THE EARLY HISTORY OF CELLULAR TELEPHONE

Thursday, 12 April 2012
Posted by Crystal

I have been asked to write a piece on the early history of cellular telephone, as one who was a participant in the earliest system studies.  As I will describe shortly, I do not use the phrase, “in at the beginning”, because there really is no identifiable beginning to the cellular concept.
In 1967, I was assigned to a group at Bell Laboratories with responsibility for the switching systems for mobile telephone.  At that time there was a mobile telephone service, but it was extremely limited.  There were eleven channels in the 150 MHz band assigned to the wireline telephone companies, and a similar set of channels assigned to competitive radio common carriers.  The system design consisted of a high power transmitter (and a receiver) mounted on the tallest building available at roughly the center of the desired coverage area.  Nearby systems interfered with one another, and could not use the same channels.  For example, Newark and Belle Meade, New Jersey, Hempstead, Long Island, and White Plains, New York, all interfered with Manhattan, and the eleven channels had to be distributed among them.  As a result, only three channels could be assigned to Manhattan, allowing only three simultaneous telephone calls; all other attempts would be blocked.   There were long waiting lists for service, but, even allowing for high blocking rates, not enough subscribers could be allowed on the system for it to be economically feasible.  A second block of twelve channels was allocated, in the 450 MHz band, but, given the economics of the 150 MHz system, very few of the 450 MHz systems were deployed.
The mobile radios also consumed significant battery power.  There were some portable units, mounted in attache cases, but the unit was generally mounted in a vehicle and used its electric system.  A common saying at the time, probably an exaggeration, was that if the vehicle engine broke down, and one used the mobile telephone to call for assistance, the call had better succeed the first time, because there wouldn’t be enough battery for a second call.
          I’ve already laid the groundwork, above, for explaining the long history of the cellular concept.  Although the interfering systems required different channels, the channels could be reused in systems that were far enough removed, and were reused many times across the country.  This was, in concept, a cellular system, except that the cells were very large and they were not contiguous, with large gaps in coverage.  On reflection, it is obvious that the concept of reusing frequencies in geographically separated areas goes back to the earliest days of broadcast radio, and continued with the assignment of channels to broadcast television stations across the country, also without providing continuous coverage.
          At Bell Laboratories at that time, one was expected to go beyond one’s immediate assignment, and to explore possibilities in related areas.  Although my assignment was in switching, I had a background and interest in radio transmission, and I soon made contact with two engineers in the radio systems development department, Dick Frenkiel and Phil Porter, who were already conceptualizing a cellular system reusing channels within a metropolitan area, and I joined them in that work.  And even they were not the first; there had been earlier suggestions that such a system might be possible.
          For the next couple of years, we wrote internal Bell Laboratories memoranda on various aspects of cellular system design, including analyses of how close co-channel cells could be spaced, how cell size could be varied depending on telephone traffic, various methods of identifying the cell in which a mobile unit was located, etc.  And then, lightening struck.
          Much earlier, shortly after World War II had ended, AT&T had made a request to the FCC for the allocation of a broad band of spectrum in the 450 MHz band.  At the same time, there was a competing request from the television broadcasters for the same spectrum, and the FCC gave the allocation to UHF television, channels 14 to 83.  Twenty years later, in 1968, the FCC observed that UHF television had not developed as expected, and the channels were sparsely used.  Opening Docket 18262, they requested comments on a potential re-allocation of channels 70 to 83, providing 84 MHz of contiguous spectrum in the 900 MHz band (plus about 31 MHz of spectrum in some other smaller segments) to mobile telephone.  The FCC made it clear that they wanted proposals for systems that were much more efficient in their use of spectrum than the then current systems described above.  The opening of the Docket stimulated interest across the industry, and papers began to be published.*
          The proposed re-allocation of spectrum met with considerable political opposition.  The television broadcasters did not want any spectrum to be taken away.  On another front, the manufacturers of mobile radio equipment, led by Motorola, opposed the assignment of a large block of spectrum to the common carriers.  At that time, while mobile telephone, allowing connection to the public telephone network, was a very limited service, there was a very significant use of mobile radio for dispatch systems, in which a central dispatcher could communicate with a fleet of, for example, taxis, delivery trucks, repair crews, etc.  The suppliers of such systems argued for the spectrum to be assigned for dispatch use.
Although AT&T was eager to reply with a proposal for a system that was spectrally efficient, there was some concern within Bell Laboratories as to whether the cellular system was technically feasible, and not only because the sole technical support for the concept was the product of three very young engineers.  One needs to recall the state of technology at that time.  The very earliest (four bit) microprocessors were being explored in the laboratory, and the functionality of a cellular mobile telephone would require significant data processing within the unit.  At that time, the transmitted frequency of a mobile radio was maintained by a crystal in a temperature controlled oven, approximately one inch square and two to three inches tall, one such for each channel for which the radio was equipped.  Clearly, a mobile radio having access to 800 channels was not feasible using the current technology, and the earliest digital frequency synthesizers were also just being developed in the laboratory.  The most advanced telephone switching systems were still analog, and although they were controlled by digital processors, these were special purpose machines, very different in architecture from general purpose computers.  For the system to work, a number of emerging technologies all had to mature successfully at the time they were needed.  Based on the experience I have since acquired over my career, I would have been concerned as well.  Many years later, I was interviewed about those early days, and I was asked when, in the course of the development, we realized that the system was actually going to work.  I answered that we were very young at the time, not yet scarred by failure, and we always knew that it would work.
The culture at Bell Laboratories was to encourage innovation, and to provide nourishment to new ideas, and an exploratory development program was initiated.  Dick Frenkiel, Phil Porter, and I formed the nucleus of a systems engineering group, to which others were recruited, under a radio pioneer named Rae Young.  The treaty had just been signed banning anti-ballistic missile systems, and work on such systems at Bell Laboratories was discontinued.  A department of state-of-the-art microwave engineers from that work, headed by Bob Mattingly, supported by Jerry DiPiazza, Reed Fisher, and George Smith, was re-assigned to develop the early proof-of-feasibility prototypes of the radio system.  A group of switching systems engineers, headed by Zack Fluhr, was assigned to explore the hardware and software necessary to control the cellular system and connect the calls to the public telephone network.  Comprehensive measurements and characterization of propagation at these frequencies had been performed in Japan by a team led by Y. Okumura, and he visited Bell Laboratories to discuss his work with the team.  Over the next two years, experimental mini-systems consisting of a few base stations were built, and a system design was developed.  In December of 1971, AT&T submitted to the FCC a Bell Laboratories Technical Report that presented the system design for the Advanced Mobile Phone Service (AMPS) system that ultimately was deployed.


* The attached Bibliography lists a number of the papers, special issues of journals, and even a book on cellular mobile radio.  I am indebted to Dick Frenkiel for searching out many of them (as well as for reviewing this paper and filling the gaps in my memory).  At this late date, it is certainly not comprehensive.

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