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Communications Wireless Networking Hardware

Shirky on Spectrum Ownership 184

scubacuda writes "When engineering assumptions change, shouldn't the laws that govern technology reflect those changing assumptions? Perhaps Clay Shirky puts it best: 'Things like shoes, cars, and houses are all property. Property is excludable -- it is easy to prevent others from using it -- and rival -- meaning that one person's use of it will interfere with another person's use of it. Spectrum has neither characteristic. Spectrum is purely descriptive -- a frequency is just a particular number of waves a second -- so no one can own a particular frequency of spectrum in the same way no one can own a particular color of light. Instead, when an organization 'owns' spectrum, what they really have is a contract guaranteeing Federal prosecution if someone else broadcasts on their frequency in their area. The regulatory costs of forcing spectrum to emulate property are enormous, but worthwhile so long as it leads to better use of spectrum than other methods can. That used to be true. No longer.'"
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Shirky on Spectrum Ownership

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  • by Swamii ( 594522 ) on Saturday August 14, 2004 @04:02PM (#9969702) Homepage
    Number of slashdotters that took the time to read that long headline on a lazy saturday afternoon: 0
  • spectrum (Score:3, Interesting)

    by aftk2 ( 556992 ) on Saturday August 14, 2004 @04:04PM (#9969722) Homepage Journal
    meaning that one person's use of it will interfere with another person's use of it.

    Doesn't this happen, though? People complain a lot about their microwaves and cordless phones screwing up their WIFI, for example. Or am I missing something?
    • Re:spectrum (Score:3, Informative)

      by mechsoph ( 716782 )
      Wifi and cordless phones actually run on an unregulated part of the spectrum. No FCC to keep you from using it. No FCC to stop other people from mucking it up.
      • The grandparent's example viz wifi and cordless phones may be wrong, but the point is valid -- your usage of part of spectrum interferes with my usage.

        The property model may be a better way to manage the resource. And Economist makes a good point for it.

      • Sorry, that's not true. The 2.4GHz spectrum is UNLICENSED, not UNREGULATED. The FCC has specifically granted the use of that spectrum to bodies that meet certain criteria, but beyond that no one person 'owns' it.
      • Re:spectrum (Score:4, Interesting)

        by dougmc ( 70836 ) <dougmc+slashdot@frenzied.us> on Saturday August 14, 2004 @05:02PM (#9970107) Homepage
        It's not licensed, but it is regulated.

        For example, when you use these bits of spectrum, you have serious power limits -- generally less than one watt. Which is probably the only reason they're useful at all, because if it wasn't for this, you'd have people with 1 kW WiFi amplifiers :)

        (Note that the ham bands do overlap with the 2.4 gHz region, so by going under the ham rules, a ham operator CAN use a lot more power in that section. But most hams are quite considerate about not interfering with other people, even when they don't legally have to be. For the record, I'm AD5RH, but I've not tried any 2.4 gHz ham stuff. Yet.)

        As for the microwave, there's a tiny bit of spectrum allocated for things like this, with few restrictions beyond 1) not emitting so much RF to be dangerous and 2) not emitting RF outside this band beyond a certain small amount. It's meant for `trash' signals, like that emitted by microwave ovens and some medical equipment. In theory, your microwave's signal should stay within the spectrum allocated to it, but the rules do allow it to radiate outside it a little bit, and that's probably what you see. Also, a strong signal (especially on a nearby frequency will `desense' a receiver), reducing it's sensitivity -- you might be seeing that too, even if the microwave is staying perfectly within it's little chunk of bandwidth.

        • "Note that the ham bands do overlap with the 2.4 gHz region, so by going under the ham rules, a ham operator CAN use a lot more power in that section. But most hams are quite considerate about not interfering with other people, even when they don't legally have to be. For the record, I'm AD5RH, but I've not tried any 2.4 gHz ham stuff. Yet."

          I've thought about this. Have you heard of any hams who've experimented with signal propagation on 2.4GHz using the full-strength (relatively) power we have available
          • Have you heard of any hams who've experimented with signal propagation on 2.4GHz using the full-strength (relatively) power we have available to us?

            Yes. The local ARES group has done some stuff with it, at least experimenting with setting up high power WiFi links between local hospitals. Compared to the 1200 bps packet that they usually do, it would be a whole lot faster. I don't know what kind of results they've gotten, however.

            However, many possible uses of high power WiFi are basically shot do

        • if it wasn't for this, you'd have people with 1 kW WiFi amplifiers

          A 1kW WiFi amplifier would probably put one in the running for a Darwin award. It would work on one's surroundings like a microwave oven, just not quite as fast ;-)

          73 DE KC2IDF.

          • A 1kW WiFi amplifier would probably put one in the running for a Darwin award. It would work on one's surroundings like a microwave oven, just not quite as fast ;-)

            Standing in front of microwave dishes to stay warm is nothing new (at least not up north where it actually gets cold.) It's not smart, but people do it.

            I've got a friend who tore open a microwave oven and removed all the shielding, so it's now a 700 watt microwave projector. I'm not sure what he does with it (he jokes about killing WiFi

      • That's not the point. It is a technical fact that equipment that exists today can suffer from interference (or "receiver confusion" for the politically correct).
  • by The Infamous Grimace ( 525297 ) <emailpsc@gmail.com> on Saturday August 14, 2004 @04:05PM (#9969728) Homepage

    'Things like shoes, cars, and houses are all property. Property is excludable -- it is easy to prevent others from using it -- and rival -- meaning that one person's use of it will interfere with another person's use of it. Spectrum has neither characteristic.

    Wrong, at least in part. If I broadcast on a spectrum being used by another, it can interfere. And by interfering, I can exclude others from using it.
    However, this may be purely semantics on my part, since one depends on the other.

    (tig)
    • by calidoscope ( 312571 ) on Saturday August 14, 2004 @04:48PM (#9970013)
      If I broadcast on a spectrum being used by another, it can interfere. And by interfering, I can exclude others from using it.

      That's the reason for regulation of the radio spectrum. (Score:5 insightful)

      A critical point that Shirky and countless others fail's to graps is that the reasons unlicensed spectrum works are:
      1) The frequency band in use does not support long distance propagation (i.e. ionspheric reflection) - hence interference is a local problem.
      2) The FCC and equivalent regulatory bodies limit the transmit power (and often effective radiated power).

      There is a simple method for minimizing interference - use directional antennas with the narrowest possible beamwidth (some of this can be done electronically) for both transmit and receive - and lowest power needed for communication. Unfortunately, most wi-fi users use omnidirectional antennas.

      I've also had w-a-y too much experience with interference with poorly designed consumer electronics and similar problems to think that the FCC and related organizations are obsolete. Sure, the state of the art equipment is less susceptible than previous generations of equipment, but I strongly doubt that the typical consumer will anything close to state of the art. To prove my point on the latter - look at all of the problems on the internet due to viruses, worms and the ilk that propagate through Winoze boxes...

      • First, I'm not sure the FCC is obsolete, but their regulations should loosen up. They should always be loose enough that consumer level techn that's more than a certain amount below average will have problems. Otherwise, there will be no incentive for it to get better. Having the spectrum be more free is in all of our best interests in the long run.

        Also, this reply [slashdot.org] addresses some of your other points.

  • No More ugly colors (Score:5, Informative)

    by ASayre8 ( 612723 ) on Saturday August 14, 2004 @04:12PM (#9969775) Homepage
    http://slashdot.org/article.pl?sid=04/08/14/203723 7 [slashdot.org]

    Same story, better colors.
    • sad, sad times (Score:2, Insightful)

      by Anonymous Coward
      when the awful green the better choice...
    • Who says you can't own a color? I claim ownership of the color on this page. Intellectual Property Beige. I will be sending Slashdot a C&D just as soon as the USPTO rubber-stamps my patent ("Method of displaying a news story in a sickening shade of brownish"). Everyone reading this story is also guilty of infringement, by god.
  • The Orange is Mine (Score:4, Interesting)

    by trifakir ( 792534 ) on Saturday August 14, 2004 @04:13PM (#9969779)
    ...no one can own a particular frequency of spectrum in the same way no one can own a particular color of light...

    Wrong. At least some big corporations would disagree with this statement. As a matter of fact we (figuratively) pay taxes to educate business people who dispute who actually owns a color [bbc.co.uk]...

    • believe it or not, I actually RTFA that you linked to...

      the issue under discussion there isnt really can one own a color, the article is misleading in that respect.

      the issue in that case is that the company Orange is claiming that "its rival having a similar logo to its own will cause confusion among its customers and damage its business.". This is a very different claim from saying it owns the color orange. The issue that easyMobile and Orange are fighting over is no different from any other case involvi
      • Well, if the symbols are close enough because they use the same color, then anyone who produces an orange logo is going to be prosecuted, right? If only the happy trademark owner can use the color, isn't that equivalent to a color monopoly?

        Your formulation is correct but, IMO, a lousy interpretation of the article allows someone to say that the companies are fighting for the right to own the color. The author of the article did the same "mistake" when choosing a title for his article...

  • Ownership of Light (Score:5, Informative)

    by FFFish ( 7567 ) on Saturday August 14, 2004 @04:17PM (#9969808) Homepage
    no one can own a particular frequency of spectrum in the same way no one can own a particular color of light

    You can "own" colors, no problem.

    See this short article [colormatters.com] explaining how the courts have favoured/denied color trademarking.

    I believe Coke owns their colour of red, IBM blue, KPN (Dutch Telco) green, etc.

    As long as the color is not indicative of "function" (ie. isn't associated with a particular "message", ie. blue is cold, red is hot, green is environmental, etc), you have a shot at getting it trademarked.

    When trademarked, competitors in your marketspace/mindshare can't use that same colour.

    Which means you effectively "own" the wavelength of light that is that colour!
    • This raises the question of the range of what clolors thei own. Can I start selling my own soda with a logo that is a bit darker than the one from Coke? How about purple? And technically, doesn't wight light include red wavelenghts as well? My point: Where do you draw the line?
      • by Chmarr ( 18662 )
        FFFish overcomplicated the matter by using the word 'wavelengths'. Trademarking colours has nothing to do with wavelengths of light.

        Remember... there are an infinite number of ways of representing yellow. One way is to have a pure yellow light source. The other way is to have one red light source, one green, that excite the red and green receptors in our eyes with the same ratio that the yellow light source does.

        Thus, a COLOUR is trademarked, not an arrangement of wavelengths of light.

        (Yes, this means th
  • by div_2n ( 525075 ) on Saturday August 14, 2004 @04:22PM (#9969830)
    When many radios in close proximity broadcast on the same frequency, the resulting noise interferes with the operation of the radios especially in data and voice applications. All the smarts you put behind a device can't solve that. It is a matter of physics and physics will always get the final say.

    Now there does exist quite a bit of licensed spectrum in the lower bands that isn't being used everywhere, but it is in some places. Exactly how to utilize those in some places and not others in an open market is a tough question.
  • No longer? (Score:2, Insightful)

    by fenodyree ( 802102 )
    Spectrum is treated as property and defended by law for the same reason your house is, without that law a much larger person/gov't/company would take over your home or squat on your frequency. Without local cooperation such as the FCC, cell phone companies would try to use the same frequency or jam the other guys, public bands for FRS radios would be occupied by other traffic. Local organizations, ie, FCC allow for global cooperation. Have you ever tried to use an FRS radio in Africa where spectrum rights a
  • Property (Score:4, Interesting)

    by Jan-Pascal ( 21029 ) on Saturday August 14, 2004 @04:35PM (#9969929) Homepage
    This discussion about spectrum as property, and the whole lot about the several kinds of intellectual property, really reminds me of what I just read in Paul Johnson's "History of the American People" about the debate in the early 19th century about "natural property" (shoes, rice, land, houses) vs "artificial property" (money, stock, loans, corporations) and whether the US Constitution should offer the same kind of protection to this "artificial" property as it does for natural property. In hindsight, it is obvious that these should be protected just as physical property, to foster economic activity and capitalism.

    As many /. readers, I'm inclined to emphasize the differences between old-style property (to us) and copyright, patents, and trademark just the way many people around 1800 emphasized the differences between natural and artificial property. but it makes me wonder, are we the dinosaurs here, instead of the RIAA, FCC et al. ?

    PS - just for the record, I'm not American, I'm Dutch.
    • Re:Property (Score:5, Interesting)

      by Paul Fernhout ( 109597 ) on Saturday August 14, 2004 @07:36PM (#9971043) Homepage
      In hindsight, it is obvious that these [money, stock, loans, corporations] should be protected just as physical property, to foster economic activity and capitalism.

      Why is that "obvious"? Capitalism as an ideology has been widely discredited worldwide (although the media doesn't reflect that) through its end results in practice (colonialism and its aftermath, slavery and its aftermath, increasing rich/poor divide, pollution, inappropriate technological solutions, human suffering, mindless work) as opposed to claims in theory, see for example: Millionaire Wannabes [conceptualguerilla.com]. If Capitalism worked, we'd all be using Smalltalk or Lisp (developed thirty years ago) instead of Java and XML.

      Money (in terms of Federal Reserve Notes) and loans (in terms of usury with interest and a fractional reserve banking system) are also equally problematical. In fact, the American Revolution was fought mainly over the right for the colonies to print their own paper money (a fact long forgotten or suppressed). See: The World's Alternative Trading Network [xat.org] for some more details. Or google on "Fractional Reserve". Alan Greenspan isn't busy setting interest rates to help everyone out -- he is trying to be an optimum parasite to get the most blood out of everyone he can by balancing drawing blood (interest) against how big the economy is.

      Corporations? They are the biggest marauders around in many ways. Why should they have more than human rights in the USA? Effectively their charters are no longer revoked and if they commit a crime they just get fined and maybe some employees (disposable cells, like your skin cells) go to prison, while nothing about the corporation really changes. Why should investors have limited liability? If people support a bad cause, shouldn't they too go to jail? It is happening now with people who supposedly support "terrorism", so why should corporate investors get a free pass when they support pollution, habitat destruction, sweatshop practices, employee boredom, and so on?

      In fact, the whole notion of "Work" underlying all that stuff is itself bogus. For alternatives to capitalism, consider: Buddhist Economics [schumachersociety.org] or: The End of Work [deoxy.org]. From that last: "Curiously --- maybe not --- all the old ideologies are conservative because they believe in work. Some of them, like Marxism and most brands of anarchism, believe in work all the more fiercely because they believe in so little else. Liberals say we should end employment discrimination. I say we should end employment. Conservatives support right-to-work laws. Following Karl Marx's wayward son-in-law Paul Lafargue I support the right to be lazy. Leftists favor full employment. Like the surrealists--except that I'm not kidding--I favor full unemployment. Trotskyists agitate for permanent revolution. I agitate for permanent revelry. But if all the ideologues (as they do) advocate work--and not only because they plan to make other people do theirs--they are strangely reluctant to say so. They will carry on endlessly about wages, hours, working conditions, exploitation, productivity, profitability. They'll gladly talk about anything but work itself. These experts who offer to do our thinking for us rarely share their conclusions about work, for all its saliency in the lives of all of us. Among themselves they quibble over the details. Unions and management agree that we ought to sell the time of our lives in exchange for survival, although they haggle over the price. Marxists think we should be bossed by bureaucrats. Libertarians think we should be bossed by businessmen. Feminists don't care which form bossing takes so long as the bosses are women. Clearly these ideology-mongers have serious differences over how to divvy up the spoils of power. Just as clearly, none of them have any objection to power as such and

      • Re:Property (Score:2, Interesting)

        by tylernt ( 581794 )
        (Incidentally, that was one of the most interesting posts I've read on Slashdot.)

        Part of the problem is that thanks to the Cold War, most Americas think that capitalism is the One True Way... Our Way Or The Highway... We Are Right So Everyone Else Is Wrong. In reality, capitalism is most certainly NOT the most efficient economical model! And, anybody who says so (like I just did) tends to be labeled "unamerican" or "communist". I'm NOT advocating Communism, I think that sucks too. But I think that our curr
      • If Capitalism worked, we'd all be using Smalltalk or Lisp (developed thirty years ago) instead of Java and XML.
        So your favourite programming language isn't the one that everyone uses, and that means capitalism doesn't work? Give me a break.
        • If you look at the history of the adoption of programming languages you'll see how much business decisions and advertising has to do with what the masses of programmers end up using (especially in the case of Java and XML).
      • Hmm... Having read most of those links (and heard suspiciously similar ranting elsewhere), I'm gonna call this guy a troll.

        In case he's not, well, he's a idiot. Here's a good one:

        "Why should investors have limited liability? If people support a bad cause, shouldn't they too go to jail? It is happening now with people who supposedly support "terrorism", so why should corporate investors get a free pass when they support pollution, habitat destruction, sweatshop practices, employee boredom, and so on?"

        The
        • No, I'm not trolling.

          Your Slashdot handle of "MoralHazard" suggests this way to look at it: limited liability for investors, no flow through bankruptcy for investors, and no criminal liability for investors, all create a "moral hazard" allowing investors to do less than proper dilligence and provide less than complete oversight for their investments. If equity investors' personal butts were on the line for each investment, one could hope investors would ensure corporate behavior met higher moral standards

          • Ok, Ok. Maybe you're not trolling--would a troll ever put this much effort into it? But you missed the point that I made in my first response. Let me restate it very clearly:

            "LIMITED CORPORATE LIABILITY" HAS NO RELATION TO CRIMINAL OR CIVIL LIABILITY FOR A CORPORATION'S BEHAVIOR!!! It is an expression that ONLY relates bankruptcy and responsibility for debts.

            Dude, this isn't personal--I have a very specific beef with you because you keep ranting on about how vile corporations are, but you don't seem t
  • Deja vu... (Score:2, Insightful)

    by raytracer ( 51035 )
    Interestingly enough, if you replace the words "spectrum" in this argument with "intellectual property", you get another valid argument. Ideas and expressions are not exclusive: the only reason that they are considered property is because the law grants them some of the same attributes as real property. These attributes however are entirely a function of legal construction, not of objective reality. The conclusion that spectrum could be better managed if access to it were granted more freely applies in
    • All property is a legal construction. The natural state of all property is that is belongs to the guy with the biggest stick and the strongest arms.
      • All property is a legal construction. The natural state of all property is that is belongs to the guy with the biggest stick and the strongest arms.

        Well, that rather proves the point. If I have a fish, I have it. If I give it to you, I don't have it anymore. If you steal it, I don't have it anymore. Hence, there is a very natural idea to physical property.

        Contrast this with intellectual property. If I give it to you, I still have it. You can give it to others and I still have it. The only

  • So what's the point? New technologies (actually spread-spectrum has been around since WWII, and Hedy Lamarr of all people has her name on the patent) make 2.4GHz useful to the average Joe. That's great. But not all services (and therefore not all chunks of spectrum) can follow those rules quite yet. So what are we supposed to do? There's a fundamental tradeoff: let people broadcast more power, then they get more bandwidth, but they crowd out other users. It works exactly the same for spread-spectrum a
  • Smoked what now? (Score:3, Insightful)

    by nsample ( 261457 ) <nsample.stanford@edu> on Saturday August 14, 2004 @04:57PM (#9970062) Homepage
    Property is excludable -- it is easy to prevent others from using it -- and rival -- meaning that one person's use of it will interfere with another person's use of it. Spectrum has neither characteristic.

    I'm a big fan of Clay, but what precisely was he smokign when he wrote this? Spectrum is both excludable and rival. Exclusion, as applied to spectrum, can be equivocated with "jamming." Rival is known simply as "interference."

    Perhaps his argument is that over range both characteristics (excludability and rivalry) of spectrum diminish, unlike with physical property. But spectrum is absolutely property, by both definitions.

    Should spectrum be free? Don't know. Don't care. But let's not jumpstart the debate by twisting core characteristics of property.
    • Dozens of CDMA phones can use the same frequency in the same cell at the same time. "Interference" is more and more getting to be a function of the technology being used and not an intrinsic property of using radio to communicate.

      Use transmitter power control (mentioned in the article), smart processing in the receiver (mentioned in the article), and adaptive beamforming antenna systems (not mentioned in the article), and you get lots of reuse.
    • I always like pushing these things into the visual EM spectrum because that's where both the sending and receiving technologies are much more sophisticated than any artifacts we've created.

      So, the fact that I can create something that flashes, say, blue in a random pattern that makes it nearly impossible to tell how blue something really is means that blue is excludable? Or does this mean that I would be hunted down and forced to turn off my blue flashing device in most situations outside of nightclubs?

      I

  • by Landaras ( 159892 ) <neil&wehneman,com> on Saturday August 14, 2004 @04:58PM (#9970066) Homepage
    I posted this in the last spectrum topic, but it's perhaps even more applicable to this discussion.

    - Neil Wehneman

    *****

    Lawrence Lessig [lessig.org] spends a not insignificant amount of time on the concept of spectrum in 2001's The Future of Ideas.

    Quoting him from page 233 (emphasis in original)...

    "Here again, an idea about property is doing all the work - but this time the idea is at its most attenuated. We don't yet have a full property regime for allocating and controlling spectrum. Yet we are still being driven to embrace this single view. We are racing to deny the opportunity for balance, pushed (as we always are) by those who have the least to gain from a world of balance. The possibility of a commons at the physical layer is ignored; even the chance to experiment with the commons is denied. Instead, policy makers on the Right and the Left race to embrace a system of perfect control.

    So strong is this idea of property, so unbalanced is our understanding of its tradition, that we embrace it fully, without limitation, even when it doesn't yet exist, and even when the asset being assigned a property right is not - like the wires of AT&T's cable or the creative genius behind Disney's Mickey Mouse - something anyone has created. We are racing to assign property rights in the air, because we can't imagine that balance could do better."

    Buy it new [the-future-of-ideas.com], buy it used [ebay.com], or get it from the library. But if you have interest in spectrum you should definitely read this book.
  • Here's Why (Score:2, Insightful)

    by vettemph ( 540399 )
    If the Gov. allowed us to share an area of the spectrum with our friends and neighbors say for up to ten miles is all directions, using Wireless links, (Think old CB technology but no interference now that we know how to Multiplex on Spread spectrum); this could be linked in a way simular to the internet. The main exception to the simularity is that you would not be dependent on your local copper wire monopoly. This would allow you to communicate without using one of the big controllers of communication. A
  • any color you like (Score:4, Interesting)

    by Doc Ruby ( 173196 ) on Saturday August 14, 2004 @05:12PM (#9970177) Homepage Journal
    Shirky is unusually accurate in this screed about technology undermining the fundamental mission of the FCC: a central registry of spectral band users to prevent interference in radiated signals. The FCC was established to create, sell, and protect "necessary" monopolies on spectral bands handed to favored broadcasting corporations. But Clay's imprecise, as he misses the biggest threat to the spectrum registrar: phased array [google.com] antenna technology.

    Traditional antennae are "1 dimensional" in their tuned band: a signal is either present or not (to a degree, in an amplitude of power) at any given moment. So the world looks either like a wash of, say, "green", or is completely dark - no edges or other features, which appear only in dimensions. A phased array is like a video sensor area- as signals of a tuned color arrive from a single origin in space, at slightly different times to slightly different points in the array, the same color can be sensed as emanating from different "spots". Human eyes use lenses to assign different arrival times/points to different retinal detector cells, while phased array antennae can use use the actual timing differences.

    These new arrays allow a single color to be used by different transmitters, separated by the exclusive positions we're familiar withj in our daily lives: each thing is in only one place at a time. So phased array antennae are even more sophisticated than spread spectrum codecs, or the FCC: using the properties of space and light, there's no need to "register" or negotiate colors. Each color can be used by anyone, so long as their position is exclusive of everyone else. As that condition comes free with physical existence, we're freed from the limits of one-dimensional, low-fidelity sensors, and archaic monopoly administrators like the FCC, as well.
    • Please educate me how phased arrays are fundamentally different from other directional antennas, such as parabolic dishes??? Which have coexisted with the FCC for quite some time...

      My short answer: in no way. And the introduction of phased arrays does give benefits, but in no way reduce the need for spectrum planning.
      • As I detailed in my post, phased arrays can differentiate between different signals in the same frequency, so long as the transmitters are physically separated. Parabolic dishes allow concentration of weak signals, but don't add an extra dimension to their detection. That makes all the difference in sharing the spectrum without planning, just as two people can wear identical, but unique, green T-shirts in a room without planning, and without confusion.
        • And there is still no difference. Two parabolic dish antennas on the same mast can differentiate between two physically separated sources on the same frequency. No fundamental difference, as I said.

          The benefit from the phased arrays are mainly that they are more compact than a set of dish antennas, and that they are electronically steerable, that is, you can choose the direction electronically instead of mechanically rotating an antenna.
          • by Doc Ruby ( 173196 ) on Saturday August 14, 2004 @08:28PM (#9971307) Homepage Journal
            You asked "how phased arrays are fundamentally different from other directional antennas, such as parabolic dishes"? And I answered. Now, a phased array of parabolic dishes is obviously no different from a phased array, except you're specifying the unit antenna technology. A so-called "phased array" need not be made of parabolic units. And the dedicated "phased array" antennae that I'm talking about have specific features that optimize them for use in spatial differentiation of similar signals. Their compaction (eg. LSI) and integrated amplifiers, as well as other inline analog and digital circuits for filtering and differentiation within the array itself, are exactly the point.

            It's like asking "what's the difference between a metal rod and a VHF mast"? For all but trolling purposes, the difference is that a VHF mast is a special metal rod, more practically useable for tuning VHF signals than any old metal rod. It's useful for DIY to understand that this gear isn't magic, and basically pretty simple. It's also useful for fellow DIY'ers to cooperate for better results, rather than picking semantic fights.
            • "Now, a phased array of parabolic dishes is obviously no different from a phased array, except you're specifying the unit antenna technology."

              What I suggested was not a phased array of parabolic dishes, but one parabolic dish, on a servo-controlled gimbal. This has the same properties of being able to follow a certain transmitter in spatial space, without using any phased-array technology.

              Phased arrays is in engineering language a specific technology where the signals from two or more separate antennas
              • Naturally, a phased array is any signal receiver composed of multiple parts, calibrated to measure the differences in the received single signal. It can be used to resample a single signal, improving its S:N ratio, or to determine the spatial location of a transmitter. Moving eg. a parabolic dish allows the same resampling. But fixed, passive arrays of antennae can determine the locations of multiple arbitrarily positioned transmitters at least well enough to deconvolve their separate encode signals from on
                • I know how phased arrays work. I teach about them. We build them. We have them in the lab. And your desctriptin would not pass an exam at ours. My (too short ) definition would be: the summation, with variable phase and amplitude, of the signals from two or more different antennas in order to synthesize a new antenna pattern.

                  Phased arrays are not fundamnetally different from other directional antennas, such as parabolic dishes. And I will uphold that position until you show me how they are different.

                  F
          • The benefit from the phased arrays are mainly that they are more compact than a set of dish antennas, and that they are electronically steerable, that is, you can choose the direction electronically instead of mechanically rotating an antenna.

            There is one other benfit, and that may be what Doc Ruby was trying to get across, that the phased array is capable of multiple simulatneous "beams".

            Phased array antennas have been around for a long time - AM broadcasters have been using them since the 30's (if not

    • I've followed this thread, and your followup explanation, and I'm still trying to figure out what you're talking about here. I understand phased arrays, but your explanation doesn't make much sense.

      I'm going to go out on a limb here and try and interprete it. If I understand you right, you're talking about using a phased array to differentiate amungst various signals all on the same freq, and signal processing equipment to pull a specific signal out of the noise.

      I think that's what you're trying to get
      • No, as I mentioned in my original post, phased arrays can add a spatial dimension (or two, or three) to the detection of transmitted signals, and therefore to the detection of transmitters. Another example is stereoscopic vision - using parallax among multiple detectors allows resolving distinct simultaneous transmitters on the same frequency from each other, by their spatial separation. So you can distinguish between the red stoplight up ahead, and the red brake lights dead ahead, while you're driving. Or
        • Yes, I caught the reference in your original post, but your example here of stereoscopic vision isn't an example of phased array, but of paralax, as you explain. They are two separate things - though you could certainly combine multiple arrays to give you the same effect.

          While I agree that a sophisticated phased array setup for a base station would help with the current issues, it's not an all-in-wonder solution. While it would be great for differentiating between laptops in opposite corners of a room, t
  • interference isn't regarded as an exclusion? If I am using a band over a certain area, that means no one else can use that band unless they wish to waste power or prevent me from using that band too.

    I'd also like to see how eliminating the FCC would solve anything. Even if TV bands and specifications were decided by a consortium, they'd also have to be arbitrary on who can transmit where. If anyone can decide their frequency, then it is who is willing to pump out the most watts wins, which is expensive
    • The problem with this article is that while it's got the right idea, it's using the wrong facts. Wifi is really a bad example; it just frequency hops plus uses collision detection. Sure, you can run more than one AP in the same area on the same frequency, but it just makes them all run slower and slower since they're all competing for the same slice of bandwidth.

      There are new technologies out there that will let a radio listen on a frequency and selectively mask out the stuff it doesn't want to hear. It's

  • Spectrum is intangible the way the physical space is intangible. They exist, but they are not easily quantifiable. Yet we all depend on their availabiltiy in one way or another. Waves passing from one point to another can have all manner of implications: who has access to them, are they interfering with anyone else's use (or enjoyment), etc. So maybe, when we talk about things like spectrum ownership, it's not ownership per se, but a limited right to exclusive utilization.

    I don't have a problem with regula
  • by PapayaSF ( 721268 ) on Saturday August 14, 2004 @05:46PM (#9970365) Journal
    The regulatory costs of forcing spectrum to emulate property are enormous

    I'm not a fan of regulation, and the article makes good points, and it's true that the budget of the FCC is about $280 million/year. [broadcastengineering.com] However, compared to the total annual income of the radio, television, and other industries that use spectrum, is the FCC's budget really that large a percentage?
    • Situations come up all the time where using some specific frequency makes sense for some application, but using the frequency is illegal. Every time this happens, it costs money to work around. It's hard to calculate (or even blindly guess) what the costs of this sort of thing might be.
  • by mo ( 2873 ) on Saturday August 14, 2004 @07:18PM (#9970943)
    When getting into philosophical discussions on spectrum economics, some people like to point at 2.4ghz as evidence that the FCC should step off and let anarchy rule.

    However keep in mind that just because 2.4ghz is unlicensed, it is not unrestricted. If I went on the balcony of my downtown condo and put a 500dBm wifi AP with a 10dbi omni antenna, it would wreak havoc (and get me in trouble with the fcc).

    For another example, imagine unlicensed wireless internet over AM radio spectrum. Yeah you could surf the web from 10 miles away from your house, but your signal would be destroyed from interference from everybody else's.

    Now, I'm all for opening up as much spectrum as makes sense provided that the wavelenth is short enough to not blow through buildings etc, and provided the FCC restricts transmission strengths enough to not create anarchy.
  • 'Things like shoes, cars, and houses are all property. Property is excludable -- it is easy to prevent others from using it -- and rival -- meaning that one person's use of it will interfere with another person's use of it. Spectrum has neither characteristic.'
    Hey, neither does code...why is it "intuitive" that nobody should have exclusive ownership of spectrum bands and but not logical algorithms?

    I don't support licensing of colors for the same reason.
  • So I have a long post about putting more information in radio waves but I realized there is a simpler way to put my question.

    Why don't we multiplex radio broadcasts the way we can multiplex fiber optics.

    As I understand fiber optics multiplexing the idea is to split the light by the underlying frequency of the light. In a really simple example we might split the red and green light. Now each of these red and green channels gives us a function I(t) or intensity as a function of time which can be both freq
    • Why don't we multiplex radio broadcasts the way we can multiplex fiber optics.

      We do. Ever hear of channels? Wavelength division multiplexing is nothing more than channelization (as in radio/TV) done at optical frequencies. Instead of channels being 10 kHz wide (AM), 200 kHz (FM) or 6 MHz (TV), the channels are ten's to hundred's of GHz wide.

      Go find a copy of the ARRL Handbook and read up the chapter on modulation - you obviously aren't comprehending the basics of modulation.

      • So anyway I may be describing fiber optic communications incorrectly but I know what I'm talking about in terms of modulation. I was under the impression that in fiber optics each frequency of light was itself still modulated at many differnt frequencies. Perhaps I am wrong about this but I would appreciate an answer.

        The question is basically the following. Why can't we take a laser that produces pure green light and then modulate it's intensity as a function of time. That is why must the frequency of
        • First off, you should be asking EE majors, not Physics majors. FWIW, I got a BSEE, have an extra class amateur radio license and know several people with degrees in physics with emphasis on optics.

          Second, remember the trig identity cos(at)cos(bt) = 1/2(cos((a+b)t) + cos((a-b)t).

          Thirdly, remember Heisenberg. If you know the photon's frequency exactly, then you have no knowledge of the position (which implies no knowledge of time of arrival). Modulation puts constraints on time, hence position, which then p

  • There are two ways to build $10 billion in network infrastructure. The first is to get ten large firms to pony up a billion, and the second is to get 10 million users to spend a hundred dollars each.

    10 million users * one hundred dollars = ONE billion.

    He was making a valid point but he botched the math.

    -
  • Having private property rights and spectrum auctions are required to maximize efficiency, that is, whoever has the most value for any spectrum will own it. Telecom, TV, Radio, Government, Ham, and other users can all bid on the spectrum that they value most. Public spectrum is not necessary, any entity could purchase spectrum, and charge per device for using their 'open' spectrum, rather than charging for service like cellular. I don't think it would cost that much per 2.4GHz device to make up the cost of
  • "Shirky on Spectrum Ownership"

    When I read that, my first thought was thet I never owned a Spectrum, but I do have to Sinclair QLs in the attic.

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