############ ########## Volume 2 Number 6 ############ ########## March 31, 1992 #### ### ### ########## ########## ########## ### ### #### #### ########## ########## ########## ### ### ##### #### ########## #### #### ### ### ###### #### #### ######## ######## ### ### ############ #### ######## ######## ### ### #### ####### ############# #### #### ########## #### ###### ############# #### #### ########## #### ##### ############# #### #### ########## #### #### ## ## ## |~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~| EFFector | | ONline | PIONEER WINNERS HONORED AT CEREMONY | | IN WASHINGTON, D.C. | eff@eff.org | | | THE EFF ISDN PROJECT:AN INTERIM REPORT | 155 Second Street | | Cambridge, MA 02141 | EFF INTERNATIONAL: | (617) 864-0665 | E-Mail from John Perry Barlow in Japan | | | 666 Pennsylvania Ave.SE | | Washington, DC 20003 | | (202) 544-9237 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ENGELBART, KAHN, WARREN, JENNINGS AND SMERECZYNSKI HONORED WITH EFF PIONEER AWARDS AT SPECIAL WASHINGTON CEREMONY During a ceremony at the Second Conference on Computers, Freedom, and Privacy in Washington, DC this month the First Annual Pioneer Awards were given to five individuals judged to have made substantial contributions to the field of computer-based communications. The finalists were selected by six judges from a field of over 200 nominees. The winners were: Douglas C. Engelbart of Fremont, California; Robert Kahn of Reston, Virginia; Jim Warren of Woodside, California; Tom Jennings of San Francisco, California; and Andrzej Smereczynski of Warsaw, Poland. Nominations for the Pioneer Awards were carried out over national and international computer-communication systems from November, 1991 to February 1992. Many of the nominations came from people who read EFFector Online and the EFF would like to extend its thanks to all those on the Net who contributed to this effort. The Pioneer Winners Douglas Engelbart is one of the original moving forces in the personal computer revolution who is responsible for many ubiquitous features of today's computers such as the mouse, the technique of windowing, display editing,hypermedia, groupware and many other inventions and innovations. He holds more than 20 patents and is widely-recognized in his field as one of our era's true visionaries. Robert Kahn was an early advocate and prime mover in the creation of ARPANET which was the precursor of today's Internet. Since the late 60's and early 70's Mr. Kahn has constantly promoted and tirelessly pursued innovation and heightened connectivity in the world's computer networks. Tom Jennings started the Fidonet international network. Today it is a linked network of amateur electronic bulletin board systems (BBSs) with more than 13,000 nodes worldwide and still growing. He contributed to the technical backbone of this system by writing the FIDO BBS program, as well as to the culture of the net by pushing for development and expansion since the early days of BBSing. He is currently editor of FidoNews, the network's electronic newsletter. Jim Warren has been active in electronic networking for many years. Most recently he has organized the First Computers, Freedom and Privacy Conference, set-up the first online public dialogue link with the California legislature, and has been instrumental is assuring that rights common to older mediums and technologies are extended to computer networking. Andrzej Smereczynski is the Administrator of the PLEARN node of the Internet and responsible for the extension of the Internet into Poland and other east European countries. He is the person directly responsible for setting up the first connection to the West in post- Communist Middle Europe. A network "guru", Mr. Smereczynski has worked selflessly and tirelessly to extend the technology of networking as well as its implicit freedoms to Poland and neighboring countries. This year's judges for the Pioneer Awards were: Dave Farber of the University of Pennsylvania Computer Science Department; Howard Rheingold, editor of The Whole Earth Review; Vint Cerf, head of CNRI; Professor Dorothy Denning Chair of Georgetown University's Computer Science Department; Esther Dyson, editor of Release 1.0, Steve Cisler of Apple Computer, and John Gilmore of Cygnus Support. -==--==--==-<>-==--==--==- REPORT TO THE NET: THE STATE OF THE EFF OPEN PLATFORM INITIATIVE The Vision and the Goal Until recently the nation's telecommunications policy debate has been a struggle among entrenched commercial interests. These interests have, for over a decade, been arguing over who will control and dominate markets such as information services, manufacturing, and long distance service. The Electronic Frontier Foundation, seeking to act from a perspective of what is in the public interest, believes it is time to table this argument. The EFF believes it is essential to move forward now and seek technological tools, an economic and regulatory climate, and legislative accord that, working in synergy, will create an information marketplace open to all. This new information marketplace will be one that will encourage the rapid development of diverse information services. It would be an online marketplace characterized by freedom, accessibility, and affordability. In the place of the current no-win tussle over who should dominate, we would substitute a more democratic vision: "Everybody's in. Nobody's out." For some month's now, the EFF has been developing a proposal which calls for the speedy deployment of Narrowband ISDN as the platform of choice to begin building a National Public Information Network today. Narrowband ISDN is a low-cost, digital, switched platform for delivery of information services over the public switched network. Narrowband ISDN, if offered nation-wide, and priced at mass-market rates, will serve as a transitional telecommunications platform until national switched broadband options become available early in the 21st century. With Narrowband ISDN in place, information entrepreneurs of all kinds large and small will be able to reach an ever expanding market in which to offer text, video, and interactive multimedia services. Public agencies, private communications services, computer companies, publishing firms and individuals will be able to access an inexpensive, widely available medium in which to publish and communicate electronically. Background In the Fall of 1991, the Electronic Frontier Foundation testified before the House Subcommittee on Telecommunications and Finance on the subject of Bell company entry into the information services market. To maintain diversity of information services, EFF proposed the rapid deployment of a digital information platform, using existing technology and facilities, which could be made available to all on a ubiquitous, affordable, equitable basis. Our testimony to congress suggested that narrow band ISDN could be such a platform. Our task became to investigate whether or not this was actually the case. What We Have Learned Since November Following up on our initial proposal we have been exploring the technical and economic feasibility of implementing ISDN. In the course of these investigation, members of EFF in Cambridge and Washington have traveled throughout the United States and met with numerous individuals and companies in order to explore the feasibility of this platform. We have spoken with, met with, and corresponded with experts in the Regional Bell Operating Companies, Interexchange Carriers, Cable Systems, information providers, and state public service commissions. Based on these meetings and other research, the EFF has learned three things: 1. ISDN CAN BE DEPLOYED IN THE NEAR FUTURE AT AFFORDABLE, MASS-MARKET PRICES ISDN enables switched, digital, error-free information delivery over the *existing copper wiring* that makes up the overwhelming bulk of the nation's telecommunications network. No time or money is needed to replace distribution lines. Digital central office switches are required for ISDN, but with the Bell companies aggressive deployment of a full- digital switching and signaling system (Signaling System Seven), the bulk of the infrastructure necessary to support ISDN is already installed or planned. Some Bell companies such as Bell Atlantic and Ameritech plan to have over 75% of their subscriber lines ISDN-ready by the end of 1994. Other companies, however, project deployment rates as low as 17%. On a national level, 54% of all lines are expected to be capable of carrying ISDN calls by 1994. If ISDN is to be a platform that spurs growth and innovation in the information services market, it must be priced affordably for the average home and small business user. Therefore, the tariffs adopted by state public utility commissions are critical to the success or failure of ISDN. Some of the first residential ISDN tariffs filed by Bell companies are discouragingly high. To encourage widespread use of ISDN, it must be priced at or near the price levels already in place for basic voice services. ISDN line charges will be somewhat higher than analog voice services because there are some additional one-time capital costs associated with offering ISDN service, but basing prices on voice telephone rates is possible and rational from a regulatory standpoint. The digital switches which carry ISDN calls treat voice and data calls in exactly the same manner. A five minute data call uses no more or less switching resources than a five minute voice call, so their pricing should be equivalent. Where flat rates are in place for voice services, we believe that ISDN data service should also be priced at a flat rate. Since the average length of a data call may be longer than the average voice call, the flat rate for ISDN would have to be adjusted upward to reflect added load on central office switching systems. However, the mere fact that data lines may remain open longer does not preclude a flat rate. We are hopeful that Bell companies with more aggressive deployment plans will file such residential tariffs and set a precedent for progressive, mass-market pricing that will make ISDN affordable. Whether or not they do, legislative or regulatory action may be necessary to establish such a rate structure for ISDN nationally. Current prices for ISDN telephones, data links, and in-home network terminators are high. An ISDN telephone with voice and data interfaces costs roughly $1000. If these price levels persist, many small scale users will never enter the market. However, with increased demand, ISDN terminal appliance prices can be expected to follow the steep downward curve of VCRs and PCs prices. When first introduced, VCRs cost well over $1000, but now sell below $200 for a basic unit. 2. ISDN DESERVES A *SECOND LOOK* BECAUSE IT CAN MEET MANY OF THE INFORMATION NEEDS OF BOTH RESIDENTIAL AND COMMERCIAL USERS LONG BEFORE A BROADBAND NETWORK COULD BE DEPLOYED Some telecommunications cognoscenti view the promise of narrowband ISDN as quite limited. They are aware that ISDN has languished unimplemented for over ten years, and know that other copper-based transmission technologies offering much higher bandwidth are available. However, ISDN is the only *switched, digital* technology available *today* in the public network that can be implemented nationally in the near term. EFF believes that ISDN can meet many of the critical information needs of both residential and commercial users even without broadband capacity. EFF fully supports a broadband network in the future, when technology, capital and user demand make it possible. For now, ISDN is the critical technology that will jump-start an information revolution just like the computer revolution of the 1980s. For text-based data users and publishers, ISDN offers a dramatic advantage over data transmission technology currently used by individuals and small organizations. One of the two 64kbits/sec data channels available in the ISDN Basic Rate Interface can fax 30 typewritten pages of text in one minute, and send a 1000-word newspaper article in less than one second. Dramatic advances in video compression make transmission of videoconference images possible today, and all indications are that new compression algorithms will allow real-time transmission of VCR-quality video images in the near future. The personal computer industry shows that raw power is not all that matters in a new technology. About 1980, corporations already had good access to massive computational facilities at the institutional level through their mainframes and minicomputers. But individual workers had no effective direct access to those facilities. Personal computers made a difference in the office and in the home, despite the fact that they were anemically under-powered, because they were directly under the control of the individual. Similarly, there may be high data capacity at the institutional data network level already, but if individuals and small organizations can't connect with it, its value is limited. We must make tapping into the digital, switched network as easy as ordering a phone line for a fax. Just as PCs enhanced individual productivity, ISDN can enhance individual connectivity. EFF has found that many segments of the telecommunications industry are engaged in a concerted effort to make nation-wide ISDN deployment a reality. Problems that haunted ISDN in the past, such as lack of standard hardware and software protocols and corresponding gaps in interoperability, are being addressed by National ISDN-1, a joint effort by Bell companies, interexchange carriers, and switch manufactures. By the end of 1992, a single hardware standard will make ISDN central office switches and customer premises equipment interoperable, regardless of which vendor made the equipment. Following National ISDN- 1, National ISDN-2 will address standards problems associated with ISDN Primary Rate Interface (PRI), a switched 1.5Mbit/sec service with 23 separate 64kbit/sec data channels and one 64kbit/sec signaling channel. Additional interconnection problems remain to be solved before ISDN is truly ubiquitous. Among other things, business arrangements between local Bell companies and interexchange carriers must be finalized before ISDN calls can be passed seamlessly from the local exchange to long distance networks. 3. ISDN IS A CRITICAL TRANSITIONAL TECHNOLOGY ON THE ROAD TO A NATIONWIDE PUBLIC SWITCHED BROADBAND NETWORK ISDN is not a permanent substitute for a broadband network. It is a necessary transitional technology on the way to public broadband networking. Though some might like to leap directly to a broadband network, the entire telecommunications and information industry still has much to learn about designing a broadband digital network before it can be implemented. Broadband switching technology is at the basic research stage. Many questions still remain about the best network architecture for the broadband network of the future. These questions are impossible to answer without experience in the ways that people will use a public, digital switched network. Some are reluctant to make any investment in ISDN because it is perceived as old technology. But this is not an either/or choice. If implemented at prices that encourage diverse usage, ISDN will provide important new services to all segments of society, and offer vital perspectives on how to design the next generation of public, switched broadband networks. -==--==--==-<>-==--==--==- EFF INTERNATIONAL: A Report from John Perry Barlow In Japan barlow@eff.org [ Late last month, our co-founder, John Perry Barlow, traveled to Japan on behalf of the EFF in order to extend our formal and informal relationships to this country. What follows is a letter to all of us shortly after his arrival.] Folks, Greetings from Mars. Well, actually it may be a little south of Mars. They have palm trees on the beach, but otherwise Beppu, Japan is about as foreign an environment as one might easily e-mail from. I feel like a huge and idiotic barbarian much of the time, but then that can happen in Wyoming. My trip so far has been very useful from the standpoint of EFF, I think. I met all afternoon day before yesterday with the board and staff of Glocom, which is, as I suspected, very much the Japanese EFF. They differ largely in their willingness to discuss these issues at a much higher level of abstraction. For example, they don't quibble around the margins of intellectual property, they ask if property is even applicable to the environment of Cyberspace, where they are more inclined to think that prestige (which is the other goal of economic activity besides survival) will probably be conveyed better by attunement to the process of information passage in time and density of interaction than by ownership. In discussing the things we might undertake together, there was a lot of talk about possibly setting up a project to see how the minds gathered around GLOCOM and the minds gathered around EFF could be as directly connected as possible. In other words, what are the barriers to directly connected thought and how can they be overcome? This would involve working through a lot of technical networking issues (on the easy end) and get into some really juicy and interesting challenges as we started working through the challenges making "gateways" between Japanese and English, trying to find a jointly congenial cultural environment, and really go about The Great Work. I am very eager to go on working with these folks. They have a very sophisticated grasp of the deep issues. Also had a very fruitful meeting yesterday with Koichiro Hayashi, V-P for Leased Circuits of NTT and soon to be president of NTT America (and based in New York). A clear, direct, and smart man. He could be a great asset in the future and I gave him a copy of the big book on the Communications Policy Forum with the not so foolish hope of involving NTT on several levels. As regards ISDN in Japan, there are only 12,500 total connections at this point and though the number of digitally switched phones is not public, he will get it for me. He says that NTT does not regard ISDN as being anything like a plain vanilla standard and that their first efforts to connect their ISDN lines with AT&T's failed. He also said that until someone could show NTT an online market they could bank on, they would continue on their present course of replacing analog switches with digital ones only when the former had depreciated out on a non-accelerated basis. I tried some encouraging poetics about the potential of unseen and unseeable markets on him. "I'm a businessman," he shrugged, with an engaging smile. Now I'm down at the Hypernetworking Conference in Beppu. The only other Gaijins here so far are Howard Rheingold and Peter and Trudy Johnson- Lenz from Awakening Technology. The utterly opaque language barrier is difficult. Very few people at this conference speak English. But the temperamental and even cultural openness here makes up for the sense of linguistic isolation. They make one feel very agreeably included. I'll let you know more about what I'm learning as things progress. -==--==--==-<>-==--==--==- MEMBERSHIP IN THE ELECTRONIC FRONTIER FOUNDATION In order to continue the work already begun and to expand our efforts and activities into other realms of the electronic frontier, we need the financial support of individuals and organizations. If you support our goals and our work, you can show that support by becoming a member now. Members receive our quarterly newsletter, EFFECTOR, our bi-weekly electronic newsletter, EFFector Online (if you have an electronic address that can be reached through the Net), and special releases and other notices on our activities. But because we believe that support should be freely given, you can receive these things even if you do not elect to become a member. Your membership/donation is fully tax deductible. Our memberships are $20.00 per year for students, $40.00 per year for regular members. You may, of course, donate more if you wish. Our privacy policy: The Electronic Frontier Foundation will never, under any circumstances, sell any part of its membership list. We will, from time to time, share this list with other non-profit organizations whose work we determine to be in line with our goals. But with us, member privacy is the default. This means that you must actively grant us permission to share your name with other groups. If you do not grant explicit permission, we assume that you do not wish your membership disclosed to any group for any reason. ---------------- EFF MEMBERSHIP FORM --------------- Mail to: The Electronic Frontier Foundation, Inc. 155 Second St. #26 Cambridge, MA 02141 I wish to become a member of the EFF I enclose:$__________ $20.00 (student or low income membership) $40.00 (regular membership) $100.00(Corporate or company membership. This allows any organization to become a member of EFF. It allows such an organization, if it wishes to designate up to five individuals within the organization as members.) | I enclose an additional donation of $___________ Name:______________________________________________________ Organization:______________________________________________ Address: __________________________________________________ City or Town: _____________________________________________ State:_______ Zip:________ Phone:( )_____________(optional) FAX:( )____________________(optional) Email address: ______________________________ I enclose a check [ ] . Please charge my membership in the amount of $_____________ to my Mastercard [ ] Visa [ ] American Express [ ] Number:____________________________________________________ Expiration date: ____________ Signature: ________________________________________________ Date:______________________ I hereby grant permission to the EFF to share my name with other non-profit groups from time to time as it deems appropriate [ ] . Initials:___________________________ ===================================================================== EFFector Online is published by The Electronic Frontier Foundation 155 Second Street, Cambridge MA 02141 Phone:(617)864-0665 FAX:(617)864-0866 Internet Address: eff@eff.org Reproduction of this publication in electronic media is encouraged To reproduce signed articles individually, please contact the authors for their express permission. =====================================================================