NEW FBI ATTEMPTS AT SECURE COMMUNICATION

COPYRIGHT (C) 1991 BY FULL DISCLOSURE. ALL RIGHTS RESERVED.

The FBI has spent many millions of dollars attempting to obtain secure communications by various voice encryption methods, with limited success.

The GAO Report of March 8, 1988, "FBI Voice Privacy, Cost, Status, and Future Direction'' provides much insight into the difficulties the FBI has had establishing a secure communications system.

The FBI's original estimate for establishing a digial voice protection system was $79.3 million.

The March 8th report indicates that "[b]ecause the FBI's estimated savings cited in the table are very preliminary and are not supported by formal field surveys or other documentation, we continue to believe that the $204.4 million and the latest $205.8 million estimate for the nationwide voice privacy program appear to be unrealistic.''

A big part of the major cost overrun was a lack of technological review of what they were getting into.

"Our Feburary 1987 report explains that the technological impact of range loss on the DVP system was one factor that increased the FBI cost estimates from $79.3 million to $204.4 million. In the report, we say that 'the FBI recognized in its 1979 to 1981 research that the communications range of DVP technology was less than the range of the old, unsecure system, but it did not consider the impact of this reduction.' The FBI says that this statement is 'totally in error because we did recognize range loss and did consider its impact.

"In a follow-up discussion, a key FBI official who is knowledgable about the voice privacy cost estimate process told us that the FBI did not consider range loss in the $79.3 million estimate and emphasized that an engineering consultant firm developed the estimate as part of a comparison of analog versus digital voice privacy technologies. According to this official, range loss was not serious considered until the FBI prepared the $132.4 million estimate. The FBI says that its methodology for developing the $132.4 million estimate included doubled the number of repeaters to compensate for the DVP range loss.

However, a 1984 from the Deputy Assistant Director, Technical Services Division, the following range loss problems were described: "The Motorola DVP/DES [Data Encryption Standard] system has a loss in range as a penalty for the effectiveness of the digital voice privacy. Experience in the six cities has demonstrated that to equal the existing geographic coverage, there is an 80%-100% increase in so called fixed station equipment (e.g. repeaters, cross band sites, and backbone equipment).''

Much of the FBI's difficults seems to be from a lack of proper management. According to the GAO report, "[d]uring our review, we could not find any evidence that a long range plan for the nationwide DVP program had been prepared, and FBI officials confirmed that a written plan did not exist. The FBI contends that it was not feasable to prepare a formal plan for the DVP program, within time and manpower constraints. In follow-up discussions about their response to our report, FBI official emphasized that DVP is a threat driven system and told us that it was a management decision to go full speed ahead rather than plan.

Now, the FBI is trying to solve the problem with frequency hopping radios. According to Daniel Miller, Contracting Officer for the FBI, 45 PH-26 (portable frequency hopping radios) and 20 MH-26 (mobile frequency hopping radios) along with numerous accessories, including 2 repeaters were purchased on September 24, 1990.

These radios are not FCC approved radio equipment and the FBI has a sole-source contract for them with Transcrypt International, Inc., 1440 Buckingham Dr, Lincoln, NE 68506, Phone: (402) 483-2961, Fax: (402) 435-6780, Telex: 466146.

According to Transcrypt's brochure, "encryption insures that no outside party can understand radio transmissions, an encrypted radio signal has a very distinctive sound; and with the right equipment, it can be jammed, intercepted, or the source located.''

Transcrypt refused to provide Full Disclosure with pricing information and that information was not available from the Government by press time. The going rate for this type of equipment, however is said to be approximately $10000 per radio. Transcrypt will only sell the radio within the United States to law enforcement agencies.

Even though their brochure claims that both the public and private sectors outside the United States have the need for this type of secure communications (no mention is made that the private sector within the United States has such needs), a company spokesman seemed skeptical that the State Department would approve the radios for export.

The idea behind frequency hopping radios is that rather than transmitting constantly on one frequency, the frequency is changed many times per second in a pseudo-random fashion. These radios switch from 12 to 50 times per second, between any channels in a programmable window of the 148-174Mhz band. The window size is programmable between 100Khz and 1.6Mhz. Therefore, if the window size was set to 1.6Mhz and the window was located at 165.000mhz, the transmissions would occur only on frequencys between 165.000mhz and 166.600mhz.

Therefore, with a standard scanner one would not notice the existence of such transmission, nor be able to pin point them. Monitoring one of the frequencies it used in its hopping sequence would result only in a burst of noise 1/12 to 1/50 of a second in duration.

Another brochure from Transcrypt quotes from Communications Africa a claim that "there are very few countries in which the equipment and expertise are available to try to break these systems.''

Finally, the FBI has a solution to is desire for secure communications or does it? The first glimpse to a line of attack is in the same brochure that quotes from Communications Africa. It explains how other (in use) frequencies in an urban environment gives the transmissions extra cover. Any kind of transmission made in an urban environment gets extra cover from all the other surrounding transmissions.

The fact that the transmissions need or gain from having "cover'' indicates that they are not invisible.

Technical sources suggested the following as a method of detecting use of frequency hopping radios in the area. Hook a cable ready TV set to an appropriate antenna and tune it to the federal band (160-172mhz). Cable channels G, H and I. Each channel will display a 5mhz spectrum of the federal band. The complete frequency range of the radio would be cable channels A through I and 7.

The sources indicated that operation of a frequency hopping radio in the area will show a distinct pattern on the screen. To test this theory, Full Disclosure hooked up a low power programable RF oscillator to switch frequencies 15 times per second in the 160mhz range and powering the unit on showed a distinct change (unique unsynchronized horizontal lines) in the display on a TV set tuned to that frequency.

Because of the narrow window the units use, after locating the frequency of the window, jamming the unit could be accomplished with a wide bandwidth transmitter. (1.6mhz isn't real wide, compared to a 5mhz video transmitter). If a little used portion of the VHF band was selected for operation by the frequency hopping radios, jamming could be accomplished with little interference to other transmissions.

There is some dispute over the effectiveness of using a spectrum analyzer to spot the use of frequency hopping radios. One technical source aptly pointed out "why worry about whether a spectrum analyzer works when a $100 TV set does?''

As with any new surveillance technology, there is a gap between its introduction and the availablity of countermeasures. Unlike spread spectrum radios that switch frequencies over the entire RF spectrum, frequency hopping radios operate in a very small window making detection, jamming, and direction finding a much simpler task.

The following are selected specifications for the PH-26 and MH-26 radios. Figures in ()'s are for the MH-26 when different.

Frequency Programming Range: 148-174MHz. Frequency stability: .0005%. Frequency spacing: 5, 6.25, 12.5, 15, 25 or 30KHz. Transmitter: Power Output: 1 or 5 watts (30 watts). Modulation: FM. Receiver: Sensitivity 12 db. Sinad: .25uv. Selectivity @30Khz: 70 db. Audio Output: 500mw (5 watts). Frequency Agil Mode: Number of channels: 4096. Frequency series: Pseudorandom (PR). Dwell time: 20 to 100 milliseconds. Synchronization: Continuous digital.

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