving quality through selective re-encoding options. This approach demultiplexes the streams and repackages them into a standard MPEG file, facilitating broader playback without altering the original DVD encryption handling. VOB files often include subtitles in the VOBsub format, consisting of bitmap images stored in SUB files alongside IDX index files for timing and positioning, which are supported by players like VLC for synchronized display during playback. Widespread software support for VOB playback emerged following the 1999 release of DeCSS, a utility that decrypted CSS-encrypted VOB files, enabling open-source developers to build compatible tools. In the post-2000s era, libraries such as libdvdcss integrated transparent CSS handling into applications like VLC, allowing seamless access to protected DVD content across platforms without manual intervention. By 2010, updates to these tools, including experimental and stable 64-bit builds of VLC, extended reliable VOB and DVD playback to modern architectures.

Hardware and Device Support

VOB files, as the core containers for DVD-Video content, are natively supported by standard DVD players, which were first introduced in on November 1, 1996, with the SD-3000 model, and globally in the United States in March 1997. These players incorporate dedicated hardware for video decoding, enabling seamless playback of the interleaved video, audio, and subtitle streams within VOB files directly from DVD discs. Game consoles such as the , released in 2000, and the original , launched in 2001, also provided robust VOB playback capabilities through their integrated DVD drives. The featured a built-in DVD player mode accessible via its , allowing users to navigate DVD menus and play VOB-based titles using the controller as a remote. For the , DVD movie playback required the official DVD Playback Kit—a dongle and remote that unlocked the console's decoding for VOB streams—but once enabled, it delivered high-quality reproduction comparable to standalone players. Set-top boxes equipped with MPEG-2 hardware decoders, commonly used in early digital television systems, similarly supported VOB playback for DVD content integration. These devices demultiplex the MPEG-2 transport streams from VOB files, decoding video and audio in real-time to output to televisions, often as part of broader broadcast or cable setups. Hardware support for VOB files includes built-in Content Scramble System (CSS) decryption, licensed through the DVD Copy Control Association (DVD CCA) and implemented via specialized chips that authenticate and unscramble encrypted titles. While Macrovision primarily handled analog copy protection licensing, CSS integration ensured digital security in compliant players. Regional Playback Control (RPC) enforcement varies by device: RPC1 mechanisms in early drives allowed unlimited region changes managed by software, whereas RPC2 systems, predominant in later hardware, limit changes to five per drive lifetime and enforce hardware-level restrictions to match disc regions. Blu-ray players maintain full backward compatibility with DVD discs, including VOB file playback, as mandated by the to ensure seamless support for legacy media. However, some budget-oriented DVD players exhibit limitations, such as incomplete support for multi-angle features, where switching between camera angles during playback may not function reliably due to simplified hardware decoding. The era of new CSS-licensed hardware peaked in the early 2000s but reached an effective end-of-life for widespread production by , as market demand shifted toward streaming and higher-resolution formats.

Modern Usage and Conversion

In the 2020s, VOB files continue to serve as a key format for the archival of DVD rips on personal media servers, where users preserve legacy collections against the backdrop of declining production. As DVD has waned amid the dominance of streaming services, individuals increasingly digitize their physical libraries to maintain access to owned content, with VOB rips enabling storage on (NAS) devices for home networks. This practice gained prominence post-2020, driven by concerns over streaming reliability, content removal, and the desire for offline ownership. Conversion of VOB files to more versatile containers like MP4 or remains a standard workflow for enhancing compatibility and longevity, often using tools such as MakeMKV, which has facilitated lossless remuxing since its initial release in 2007. MakeMKV extracts DVD content, including VOB streams, into without re-encoding, preserving original bitrates and avoiding quality degradation from compression artifacts. This remuxing process maintains the integrity of video and audio tracks while embedding chapters and , making it ideal for archival transfers to modern players. Personal media servers like and offer partial support for VOB files as legacy content, allowing playback of DVD rips in their native structure, though with experimental handling that may require folder organization mimicking the original VIDEO_TS layout. However, both platforms recommend converting VOB to supported formats like MP4 to ensure seamless direct play across devices, reducing overhead. Challenges in modern VOB usage stem from the format's obsolescence in an era dominated by streaming, where high-bandwidth services have supplanted , leading to compatibility issues on newer . Legally, DVDs to VOB for personal use is permitted under exemptions in regions like the , as renewed in the Library of Congress's 2024 DMCA rulemaking (effective through October 2027), which allows circumvention of access controls for noninfringing preservation and format shifting of audiovisual works such as DVDs. These exemptions support archival efforts but do not extend to distribution or commercial applications.

Related Formats

DVD-VR and VRO Containers

The VRO format serves as a single-file container specifically designed for the DVD-VR (Video Recording) mode on recordable DVD media, such as DVD-R, DVD-RW, and , enabling personal video recording and editing capabilities. Introduced by the in late 1999 with Version 1.0 specifications and made commercially available in the fourth quarter of 2000, VRO was developed to facilitate real-time recording from sources like camcorders and set-top boxes directly onto optical discs. This format was standardized further in updates, including Version 1.1 released in November 2000, to support broader media compatibility, including DVD-R in mode. Unlike the standard structure, which relies on multiple .vob files for video objects and separate .ifo files for navigation and , VRO consolidates all video, audio, , and program chain information into a single .vro file within the DVD_RTAV directory. This unified approach eliminates the need for IFO splitting during recording and uses internal edit lists to manage non-destructive s, such as deleting segments or creating playlists, without rewriting the entire stream—ideal for sequential real-time recording on consumer devices. The file employs program streams divided into Video Object Units (VOBUs), similar to VOBs, allowing seamless integration of interleaved audio and video data. VRO recordings are constrained by the physical capacity of the DVD medium, typically up to 4.7 GB for single-layer DVD-R discs in VR mode, supporting approximately 60 minutes of high-quality video or longer durations at lower bitrates. For backward compatibility with standard DVD players, which often do not natively support VR mode, VRO files can be converted to conventional VOB and IFO structures using specialized software tools that demultiplex and reauthor the content into compliant format. Early adoption included DVD recorders from manufacturers like , such as the RDR-A1 model released in 2001, which utilized VRO for VR-mode recordings on DVD-RAM and DVD-RW media.

Enhanced VOB (EVO) for HD DVD

Enhanced VOB (EVO) represents an extension of the original VOB format, specifically designed by the DVD Forum to accommodate high-definition content on HD DVD media. Introduced in a technical specification document in November 2005, EVO was developed to support the increased storage capacities of HD DVD discs, typically ranging from 15 GB for single-layer to 30 GB for dual-layer variants, enabling longer playback times and higher quality video. This format builds directly on the VOB structure used in standard DVDs, incorporating enhanced capabilities for multiplexing high-definition video streams such as H.264/AVC (MPEG-4 Part 10) and VC-1, alongside advanced audio codecs including Dolby Digital Plus, DTS-HD Master Audio, and linear PCM. In terms of structure, EVO files serve as the primary container for multiplexed audio, video, subtitles, and navigation data within the HD DVD file system, which utilizes UDF version 2.5 for organization. Similar to the MPEG-2 program stream in traditional VOB files, EVO employs a compatible multiplexing approach but with extensions for higher bitrates—up to 29.4 Mbit/s for combined audio-video streams—and advanced navigation features that allow for seamless menu interactions and real-time content streaming. These enhancements maintain backward compatibility with VOB parsing while supporting HD DVD's blue-violet laser technology for data transfer rates of approximately 36 Mbit/s at 1x speed. For content protection, EVO inherits conceptual elements from the CSS system used in standard VOB files but primarily relies on the more robust AACS (Advanced Access Content System) encryption. HD DVD discs utilizing the EVO format were commercially released starting in 2006, with widespread adoption attempted through partnerships led by and supported by the . However, the format faced significant challenges due to competition from Blu-ray Disc, leading to its commercial failure by early 2008 when major studios shifted support and announced discontinuation of HD DVD production. Despite the cessation of manufacturing by the end of 2008, legacy EVO support persists in select older HD DVD players and software decoders, allowing playback of archived titles.

Comparisons with Other MPEG Containers

VOB files utilize the Program Stream (PS) , as defined in ISO/IEC 13818-1, but are specifically adapted for applications with embedded packs (NAV packs) that enable interactive features such as menus, chapters, and seamless branching—elements absent in generic files, which adhere to the standard MPEG-PS without these DVD-specific segments. This specialization makes VOB ideal for disc-based playback but introduces limitations, including a strict 1 size cap per file to ensure with DVD hardware and constraints, whereas MPG files impose no such boundary and support unlimited sizes for flexible storage. Consequently, VOB files often encounter challenges in non-DVD software, where the can cause sync issues or import failures, necessitating conversion to plain MPG for broader . In contrast to the MPEG-2 Transport Stream (TS), also specified in ISO/IEC 13818-1, the Program Stream underlying VOB prioritizes reliable, single-program delivery for local storage media like optical discs, lacking the fixed 188-byte packet structure and mechanisms that TS employs for resilient transmission over noisy channels such as or broadcasts. TS supports multiple programs with independent time bases and includes (PSI) tables for dynamic , features unnecessary for VOB's sequential, error-free disc environment but essential for real-time streaming where is common. These distinctions align with distinct use cases: VOB excels in creating interactive, self-contained DVD experiences with integrated subtitles and multi-angle content, while generic MPG facilitates straightforward video file sharing and archiving without navigational overhead, and TS dominates broadcast and IP streaming scenarios requiring robustness and multi-program handling. DVD-VR, a variant for recordable media, employs a similar VOB structure but omits some read-only navigation for editing flexibility.

References

  1. [1]
    https://www.samsung.com/in/support/tv-audio-video/what-is-a-vob-file/
  2. [2]
    Video Object File (MPEG-2 subset) - PRONOM | Search by format
    Nov 15, 2023 · A Video Object File (or VOB) is a strict subset of the MPEG-2 Program Stream, primarily used within DVD video. A VOB will contain an extended ...
  3. [3]
    What Is a VOB File and How do I Open It?
    VOB (Video Object) is a video container used in DVD media. It uses a .vob filename extension and can contain digital video, audio, subtitles, and DVD menus.
  4. [4]
    VOB File Format
    VOB files are stored typically in the VIDEO_TS directory on a DVD with a .vob extension. VOB files contain video and audio data as well as other data like menus ...
  5. [5]
    What is a VOB File and How can You Play it? - WinXDVD
    Jan 5, 2024 · VOB, stands for video object, is a container format contained in DVD-Video media. It contains a majority of the data stored on the disc, including video and ...What is VOB format? · What is a VTS.VOB File? · How do I Play a VOB File?
  6. [6]
    VOB Video Format: Definition, How to Play, History - Vodpod
    Dec 26, 2024 · History of VOB Video​​ The VOB (Video Object) format was created in the late 1990s as part of the DVD-Video specification, a collaborative effort ...
  7. [7]
    How can I play VOB files? - Microsoft Q&A
    Feb 25, 2024 · VOB serves as the primary container format for DVD video files, containing data such as video, audio, subtitles, and DVD menus. Typically, VOB ...I want windows media player to play V.O.B files - Microsoft LearnWindows 10 will not auto-play dvds with .vob format video filesMore results from learn.microsoft.com
  8. [8]
    DVDs are Introduced - History of Information
    In September 1996 DVD specification 1.0 Offsite Link (Digital Video Disc) was finalized. The capacity of the original single-sided, single layer DVD-1 was ...
  9. [9]
    What is a VOB file - MPUCoder
    A VOB file is an MPEG-2 system stream. This means that it complies 100% with the MPEG-2 system level standard, ISO 13818-1. However, VOB files are a very strict ...Missing: IEC Forum
  10. [10]
    [PDF] An Introduction to DVD Formats - IC-Unicamp
    Oct 5, 2004 · 1995 Agreement on a single standard format called DVD. 1996. DVD-ROM and DVD-Video specifications version 1.0 published. Digital copy ...Missing: VOB | Show results with:VOB
  11. [11]
    History of DVD - Did you know?
    The world's first DVD player was the Toshiba SD-3000, launched in November 1996. The first DVD players and discs were made available in November 1996 in Japan.Missing: VOB | Show results with:VOB
  12. [12]
    ISO/IEC 13818-1:2022 - Information technology — Generic coding of ...
    This document specifies the system layer of the coding. It was developed principally to support the combination of the video and audio coding methods.
  13. [13]
    [PDF] DVD Read-Only Disk File System Specifications - Ecma International
    In this Technical Report, imposes some restrictions and additional requirements to OSTA UDF specification for its application to DVD Read-Only disks. These ...Missing: 1.0 | Show results with:1.0
  14. [14]
    [PDF] Universal Disk Format (UDF) specification – Part 1 (General)
    In 1997, a 3rd edition of ECMA-167 was published in conjunction with the ... Revision 1.02 (August 1996) is: - a basic UDF revision;. - used on DVD-Video disks.
  15. [15]
    DVD Structure - Doom9.net - The Definitive DVD Backup Resource
    Oct 9, 2003 · A VOB can contain one main video stream and several multiangle streams, allowing you to switch (as an example) the perspective during the movie.
  16. [16]
    What are the NTSC, PAL, and SECAM video format standards? - Sony
    Jun 4, 2025 · An NTSC picture is made up of 525 interlaced lines and is displayed at a rate of 29.97 frames per second. PAL is an abbreviation for Phase Alternate Line.Missing: VOB | Show results with:VOB
  17. [17]
    Maximums - MPUCoder
    Various maximum quantities in DVD-Video. Bitrates. Total, no angles, 10.08Mbps ... VobIDs per titleset (VTS), 32767. Titlesets per volume, 99. title files ...
  18. [18]
    [PDF] 120 mm DVD - Read-Only Disk - Ecma International
    Apr 25, 2001 · This Standard ECMA-267 specifies four Types of DVD - Read-Only disks with a nominal capacity from 4,7 Gbytes to. 17,0 Gbytes. Standard ECMA ...Missing: VOB | Show results with:VOB
  19. [19]
    DVD Demystified Glossary
    An audio-encoding standard for MPEG-2 that is not backward-compatible with MPEG-1 audio. AC - Alternating current. An electric current that regularly reverses ...
  20. [20]
    https://forum.doom9.org/archive/index.php/t-87961.html
  21. [21]
    DTS versus AC3 [Archive] - Audio encoding - Doom9's Forum
    Jul 7, 2005 · I know that DTS streams are generally encoded at a higher bitrate than AC3 streams (768-1536 Kbits/sec for DTS vs 192-448 Kbits/sec for AC3).
  22. [22]
    DVD-Video - Algemene Informatie - Disc Structure
    A DVD-Video disc is divided into Video Title Sets (or titles). As a minimum there will be one Video Manager (VMG) and one VTS. A disc containing a movie plus ...
  23. [23]
    x xml-control-file - dvdauthor
    The following limits are imposed by the DVD-Video spec. There can be no more than 99 titlesets, no more than 99 menus in the VMG or a titleset, and no more than ...
  24. [24]
    DVD capacity limits for all types of DVDs
    A DVD-5 is a single layer DVD that holds up to 4.7GB of data (around 120-133 minutes of video depending on compression). DVD-9 is a dual layer single sided DVD ...
  25. [25]
    A Reed-Solomon Product-Code (RS-PC) decoder for DVD ...
    To mitigate the errors introduced during manufacturing or by user damage, a Reed-Solomon Product-Code (RS-PC) is used in DVD for error correction.
  26. [26]
    IFO file
    Video Manager and Video Title Set IFO file headers · Version Number · Video Attributes · Audio Attributes · MultiChannel Extension - Karaoke mode · Subpicture ...Missing: PGC backup
  27. [27]
    DVD Technical Guide - Printer Friendly version - CdrInfo.com
    Aug 30, 2005 · The following Technical Guide is dedicated to the DVD format and its releated technologies. The guide was written from the R&D Department of Pioneer.
  28. [28]
    DVD Copy Control v. Bunner - Mon, 08/25/2003
    To provide this protection, two companies, Toshiba and Matsushita Electric Industrial Co., Ltd., developed the Content Scrambling System (CSS). “CSS is an
  29. [29]
    [PDF] Copy Protection for DVD Video - UCL Computer Science
    CSS is a low-cost method of scrambling MPEG-2 video, developed by Matsushita. Descrambling requires a pair of keys. One of the keys is unique to the disk ...
  30. [30]
    [PDF] SmartRight: A Copy Protection System for Digital Home Networks
    Jun 29, 2006 · MP, IT and CE industries participated in this forum and agreed in November 1996 on the first CP system called Content. Scrambling System (CSS).
  31. [31]
    CSS Demystified
    CSS is a relatively simple encryption technology: essentially, each disc is encrypted with a 40-bit key that is generated for each movie.Missing: history developers 1996
  32. [32]
    A look at content scrambling in DVDs - UCSD Math
    In 1996 the Content Scrambling System (CSS) was agreed upon. How CSS Works in DVD Copy Protection. First of all, how would someone copy a movie from DVD, and ...Missing: history | Show results with:history
  33. [33]
    What is CSS (in DVD Copy Protection)? - WinXDVD
    Dec 21, 2024 · Player Key: Used for decrypting a disc key on a DVD; each DVD player manufacturer is allocated one of approximately 400 player keys to ...
  34. [34]
    Hacker 'DVD Jon' Goes on Trial - WIRED
    Dec 8, 2002 · Proceedings begin Monday in the trial of Jon Lech Johansen who wrote a program that unlocked copy-protected DVDs ... Johansen's DeCSS ...
  35. [35]
    Teen Cleared in DVD Piracy Case - Los Angeles Times
    Jan 8, 2003 · Jon Lech Johansen developed the “DeCSS” program, which circumvents the Content Scrambling System on DVDs, when he was 15. He said he wanted ...
  36. [36]
    About DVD CCA
    Most Blu-ray players can play CSS encrypted DVD discs. There are more than 80,000 CSS encrypted DVD titles available. CSS, the content protection technology ...<|control11|><|separator|>
  37. [37]
    The CSS Decryption Algorithm
    Jul 9, 2000 · The player reads an encrypted disk key from the DVD, and uses its player key to decrypt the disk key. Then the player reads the encrypted title ...Missing: per disc<|control11|><|separator|>
  38. [38]
    [PDF] CRYPTOGRAPHY 2006 THE RISE AND FALL OF DVD ENCRYPTION
    Dec 15, 2006 · Disc Key: Each DVD has its own unique disc key, which is used to decrypt the title key(s) the same way as the player key was used to decrypt the ...
  39. [39]
    CSS (Content Scramble System) | Symmetric Cipher | Crypto-IT
    CSS (Content Scramble System). Stream cipher with symmetric secret key. Key length = 40 bits. CSS was presented by the DVD Forum organization in 1996, ...
  40. [40]
    libdvdcss - VideoLAN - VLC Media Player
    Missing: 2000 | Show results with:2000
  41. [41]
    libdvdcss - Wikidata
    0.0.1. publication date. 18 June 2001. 1 reference. reference URL · https://download.videolan.org/pub/libdvdcss/0.0.1/libdvdcss-0.0.1.tar.gz. 1.1.0. publication ...
  42. [42]
    DVD Decrypter - DVD ripping tool - Mini-Review - DonationCoder.com
    May 29, 2012 · This is the original and still great DVD decrypting program. It inputs a DVD and outputs a full and decrypted copy of the DVD to a folder on your hard drive.
  43. [43]
    17 U.S. Code § 1201 - Circumvention of copyright protection systems
    No person shall circumvent a technological measure that effectively controls access to a work protected under this title.Missing: CSS tools
  44. [44]
    Unintended Consequences: Fifteen Years under the DMCA
    The DMCA, however, prohibits the creation or distribution of these tools, even if they are needed to enable fair uses.
  45. [45]
    11 Best VOB File Players [Win & Mac] – Movavi Converter
    Oct 24, 2025 · VLC Media Player certainly ranks as one of the best ways to play VOB file format. This open-source cross-platform tool and basic video editor is ...
  46. [46]
    FFmpeg Formats Documentation
    This document describes the supported formats (muxers and demuxers) provided by the libavformat library.
  47. [47]
    HandBrake Documentation — Supported source formats
    ### Summary: HandBrake Support for VOB Files and Ripping to MPG or Other Formats
  48. [48]
    VobSub Subtitle File (SUB)
    ### Summary of VOBsub Format and Support in Media Players
  49. [49]
    Why the DVD Hack Was a Cinch - WIRED
    Nov 2, 1999 · DVD uses a security method called the Content Scrambling System. CSS is a form of data encryption used to discourage reading media files ...Missing: history 1996
  50. [50]
    VLC media player Version History - VideoHelp
    * 64bit version of VLC for Windows is recommended. * Linux support requires now a kernel newer than 2.6.26. * Mac OS X 10.6 support is now removed. You need OS ...
  51. [51]
    Press Releases-3 26 September, 1996 | News | Toshiba
    Sep 26, 1996 · 26 September, 1996. TOKYO -- Toshiba Corporation today announced its first DVD-Video player, the SD-3000. The company expects the player to ...
  52. [52]
    Flashback 1997: The First DVD Players Arrive | Sound & Vision
    Mar 30, 2017 · In April, Sony released its first commercial DVD player in the U.S., the model DVP-S7000. Sony's DVD plant in Terre Haute, Indiana, opened ...
  53. [53]
    [PDF] MPEG-2 Video Decoder: TMS320C62x (TM) DSP Implementation
    The MPEG-2 video decoder plays an important role in consumer electronics like DVD players, set-top boxes, and DSS units. Compared with the hardware.
  54. [54]
    [PDF] User's Guide - PlayStation
    The PlayStation®2 console plays disc content as recorded in the DVD software. If the DVD does not support the features listed, you will not be able to change ...<|separator|>
  55. [55]
    DVD Player - PS2 Developer wiki - PSDevWiki
    The PS2 has a DVD Player in its ROM (except SCPH-10000 and SCPH-15000 consoles, see Utility Disc), the PS2 is also capable of loading newer versions of the DVD ...
  56. [56]
    Can the original Xbox (not Xbox One) read data DVDs? - Arqade
    Nov 23, 2013 · For an Xbox to read DVD's it has to have a DVD Playback Kit. If you do not have this kit attached to your Xbox and insert a DVD, it will give you a message ...<|separator|>
  57. [57]
    Set top box decoders process MPEG-2 - and offload the CPU
    This sub-system consists of three main pieces: an MPEG-2 transport stream demultiplexer; an MPEG-2 video decoder; and an MPEG audio decoder.
  58. [58]
    Content Scramble System (CSS) - DVD CCA
    With the formation of DVD CCA, the interim CSS License was discontinued and superseded by the final CSS License.
  59. [59]
    DVD Replication with CSS Copy Protection by edocpublish.com
    The first four forms of copy protection (Macrovision, CGMS, CSS, and CPPM) are optional for the producer of a disc. CSS decryption is optional for hardware ...
  60. [60]
    Sources of DVD Region Information - Win32 apps - Microsoft Learn
    Jul 27, 2023 · There are two types of DVD-ROM drives: RPC Phase 1 (RPC1) drives and RPC Phase 2 (RPC2) drives. ... RPC2 drives maintain the region change ...
  61. [61]
    Blu-ray FAQ
    The Blu-ray Disc Association (BDA) expects every Blu-ray Disc device to be backward compatible with DVDs. 2.3. Why should I upgrade from DVD to Blu-ray? The ...
  62. [62]
    Multi-Angle DVDs... and Blu-Ray? - VideoHelp Forum
    Oct 9, 2010 · The biggest draw-back for multi-angle use in DVDs is the low bitrate for each angle, as the bitrate of all angles combined must stay below the DVD maximum ...whatever happened to multi angle?Decrypting Multi-Angle VOBMore results from forum.videohelp.comMissing: VOB evolution seamless
  63. [63]
    https://www.dvdnextcopy.com/how-to-digitize-dvds
  64. [64]
    DVD Format/Logo Licensing Program will be terminated at the end ...
    Apr 1, 2024 · The phrasing > Currently we are preparing the scheme that enables any manufacturer to manufacture DVD Products without "License" on and after ...
  65. [65]
    MakeMKV - Make MKV from Blu-ray and DVD
    MakeMKV is your one-click solution to convert video that you own into free and patents-unencumbered format that can be played everywhere.Forum · About MKV · General MakeMKV discussion · Online Help
  66. [66]
    How to Digitize DVD Collection: Best and Free Ways in 2025
    Jun 17, 2025 · This blog on how to upload a DVD to YouTube guides you through the steps to convert DVDs into a format that YouTube accepts.Missing: 2020s trends
  67. [67]
    The death of DVDs and the decline of ownership in digital age
    Aug 1, 2023 · Disney has signalled the death knell for physical media by announcing it will no longer be releasing theatrical content on DVDs in Australia.
  68. [68]
    A Millennial's DVD Collection: I'm Returning to Physical Discs - NN/G
    Sep 12, 2025 · Summary: Frustrating streaming apps and smart TV design pushed at least one user (me) back to physical discs for reliability, ownership, ...Missing: 2020s | Show results with:2020s
  69. [69]
    Single VOB file to MKV? - www.makemkv.com
    MakeMKV is a format converter, otherwise called transcoder. It converts the video clips from proprietary (and usually encrypted) disc into a set of MKV files.
  70. [70]
    Converting ISO, Video_TS, and Other Disk Image Formats
    Apr 8, 2024 · Plex does not support the use of ISO, IMG, Video_TS, BDMV, or other “disk image” formats. If you wish to use those with Plex, you should convert them to a ...
  71. [71]
    Emby server is .vob file times incorrectly - General/Windows
    Sep 7, 2019 · Ok, please be advised that our support for these is only experimental. We do our best to to look at the .vob files and try to determine which ...
  72. [72]
    Plex VOB Support - Stream and Play VOB on Plex Media Server
    Mar 15, 2023 · If you want to play .vob files with Plex, you should convert VOB format to a format compatible with Plex, such as MP4, AVI, MOV, etc. MP4 format is recommended.
  73. [73]
    How To Handle .vob Files? - General/Windows - Emby Community
    Dec 23, 2013 · I'm curious if I need to change the file structure, if this is a known issue, if .vobs are not supported, or if I am encountering something ...EMBY & PLEX co-existence?Emby server is .vob file times incorrectly - General/WindowsMore results from emby.mediaMissing: Plex legacy
  74. [74]
    End of an Era: The Decline of DVDs and Blu-rays in the Age of ...
    Aug 26, 2025 · Explore the decline of DVDs and Blu-rays in the age of streaming. Discover how digital trends are reshaping home entertainment.
  75. [75]
    Exemption to Prohibition on Circumvention of Copyright Protection ...
    Oct 28, 2015 · Congress enacted the DMCA in 1998 to implement certain provisions of the WIPO Copyright and WIPO Performances and Phonograms Treaties. Among ...
  76. [76]
    Victory for Users: Librarian of Congress Renews and Expands ...
    Oct 27, 2015 · The exemptions we requested—ripping DVDs and Blurays for making fair use remixes and analysis; preserving video games and running multiplayer ...
  77. [77]
    DVD-VR application format notes
    Feb 20, 2007 · The IFO is an information file describing the layout of the VRO file which is equivalent to a collection of DVD-Video VOB files. If one doesn't ...
  78. [78]
    HD-DVD Technical Introduction | PDF
    The document introduces the HD DVD format which provides high definition video and audio on optical discs. HD DVD uses a blue-violet laser and advanced ...
  79. [79]
    Standards: Part 21 - The MPEG, AES & Other Containers
    Nov 15, 2024 · VOB, DVD Forum, Yes, Video Object containers are used for DVD disks. EVO, DVD Forum, Yes, Enhanced VOB containers are used for HD DVD disks.
  80. [80]
    The Definitive HD DVD / BD Bitrates Thread - AVS Forum
    Mar 21, 2006 · The maximum AV bitrate for Blu-ray is 48 Mbps while for HD-DVD it is 29.4 Mbps, which is also its maximum video bit rate. Thanks Richard. That ...SPECIFICATIONS [ONLY] for Blu-ray Disc and HD DVD... - AVS ForumHD DVD average and peak bitrates? | AVS ForumMore results from www.avsforum.com
  81. [81]
    Timeline: HD DVD vs. Blu-ray Disc - InfoWorld
    Toshiba and NEC propose to the DVD Forum the next-generation optical disc format that will become HD DVD. Oct. 1 — Prototypes of ...<|control11|><|separator|>
  82. [82]
    It's official: Toshiba announces HD DVD surrender - CNET
    Feb 19, 2008 · The two-year war between HD DVD and Blu-ray officially ended Tuesday morning as Toshiba waved the white flag and declared it would stop ...
  83. [83]
    Toshiba Officially Announces Discontinuation of HD DVD Businesses
    Feb 19, 2008 · Toshiba will begin to reduce shipments of HD DVD players and recorders to retail channels, aiming for cessation of these businesses by the end ...<|separator|>
  84. [84]
    MPEG-2 Program Stream - Library of Congress
    Jun 18, 2025 · According to ISO/IEC 13818-1, MPEG-2 Program Stream (MPEG-2 PS or PS) is one of the two (the other being MPEG-2 Transport Stream (MPEG-2 TS)) ...Missing: VOB navigation NV_PCK
  85. [85]
    Overview of MPEG-2 Systems - Win32 apps | Microsoft Learn
    Jul 27, 2023 · The MPEG-2 standard defines two ways to deliver packetized elementary streams: program streams and transport streams. ... ISO/IEC 13818-1 defines ...
  86. [86]
    [PDF] Preserving Write-Once DVDs Producing Disc Images, Extracting ...
    contains the video information from all the VOB files in the VIDEO_TS folder. ... VOBs, as each VOB is limited to 1GB according to the DVD-Video specification.
  87. [87]
    A Guide to VOB Files - Adobe
    and formatted in — the MPEG-2 compression format. This allows video and audio data to be compressed, with ...
  88. [88]
    ISO/IEC 13818-1:2023(en), Information technology
    Both stream types support multiplexing of video and audio compressed streams from one program with a common time base. The transport stream additionally ...