On January 31 Sail World reported that 'alarm and anger were growing in the marine industry as LightSquared threatened the USA's GPS system' (See Sail-World http://www.sail-world.com/Cruising/international/Alarm-and-anger-grow-as-LightSquared-threatens-USA-GPS-system/93418!story). In a previous http://www.sail-world.com/index_d.cfm?nid=86739!story Garmin was quoted as saying 'If GPS were compromised it would affect every GPS-dependent piece of equipment.'
Spectrum policy - necessary for all nations
Now keen sailor, eminent Doctor of Engineering and Spectrum policy expert, Michael J. Marcus, has weighed into the discussion with some salient facts:
As a long time sail boat owner (Jeanneau 32 Attalia based near Annapolis) and a radio spectrum policy wonk (Wi-Fi and Bluetooth began from rules I http://www.marcus-spectrum.com/page4/SSHist.html!initiated at FCC in the early 1980s), I have been troubled by statement such as these made in Sail-World's article on the subject.
However, these pale compared to statements made by Garmin at the beginning of the article or by BoatUS, the major boating membership association in the US to which I belong.
First, what is the origin of this controversy? Cellphones and broadband are becoming key parts of our societies and economies. Today’s systems are rapidly running out of capacity. While the cellular industry http://www.marcus-spectrum.com/Blog/files/MobileFuture.html!exaggerates additional spectrum as the only possible cure for this capacity problem, it certainly is a key tool. FCC and its counterparts in other countries are all trying to find more radio spectrum for such services.
About 20 years ago it appeared that 'mobile satellite service' or MSS, e.g. Inmarsat and Iridium, would be a key telecom service everywhere the world and that global spectrum had to be reserved for it. Advances in both terrestrial and satellite communications have proved this to be wrong in a key aspect: MSS spectrum is now very lightly used in populated areas and new technology allows the same spectrum to be used for MSS in rural areas and over oceans while used for cellular-like services in populated areas – effective 'recycling' otherwise unused spectrum in areas where it is sorely needed!
One of the MSS bands involved is just below the GPS L1 band used by commercial GPS units. In the US, FCC has authorized use of this band for terrestrial cellular services (FCC jargon for this is Auxiliary Terrestrial Component or ATC) since 2003 and the company now called LightSquared has been authorized since 2004.
Now there is some dispute about details of the early FCC decisions and how many base stations were allowed under them, but it is clear that base stations were allowed next to the GPS band since 2003 and that the civil GPS supplier community paid little attention to the fact that GPS would be having a new neighbor with much stronger signals in some places than the original MSS signals.
Real receivers of all types do not have infinite ability to reject strong adjacent band signals. Such rejection requires careful design and the amount of rejection possible increases with time as filter technology improves. As long as the MSS band had no cellular base stations in it, little rejection was needed and GPS manufacturers did not have to incorporate the latest filter improvements which incurs both design and retooling costs.
Thus it appears that the GPS industry has not pressed the filter manufacturers for the latest technology as the cellular systems in nearby bands have. As a result many GPS receivers have a lingering vulnerability to strong adjacent band signals that results from GPS manufacturers ignoring policy changes made in the US almost a decade ago!
In June 2011 after an initial rounding of GPS receiver testing, LightSquared http://www.marcus-spectrum.com/Blog/files/GPS%20LS%20Round2.html!changed_its_plans to move farther away from the GPS L1 signal to 1526-1536 MHz which is 23 MHz (almost 4 US TV channels or almost 3 European TV channels) away from the lower edge of the GPS L1 band at 1559 MHz. (See Chart left)
Rather than admit any responsibility for this and focus on a reasonable transition scheme, the GPS industry has chosen to make what a friend who is a GPS pioneer has described as a Jonestown-style 'suicide pact'. (The Garmin quote at the start of this article is an indication of this approach.) The industry has enlisted lawyers and PR firms and a broad variety of 'fellow travellers', such as BoatUS, to say the 'sky is falling'.
It has even convinced the Air Force general who is responsible for the GPS satellites to testify that the LightSquared system would impact military GPS systems that were supposed to be jam resistant. Without getting too technical, if such a 100 watts transmitter 23 MHz away from the edge of the GPS band could impact military GPS receivers, imagine what a bad guy could do with a similar or stronger jammer transmitter inside the GPS band? And it is well known that simulated GPS signals are even more effective jammers, watt for watt, than noise or cellular-like signals.
Military sources have told me that the general’s testimony on military equipment susceptibility actually dealt with obsolescent equipment from the early days of GPS that is still in inventory in small quantities and vulnerable to any undesired signal.
But real boaters know something that lawyers and PR firms apparently don’t: boats float on water.
The LightSquared/GPS controversy, especially after June 2011 move farther away from the GPS band, is an issue with GPS receivers that both have inadequate adjacent band rejection and are within a few hundred meters of a possible LightSquared base station – not a typical boating scenario but never mentioned in http://www.boatus.com/pressroom/release.asp?id=702!BoatUS_material on the subject.
In trying to use the public spectrum resource for the maximum overall public good national regulators like FCC regularly have to repurpose bands as technology and society’s needs change. Such repurposing sometimes impacts both incumbent users of the band, not so in this particular case, or users of neighboring bands.
For example, several times in the last few decades TV spectrum in many countries has been repurposed for mobile communications. The usual solution is a transition scheme that balances the costs and benefits of the change and allows affected incumbents users time to adapt to the new change.
The GPS industry and its fellow travelers appear to have no interest in such a transition that might make them admit to design errors in the past decade. Such a viewpoint could result in spectrum gridlock that prevents future repurposing of all bands. This issue is further complicated because the issues lies squarely on the fault line between the jurisdiction of FCC and a separate coequal agency, http://www.ntia.doc.gov/!NTIA, that regulates federal government spectrum use.
In a reasonable transition scheme the base stations could be designed to prevent high signals in all navigable waters during a period in which GPS receivers improve – but the GPS manufacturers and BoatUS don’t want to discuss transitions and the overall public interest in spectrum use. They have dug themselves into policy hole and demand only total victory!
How did BoatUS reach this position and continue to maintain it after the LightSquared proposed to move further away from GPS? Multiple inquiries to BoatUS from this member have received no clear response other than vaguely siding with Coast Guards and industry. Did BoatUS use knowledgeable members in reaching and reviewing its decision? Like the boy who cried wolf, expressing unfounded fears to government regulators harms the credibility of the boating community in other regulatory decisions that could be more important to boaters.
Sail World readers outside the US need not be concerned about this issue as it is purely a domestic US issue and individual countries have the discretion to make such decisions within their own territory under the terms of Article 4.4 of the ITU Radio Regulations.
However, all GPS users might want to press GPS manufacturers about whether they are using interference rejection technology comparable to what cell phones in nearby bands use.
GPS units are now sold in multimillion unit quantities so they can afford contemporary technology filters that usually cost under $1 in such production quantities. (Note these are marginal costs for new units, retrofitting existing units is usually much more expensive.)
But decide for yourself what the issues are in this controversy and how we got to where we are. Here is information from the opposing sides:
...and for masochists & policy wonks:
All FCC filings received:
http://licensing.fcc.gov/cgi-bin/ws.exe/prod/ib/forms/reports/related_filing.hts?f_key=-216679&f_number=SATMOD2010111800239!Early_filings (Before 06/28/2011)
http://fjallfoss.fcc.gov/ecfs/proceeding/view?name=11-109!Later_filings (After 06/28/2011)
About Michael J. Marcus:
Michael Marcus is both a sailor and a technical spectrum policy specialist. He has a doctorate in electrical engineering from MIT, worked almost 25 years at FCC on spectrum policy issues, and was elected a Fellow of the Institute of Electrical and Electronics Engineers for his leadership in spectrum policy. For more information about Dr Marcus, including his complete CV, please go to http://www.marcus-spectrum.com/qualifications.html!Marcus_Spectrum_Solutions_LLC
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