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File how2ftp (.txt & .wp) is in directory /pub/Bureaus/Miscellaneous/Public_Notices/ ***************************************************************** ******** $// FNPRM, Advanced Television Systems, MM Dkt. 87-268, FCC 96-207 //$ $/ 74.682 TV transmission standards /$ $/ FOR FCC RECORD ONLY /$ FCC 96-207 Before the FEDERAL COMMUNICATIONS COMMISSION Washington, DC 20554 In the Matter of ) ) Advanced Television Systems ) and Their Impact Upon the ) MM Docket No. 87-268 Existing Television Broadcast ) Service ) FIFTH FURTHER NOTICE OF PROPOSED RULE MAKING Adopted: May 9, 1996; Released: May 20, 1996 Comment Date: July 11, 1996 Reply Comment Date: August 12, 1996 By the Commission: Chairman Hundt and Commissioners Quello, Ness and Chong issuing separate statements. TABLE OF CONTENTS Topic Paragraph I. Introduction 1 II. Background 2 III. The ATSC DTV Standard 8 IV. Adopting the ATSC DTV Standard 21 V. Protection from Interference 55 VI. Interoperability 60 VII. Other Issues 65 VIII. Conclusion 71 Administrative Matters 72 Ordering Clause 74 I. Introduction. 1. In this proceeding we consider adoption of a digital television ("DTV") broadcast standard. This action has been recommended to the Commission by its Advisory Committee on Advanced Television Service ("Advisory Committee" or "ACATS"). We have the following objectives with regard to the authorization and implementation of a DTV standard. We seek to ensure that all affected parties have sufficient confidence and certainty in order to promote the smooth introduction of a free and universally available digital broadcast television service. We seek to increase the availability of new products and services to consumers through the introduction of digital broadcasting. We seek to ensure that our rules encourage technological innovation and competition. And we seek to minimize regulation and assure that any regulations we do adopt remain in effect no longer than necessary. II. Background. 2. On February 13, 1987, 58 broadcast organizations ("Petitioners") filed a joint "Petition for Notice of Inquiry" asking the Commission to initiate a proceeding to explore issues arising from the advent of new and advanced television ("ATV") technologies and their possible impact, in either broadcast or non-broadcast uses, on existing television broadcast service. On July 16, 1987, as a result of the comments it received in response to the petition, the Commission inaugurated the instant proceeding, "to consider the technical and public policy issues surrounding the use of advanced television technologies by television broadcast licensees." 3. The Commission empaneled the Advisory Committee on Advanced Television Service (ACATS) shortly after having opened the inquiry phase of this proceeding. Its charter specified, inter alia, that it would recommend "policies, standards and regulations that would facilitate the orderly and timely introduction of advanced television services in the United States." As embodied in the proposed Standard, its work represents 8 years of effort by industry members who designed and developed the digital system. By some estimates, according to ACATS, over one thousand individuals contributed to the work of the Advisory Committee and its subcommittees, working parties, and panels. Among other activities, ACATS designed the detailed testing plans for the system and conducted substantial related studies. 4. The experts assembled by ACATS determined that a "paper" standard would not be sufficient to ensure that a system would work over-the-air as predicted, and therefore decided that candidate systems would have to be reduced to prototype hardware and tested both in laboratories and in actual field tests. To accomplish the testing function, in 1988 the Advanced Television Test Center (ATTC) was established as a private, non-profit organization funded by broadcasting and electronic industry companies. Co-located with the ATTC was the ATV facility of the Cable Laboratories (CableLabs), a consortium of cable television system operators that carried out the cable portions of ACATS' lab and field testing program. 5. In February, 1993, the Advisory Committee reported to the Commission that a digital High Definition Television ("HDTV") system was achievable but that the four competing systems it had tested would each benefit from further development and that none of the systems could, at that time, be recommended over the others. On May 24, 1993 the three groups that had developed the four final DTV systems agreed to produce a single, best- of-the-best system to propose as the standard. The three ventures that joined to become the "Grand Alliance" consisted of AT&T and Zenith Electronics Corporation; General Instrument Corporation and Massachusetts Institute of Technology; and Philips Electronics North America Corporation, Thomson Consumer Electronics, and the David Sarnoff Research Center. The standard recommended by ACATS and now before us is based on the system developed, built, and proposed by the Digital HDTV Grand Alliance proposal to ACATS. 6. The members and staff of ATSC considered which elements of the Grand Alliance broadcast system might require action by the Commission and which portions should be voluntary. The ATSC DTV Standard was then drafted by specialist groups divided into five specific areas: video, audio, transport, RF/transmission, and receiver characteristics. A steering committee was established to coordinate the efforts, consisting of the chairs of the five specialist groups, the committee chair and vice-chair, and liaison individuals from the Grand Alliance, ATSC, ACATS, and two FCC senior staff persons. 7. The system described by the ATSC DTV Standard having been successfully designed, built and tested, in November 1995, the Advisory Committee voted to recommend the Commission's adoption of the ATSC DTV Standard. We believe that the ATSC DTV Standard embodies the world's best digital television technology and promises to permit striking improvements to today's television pictures and sound; to permit the provision of additional services and programs; to permit integration of future substantial improvements while maintaining compatibility with initial receivers; and to permit interoperability with computers and other digital equipment associated with the national information initiative. It was developed and tested with the unparalleled cooperation of industry experts and consists of several discrete layers, described more fully in the following section. III. The ATSC DTV Standard. 8. The description of the ATSC DTV Standard consists of a cover document and five annexes, each of which describes the characteristics of a part of the complete system. The five components described in the annexes to the ATSC DTV Standard are video coding, audio coding, transport, RF/transmission and receiver. These five basic components, plus a video format selection function, are sometimes referred to as comprising "layers" of the system. The system's flexibility is evident in several ways. Compliance with the ATSC DTV Standard requires some of its provisions be followed, but many of these provisions include numerous acceptable options (for example, see the "format selection" discussion below) that the system's users may select. In addition to the required provisions, some additional provisions of the ATSC DTV Standard are recommended but not required, and others are optional. Finally, although it describes the coding and transmission of television video and audio, it also allows transmission of a variety of other services as "ancillary data." As more fully discussed below, this structure makes the system described by the ATSC DTV Standard extremely flexible and gives it room to incorporate a wide range of future improvements. 9. Format selection: The ATSC DTV Standard supports a variety of scanning formats. Table I shows the number of scanning lines and horizontal picture elements (or pixels) per line, which affect resolution. For reference, our rules for NTSC television broadcasting specify 483 active video lines per frame, with 42 lines in vertical blanking intervals with no video information, for a total of 525 lines. The 720-line and 1080-line formats below represent high resolution video and might be used for motion pictures, other programs captured on film, programs shot with HDTV cameras including sporting events and concerts, and animation and graphics that might be computer-generated. The lower-resolution 480-line formats accommodate existing NTSC programming and equipment as well as material designed for viewing on VGA computer monitors. Table I Vertical Lines Horizontal Pixels Aspect Ratio Picture Rate 1080 1920 16:9 60I 30P 24P 720 1280 16:9 60P 30P 24P 480 704 16:9 4:3 60I 60P 30P 24P 480 640 4:3 60I 60P 30P 24P 10. Table I also indicates that the high-resolution formats both use a picture aspect ratio of 16 units horizontally by 9 units vertically (that is, a picture 16 inches wide would be 9 inches tall or one 32 inches wide would be 18 inches tall). The choices of 1280 pixels per line for the 720-line format and 1920 pixels per line for the 1080-line format result in square pixels (that is, pixels which are displayed at equal distances, both horizontally and vertically) for both formats, based on the 16:9 aspect ratio. The 16:9 aspect ratio is noticeably wider than the current NTSC television 4:3 aspect ratio. Material in the 480-line by 704-pixel format could use either a 16:9 or a 4:3 aspect ratio. 11. The picture rates specified in Table I identify the number of images that are sent each second, with an "I" designating interlaced scanning and a "P" designating progressive scanning. Progressive scanning lines are presented in succession from the top of the picture to the bottom, with a complete image sent in each frame as is commonly found in computer displays today. For interlaced scanning, which also is used in NTSC television, odd and even numbered lines of the picture are sent consecutively, as two separate fields. These two fields are superimposed to create one frame, or complete picture, at the receiver. The picture rates can be 24, 30 or 60 fields per second. 12. Accounting for the different aspect ratios and picture rates identified in Table I, there are 18 video scanning formats allowed by the ATSC DTV Standard. An attractive feature of the ATSC DTV Standard is that the appropriate format would be chosen by the broadcaster based upon the specific application for which it is to be used (e.g., airing films, live sports events or reruns of television series). Similarly, the DTV broadcaster would be able to pass through program material it receives from an outside source in any of these formats. The identified scanning formats are those used within the DTV system and most of them relate to existing television production standards. However, material in any other format can be converted into one of the allowed scanning formats. Thus, development of additional video production formats can take place recognizing the scanning formats of the ATSC DTV Standard, but not constrained by them. Similarly, when considering the receiver, most display devices are expected to have a "native" scanning format (which may be one of these system scanning formats) to which the received video signal would be converted. 13. Video coding: For compression of video signals, the ATSC DTV Standard requires conformance with the main profile syntax of the MPEG-2 video standard. Employing this standard, the amount of data needed to represent television pictures is reduced using a variety of tools, including a motion compensated discrete cosine transform (DCT) algorithm and bidirectional-frame (B-frame) prediction. DCT alters the data describing each picture in a way that makes it easier to isolate repetitive portions of a single image. Motion compensation identifies portions of an image that have shifted position from one field to the next, or from one frame to the next. B-frame prediction uses both past and expected future frames as a reference. Each of these tools serves to improve compression efficiency by reducing the total amount of digital information that needs to be transmitted. 14. Audio coding: For compression of audio signals, the ATSC DTV Standard requires conformance with ATSC Doc. A/52, the Digital Audio Compression (AC-3) Standard. The AC-3 perceptual coding system, which was developed by Dolby Labs, can encode a complete main audio service which includes left, center, right, left surround, right surround, and low frequency enhancement channels into a bit stream at a rate of 384 kilobits per second (kbps). Audio service can also include fewer channels (down to single channel, monophonic service) using a lower bit rate. Multiple audio bit-streams may be delivered simultaneously for multiple languages or for services for the visually or hearing impaired. The system also contains features that could allow viewers to control fluctuations in audio level between programs or to select the full dynamic range of the original audio program. 15. Transport: The service multiplex and transport layer of the ATSC DTV Standard is a compatible subset of the MPEG-2 systems standard that describes a means of delivering a digital data stream in fixed-length "packets" of information. Each packet contains only one type of data: video, audio or ancillary. There is no fixed mix of packet types, which further helps provide flexibility. Channel capacity can be dynamically allocated in the transport layer, under the direct control of the broadcaster. The ATSC DTV Standard has been optimized for terrestrial digital television delivery, where channel bandwidth is limited and transmission errors and data loss are likely. Within the transport layer, the packets of video, audio, closed captioning and any other data associated with a single digital television program are combined using a mechanism to ensure that the sound, pictures and closed captioning information can be synchronized at the receiver. Data describing multiple television programs, or unrelated data for other purposes, are also combined in the transport layer. 16. RF/Transmission: The transmission layer of the ATSC DTV Standard uses a vestigial sideband (VSB) technique. Like most other digital modulation methods (including quadrature amplitude modulation, or QAM), the VSB technique involves randomizing the incoming data to spread the energy across the occupied bandwidth or channel. As a result, the digital signals generally appear to be random noise which tends to minimize their interference effect on other services (in this case, particularly NTSC). In the ATSC DTV Standard VSB system, a small pilot carrier is added at the suppressed carrier frequency. The VSB pilot is placed so that it minimizes co-channel interference into the existing NTSC service. The relationship of the pilot carrier frequency to interference to lower adjacent channel NTSC service is discussed in the "interference" section below. The pilot can allow a receiver to acquire and lock onto the VSB signal by providing a known and stable reference. 17. Terrestrial broadcasts of DTV will be exposed to situations that include strong interfering signals, electromagnetic noise from numerous sources, and configurations of buildings or terrain features that cause multipath interference. For successful reception under these difficult conditions, an 8-level VSB signal is specified and extensive error correction is provided. Taking into account the transport requirements and error correction, the 8-VSB signal carries an effective useful payload of approximately 19.28 megabits per second (Mbps). For more benign environments, like that provided in a cable system, the ATSC DTV Standard includes a 16-level VSB high data rate mode that provides double the capacity of the 8-level VSB terrestrial broadcast mode. 18. Receiver: The ATSC DTV Standard does not specify requirements for a compliant receiver. In essence, the DTV receiver designs are to be based on the specifications of the signal contained in the other portions of the Standard. The receiver reverses the functions of the RF/transmission and transport layers, and, after decompression, generates video and audio suitable for its display. 19. Flexibility. The ATSC DTV Standard provides a method of accommodating a broad range of uses. The packetized transport structure is a critical component in achieving this broad level of flexibility. Each packet of data contains a packet identifier (PID) in the packet header which identifies the particular packet's payload. Some PIDs are specified in the ATSC DTV Standard as reserved for the video, audio and data associated with television programs. DTV receivers recognize these PIDs and use the data in these packets. Within a single DTV broadcast or transmission, up to 256 unique programs (not all necessarily video) can be identified. Scrambled packets can be sent, which allows conditional access subscription or pay-per-view services to be delivered. As long as the reserved PIDs are not used, the packets of data associated with future, currently undefined applications, would be ignored by the initial generation of DTV receivers. Packets that conform to the ATSC DTV Standard but not used to transmit DTV programs, can be employed for any other services that can be distributed by digital data. The use of these packets should be coordinated within the affected industries, so that conflicting uses do not develop. They can be received by a special-purpose decoder or, if specific services become popular, voluntary industry standards may be adopted and decoders may be built into some or all DTV receivers. 20. Extensibility. In the future, new services may be uniquely identified through the use of new PIDs that would be ignored by previously deployed digital receivers. Such data could be used to augment DTV programs in some fashion (such as allowing migration to a 1080-line progressive scan format) or could permit new services that have not yet been envisioned. Either extension of the DTV service would require new DTV receivers or new decoder devices to be developed and used in order to obtain the benefits of the new service or functionality, but would not disrupt provision of DTV service to consumers using existing sets. The marketplace would determine the extent to which sets with new functionalities are available. IV. Adopting the ATSC DTV Standard. 21. Having described the components of the ATSC DTV Standard, we next turn to a discussion of our approach to standards in the context of digital television. There is near universal agreement that transmission standards, either de facto or de jure, confer many benefits. We believe that the proposals discussed herein would enable consumers, licensees and equipment manufacturers to realize the benefits of standards without unduly restricting innovation and competition. 22. Previous Statements. Previously, we have asked whether mandatory transmission standards serve the public interest. In our initial 1987 Notice of Inquiry in this proceeding, we noted that NTSC standards were established during the television industry's infancy when universal compatibility standards were arguably necessary in order to develop a national television broadcasting system in a timely manner. A standard, we stated, would assure that "[a] receiver manufacturer could design his product to display an image from the standard NTSC signal with the knowledge that his receiver would function with any television broadcast transmitter." However, we also stated that the continuation of mandatory standards may no longer be necessary and may even be counterproductive. We indicated that it appeared that there would be no adverse effects on the delivery of broadcast television if the NTSC standard were made voluntary, allowing for the accommodation of enhancements to television signals. With regard to the desirability of encouraging compatibility among the several advanced television transmission systems that were then in various stages of planning or development, we stated that, although there might be "substantial benefits to consumers if ATV compatibility standards are adopted, either through formal Commission action or through voluntary standards organizations," we also noted the benefits "that could come about through improvements in technology made subsequent to the establishment of standards, and we do not wish to foreclose these possibilities." In the First Inquiry, we listed three different ways of achieving compatibility while not precluding the introduction of future technological improvements. We stated that we could: 1) adopt, as voluntary guidelines, the results of an industry consensus; 2) establish detailed compatibility criteria that would be applicable only for a short period of time; or 3) if the systems prove adaptable to this approach, protect a key frequency component of the modulated baseband in much the same way we did for multi-channel television sound. 23. In the 1988 Second Inquiry, we continued our examination of whether the NTSC standard should be relaxed or repealed, how standards should be established for advanced television, and whether it would be desirable to require compatibility between advanced television broadcast transmissions and other ATV distribution media. We also stated that, although it was then premature to adopt an advanced television standard, "we believe that the public interest compels a Commission role in the development of standards with the advice and involvement of all sectors of the industry." In this regard, we asserted that establishing a standard has certain advantages such as pointing the various interested parties in the same direction, reducing the risk to both audiences and broadcasters of investments in systems that might become obsolete if a different system is introduced in the market, and overcoming reluctance to invest in new equipment. 24. We also stated that, "detailed, inflexible standards that have the force of law may reduce consumer choice and prevent the timely introduction of new technology." To encourage future improvement of ATV systems and the development of newer and technically superior ATV systems, we stated that we could: (1) protect a standard by prohibiting interference to systems using that standard; (2) adopt a standard for allocation and assignment purposes only; or (3) adopt a sunset provision making adherence to the standard optional after an established period. 25. In response to our previous request for comments on adopting an ATV standard we received some 50 comments, 23 reply comments and two supplemental reply comments. Most commenting parties supported the adoption of a single, mandatory terrestrial broadcast advanced television standard. They generally believed that such action would result in the most rapid development and acceptance of advanced television equipment, particularly in the consumer marketplace, by promoting cost-effective receiver designs, thereby providing the largest audience for initial broadcasts of advanced television programming. Some commenters, however, including the Federal Trade Commission and GTE, questioned whether it is in the public interest to adopt a single mandatory standard, as doing so, they believed, could have the result of denying users better technology and services or running the risk of selection of the wrong standard. As to the issue of whether the Commission should adopt a complete standard, as opposed to adopting a standard for limited purposes such as protection from interference or for channel allocation and assignment, commenting parties favored the adoption of a complete standard. Finally, parties addressing the issue of adoption of a standard for a limited duration were uniformly in opposition. They argued that a "flexible" standard that can accommodate future technological improvements would be more appropriate. Equipment manufacturers opposed a standard of limited duration because, they stated, it would leave the future unpredictable and would send a strong signal that broadcast and receiving equipment designed to that standard would become obsolete. Not withstanding these comments, we believe that recent developments warrant revisiting these issues. 26. Subsequent to our statements concerning standards in the 1987 and 1988 decisions, as described above, we concluded in 1990 that "[c]onsistent with our goal of ensuring excellence in ATV service, we intend to select a simulcast high definition television system." We also stated that, "parties filing comments in response to the Further Notice generally assume that the Commission will ultimately authorize a system using new technology that will provide HDTV service." (Footnote omitted.) The Commission's November 14, 1990 Memorandum of Understanding with the Advisory Committee, the Advanced Television Test Center, Inc., Cable Television Laboratories, Inc., and the Canadian Communications Research Centre, said, "[t]he FCC's stated intention is to select an ATV standard by the second quarter of 1993." 27. Recent Developments. Two developments since the Commission addressed these issues are relevant to whether and, if so, what form of a required standard is desirable. First, the presence of a single consensus standard, in contrast to the multiple competing systems vying for approval in 1990, arguably changes the balance of considerations. The presence of multiple competing systems strengthened the argument for selecting a standard. Today, only one system has been recommended by our Advisory Committee and no other competing technology appears to demonstrate superiority over the ATSC DTV Standard. Thus, to the extent that concerns with the possibility of multiple competing systems were decisive in our earlier decisions, they may be less relevant today. 28. Second, the capabilities of digital transmission technologies represent a major change in circumstances since this proceeding began. The original focus of this proceeding was the initiation of "advanced television service" to provide improved video and audio quality. Prior to the development of the ATSC DTV Standard, it was widely believed that the service offered by a licensee would change from one NTSC program stream to one HDTV program stream. Today's digital technologies and improved compression techniques create the opportunity for delivering one, and under special circumstances perhaps two, HDTV program streams, or multiple program streams at lower resolution. Furthermore, digital technologies give each licensee the technical capacity to explore new business opportunities and provide new services. If some licensees believe that they can compete better by offering a unique set of services to consumers, the differences between one licensee and another may be much greater than exists today where each and every licensee offers one NTSC program stream. The opportunity for each licensee to offer a unique set of services is something that seemed only a distant possibility when we began this proceeding, now the ATSC DTV Standard makes it a reality. If the ATSC DTV Standard is as dynamic as believed, a required standard will not thwart technical advance. Nevertheless, the inherently unforeseeable nature of innovation makes it impossible to predict the extent to which a required standard might affect future technological advances. 29. The Role of the Commission in Setting Standards. While there is near universal agreement on the benefits of standards, we solicit comment specifically on whether requiring the use of the ATSC DTV Standard by digital television licensees is the best approach for realizing these benefits. Critics of compulsory standards cite the cost of potentially freezing the state of the art, erecting barriers to technological innovation, and limiting competition in the television equipment manufacturing business. However, in some situations the benefits of standards may not be fully realized in the absence of a requirement. We seek a complete record that will allow us to choose a course that accomplishes our goals of providing consumer benefits, certainty and a smooth introduction of digital television while encouraging innovation and promoting competition. 30. The Commission has been involved in the development of standards throughout this proceeding. We decided that DTV would be offered on frequencies currently allocated to television broadcasting and the DTV signal would be carried on a 6 MHz channel. We continue to support these conclusions. While these actions guided the development of DTV systems, establishing an Advisory Committee may have been our most important action. Besen and Johnson assert that the most constructive role a government agency can play in the standard-setting process is to ratify standards agreed upon through private action when differences among alternatives are small. The government role in this case up to this point has been primarily to provide a rallying point for purposes of coordination. We believe that the Commission's Advisory Committee has successfully fulfilled this role. Throughout this proceeding, the Advisory Committee has served as a catalyst for focusing and coordinating the efforts of private industry. In addition, the Advisory Committee has provided a forum for addressing and responding to the concerns of a wide array of interests. 31. Analysis of Required Standards. The traditional rationale for requiring a standard arises when two conditions are met. First, that there is a substantial public benefit from a standard. Second, private industry either will not, or cannot, produce a standard because the private costs of getting involved in standard setting outweigh the private benefits, or a number of different standards have been developed and private industry cannot agree which should become the standard. The second condition may not be applicable in view of the strong industry coalescence around the ATSC DTV Standard. However, we believe that the first condition applies to DTV. Television today is a ubiquitous service that is available to almost every American household and is relied on by a majority of Americans as their primary news and information source. 32. A required standard may provide additional certainty to consumers, licensees, and equipment manufacturers, especially during the launch of this new technology. A required standard may protect consumers against losses by assuring them that their investments in DTV equipment will not be made obsolete by a different technology. In addition, requiring use of a single standard guarantees compatibility. This assures consumers that the DTV equipment they purchase to view one television station can be used to view every other television station. The compatibility guaranteed by a single required standard may also reduce consumer costs by eliminating the need to purchase duplicative equipment or special devices to convert from one standard to another. Finally, a required standard may lead to a more rapid development and acceptance of DTV equipment. Absent a required standard, some consumers and licensees may be reluctant to purchase DTV equipment if they believe that different DTV technologies may become available in the near future. A required standard may reduce such "wait and see" behavior. 33. Although there are benefits to required standards, there also may be certain costs. One may be deterrence of technical innovations. Digital broadcasting technology is in its infancy and further advances are likely to occur. An unexpected turning point in the approach to advanced television has occurred once in the development process with the demonstration of the viability of an all-digital system. Recognizing the novelty and fluidity of the technology, we must determine how any specific approach to standards might impede further advances. 34. Over time, we expect that normal technological progress will lead to improvements. If subsequent technological improvements cannot be readily incorporated into the ATSC DTV Standard, the Standard could lock the broadcast market into less than optimal technology. The NTSC standard adopted in 1941 was subsequently improved in 1953 with the approval of the NTSC color standard. While picture quality has steadily improved, nevertheless the ACATS Report states "[o]nly a few minor improvements (most notably, the addition of stereo audio in 1986) have been made in the ensuing four decades." 35. Required standards also may reduce some forms of competition while enhancing others. With required standards, equipment manufacturers cannot compete by offering differentiated products using different technologies. Required standards preclude this form of competition. As such, a primary cost of required standards is loss of variety. On the other hand, required standards, which are licensed to everyone on a non-discriminatory basis, may intensify the more conventional forms of competition, such as price, service, and product features. 36. As we weigh the benefits and costs of required standards, we note that for MMDS and new services like PCS, DBS, and DARS, we have decided to allow the marketplace to determine transmission standards. In the infancy of cellular telephony we mandated transmission standards for analog devices. But when the cellular telephony industry became more mature, we declined to mandate transmission standards for advanced digital cellular telephony devices. We recognize that these decisions were made in a context different from that of terrestrial broadcast television. Unlike the case with PCS, DBS, and DARS, broadcast television is an established industry upon which the American people rely for both information and entertainment. Additionally, unlike these other services, free over- the-air broadcast television is a mass market media serving nearly all of the American public nationwide rather than a subscription service in which the service provider may supply the reception equipment. In this context, the goals of certainty and reliability take on a different significance than may have been present with respect to other communications services and strengthens the case for our adoption of a DTV standard. We invite commenters to discuss how the rationale that in the past led us to require television broadcast transmission standards applies as we launch DTV. Are there other unique characteristics (such as the ubiquitous nature of TV and the reliance Americans place on it as an information source), or public policy goals (such as the swift transition to regain spectrum and reduce costs) which distinguish television broadcasting such that mandating a standard is essential to the provision of the service? 37. Proposal. We propose to adopt the ATSC DTV Standard. Specifically, we propose to require the use by digital television licensees of each element of the ATSC DTV Standard. The ATSC DTV Standard describes a remarkably capable and flexible system, one that exceeds the Commission's expectations when it began this proceeding in 1987, and that appears to have widespread support. We tentatively conclude that requiring the use of the ATSC DTV Standard is appropriate because it would provide a measure of certainty and confidence to manufacturers, broadcasters and consumers, thus helping assure a smooth implementation of digital broadcast television and the preservation of a free and universally available broadcast television service. 38. The digital television system that has been recommended by the Advisory Committee appears to be dynamic, flexible and high quality. It provides a variety of picture formats that will allow broadcasters to select the one most appropriate for their program material, ranging from very high resolution providing the best possible picture quality to multiple programs of lower resolution, which could result in increased choices for viewers. Even at the lower resolutions, the recommended system represents a clear improvement over the current NTSC standard. 39. Use of the ATSC DTV Standard also represents a rare opportunity to increase significantly the efficient use of broadcast spectrum. The ATSC DTV Standard will allow channels unusable in the NTSC analog environment to be assigned for digital broadcasting between existing NTSC channels. It was designed to be flexible enough to incorporate future improvements, including those resulting in ever higher resolution, that the Advisory Committee believes will be made possible by future advances in compression and display technology. 40. We believe that the "headroom" for innovation incorporated in the ATSC DTV Standard, along with the desirability of providing certainty and confidence, argue in favor of a required standard. In addition, the flexibility of the ATSC DTV Standard significantly reduces some of the potential detriments associated with a required standard as the new technology is being launched. The packetized structure of the data transport, as described above, ensures a flexibility that will permit the DTV licensee to provide, for instance, several standard definition programs, or one high-definition program, or some standard definition programming together with data transfer or electronic publishing on the remaining bit streams, and to switch instantaneously between such applications. Other applications are limited primarily by the imagination of the DTV licensee. This means that a wide array of innovations can be introduced without Commission action. 41. We seek comment on the tentative conclusion that we will require use of the ATSC DTV Standard. Assuming that we do require the use of the ATSC DTV Standard by digital television licensees, we request comment on whether we should place the Standard into our rules in its entirety or whether we should incorporate it by reference. 42. While we propose to require digital television licensees to use the ATSC DTV Standard, we recognize that the benefits of a required standard may become attenuated over time, as the costs of a requirement may increase. At some point, when the new digital broadcasting technology has become firmly established, requirements designed to promote certainty and to foster a smooth implementation of digital television may no longer be necessary. Meanwhile, over time, the likelihood increases that there will be technological innovation that even the flexible ATSC DTV Standard may not be able to accommodate. In addition, given the pace of technological change, it is likely that there will be unforeseeable innovations that are incompatible with the ATSC DTV Standard. As long as there is a requirement in our rules that DTV licensees use only the ATSC DTV Standard, such innovations could not be introduced to consumers without a potentially costly and time- consuming Commission proceeding. That, in turn, could reduce the incentive to conduct the research and development that leads to innovation. 43. In addition to ensuring that the Commission's rules promote the rapid introduction of digital television broadcasting, we seek in this proceeding to adopt rules that encourage further innovation by those who have devised the ATSC DTV Standard as well as new entrants. We also seek to minimize our regulations and to have the regulations that we do adopt remain in effect no longer than necessary. We are mindful, finally, of the spirit of the recently adopted Telecommunications Act of 1996, which seeks, "[t]o promote competition and reduce regulation in order to secure lower prices and higher quality services for American telecommunications consumers and encourage the rapid deployment of new telecommunications technologies." 44. There are several options that arguably could accomplish these goals and we propose to adopt one, or more than one in combination. The Commission could proceed under its current processes for regulatory evolution and change, which include consideration, as appropriate, of requests from parties to amend its rules and reviews initiated by the agency. Such requests often follow substantial changes in technologies or services when the Commission, industry or other members of the public believe change is warranted. 45. Alternatively, the Commission could commit itself to conduct a proceeding to review the Standard at some future time. If the Commission chooses this option, should a review be structured to place the burden of persuasion on those seeking to continue requiring a standard or on those seeking to eliminate the requirement? When should such a review take place? Should we select a specific date or should we link the review to an objective event? 46. Finally, the Commission could establish a period of time after which the ATSC DTV Standard no longer would be required or exclusive. At the conclusion of some meaningful period of time, digital licensees would be free to use any technology that does not interfere with users of the ATSC DTV Standard. If such a sunset provision were to be adopted, how should we determine when the mandatory aspects of our rules would expire? 47. Commenters are encouraged to comment on the foregoing and to propose other options. In so doing, they should provide a thorough explanation of the benefits and detriments of their options and an explanation of how their options serve the goals that we have outlined above. 48. Finally, we seek comment on alternative approaches to requiring a standard, including those the Commission has previously identified: (1) authorizing use of a standard and prohibiting interference to it, but not requiring the use of that standard; and (2) adopting a standard for allocation and assignment purposes only. We also seek comment on requiring use of some layers of the ATSC DTV Standard (described more fully above) but making others optional. For example, would it be desirable to require digital licensees to use the RF/transmission layer of the ATSC DTV Standard, while leaving them free to choose coding and compression technologies different from those described in the ATSC DTV Standard? 49. Acceptability of the ATSC DTV Standard. The ATSC DTV Standard describes a remarkable system that is capable and flexible well beyond the expectations of a few short years ago. It is the product of the genius and persistence of its creators and is a tribute to their efforts. Although the ATSC DTV Standard has many supporters, it also has its critics. Segments of both the computer industry and the entertainment industry have leveled criticisms at the Standard. Some in the computer industry argue that the presence of interlaced scanning formats, the 60 Hz transmission rate, aspect ratios, colorimetry and non-square pixel spacing in the ATSC DTV Standard all merit further consideration. Apple, for instance, asks that the ATSC DTV Standard be modified so that "ATV does not employ interlaced transmission; the refresh rate allows rates greater than 70 images/second; improved standards of data integrity are incorporated; and the data elements be displayed at equal distances, both horizontally and vertically ("square pixels")." In addition it requests that the aspect ratio be reconsidered. 50. Proponents of the ATSC DTV Standard respond that the Standard was developed for terrestrial broadcasting but has incorporated significant elements to enhance compatibility with computers. With respect to the issue of the presence of interlaced scanning in the proposed Standard, the Grand Alliance argues that, "...the Grand Alliance HDTV system emphasizes progressive scan -- five of the six HDTV formats are progressive scan, and the Advisory Committee believes that the lone interlaced format should be "migrated" to progressive as soon as improvements in digital compression and transmission technology make an over-1000 line, 60 Hz progressively scanned format achievable within a 6 MHz terrestrial channel." Proponents assert that computer displays are also available with a wide variety of refresh rates, including 60 Hz, and assert that "[i]n computers, where there is no standard for display format or frame rate, it is the responsibility of software to determine the method of conversion between source and display frame rates." Moreover, they indicate that receiver manufacturers are free to provide any display rate or rates that they desire. Finally, proponents assert that problems with data integrity stem from bit error rates inherent in the broadcast environment, not from the system design. They state that error free data transmission is not guaranteed by any transmission system, citing in particular telephone modems used extensively for computer communications. 51. There also has been objection from cinematographers to the 16:9 aspect ratio contained in the ATSC DTV Standard. They are concerned that the proposed Standard may limit broadcasters' ability to display the full artistic quality of their work. The American Society of Cinematographers has expressed the belief that the 16:9 ratio would leave digital television unable "to properly display a large portion of the largest existing library of programming." It suggests, instead, that HDTV be displayed in a 2:1 aspect ratio. That standard "would allow previous material to be faithfully displayed in its original aspect ratio with insignificant letterboxing" and is attractive to cinematographers for future feature and High Definition production. 52. In reply, the Society of Motion Picture and Television Engineers (SMPTE) states that the 16:9 aspect ratio was established by the SMPTE Working Group on High Definition Electronic Production in 1985 on the basis of studies of the requirement for both motion picture and television production. All meetings of the group, SMPTE notes, were open and well publicized. Moreover, it states that the value of 16:9 for aspect ratio was decided upon only after long debate and that "due consideration was given to the then current practices both in North America and around the world." That aspect ratio, it continues, has been adopted internationally in the International Telecommunications Union for HDTV and for EDTV in Europe and Japan. SMPTE states that it has been demonstrated that there is no difficulty in accommodating program material or motion picture films of any reasonable aspect ratio within the 16:9 format either for production and post-production, distribution or display. Material originally composed for a 2:1 aspect ratio, it continues, could be accommodated by leaving 11% of the vertical space unused. 53. Additionally, we note that low power television station ("LPTV") operators generally want to be included in the implementation of digital technology, and have suggested that, if LPTV is excluded, its continued viability would be jeopardized. LPTV commenters in the past rounds of the digital TV proceeding have focused their comments primarily on issues such as DTV eligibility, channel allotments and interference criteria, issues perceived to affect the continued existence of their stations rather than upon the ATSC DTV Standard itself. Nevertheless, the LPTV industry is concerned that any standards that could adversely affect their operations be thoroughly documented in this proceeding. 54. We seek comment on these issues. However, note that the ATSC DTV Standard was arrived at only after years of thoughtful consideration and expert research and development in an open process in which all interests were able to participate. Accordingly, we believe that those opposing our mandate of the ATSC DTV Standard should have the burden of persuasion as to why that standard should not be adopted. V. Protection from Interference. 55. Protection from interference is a fundamental Commission function that must be considered when introducing new technologies into spectrum allocations currently in use. In this situation, we are, in effect, considering sharing criteria to govern the technical interaction between the old and new technologies. Many of these criteria will be considered in the near future, when we propose an initial Table of DTV Allotments and technical criteria for amending that Table with additional DTV allotments in the future. We expect that the DTV allotments and allotment criteria will be based on the ATSC DTV Standard and the performance of the DTV system it describes, as determined by the extensive ACATS measurement program. In addition to criteria we will propose then, there are some interference-related aspects of the ATSC DTV Standard that we shall explore now. In the following paragraphs, we solicit comment on limitations on stations using the ATSC DTV Standard that might be needed to avoid objectionable interference to reception of either existing NTSC service or the reception of other stations that use the ATSC DTV Standard. 56. Aside from the technical parameters that directly affect the development of a DTV allotment plan, several related considerations affect whether stations operating in accordance with the ATSC DTV Standard cause more interference than predicted based on the system performance measurements. First, we propose to adopt an emission mask, limiting the out-of-channel emissions from a DTV station transmitter, measured after any external filter that may be used and based on a measurement bandwidth of 500 kHz. We seek comment on the following emission mask: (A) at the channel edge, emissions attenuated no less than 35 dB below the average transmitted power; (B) more than 6 MHz from the channel edge, emissions attenuated no less than 60 dB below the average transmitted power; and (C) at any frequency between 0 and 6 MHz from the channel edge, emissions attenuated no less than the value determined using the following formula: Attenuation in dB= 35+ [( f)ý/1.44] Where: f= frequency difference in MHz from the edge of the channel This proposal is derived from analysis of the ACATS test results for protection of adjacent channel stations. The attenuation level is based on an assumption that the average DTV power in a 6 MHz channel is 12 dB less than the NTSC station effective radiated power (ERP). This power difference provides approximately equal noise limited coverage for DTV and NTSC stations in the UHF frequency band. If DTV stations are permitted to operate in a co-located adjacent channel arrangement with average DTV power exceeding that assumed value (12 dB below the co-located NTSC station's ERP), greater attenuation of the out-of-band emissions may be required. 57. Second, ACATS has reported interference from an upper-adjacent channel DTV signal to reception of an NTSC station that is related to the precise location of the DTV signal pilot carrier frequency. To prevent interference to NTSC receivers from this source, we are proposing to require an ATSC DTV Standard station pilot frequency to be located 5.082138 MHz above the visual carrier of the lower adjacent channel NTSC station. The above stated frequency difference between the NTSC visual carrier and the DTV VSB pilot would need to be maintained within a tolerance of +/- 3 Hz. 58. Third, we propose to specify the maximum power for each DTV station as an average power across the occupied bandwidth, so an appropriate method or methods of determining operating power will be different from the established NTSC procedures, which determine the power transmitted during each synchronizing pulse (peak power). We propose that stations using the ATSC DTV Standard would be allowed to determine their average power using conventional RMS averaging power meters. While that would be the official method for determining compliance with the authorized power limits, we propose that such stations would be allowed to decide how they would remain in compliance with their power limits. We seek comment on all of the foregoing including whether the proposed limits on out-of-channel emissions, pilot carrier frequency tolerance and average power determination are appropriate and represent the minimum necessary requirements for controlling the interference potential of stations operating in conformance with the ATSC DTV standard. We also seek comment on whether the proposed limits are sufficient for this purpose, or if other parameters also need to be constrained. 59. In addition to rules restricting broadcast stations that relate to interference concerns, there are many rules that establish procedures or have been applied broadly to all broadcast stations. We propose to modify many of them to include DTV, or to adapt them and create new DTV rules, as appropriate so that eligible licensees might move quickly to introduce this new technology to consumers. A preliminary list of these technical and procedural rules is attached as Appendix A. We seek comment on whether they should be modified to include DTV, be changed to treat DTV differently than NTSC or other broadcast services are treated, or if they need not be applied to DTV. Commenters addressing this issue should provide specific recommendations, rule-by-rule, as to the modifications they advocate. VI. Interoperability. 60. Cross-Industry Interoperability. Compatibility with other transmission forms and media applications has been an important issue throughout this proceeding. Since its inception, ACATS emphasized the need for DTV broadcasting technology to be interoperable with alternative media. In addition, ACATS has recognized that interoperability takes on critical importance given the future needs for high resolution digital imagery and the development of a National Information Infrastructure. ACATS believes that the ATSC DTV Standard is suitably interoperable with other video delivery media and imaging systems, including cable television, direct broadcast satellite, and computer systems. A working party tasked to study interoperability developed recommendations that led to agreement on so-called "headers and descriptors." This method of data identification, combined with advanced data packetization techniques, acts as a kind of translator to tell all digital devices what type of data is being transmitted. 61. The working party and an "interoperability review panel" also adopted a list of eleven characteristics critical to interoperability based on the needs and desires exhibited by alternative media advocates. ACATS believes the Grand Alliance video system adequately addresses all eleven factors. For example, compliance with the MPEG-2 standard was emphasized by the Technical Subgroup and adopted by the Grand Alliance to increase international compatibility and, more importantly, interoperability among a variety of digital devices. In addition, progressive scanning and square pixels were included because these attributes are preferable for some -- particularly computer -- applications. As noted earlier, some advocates feel that the ATSC DTV Standard should go further, especially with regard to the exclusive use of progressive scanning. 62. In all, ACATS believes that the Grand Alliance plan strikes the best balance between various technical considerations and needs of different industries. It is a balance that has been endorsed by, among others, a subgroup of the Federal Government's Information Infrastructure Task Force, the 1994 NIST/ARPA Workshop on Advanced Digital Video, and the Information Technology Industry Council ("ITI"). We request comment on the level of interoperability between the ATSC DTV Standard and alternative media and on the ACATS Report's conclusion that it is adequate. Are there any critical interoperability problems that remain? What additional actions, if any, might the Commission take to facilitate interoperability? We ask that in commenting on this issue, commenters provide specific technical or economic analyses upon which we can make our decision. 63. With digital technologies, differences in transmission methods could develop between broadcast and alternative media if an appropriate variant of the ATSC DTV Standard is not required for alternative media. There is no guarantee that alternative media will choose the ATSC DTV Standard. Alternative media may choose different technologies to take advantage of differences in bandwidth or in the conditions encountered in the transmission path. In addition, some companies may wish to make use of proprietary systems that are not compatible with other companies or alternative media. In our Second Inquiry, we expressed "our tentative view that ATV compatibility among alternative media also may develop in an appropriate manner without government involvement." While we recognized that there may be benefits to compatibility, we added that "we do not intend to retard the introduction of ATV on non-broadcast media, nor do we intend at this point to require compatibility among the various media or set specific signal or equipment standards for this purpose." We seek comment on whether this view remains correct. 64. In the Cable Television Consumer Protection and Competition Act of 1992 (1992 Cable Act), Congress expressed concern about compatibility between consumer electronics equipment and cable systems. We are aware of concern within the broadcast industry that, for example, cable systems may voluntarily adopt QAM modulation in lieu of VSB modulation specified in the ATSC DTV Standard. Some cable system operators suggest deploying a DTV system that does not use B-frames. B-frames necessarily call for more memory to be installed in the receiver or set-top converter, slightly raising costs. While essential for providing the highest quality compressed video, there is a debate within the cable industry as to the need for B-frames when the service provider seeks to reduce costs at the receiver (or set-top convertor) to a minimum. This economy may come at the expense of video quality or compatibility with a broadcast stream which complies with the ATSC DTV Standard. While we understand that such technical distinctions between broadcast and cable may at some extreme cause consumer harm, we also recognize that it is in the economic interests of the providers to ensure consumers have access to the most desirable programming. Today, nearly 60 percent of cable viewing hours are spent watching broadcast programming, much of which is provided under retransmission consent agreements. In light of these concerns, we seek comment on whether the public interest would be served by Commission involvement to assure compatibility between digital broadcast standards and digital cable standards. Similarly, there would appear to be advantages and disadvantages to Commission involvement to assure compatibility between other existing and potential competing video delivery methods, including DBS, MMDS, Instructional Television Fixed Service ("ITFS") and open video systems. We seek comment on the considerations that apply in these different environments. VII. Other Issues. 65. Receiver Standards and Related Features. In the Fourth Further Notice, we stated that it was our understanding that companies were working on receiver designs that would display HDTV signals as lower resolution pictures, sometimes called "standard definition" or SDTV, and that such a conversion would result in relatively inexpensive digital television receivers or converter boxes for NTSC receivers, as compared to projected HDTV receiver costs. Accordingly, we solicited comment on whether DTV receivers should be required to have the ability to receive both SDTV and HDTV transmissions, whether we should regulate how such signals should be displayed and whether permitting the manufacture only of "all format" receivers capable of displaying NTSC, SDTV and HDTV signals would be consistent with the All-Channel Receiver Act or otherwise in the public interest. 66. Now, however, we have the ATSC DTV Standard before us. In Annex E, it indicates that our current TV rules should be appropriate for the digital TV service with respect to tuner performance, direct pickup and closed captioning. It notes that a 10 dB "noise figure" was used for spectrum planning purposes and it expects that value to be appropriate. Additionally, the ATSC DTV Standard indicates that any decoder interface standards we adopt for NTSC "cable-ready" receivers in ET Docket No. 93-7 will almost certainly provide a basis for rules concerning this aspect of digital TV receivers. In its Final Report, the Technical Subgroup of ACATS recommended that the Commission require that receivers (and set-top boxes designed to receive ATV broadcasts for display on NTSC sets) be able to receive adequately all DTV formats. In response to the Fourth Further Notice, some commenters expressed concerned that such a requirement might have a large effect on either reception quality or receiver costs. We request comment on the importance of this requirement for compatibility between receivers and broadcast signals. What level of reception performance should be considered adequate? Given our proposal that licensees must use the ATSC DTV Standard, is such a requirement necessary? We seek comment on necessary adjustments to the existing TV receiver rules so that they cover digital TV receivers and also invite commenters who believe that the recommendation of the ATSC DTV Standard has led them to change their views with regard to receiver standards to supply further comment on this issue. 67. Licensing Technology. Low-cost licensing of DTV technology will increase the supply and lower the cost of DTV equipment by lowering barriers to entry for competing manufacturers. This practice could contribute to an expeditious and orderly implementation of digital broadcast television. We have previously stated that in order for DTV implementation to be fully realized, the patents on a DTV standard would have to be licensed to other manufacturing companies on reasonable and nondiscriminatory terms. In response, the Advisory Committee's testing procedures have required proponents of any DTV system to follow American National Standards Institute patent policies which require assurance that: (1) a license will be made available without compensation to applicants desiring to utilize the license for the purpose of implementing the standard; or (2) a license will be made available to applicants under reasonable terms and conditions that are demonstrably free of any unfair discrimination. While we believe that adherence to the patent policies of the American National Standards Institute will enhance competition and protect consumers, we seek comment on whether we should require more detailed information on the specific terms, if any, for patenting and licensing the ATSC DTV Standard. We note that the patent policies of the American National Standards Institute do not cover pending patents. How will pending patents be licensed? Are there any intellectual property, patenting, or licensing concerns we are not aware of which need further consideration? 68. International Trade. It is clear that the introduction of digital terrestrial broadcasting is not limited to the United States. Indeed, it is a global phenomenon. We believe that the ATSC DTV Standard is an excellent digital television transmission system, and, as stated earlier, there are no competing systems on the horizon. Nevertheless, we recognize that other countries may choose other systems that they feel more appropriately meet their needs, expectations or national priorities. Their systems may well be incompatible with the ATSC DTV Standard. Would our proposal here serve to enhance competitiveness of a U.S. system worldwide and what are the benefits associated with such a result? Additionally, the use of incompatible standards might erect barriers for U.S.-produced films and television programs by making them more difficult for foreign purchasers to buy or display. Will a requirement to use the ATSC DTV Standard as the sole authorized system exacerbate or enhance the opportunities of US based content providers, equipment manufacturers or other parties? In response to such concerns the Advisory Committee included compatibility with relevant international standards, or commitments to this objective, in the list of characteristics critical to interoperability. Subsequently, as noted above, to increase international compatibility, the Grand Alliance adopted the MPEG-2 video stream syntax for encoding of video and the MPEG-2 transport stream syntax for the packetization and multiplexing of video, audio and data signals. Should we pursue additional measures to facilitate international compatibility? 69. Captioning. Section 305 of the Telecommunications Act of 1996 requires the Commission, within 18 months after the date of enactment of the Telecom Act, to prescribe regulations to assure that video programming is fully accessible through the provision of closed captions. The issue of captioning and video descriptions is currently being examined by the Commission in MM Docket No. 95-176. In that proceeding, we specifically asked a number of questions concerning DTV and captioning. 70. The ATSC DTV Standard reserves a fixed 9600 bits-per-second data rate for closed captioning. We understand that EIA's R4.3 Subcommittee on TV Data Systems is considering a standard to define the syntax for the data, as well as the issue of how to include closed captioning information for multichannel SDTV transmissions. Any further comments parties may have concerning the ability of DTV to include captioning and how the Commission should implement captioning requirements for DTV in the event it does not adopt a mandatory DTV standard may be filed in response to this Further Notice. VIII. Conclusion. 71. With this Fifth Further Notice, we explore a number of issues concerning the introduction of the ATSC DTV Standard for digital television broadcasting. We applaud ACATS and the Grand Alliance, as well as the other organizations and individuals listed in the ACATS Report, for their tireless efforts in arriving at and agreeing on a DTV standard. We solicit comments on our proposal described herein. We ask commenters to provide us their detailed and well-supported comments upon our proposal, as well as the other issues raised in this Notice, so that we may have a complete and current record upon which to base our final conclusions and bring the benefits of digital broadcast technology to the American people. ADMINISTRATIVE MATTERS 72. Pursuant to applicable procedures set forth in Sections 1.415 and 1.419 of the Commission's Rules, 47 C.F.R. Sections 1.415 and 1.419, interested parties may file comments on or before July 11, 1996, and reply comments on or before August 12, 1996. To file formally in this proceeding, you must file an original plus six copies of all comments, reply comments, and supporting comments. If you want each Commissioner to receive a personal copy of your comments, you must file an original plus eleven copies. You should send comments and reply comments to Office of the Secretary, Federal Communications Commission, 1919 M Street, N.W., Washington, D.C. 20554. Comments and reply comments will be available for public inspection during regular business hours in the FCC Reference Center (Room 239), 1919 M Street, N.W., Washington, D.C. 20554. 73. This is a non-restricted notice and comment rulemaking proceeding. Ex parte presentations are permitted, except during the Sunshine Agenda period, provided they are disclosed as provided in the Commission Rules. See generally 47 C.F.R. Sections 1.1202, 1.1203, and 1.1206(a). INITIAL REGULATORY FLEXIBILITY ACT STATEMENT I. Reason for Action The Commission seeks comment on a variety of issues concerning whether to adopt a technical standard for digital television and, if so, whether that standard should be the one reported to the Commission by the Advisory Committee on Advanced Television Systems. II. Objectives of the Action The Fifth Further Notice of Proposed Rule Making solicits comment on a variety of issues, in order to establish an accurate, comprehensive, reliable record on which to base the Commission's ultimate decisions in this proceeding. The record established from comments filed in response to this decision, as well as other Commission decisions, and the combined efforts of the Commission, the affected industries, the Advisory Committee on Advanced Television Service, and the DTV testing process, will lead to implementation of DTV in the most harmonious fashion and to selection of the most desirable DTV system. III. Legal Basis Authority for this action may be found at 47 U.S.C. 154 and 303. IV. Reporting, recordkeeping and other compliance requirements Such requirements are not proposed in this phase of the proceeding, but may be raised and comment sought in future decisions in this proceeding. V. Federal rules which overlap, duplicate or conflict with these rules. There are no rules which would overlap, duplicate, or conflict with these rules. VI. Description, potential impact and number of small entities involved. There are approximately 1,546 UHF and VHF, commercial and educational television stations, 2,587 UHF translator stations, 2,275 VHF translator stations, and 1,825 UHF and VHF low power television stations which would be affected by decisions reached in this proceeding. The impact of actions taken in this proceeding on small entities would ultimately depend on the final decisions taken by the Commission. However, the Commission, in taking future action will continue to balance the need to provide the public with affordable, flexible, accessible digital broadcast television service with the economic and administrative interests of the affected industries. VII. Any significant alternatives minimizing the impact on small entities consistent with stated objectives. This Fifth Further Notice of Proposed Rule Making is intended to examine the issue of what, if any, transmission standard for digital television should be adopted by the Commission. In so doing, we are soliciting comments and suggestions that hopefully will represent the views of all of the industries concerned, and thus the Commission will be better able to minimize whatever negative impact might face small entities as a result of our decisions. Ordering Clause 74. Accordingly, IT IS ORDERED that pursuant to the authority contained in Sections 4 and 303 of the Communications Act of 1934, as amended, 47 U.S.C. Sections 154 and 303, this Fifth Further Notice of Proposed Rule Making IS ADOPTED. 75. Additional Information: For additional information regarding this proceeding, contact Saul Shapiro (202-418-2600) or Roger Holberg (202-418-2134), Mass Media Bureau. 76. As required by Section 603 of the Regulatory Flexibility Act, the Commission has prepared an Initial Regulatory Flexibility Analysis (IRFA) of the expected impact on small entities of the proposals suggested in this document. The IRFA is set forth above. Written public comments are requested on the IRFA. These comments must be filed in accordance with the same filing deadlines as comments on the rest of the Notice, but they must have a separate and distinct heading designating them as responses to the Initial Regulatory Flexibility Analysis. The Secretary shall send a copy of this Fifth Further Notice of Proposed Rule Making, including the Initial Regulatory Flexibility Analysis, to the Chief Counsel for Advocacy of the Small Business Administration in accordance with paragraph 603(a) of the Regulatory Flexibility Act. Pub. L. No. 96-354, 94 Stat. 1164, 5 U.S.C. Section 601 et seq. (1981). FEDERAL COMMUNICATIONS COMMISSION William F. Caton Acting Secretary APPENDIX A Additional procedural or general broadcast rules that may be modified or adapted for DTV. Section 73.607 Availability of channels. 73.611 Reference points and distance computations. 73.612 Protection from interference. 73.615 Administrative changes in authorizations. 73.621 Noncommercial educational TV stations. 73.635 Use of common antenna site. 73.684 Prediction of coverage. 73.685 Transmitter location and antenna system. 73.686 Field strength measurements. 73.688 Indicating instruments. 73.1010 Cross reference to rules in other parts. 73.1015 Truthful written statements and responses to Commission inquiries and correspondence. 73.1030 Notifications concerning interference to radio astronomy, research and receiving installations. 73.1120 Station location. 73.1125 Station main studio location. 73.1201 Station identification. 73.1202 Retention of letters received from the public. 73.1206 Broadcast of telephone conversations. 73.1207 Rebroadcasts. 73.1208 Broadcast of taped, filmed, or recorded material. 73.1209 References to time. 73.1211 Broadcast of lottery information. 73.1212 Sponsorship identification; list retention; related requirements. 73.1213 Antenna structure, marking and lighting. 73.1216 Licensee-conducted contests. 73.1217 Broadcast hoaxes. 73.1225 Station inspections by FCC. 73.1226 Availability to FCC of station logs and records. 73.1230 Posting of station and operator licenses. 73.1250 Broadcasting emergency information. 73.1510 Experimental authorizations. 73.1515 Special field test authorizations. 73.1520 Operation for tests and maintenance. 73.1580 Transmission system inspections. 73.1590 Equipment performance measurements. 73.1610 Equipment tests. 73.1615 Operation during modification of facilities. 73.1620 Program tests. 73.1635 Special temporary authorizations (STA). 73.1660 Acceptability of broadcast transmitters. 73.1665 Main transmitters. 73.1670 Auxiliary transmitters. 73.1675 Auxiliary antennas. APPENDIX B Advisory Committee on Advanced Television Service Chairman Richard E. Wiley, Wiley, Rein & Fielding Members Frank Biondi, Viacom International, Inc. Joel Chaseman, Chaseman Enterprises International Joseph Collins, American T.V. & Comm. Corp. William Connolly Martin Davis, Wellspring Associates, Inc. Irwin Dorros James C. Dowdle, Tribune Broadcasting Co. Ervin S. Duggan, PBS Joseph Flaherty, CBS, Inc. Samuel Fuller, Digital Equipment Corporation Stanley S. Hubbard, Hubbard Broadcasting James Kennedy, Cox Enterprises James C. McKinney, Advanced Television Systems Committee Craig Mundie, Microsoft Corporation Thomas S. Murphy, Capital Cities/ABC Inc. Rupert Murdoch, Fox, Inc. Jerry K. Pearlman, Zenith Electronics Corporation F. Jack Pluckhan, Quasar Ward Quaal, The Ward L. Quaal Company Richard D. Roberts, TeleCable Corporation Burton Staniar, The Knoll Group James Tietjen, SRI International Laurence Tisch, CBS, Inc. Robert Wright, NBC Ex officio (non-voting) Members Peter Bingham, Philips Laboratories Wendell Bailey, National Cable Television Association Henry L. Baumann, National Association of Broadcasters Joseph Donahue, Thomson Consumer Electronics, Inc. Brenda L. Fox, Dow, Lohnes & Albertson Richard Friedland, General Instrument Corporation Robert Graves, R.K. Graves Associates Larry Irving, U.S. Department of Commerce, NTIA Keiichi Kubota, NHK Science & Technical Research Labs Jae Lim, Massachusetts Institute of Technology Vonya B. McCann, U.S. Department of State George Vradenburg III, Latham & Watkins Margita White, MSTV APPENDIX C Advanced Television Systems Committee AT&T AT&T Laboratories Baylor University Bell Communications Research CBS Cable Television Laboratories Capital Cities/ABC David Sarnoff Research Center Dolby Laboratories Eastman Kodak Company Electronic Industries Association Florida Atlantic University Twentieth Century Fox GTE General Instrument Corporation Grass Valley Group Hitachi America Home Box Office Association of Independent TV Stations Ikegami Electronics USA Institute of Electrical and Electronics Engineers Koichi Sadashige & Associates Massachusetts Institute of Technology Association for Maximum Service Television Mitsubishi Consumer Electronics America Motion Picture Association of America National Association of Broadcasters National Broadcasting Company National Cable TV Association Panasonic Advanced TV Laboratories Panasonic Broadcast Systems Company Philips Electronics North America Pioneer New Media Technologies Public Broadcasting Service Satellite Broadcasting and Communications Association Sanyo Manufacturing Corporation Scientific Atlanta Sharp Electronics Corporation Snell & Wilcox Society of Motion Picture and Television Engineers Sony Advanced Systems Company Sony Pictures Entertainment TV/COM International Tele-Communications Incorporated Texas Instruments Thomson Consumer Electronics Titan Information Systems Toshiba America Consumer Products Tribune Broadcasting Company Universal City Studios VLSI Technology Viacom International Westinghouse Broadcasting Company Zenith Electronics Corporation